Tag Archives: worm worm gear

China OEM 3W to 750W Micro AC Worm Gear Motor with Speed Controller for Conveyor manufacturer

Product Description

3W to 750W Micro AC worm Gear Motor with Speed Controller for Conveyor

Product Description

1) Dimensions: 70*70mm

2) Power: 6-370W
3) Voltage: 100-380V
4) Torque:0.02~43N.m
5) Reduction ratio: 3~500

Detailed Photos

 

 

Product Parameters

 

Motor type Induction / Brake / Speed adjusting / Reversible / Torque…Motor
Frame size 60 mm / 70mm / 80mm / 90mm / 104mm / 110mm / 130mm…
Running speed Motor 1200-3000 rpm, Gear Ratio 1/3 ~ 1/1800
Output power 6W / 10W / 15W / 25W / 40W / 60W / 90W / 120 W /140W / 2000W / 370W ……3700W
Output shaft 8mm ~ 50mm; round shaft, D-cut shaft, key-way shaft, hollow shaft…
Voltage type Single-Phase 110V/220V; 50Hz/60Hz
Three Phase 220V/380V; 50Hz/60Hz
Accessories Brake / Connector / Terminal box / Capacitor / Controller…
 
Gearbox type Parallel shaft
Right angle hollow worm shaft Right angle bevel hollow shaft Flat type hollow shaft
Right angle CHINAMFG worm shaft Right angle bevel CHINAMFG shaft Flat type CHINAMFG shaft
Planetary center shaft

Our Advantages

The induction reversible deceleration motor has several advantages over other types of motors. Firstly, it has a high-efficiency level, consistent with the modern motor’s design philosophy. This high level of efficiency ensures minimal loss of energy and reduces overall energy costs. Additionally, this motor type has a high starting torque, making it ideal for applications such as conveyors, hoists, and cranes which require high starting torques.

Another benefit of this motor type is its ability to quickly and precisely adjust its speed. The induction reversible deceleration motor can reverse its direction of rotation in a matter of seconds, providing an exceptional degree of control and flexibility in various applications. Besides, it has a simpler structure compared to other types of motors, thus enabling easier maintenance and reducing downtime.

Finally, this motor type also offers environmental benefits. As it operates with minimum noise and vibration, it is an eco-friendly solution, which makes it an excellent option for use in residential and urban areas. Furthermore, its energy efficiency also makes it a more sustainable alternative to other motor types.

Company Profile

FAQ

Q: Can you make the gear motor with customization?

A: Yes, we can customize per your request, like power, voltage, speed, shaft size, wires, connectors, capacitors, terminal box, IP grade, etc.

Q: Do you provide samples?
A: Yes. The sample is available for testing.

Q: What is your MOQ?
A: It is 10pcs for the beginning of our business.

Q: What’s your lead time?
A: Standard products need 5-30 days, a bit longer for customized products.

Q: Do you provide technology support?
A: Yes. Our company has a design and development team, we can provide technology support if you
need.

Q: How to ship to us?
A: It is available by air, by sea, or by train.

Q: How to pay the money?
A: T/T and L/C are preferred, with different currencies, including USD, EUR, RMB, etc.

Q: How can I know if the product is suitable for me?
A: >1ST confirm drawing and specification >2nd test sample >3rd start mass production.

Q: Can I come to your company to visit?
A: Yes, you are welcome to visit us at any time.

Q: How shall we contact you?
A: You can send an inquiry directly, and we will respond within 24 hours.

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Application: Industrial
Operating Speed: Constant Speed
Excitation Mode: Excited
Samples:
US$ 50/Piece
1 Piece(Min.Order)

|

Order Sample

1pc for the normal type and design
Customization:
Available

|

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Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

brushless motor

Are there advancements or emerging technologies in micro gear motor development?

Yes, there are several advancements and emerging technologies in micro gear motor development that are shaping the future of this field. Here are some notable examples:

  • Miniaturization: Advancements in manufacturing techniques and materials have enabled the miniaturization of micro gear motors. Today, micro gear motors are becoming smaller while still maintaining high torque and precision. This trend opens up new possibilities for their integration into compact devices and applications where space is limited.
  • High-Efficiency Motors: There is a growing demand for micro gear motors with improved energy efficiency. Manufacturers are developing motor designs and control algorithms that minimize power losses, reduce friction, and optimize the motor’s efficiency across various operating conditions. High-efficiency motors contribute to longer battery life, reduced power consumption, and improved overall system performance.
  • Smart and Connected Motors: With the rise of the Internet of Things (IoT) and smart devices, micro gear motors are being equipped with connectivity features and integrated sensors. These smart and connected motors can communicate with other devices, gather data, and enable advanced control and monitoring capabilities. This integration enhances automation, allows for predictive maintenance, and enables intelligent motor operation in various applications.
  • Magnetic Gear Systems: Traditional mechanical gear systems in micro gear motors can introduce noise, backlash, and wear. Magnetic gear systems offer an alternative approach by utilizing magnetic forces to transmit torque. These systems eliminate the need for physical contact between gears, resulting in reduced friction, improved efficiency, and quieter operation. Magnetic gear systems are being explored and developed for micro gear motor applications where precision and low noise levels are critical.
  • Advanced Materials: The development of new materials, such as high-strength composites and advanced engineering plastics, is driving improvements in micro gear motor performance. These materials offer enhanced mechanical properties, reduced weight, improved wear resistance, and increased durability. The use of advanced materials in micro gear motors contributes to higher torque density, improved efficiency, and extended lifespan.
  • Nanotechnology: Nanotechnology is being explored for its potential impact on micro gear motor development. Nanoscale structures and materials can offer unique properties, such as improved lubrication, reduced friction, and enhanced thermal conductivity. Researchers are investigating the integration of nanomaterials and nanoscale manufacturing techniques to further enhance the performance and reliability of micro gear motors.

These advancements and emerging technologies in micro gear motor development are driving innovation and opening up new possibilities in various industries, including robotics, automation, medical devices, and consumer electronics. As research and development in this field continue, we can expect further improvements in efficiency, miniaturization, connectivity, and overall performance of micro gear motors.

brushless motor

Are there different types of micro gear motors, and how do they suit various applications?

Yes, there are different types of micro gear motors available, and each type is designed to suit specific applications based on their unique characteristics and performance capabilities. Here’s a detailed explanation of different types of micro gear motors and how they are suited for various applications:

1. DC Gear Motors:

DC (Direct Current) gear motors are widely used in various applications due to their simplicity, compact size, and versatility. They consist of a DC motor combined with a gearbox to provide torque multiplication and speed reduction. DC gear motors are available in different configurations, such as spur gear, planetary gear, and worm gear designs. Spur gear motors offer high torque output and are suitable for applications requiring moderate precision and efficiency. Planetary gear motors provide higher torque density, smooth operation, and increased efficiency, making them suitable for applications that require higher precision and compact design. Worm gear motors offer high torque output and are commonly used in applications that require low-speed operation and high gear ratios.

2. AC Gear Motors:

AC (Alternating Current) gear motors are primarily used in applications where a continuous power supply is available. They are typically used in machinery, appliances, and industrial equipment. AC gear motors are available in both synchronous and asynchronous (induction) designs. Synchronous AC gear motors operate at a fixed speed that is synchronized with the frequency of the AC power supply. They are suitable for applications that require constant speed and precise control, such as conveyor systems and robotics. Asynchronous AC gear motors operate at a slightly lower speed than synchronous motors and are commonly used in applications that require variable speed control, such as fans, pumps, and mixers.

3. Brushed and Brushless Gear Motors:

Micro gear motors can be classified into brushed and brushless types based on the type of motor technology used. Brushed gear motors have a commutator and brushes that make physical contact with the armature windings. They are cost-effective, simple in design, and provide good torque characteristics. Brushed gear motors are suitable for applications that require moderate precision, such as automotive systems, consumer electronics, and small appliances. On the other hand, brushless gear motors use electronic commutation instead of brushes and commutators. They offer higher efficiency, longer lifespan, and better speed control compared to brushed motors. Brushless gear motors are commonly used in applications that demand high precision, reliability, and efficiency, such as robotics, medical devices, and aerospace systems.

4. Stepper Gear Motors:

Stepper gear motors are designed to move in discrete steps or increments, making them suitable for applications that require precise positioning and control. They are widely used in applications such as 3D printers, CNC machines, robotics, and automation equipment. Stepper gear motors offer high torque at low speeds and can maintain position without the need for external feedback devices. They provide excellent control over acceleration, deceleration, and position accuracy, allowing for precise motion control in a wide range of applications.

5. Linear Gear Motors:

Linear gear motors, also known as linear actuators or linear motors, are designed to provide linear motion instead of rotational motion. They are used in applications that require precise linear positioning or actuation, such as medical devices, industrial automation, and robotics. Linear gear motors offer advantages such as high speed, high acceleration, precise control, and compact design. They can be either driven by DC or AC power sources, depending on the specific application requirements.

6. Precision Gear Motors:

Precision gear motors are designed to provide high accuracy, low backlash, and smooth operation. They are commonly used in applications that demand precise motion control and positioning, such as robotics, automation, and scientific instruments. Precision gear motors are typically constructed with high-quality materials, precision gears, and advanced control systems to ensure minimal error and high repeatability in motion control applications.

7. Micro Geared Stepper Motors:

Micro geared stepper motors combine the benefits of stepper motors and gear systems. They offer precise positional control, high torque at low speeds, and the ability to maintain position without power. Micro geared stepper motors are commonly used in applications such as robotics, camera systems, medical equipment, and consumer electronics where precise motion control and compact size are essential.

In summary, there are various types of micro gear motors available, each with its own advantages and suitability for specific applications. The choice of motor type depends on factors such as required torque, speed, precision, control, powerI apologize for the confusion.

brushless motor

What are micro gear motors, and how do they differ from standard-sized gear motors?

Micro gear motors are compact and lightweight motor units that combine a small electric motor with a gear mechanism. They are designed to provide precise and controlled motion in applications where space is limited and weight reduction is crucial. Here’s how micro gear motors differ from standard-sized gear motors:

1. Size and Weight:

The most apparent difference between micro gear motors and standard-sized gear motors is their size and weight. Micro gear motors are significantly smaller and lighter than standard-sized gear motors. They are typically designed to fit in tight spaces or applications where size and weight constraints are critical, such as miniature robots, drones, or portable devices.

2. Power and Torque Output:

Due to their smaller size, micro gear motors generally have lower power and torque output compared to standard-sized gear motors. They are optimized for applications that require precise and low-power motion, rather than heavy-duty or high-torque operations. Micro gear motors are commonly used in applications such as micro robotics, medical devices, or small-scale automation systems.

3. Gearing Ratio:

The gearing ratio of micro gear motors is often higher compared to standard-sized gear motors. This means that the gear mechanism in micro gear motors provides a greater reduction in rotational speed and an increase in torque. The higher gearing ratio allows micro gear motors to deliver more torque output relative to their small motor size, enabling precise motion control in miniature applications.

4. Efficiency and Performance:

Micro gear motors may have slightly lower efficiency and performance compared to standard-sized gear motors. The smaller size and compact design can result in higher power losses and increased heat generation. However, advancements in motor and gear manufacturing technologies have significantly improved the efficiency and performance of micro gear motors, making them suitable for a wide range of applications.

5. Operating Characteristics:

Micro gear motors often exhibit different operating characteristics compared to standard-sized gear motors. They may have lower inertia, faster response times, and reduced backlash in the gear mechanism. These characteristics make micro gear motors suitable for applications requiring precise positioning, quick acceleration, and deceleration, such as miniature robotic arms or camera gimbal systems.

6. Cost:

Micro gear motors generally tend to be more expensive compared to standard-sized gear motors. The smaller size and specialized design of micro gear motors involve higher manufacturing costs. Additionally, the demand for micro gear motors is often driven by niche or specialized applications, which can contribute to their higher price point.

Despite their differences, both micro gear motors and standard-sized gear motors serve specific purposes in different applications. The choice between the two depends on the specific requirements of the application, including available space, weight limitations, power and torque requirements, and the desired level of precision and control.

China OEM 3W to 750W Micro AC Worm Gear Motor with Speed Controller for Conveyor   manufacturer China OEM 3W to 750W Micro AC Worm Gear Motor with Speed Controller for Conveyor   manufacturer
editor by CX 2024-05-16

China Good quality Od Size: 39mm-110mm 12V 24V DC Worm Gear Motor for Agricultural Equipment/Wiper Motor/Transmission Devices/Window Opener Motor Replcement of Dunker vacuum pump ac

Product Description

Product Description

MODEL VOLT POWER FREE SPEED FREE CURRENT
D49R 24V 30W 180±5RPM <0.65A
D76R 12V 70W 80±8RPM <0.65A
D63R 12V 70W 65±6RPM <0.65A

Motor Application

Production Line

Main Products

 

 

Packaging & Shipping

 

Company Profile

Certifications

 

FAQ

 

Our company FAQ for you
(1) Q: What kind motors you can provide?
A:For now,we mainly provide Kitchen Hood Motor,DC Motor,Gear Motor,Fan Motor Refrigerator Motor,Hair Dryer Motor Blender Motor Mixer Motor,
Shade Pole Motor,Capacitor Motor,BLDC Motor PMDC Motor,Synchronous Motor,Stepping Motor etc.

(2) Q: Is it possible to visit your factory
A: Sure. But please kindly keep us posted a few days in advance. We need to check our
schedule to see if we are available then.

(3) Q: Can I get some samples
A: It depends. If only a few samples for personal use or replacement, I am afraid it will
be difficult for us to provide, because all of our motors are custom made and no stock
available if there is no further needs. If just sample testing before the official order and
our MOQ, price and other terms are acceptable, we’d love to provide samples.

(4) Q: Is there a MOQ for your motors?
A: Yes. The MOQ is between 1000~10,000pcs for different models after sample approval.
But it’s also okay for us to accept smaller lots like a few dozens, hundreds or thousands
For the initial 3 orders after sample approval.For samples, there is no MOQ requirement. But the less the better (like no more than 5pcs) on condition that the quantity is enough in case any changes needed after initial testing.

  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Universal, Industrial, Household Appliances, Car, Power Tools
Operating Speed: Adjust Speed
Excitation Mode: Excited
Samples:
US$ 150/Piece
1 Piece(Min.Order)

|

Order Sample

Customization:
Available

|

.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}

Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

gear motor

What are the maintenance requirements for gear motors, and how can longevity be maximized?

Gear motors, like any mechanical system, require regular maintenance to ensure optimal performance and longevity. Proper maintenance practices help prevent failures, minimize downtime, and extend the lifespan of gear motors. Here are some maintenance requirements for gear motors and ways to maximize their longevity:

1. Lubrication:

Regular lubrication is essential for gear motors to reduce friction, wear, and heat generation. The gears, bearings, and other moving parts should be properly lubricated according to the manufacturer’s recommendations. Lubricants should be selected based on the motor’s specifications and operating conditions. Regular inspection and replenishment of lubricants, as well as periodic oil or grease changes, should be performed to maintain optimal lubrication levels and ensure long-lasting performance.

2. Inspection and Cleaning:

Regular inspection and cleaning of gear motors are crucial for identifying any signs of wear, damage, or contamination. Inspecting the gears, bearings, shafts, and connections can help detect any abnormalities or misalignments. Cleaning the motor’s exterior and ventilation channels to remove dust, debris, or moisture buildup is also important in preventing malfunctions and maintaining proper cooling. Any loose or damaged components should be repaired or replaced promptly.

3. Temperature and Environmental Considerations:

Monitoring and controlling the temperature and environmental conditions surrounding gear motors can significantly impact their longevity. Excessive heat can degrade lubricants, damage insulation, and lead to premature component failure. Ensuring proper ventilation, heat dissipation, and avoiding overloading the motor can help manage temperature effectively. Similarly, protecting gear motors from moisture, dust, chemicals, and other environmental contaminants is vital to prevent corrosion and damage.

4. Load Monitoring and Optimization:

Monitoring and optimizing the load placed on gear motors can contribute to their longevity. Operating gear motors within their specified load and speed ranges helps prevent excessive stress, overheating, and premature wear. Avoiding sudden and frequent acceleration or deceleration, as well as preventing overloading or continuous operation near the motor’s maximum capacity, can extend its lifespan.

5. Alignment and Vibration Analysis:

Proper alignment of gear motor components, such as gears, couplings, and shafts, is crucial for smooth and efficient operation. Misalignment can lead to increased friction, noise, and premature wear. Regularly checking and adjusting alignment, as well as performing vibration analysis, can help identify any misalignment or excessive vibration that may indicate underlying issues. Addressing alignment and vibration problems promptly can prevent further damage and maximize the motor’s longevity.

6. Preventive Maintenance and Regular Inspections:

Implementing a preventive maintenance program is essential for gear motors. This includes establishing a schedule for routine inspections, lubrication, and cleaning, as well as conducting periodic performance tests and measurements. Following the manufacturer’s guidelines and recommendations for maintenance tasks, such as belt tension checks, bearing replacements, or gear inspections, can help identify and address potential issues before they escalate into major failures.

By adhering to these maintenance requirements and best practices, the longevity of gear motors can be maximized. Regular maintenance, proper lubrication, load optimization, temperature control, and timely repairs or replacements of worn components contribute to the reliable operation and extended lifespan of gear motors.

gear motor

Are there environmental benefits to using gear motors in certain applications?

Yes, there are several environmental benefits associated with the use of gear motors in certain applications. Gear motors offer advantages that can contribute to increased energy efficiency, reduced resource consumption, and lower environmental impact. Here’s a detailed explanation of the environmental benefits of using gear motors:

1. Energy Efficiency:

Gear motors can improve energy efficiency in various ways:

  • Torque Conversion: Gear reduction allows gear motors to deliver higher torque output while operating at lower speeds. This enables the motor to perform tasks that require high torque, such as lifting heavy loads or driving machinery with high inertia, more efficiently. By matching the motor’s power characteristics to the load requirements, gear motors can operate closer to their peak efficiency, minimizing energy waste.
  • Controlled Speed: Gear reduction provides finer control over the motor’s rotational speed. This allows for more precise speed regulation, reducing the likelihood of energy overconsumption and optimizing energy usage.

2. Reduced Resource Consumption:

The use of gear motors can lead to reduced resource consumption and environmental impact:

  • Smaller Motor Size: Gear reduction allows gear motors to deliver higher torque with smaller, more compact motors. This reduction in motor size translates to reduced material and resource requirements during manufacturing. It also enables the use of smaller and lighter equipment, which can contribute to energy savings during operation and transportation.
  • Extended Motor Lifespan: The gear mechanism in gear motors helps reduce the load and stress on the motor itself. By distributing the load more evenly, gear motors can help extend the lifespan of the motor, reducing the need for frequent replacements and the associated resource consumption.

3. Noise Reduction:

Gear motors can contribute to a quieter and more environmentally friendly working environment:

  • Noise Dampening: Gear reduction can help reduce the noise generated by the motor. The gear mechanism acts as a noise dampener, absorbing and dispersing vibrations and reducing overall noise emission. This is particularly beneficial in applications where noise reduction is important, such as residential areas, offices, or noise-sensitive environments.

4. Precision and Control:

Gear motors offer enhanced precision and control, which can lead to environmental benefits:

  • Precise Positioning: Gear motors, especially stepper motors and servo motors, provide precise positioning capabilities. This accuracy allows for more efficient use of resources, minimizing waste and optimizing the performance of machinery or systems.
  • Optimized Control: Gear motors enable precise control over speed, torque, and movement. This control allows for better optimization of processes, reducing energy consumption and minimizing unnecessary wear and tear on equipment.

In summary, using gear motors in certain applications can have significant environmental benefits. Gear motors offer improved energy efficiency, reduced resource consumption, noise reduction, and enhanced precision and control. These advantages contribute to lower energy consumption, reduced environmental impact, and a more sustainable approach to power transmission and control. When selecting motor systems for specific applications, considering the environmental benefits of gear motors can help promote energy efficiency and sustainability.

gear motor

Can you explain the advantages of using gear motors in various mechanical systems?

Gear motors offer several advantages when utilized in various mechanical systems. Their unique characteristics make them well-suited for applications that require controlled power transmission, precise speed control, and torque amplification. Here’s a detailed explanation of the advantages of using gear motors:

1. Torque Amplification:

One of the key advantages of gear motors is their ability to amplify torque. By using different gear ratios, gear motors can increase or decrease the output torque from the motor. This torque amplification is crucial in applications that require high torque output, such as lifting heavy loads or operating machinery with high resistance. Gear motors allow for efficient power transmission, enabling the system to handle demanding tasks effectively.

2. Speed Control:

Gear motors provide precise speed control, allowing for accurate and controlled movement in mechanical systems. By selecting the appropriate gear ratio, the rotational speed of the output shaft can be adjusted to match the requirements of the application. This speed control capability ensures that the mechanical system operates at the desired speed, whether it needs to be fast or slow. Gear motors are commonly used in applications such as conveyors, robotics, and automated machinery, where precise speed control is essential.

3. Directional Control:

Another advantage of gear motors is their ability to control the rotational direction of the output shaft. By using different types of gears, such as spur gears, bevel gears, or worm gears, the direction of rotation can be easily changed. This directional control is beneficial in applications that require bidirectional movement, such as in actuators, robotic arms, and conveyors. Gear motors offer reliable and efficient directional control, contributing to the versatility and functionality of mechanical systems.

4. Efficiency and Power Transmission:

Gear motors are known for their high efficiency in power transmission. The gear system helps distribute the load across multiple gears, reducing the strain on individual components and minimizing power losses. This efficient power transmission ensures that the mechanical system operates with optimal energy utilization and minimizes wasted power. Gear motors are designed to provide reliable and consistent power transmission, resulting in improved overall system efficiency.

5. Compact and Space-Saving Design:

Gear motors are compact in size and offer a space-saving solution for mechanical systems. By integrating the motor and gear system into a single unit, gear motors eliminate the need for additional components and reduce the overall footprint of the system. This compact design is especially beneficial in applications with limited space constraints, allowing for more efficient use of available space while still delivering the necessary power and functionality.

6. Durability and Reliability:

Gear motors are designed to be robust and durable, capable of withstanding demanding operating conditions. The gear system helps distribute the load, reducing the stress on individual gears and increasing overall durability. Additionally, gear motors are often constructed with high-quality materials and undergo rigorous testing to ensure reliability and longevity. This makes gear motors well-suited for continuous operation in industrial and commercial applications, where reliability is crucial.

By leveraging the advantages of torque amplification, speed control, directional control, efficiency, compact design, durability, and reliability, gear motors provide a reliable and efficient solution for various mechanical systems. They are widely used in industries such as robotics, automation, manufacturing, automotive, and many others, where precise and controlled mechanical power transmission is essential.

China Good quality Od Size: 39mm-110mm 12V 24V DC Worm Gear Motor for Agricultural Equipment/Wiper Motor/Transmission Devices/Window Opener Motor Replcement of Dunker   vacuum pump acChina Good quality Od Size: 39mm-110mm 12V 24V DC Worm Gear Motor for Agricultural Equipment/Wiper Motor/Transmission Devices/Window Opener Motor Replcement of Dunker   vacuum pump ac
editor by CX 2024-05-14

China Custom Electric Micro 12V 24V 36V 48V Worm Gear DC Motor with Reducer with Best Sales

Product Description

Electric Micro 12v 24v 36v 48v Worm Gear DC Motor with Reducer

Main characteristic:

Motor Power: 45w, 65w, 95w, 120w
Voltage: 12V,24V, 36v, 48v
Output speed: 60-220rpm
Gear ratio: 1: 20 2:47 1:60 1:65 1:75
Torque :12-18N.M
Motor length: 77mm, 85mm, 97mm

 

 Products Type
 
Voltage 
 
 Power
 
 No Load
 
 Load
 
 Gear ratio
 
Motor length 
 
V
 
 W
 
 Speed
 
Current 
 
 Speed
 
Current 
 
Torque 
 
RPM
 
A
 
RPM
 
A
 
N.M
 
mm
 
 D76L -2445-150
 
 24
 
 45
 
 150±5
 
 ≤1.0
 
 130±5
 
 ≤3.5
 
 ≥3.3
 
 1:20
 
 77
 
 D76L -2445-180
 
 24
 
45
 
 180±5
 
 ≤1.2
 
 150±5
 
 ≤4.5
 
 ≥4.5
 
 1:20
 
 77
 
 D76L -2445-210
 
 24
 
45
 
 210±5
 
 ≤1.5
 
 180±5
 
 ≤6.5
 
 ≥6.0
 
 1:20
 
 77
 
 D76L -2465-150
 
 24
 
 65
 
 150±5
 
 ≤1.0
 
 130±5
 
 ≤3.5
 
 ≥3.3
 
 1:20
 
 85
 
 D76L -2465-180
 
 24
 
 65
 
 180±5
 
 ≤1.2
 
 150±5
 
 ≤4.5
 
 ≥4.5
 
 1:20
 
 85
 
 D76L -2465-210
 
 24
 
 65
 
 210±5
 
 ≤1.5
 
 180±5
 
 ≤6.5
 
 ≥6.0
 
 1:20
 
 85
 
 D76L -2495-150
 
 24
 
 95
 
 150±5
 
 ≤1.0
 
 130±5
 
 ≤3.5
 
 ≥3.3
 
 1:20
 
 97
 
 D76L -2495-180
 
 24
 
 95
 
 180±5
 
 ≤1.2
 
 150±5
 
 ≤4.5
 
 ≥4.5
 
 1:20
 
 97
 
 D76L -2495-210
 
 24
 
 95
 
 210±5
 
 ≤1.5
 
 180±5
 
 ≤6.5
 
 ≥6.0
 
 1:20
 
 97
 

HangZhou CHINAMFG Science & Technology Co.,Ltd is a professional company specialized in design and customization of small dc worm gear motor. The motor models mainly include D49 D59 D63 D76 D88 series, and all the motors can be installed with hall sensor, encoder, opto sensor and brake,so we accept OEM and ODM orders ,and manufacture the motor according to your required like voltage, power, speed, torque, dimension and motor direction.

Our boss is a doctor of dc gear motor with over 20 years experience in motor customization and production,we also has professional R & D team and testing centers to test gears and motors, and could guaranteed high quality products for customers,welcome to contact our customer service center.

Our main market:

Europe,America and Asia,including United Kingdom,  Germany, Italy, France, Sweden, United State,India,Korea and so on.

Company Advantages:

  1. Big production capacity, fast delivery.

  2. Strict QC inspecting rules: all products must be 100% inspected before delivery.

  3. OEM/ODM services are available

 4. 24 hours online service.

 5. Prompt quotation for your inquiry

  6. Quality,reliability and long product life.

  7. Professional manufacturer offers competitive price.

  8. Diversified rich experienced skilled workers.

More Applications:

Car simulator ,garage door opener ,gate operator, vending machine ,coffee machine ,industrial automatic machine ,oil pump,water pump,packing barrier,wheelchair ,electric vehicle ,water pump ,floor polisher,truck lift,stair lift,hospital bed ,hydraulic pump electric forklift.

RFQ:

Q: Are you trading company or manufacturer ?

A: We are Integration of industry and trade, with over 20 years experience in worm gear motor. Our company have accumulated skilled production line, complete management and powerful research support, which could match all of the customers’ requirements and make them satisfaction.
 

Q: What is your main product?

DC Motor: geared motor and micro motor without gear box
-Welding equipment: Mig mag welding machine wire feeder, Welding rod, Welding Torch, Earth clamp, Electrode holder, and Rectifier
 

Q: What if I don’t know which DC motor I need?

A: Don’t worry, if you have motor pictures or drawings to show us,or you have detailed specs like voltage,speed,torque,motor size,working mode of the motor,needed life time and noise level etc,pls do not hesitate to let us know,then we can remommend suitable motor per your request accordingly.
 

Q:Can I get same samples?

A:  It depends. If only a few samples for personal use or replacement, I am afraid it will be difficult for us to provide, because all of our motors are custom made and no stock available if there is no further needs. If just sample testing before the official order and our MOQ, price and other terms are acceptable, we’d love to provide samples.
 

Q:Is there a MOQ for your motors?

A: Yes. The MOQ is between 1000~10,000pcs for different models after sample approval.
But it’s also okay for us to accept smaller lots like a few dozens, hundreds or thousands
For the initial 3 orders after sample approval.For samples, there is no MOQ requirement. But the less the better (like no more than 5pcs) on condition that the quantity is enough in case any changes needed after initial testing.
 

Q:Do you have individual design service for motors?
 

A6:Yes,we would like to design motors individually for our customers,but it may need some mould charge and design charge.

 

Q:How do you make sure motor quality?
 

A:We have our own inspection producdures:for incoming materials ,we have signed sample and drawing to make sure qualified incoming materials;for production process,we have tour inspection in the process and final inspection to make sure qualified products before shipping.
 

 

Q:What certifications do you have?
 

A:We currently have CE and RoHS certifications.
 

Q: How long is your delivery time?

A: Usually it takes about 35 days if you accept our standard output shaft.If the output shaft is customized,the production time depends on what the customization shaft it is.
 

Q:Can I visit your company?
 

A:Yes,welcome to visit our factory,our factory is HangZhou CHINAMFG Motor Co.,Ltd.The legal person is Hui Zhou,Sunny Deng’s wife.

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Industrial, Household Appliances, Power Tools, Electric Tools
Operating Speed: Low Speed
Excitation Mode: Brushed
Samples:
US$ 48/Piece
1 Piece(Min.Order)

|

Order Sample

Sample fee will be returned when order reaches 200
Customization:
Available

|

.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}

Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

brushless motor

Where can individuals find reputable suppliers or manufacturers of micro gear motors?

Individuals looking for reputable suppliers or manufacturers of micro gear motors can consider the following reliable sources:

  • Online Directories: Online directories, such as Thomasnet, Alibaba, or GlobalSpec, provide comprehensive listings of suppliers and manufacturers across various industries. These directories often include detailed profiles, product catalogs, and customer reviews, making it easier to evaluate and connect with reputable micro gear motor suppliers.
  • Trade Shows and Exhibitions: Attending industry-specific trade shows and exhibitions offers an excellent opportunity to meet and connect with reputable micro gear motor manufacturers and suppliers. These events gather industry professionals, showcase the latest technologies, and provide a platform for networking and establishing business relationships.
  • Industry Associations: Industry associations, such as the Robotics Industries Association (RIA) or the National Electrical Manufacturers Association (NEMA), can provide valuable resources and directories of reputable micro gear motor manufacturers and suppliers. These associations often have strict membership criteria, ensuring that listed companies adhere to industry standards and best practices.
  • Referrals and Recommendations: Seek referrals or recommendations from colleagues, industry experts, or professionals who have experience working with micro gear motors. Their firsthand experiences can provide insights into reputable manufacturers or suppliers known for their quality products, reliable services, and customer support.
  • Online Research and Reviews: Conducting online research allows individuals to explore various manufacturers or suppliers of micro gear motors. Look for websites, online forums, or discussion boards that provide reviews, ratings, or testimonials from customers. Reading unbiased experiences and feedback can help identify reputable companies that consistently deliver high-quality products and excellent customer service.
  • Consulting with Industry Experts: Seek advice from industry experts, engineers, or consultants who specialize in micro gear motors. They often have extensive knowledge of the market, industry trends, and reputable manufacturers or suppliers. Consulting with experts can provide valuable insights and guidance in selecting the right supplier for specific requirements.

It is important to conduct due diligence when evaluating suppliers or manufacturers. Consider factors such as their reputation, years of experience in the industry, product quality, certifications, customer support, and delivery capabilities. Request samples, specifications, or references to assess their suitability for the intended application.

By utilizing these sources and conducting thorough research, individuals can find reputable suppliers or manufacturers of micro gear motors that meet their specific needs and ensure reliable and high-quality products.

brushless motor

Can you provide examples of innovative uses of micro gear motors in modern technology?

Micro gear motors have found innovative applications across various modern technologies. Here are some examples:

  • Drones: Micro gear motors are commonly used in drones to drive the propellers and control the flight. Their compact size, lightweight design, and precise control capabilities make them ideal for achieving stable and agile flight maneuvers.
  • Robotics: Micro gear motors play a crucial role in robotics, powering the joints and actuators of robotic arms, grippers, and humanoid robots. Their precise control, compact form factor, and high torque-to-size ratio enable robots to perform delicate and precise manipulations in industrial automation, medical procedures, and research applications.
  • Automotive Systems: Micro gear motors are used in various automotive systems, such as power windows, door locks, and seat adjustments. Their small size and high torque allow for efficient and reliable operation of these mechanisms within the limited space available in vehicles.
  • Medical Devices: Micro gear motors are utilized in medical devices and equipment, including surgical robots, prosthetics, insulin pumps, and lab automation systems. Their precise control, compact size, and low power consumption make them suitable for applications requiring fine movements, accurate dosing, and miniaturization.
  • Consumer Electronics: Micro gear motors are incorporated into numerous consumer electronic devices. They can be found in cameras for lens movement and autofocus, wearable devices for haptic feedback and vibration, and home appliances for precise control of valves, fans, and robotic components.
  • Smart Home Systems: Micro gear motors are employed in smart home systems to control various functions, such as motorized curtains, blinds, and awnings. Their precise control, quiet operation, and compatibility with automation systems allow for convenient and customizable control of these home features.

These examples represent just a few of the many innovative uses of micro gear motors in modern technology. Their versatility, precision, and compact design make them valuable components in a wide range of applications, contributing to advancements in automation, robotics, electronics, and beyond.

brushless motor

Can you explain the advantages of using micro gear motors in small electronic devices?

Using micro gear motors in small electronic devices offers several advantages. Here are some key benefits:

1. Compact Size:

Micro gear motors are specifically designed to be small and lightweight, making them ideal for integration into small electronic devices. Their compact size allows for efficient utilization of limited space within the device, enabling designers to create sleek and portable products.

2. Precise Motion Control:

Micro gear motors provide precise motion control capabilities, allowing for accurate positioning and controlled movements in small electronic devices. This is essential for applications that require precise adjustments, such as camera autofocus, zoom controls, or robotic movements in miniature robots.

3. High Gear Ratio:

Micro gear motors often have higher gear ratios compared to larger gear motors. The gear mechanism in micro gear motors provides a greater reduction in rotational speed and an increase in torque output. This allows for efficient power transmission and enables the motor to generate sufficient torque despite its small size.

4. Energy Efficiency:

Micro gear motors are designed to operate efficiently with low power consumption. Their compact size reduces the amount of power required for operation, making them suitable for battery-powered devices or applications where energy efficiency is a priority. This helps to extend the battery life of portable electronic devices.

5. Low Noise and Vibration:

Micro gear motors are often engineered to minimize noise and vibration levels during operation. This is advantageous for small electronic devices, such as smartphones, where a quiet and smooth operation is desired. Reduced noise and vibration contribute to a better user experience and overall product satisfaction.

6. Reliability and Durability:

Micro gear motors are built to withstand the demands of continuous operation in small electronic devices. They are designed with high-quality materials and precision manufacturing techniques to ensure reliability and durability. This is crucial for electronic devices that may undergo frequent handling or experience various environmental conditions.

7. Cost-Effective:

Micro gear motors are generally cost-effective compared to larger gear motors. Their smaller size and simpler construction contribute to lower manufacturing costs. Additionally, their use in small electronic devices reduces the overall material and production costs of the device itself.

8. Integration Flexibility:

Micro gear motors offer flexibility in terms of integration into small electronic devices. They can be easily mounted or integrated into compact spaces, allowing for flexible design options. This flexibility enables designers to incorporate motion control capabilities into a wide range of small electronic devices.

Overall, the advantages of using micro gear motors in small electronic devices include their compact size, precise motion control, high gear ratio, energy efficiency, low noise and vibration, reliability, cost-effectiveness, and integration flexibility. These advantages contribute to the functionality, performance, and user experience of small electronic devices across various industries.

China Custom Electric Micro 12V 24V 36V 48V Worm Gear DC Motor with Reducer   with Best Sales China Custom Electric Micro 12V 24V 36V 48V Worm Gear DC Motor with Reducer   with Best Sales
editor by CX 2024-05-02

China Best Sales 12V Worm DC Gear Small Motor with Low Speed High Torque vacuum pump ac

Product Description

12V worm dc gear small motor with low speed high torque
 

1. Features of LS WGM370123100
Voltage: 12V
Current: 100-500mA
Speed: 1-25rpm
Torque: 2-10kgf.cm
Typical applications: Central air-conditioning walve, grill, oven, CHINAMFG pumps, ATM bank automatic system, robot, medical equipment, office equipment

2. Specifications of LS WGM370123100

Note: It’s the typical specificaitoin for reference only, We can choose DC motor with different voltage speed to meet your torque and speed requirement.

Company Profile

1. About us
Business Type: Manufacturer, Trading Company Verified
Location: ZHangZhoug, China (Mainland) Verified
Main Products: 1) DC Brush motor: 6-130mm diameter, 0.01-1000W output power
                           2) DC Spur Gear Motor: 12-110mm diameter, 0.1-300W output power
                           3) DC Planeary Gear Motor: 10-82mm diameter, 0.1-100W output power 
                           4) Brushless DC Motor: 28-110mm, 5-1500W output power 
                           5) Stepper Motor: NEMA 08 to NEMA 43, Can with gearbox and lead screw
                           6) Servo Motor: 42mm to 130mm diameter, 50-4000w 
                           7) AC Gear Motor: 49 to 100mm diameter, 6-140 output power 
Total Employees: 51 – 100 People
Total Annual Revenue: $5 Million – $10 Million
Year Established: 2014 Verified
Top 3 Markets: Western Europe 20.00%  North America 15.00%  Domestic Market 12.00%
Product Certifications : CE, RoSH, RoSH CE 
Trademarks : CHINAMFG

2. Production

1)Production line

2) Product components

Packing&Delivery

Certifications

Customer Visits

FAQ
Q: What’s your main products?
A:We currently produce Brushed Dc Motors, Brushed Dc gear Motors, Planetary Dc Gear Motors, Brushless Dc Motors, Stepper motors and Ac Motors etc. You can check the specifications for above motors on our website and you can email us to recommend needed motors per your specification too.

Q:How to select a suitable motor?
A:If you have motor pictures or drawings to show us, or you have detailed specs like voltage, speed, torque, motor size, working mode of the motor, needed life time and noise level etc, please do not hesitate to let us know, then we can recommend suitable motor per your request accordingly.

Q: Do you have customized service for your standard motors?
A:Yes, we can customize per your request for the voltage, speed, torque and shaft size/shape. If you need additional wires/cables soldered on the terminal or need to add connectors, or capacitors or EMC we can make it too.

Q: you have individual design service for motors?
A:Yes, we would like to design motors individually for our customers, but it may need some mould charge and design charge. 

Q:Can I have samples for testing first?
A:Yes, definitely you can. After confirmed the needed motor specs, we will quote and provide a proforma invoice for samples, once we get the payment, we will get a PASS from our account department to proceed samples accordingly.

Q:How do you make sure motor quality?
A:We have our own inspection procedures: for incoming materials, we have signed sample and drawing to make sure qualified incoming materials; for production process, we have tour inspection in the process and final inspection to make sure qualified products before shipping.

Q:What’s your lead time?
A:Generally speaking, our regular standard product will need 25-30days, a bit longer for customized products. But we are very flexible on the lead time, it will depends on the specific orders

Q:What’s your payment term?
A:For all our new customers, we will need 40% deposite, 60% paid before shipment.

Q:When will you reply after got my inquiries?
A:We will response within 24 hours once get your inquires.

Q:How can I trust you to make sure my money is safe?
A:We are certified by the third party SGS and we have exported to over 85 countries up to June.2017. You can check our reputation with our current customers in your country (if our customers do not mind), or you can order via alibaba to get trade assurance from alibaba to make sure your money is safe.

Q:What’s the minimum order quantity?
A:Our minimum order quantity depends on different motor models, please email us to check. Also, we usually do not accept personal use motor orders. 

Q:What’s your shipping method for motors?
A:For samples and packages less than 100kg, we usually suggest express shipping; For heavy packages, we usually suggest air shipping or sea shipping. But it all depends on our customers’ needs.

Q:What certifications do you have?
A:We currently have CE and ROSH certifications.

Q:Can you send me your price list?
A:Since we have hundreds of different products, and price varies per different specifications, we are not able to offer a price list. But we can quote within 24 hours once got your inquirues to make sure you can get the price in time.

Q:Can I visit your company?
A:Yes, welcome to visit our company, but please let us know at least 2 weeks in advance to help us make sure no other meetings during the day you visit us. Thanks!

  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Household Appliances, Robot, Toys, Door Lock, Monitor
Operating Speed: Low Speed
Function: Driving
Casing Protection: Totally Encolosed
Structure and Working Principle: Brush
Certification: Ce, RoHS
Samples:
US$ 8/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

gear motor

Can gear motors be used in robotics, and if so, what are some notable applications?

Yes, gear motors are widely used in robotics due to their ability to provide torque, precise control, and compact size. They play a crucial role in various robotic applications, enabling the movement, manipulation, and control of robotic systems. Here are some notable applications of gear motors in robotics:

1. Robotic Arm Manipulation:

Gear motors are commonly used in robotic arms to provide precise and controlled movement. They enable the articulation of the arm’s joints, allowing the robot to reach different positions and orientations. Gear motors with high torque capabilities are essential for lifting, rotating, and manipulating objects with varying weights and sizes.

2. Mobile Robots:

Gear motors are employed in mobile robots, including wheeled robots and legged robots, to drive their locomotion. They provide the necessary torque and control for the robot to move, turn, and navigate in different environments. Gear motors with appropriate gear ratios ensure the robot’s mobility, stability, and maneuverability.

3. Robotic Grippers and End Effectors:

Gear motors are used in robotic grippers and end effectors to control the opening, closing, and gripping force. By integrating gear motors into the gripper mechanism, robots can grasp and manipulate objects of various shapes, sizes, and weights. The gear motors enable precise control over the gripping action, allowing the robot to handle delicate or fragile objects with care.

4. Autonomous Drones and UAVs:

Gear motors are utilized in the propulsion systems of autonomous drones and unmanned aerial vehicles (UAVs). They drive the propellers or rotors, providing the necessary thrust and control for the drone’s flight. Gear motors with high power-to-weight ratios, efficient energy conversion, and precise speed control are crucial for achieving stable and maneuverable flight in drones.

5. Humanoid Robots:

Gear motors are integral to the movement and functionality of humanoid robots. They are used in robotic joints, such as hips, knees, and shoulders, to enable human-like movements. Gear motors with appropriate torque and speed capabilities allow humanoid robots to walk, run, climb stairs, and perform complex motions resembling human actions.

6. Robotic Exoskeletons:

Gear motors play a vital role in robotic exoskeletons, which are wearable robotic devices designed to augment human strength and assist in physical tasks. Gear motors are used in the exoskeleton’s joints and actuators, providing the necessary torque and control to enhance human abilities. They enable users to perform tasks with reduced effort, assist in rehabilitation, or provide support in physically demanding environments.

These are just a few notable applications of gear motors in robotics. Their versatility, torque capabilities, precise control, and compact size make them indispensable components in various robotic systems. Gear motors enable robots to perform complex tasks, move with agility, interact with the environment, and assist humans in a wide range of applications, from industrial automation to healthcare and exploration.

gear motor

How does the voltage and power rating of a gear motor impact its suitability for different tasks?

The voltage and power rating of a gear motor are important factors that influence its suitability for different tasks. These specifications determine the motor’s electrical characteristics and its ability to perform specific tasks effectively. Here’s a detailed explanation of how voltage and power rating impact the suitability of a gear motor for different tasks:

1. Voltage Rating:

The voltage rating of a gear motor refers to the electrical voltage it requires to operate optimally. Here’s how the voltage rating affects suitability:

  • Compatibility with Power Supply: The gear motor’s voltage rating must match the available power supply. Using a motor with a voltage rating that is too high or too low for the power supply can lead to improper operation or damage to the motor.
  • Electrical Safety: Adhering to the specified voltage rating ensures electrical safety. Using a motor with a higher voltage rating than recommended can pose safety hazards, while using a motor with a lower voltage rating may result in inadequate performance.
  • Application Flexibility: Different tasks or applications may have specific voltage requirements. For example, low-voltage gear motors are commonly used in battery-powered devices or applications with low-power requirements, while high-voltage gear motors are suitable for industrial applications or tasks that require higher power output.

2. Power Rating:

The power rating of a gear motor indicates its ability to deliver mechanical power. It is typically specified in units of watts (W) or horsepower (HP). The power rating impacts the suitability of a gear motor in the following ways:

  • Load Capacity: The power rating determines the maximum load that a gear motor can handle. Motors with higher power ratings are capable of driving heavier loads or handling tasks that require more torque.
  • Speed and Torque: The power rating affects the motor’s speed and torque characteristics. Motors with higher power ratings generally offer higher speeds and greater torque output, making them suitable for applications that require faster operation or the ability to overcome higher resistance or loads.
  • Efficiency and Energy Consumption: The power rating is related to the motor’s efficiency and energy consumption. Higher power-rated motors may be more efficient, resulting in lower energy losses and reduced operating costs over time.
  • Thermal Considerations: Motors with higher power ratings may generate more heat during operation. It is crucial to consider the motor’s power rating in relation to its thermal management capabilities to prevent overheating and ensure long-term reliability.

Considerations for Task Suitability:

When selecting a gear motor for a specific task, it is important to consider the following factors in relation to the voltage and power rating:

  • Required Torque and Load: Assess the torque and load requirements of the task to ensure that the gear motor’s power rating is sufficient to handle the expected load without being overloaded.
  • Speed and Precision: Consider the desired speed and precision of the task. Motors with higher power ratings generally offer better speed control and accuracy.
  • Power Supply Availability: Evaluate the availability and compatibility of the power supply with the gear motor’s voltage rating. Ensure that the power supply can provide the required voltage for the motor’s optimal operation.
  • Environmental Factors: Consider any specific environmental factors, such as temperature or humidity, that may impact the gear motor’s performance. Ensure that the motor’s voltage and power ratings are suitable for the intended operating conditions.

In summary, the voltage and power rating of a gear motor have significant implications for its suitability in different tasks. The voltage rating determines compatibility with the power supply and ensures electrical safety, while the power rating influences load capacity, speed, torque, efficiency, and thermal considerations. When choosing a gear motor, it is crucial to carefully evaluate the task requirements and consider the voltage and power rating in relation to factors such as torque, speed, power supply availability, and environmental conditions.

gear motor

Are there specific considerations for selecting the right gear motor for a particular application?

When selecting a gear motor for a specific application, several considerations need to be taken into account. The choice of the right gear motor is crucial to ensure optimal performance, efficiency, and reliability. Here’s a detailed explanation of the specific considerations for selecting the right gear motor for a particular application:

1. Torque Requirement:

The torque requirement of the application is a critical factor in gear motor selection. Determine the maximum torque that the gear motor needs to deliver to perform the required tasks. Consider both the starting torque (the torque required to initiate motion) and the operating torque (the torque required to sustain motion). Select a gear motor that can provide adequate torque to handle the load requirements of the application. It’s important to account for any potential torque spikes or variations during operation.

2. Speed Requirement:

Consider the desired speed range or specific speed requirements of the application. Determine the rotational speed (in RPM) that the gear motor needs to achieve to meet the application’s performance criteria. Select a gear motor with a suitable gear ratio that can achieve the desired speed at the output shaft. Ensure that the gear motor can maintain the required speed consistently and accurately throughout the operation.

3. Duty Cycle:

Evaluate the duty cycle of the application, which refers to the ratio of operating time to rest or idle time. Consider whether the application requires continuous operation or intermittent operation. Determine the duty cycle’s impact on the gear motor, including factors such as heat generation, cooling requirements, and potential wear and tear. Select a gear motor that is designed to handle the expected duty cycle and ensure long-term reliability and durability.

4. Environmental Factors:

Take into account the environmental conditions in which the gear motor will operate. Consider factors such as temperature extremes, humidity, dust, vibrations, and exposure to chemicals or corrosive substances. Choose a gear motor that is specifically designed to withstand and perform optimally under the anticipated environmental conditions. This may involve selecting gear motors with appropriate sealing, protective coatings, or materials that can resist corrosion and withstand harsh environments.

5. Efficiency and Power Requirements:

Consider the desired efficiency and power consumption of the gear motor. Evaluate the power supply available for the application and select a gear motor that operates within the specified voltage and current ranges. Assess the gear motor’s efficiency to ensure that it maximizes power transmission and minimizes wasted energy. Choosing an efficient gear motor can contribute to cost savings and reduced environmental impact.

6. Physical Constraints:

Assess the physical constraints of the application, including space limitations, mounting options, and integration requirements. Consider the size, dimensions, and weight of the gear motor to ensure it can be accommodated within the available space. Evaluate the mounting options and compatibility with the application’s mechanical structure. Additionally, consider any specific integration requirements, such as shaft dimensions, connectors, or interfaces that need to align with the application’s design.

7. Noise and Vibration:

Depending on the application, noise and vibration levels may be critical factors. Evaluate the acceptable noise and vibration levels for the application’s environment and operation. Choose a gear motor that is designed to minimize noise and vibration, such as those with helical gears or precision engineering. This is particularly important in applications that require quiet operation or where excessive noise and vibration may cause issues or discomfort.

By considering these specific factors when selecting a gear motor for a particular application, you can ensure that the chosen gear motor meets the performance requirements, operates efficiently, and provides reliable and consistent power transmission. It’s important to consult with gear motor manufacturers or experts to determine the most suitable gear motor based on the specific application’s needs.

China Best Sales 12V Worm DC Gear Small Motor with Low Speed High Torque   vacuum pump acChina Best Sales 12V Worm DC Gear Small Motor with Low Speed High Torque   vacuum pump ac
editor by CX 2024-04-26

China wholesaler 55zyt 20W 35W 30W 50W 40W 70W 80W 110V 220V Micro AC Motors with Nmrv Worm Gear with Best Sales

Product Description

55ZYT 20w 35w 30w 50w 40w 70w 80w 110v 220v Micro AC Motors with NMRV Worm Gear

Round AC / DC Motor Specification

Model Torque
( mN.m)
Speed
(r/min)
Power
(W)
Voltage
(V)
Max Current
( A)
CW/CCW Speed Difference
( r/min)
55ZYT01 63.7 3000 20 24 1.50  200
55ZYT02 63.7 3000 20 27 1.30  200
55ZYT03 63.7 3000 20 48 0.70  200
55ZYT04 63.7 3000 20 110 0.34  200
55ZYT05 55.7 6000 35 24 2.50  300
55ZYT06 55.7 6000 35 27 2.20  300
55ZYT07 55.7 6000 35 48 1.30  300
55ZYT08 55.7 6000 35 110 0.54  300
55Z YT10 63.7 3600 24 110 0.40  200
55ZYT51 92.3 3000 29 24 2.10  200
55ZYT52 92.3 3000 29 27 1.80  200
55ZYT53 92.3 3000 29 48 1.10  200
55ZYT54 92.3 3000 29 110 0.46  200
55ZYT55 79.6 6000 50 24 3.45  300
55ZYT56 79.6 6000 50 27 3.10  300
55ZYT57 79.6 6000 50 48 1.74  300
55ZYT58 79.6 6000 50 110 0.74  300
55ZYT59 85 8000- 10000 80 110 1.15  500
55ZYT61 76.4 5000 40 24 2.50  250
55ZYT63/H1 127.4 1500 20 24 1.25  100
55ZYT64/H9 95 3000 30 220 0.25  200
55ZYT65 89.2 7500 70 110 1.00  400
55ZYT66 110.8 2500 29 110 0.45  150
55ZYT68 69.6 5500 40 36 1.70  250
55ZYT72 95.5 2500 25 24 1.70  150
70ZYT01 159.2 3000 50 24 3.20  200
70ZYT02 159.2 3000 50 27 2.90  200
70ZYT03 159.2 3000 50 48 1.50  200
70ZYT04 159.2 3000 50 110 0.70  200
70ZYT05 135.4 6000 85 24 5.20  300
70ZYT06 135.4 6000 85 27 4.80  300
70ZYT07 135.4 6000 85 48 2.60  300
70ZYT08 135.4 6000 85 110 1.10  300
70ZYT16 191 2000 40 24 2.30  100
70ZYT21 95.5 3000 50 220 0.20  200
70ZYT51 223 3000 70 24 4.30  200
70ZYT52 223 3000 70 27 3.80  200
70ZYT53 223 3000 70 48 2.20  200
70ZYT54 223 3000 70 110 0.95  200
70ZYT55 191.1 6000 120 24 7.50  300
70ZYT56 191.1 6000 120 27 6.60  300
70ZYT57 191.1 6000 120 48 3.80  300
70ZVT58 191.1 6000 120 110 1.60  300
70ZYT59 166.6 7500-9500 148 110 1.95  400
70ZYT60 238.8 4000 100 110 1.30  200
70ZYT80 223 3000 70 80 1.20  200
90ZYT01 323 1500 50 110 0.66  100
90ZYT02 323 1500 50 220 0.33  100
90ZYT03 294 3000 92 110 1.20  200
90ZYT04 294 3000 92 220 0.60  200
90ZYT05 294 3000 92 24 6.10  200
90ZYT51 510 1500 80 110 1.10  100
90ZYT52 510 1500 80 220 0.55  100
90ZYT53 480 3000 150 110 2.00  200
90ZYT54 480 3000 150 220 1.00  200
90ZYT55 510 1500 80 24 5.00  100
90ZYT56 480 3000 150 24 8.00  200
90ZYT101 796 1500 125 110 1.60  100
90ZYT102 7986 1500 125 220 0.80  100
90ZYT103 733 3000 230 110 2.80  200
90ZYT104 733 3000 230 220 1.50  200
90ZYT105 733 3000 230 24 13.50  200
90ZYT106 796 1500 125 24 6.50  200
110ZYT51 1177 1500 185 110 2.50  100
110ZYT52 1177 1500 185 220 1.25  100
110ZYT53 980 3000 308 110 4.00  200
110ZYT54 980 3000 308 220 2.00  200
110ZYT55 980 3000 308 24 16.50  200
110ZYT56 1177 1500 180 24 8.00  100
110ZYT101 1560 1500 245 110 3.00  100
110ZYT102 1560 1500 245 220 1.50  100
110ZYT103 1274 3000 400 110 4.80  200
110ZYT104 1274 3000 400 220 2.40  200
110ZYT105 1274 3000 400 24 22.50  200
110ZYT106 1560 1500 250 24 12.00  100
110ZYT151 2390 1500 375 110 4.50  100
110ZYT152 2390 1500 375 220 2.30  100
110ZYT153 2230 3000 700 110 8.50  200
110ZYT154 2230 3000 700 220 4.20  200
110ZYT155 2230 3000 700 24 45.00  200
110ZYT156 2390 1500 370 24 22.00  100
130ZYT51 3185 1500 550 110 5.80  100
130ZYT52 3185 1500 550 220 2.90  100
130ZYT53 3185 3000 1000 110 11.00  200
130ZYT54 3185 3000 1000 220 5.50  200
130ZYT55 3185 3000 1000 24 50.00  200
130ZYT56 3185 1500 550 24 28.00  100
130ZYT101 3822 1500 700 110 7.00  100
130ZYT102 3822 1500 700 220 3.50  100
130ZYT103 3822 3000 1200 110 13.00  200
130ZYT104 3822 3000 1200 220 6.50  200
130ZYT105 3820 1500 700 24 30.00  100
130ZYT106 3820 3000 1100 24 50.00  200
130ZYT151 4500 1500 1000 110 8.00  100
130ZYT152 4500 1500 1000 220 4.00  100
130ZYT153 4500 3000 1500 110 15.00  200
130ZVT154 4500 3000 1500 220 8.00  200
130ZYT155 4500 1500 1000 24 38.00  100
130ZYT156 4500 3000 1200 24 55.00  200
130ZYT185 6200 1500 1200 24 60.00  100

Worm Gearbox Specification

 

NMRV PAM N M P D
IEC 5 7.5 10 15 20 25 30 40 50 60 80 100
571 56B14 50 65 80 9 9 9 9 9 9 9 9 9
030 63B5 95 115 140 11 11 11 11 11 11 11 11 11
63B14 60 75 90
56B5 80 100 120 9 9 9 9 9 9 9 9 9 9 9
56B14 50 65 80
040 71B5 110 130 160 14 14 14 14 14 14 14 14
71B14 70 85 105
63B5 95 115 140 11 11 11 11 11 11 11 11 11 11 11 11
63B14 60 75 90
56B5 80 100 120 9 9 9 9
050 80B5 130 165 200 19 19 19 19 19 19 19
80B14 80 100 120
71B5 110 130 160 14 14 14 14 14 14 14 14 14 14 14
71B14 70 85 105
63B5 95 115 140 11 11 11 11 11
063 90B5 130 165 200 24 24 24 24 24 24 24
90B14 95 115 140
80B5 130 165 200 19 19 19 19 19 19 19 19 19 19
80B14 80 100 120
71B5 110 130 160 14 14 14 14 14
71B14 70 85 105
075 100/112B5 180 215 250 28 28 28
100/112B14 110 130 160
90B5 130 165 200 24 24 24 24 24 24 24 24
90B14 95 115 140
80B5 130 165 200 19 19 19 19 19 19 19 19
80B14 80 100 120
71B5 110 130 160 14 14 14 14
090 100/112B5 180 215 250 28 28 28 28 28 28 28
100/112B14 110 130 160
90B5 130 165 200 24 24 24 24 24 24 24 24 24 24
90B14 95 115 140
80B5 130 165 200 19 19 19 19 19
80B14 80 100 120
110 132B5 230 265 300 38 38 38 38
100/112B5 180 215 250 28 28 28 28 28 28 28 28 28
90B5 130 165 200 24 24 24 24 24 24 24
80B5 130 165 200 19 19
130 132B5 230 265 300 38 38 38 38 38 38 38
100 /112B5 180 215 250 28 28 28 28 28 28 28
90B5 130 165 200 24 24

Note:

Motor voltage, power and speed will be customized according to your request under the allowed circumstance of adoptable dimension. You may feel free to contact us for details. Our sales engineer will reply as soon as possible.

Small Electric Motor Family

Company Overview

 
HISTORY: Greensky is a mechanical brand of CHINAMFG Power Co., Ltd. With over 10 years’
mechanical manufacturing experiences, CHINAMFG Power always strictly stands on the
principle of Best Customer Satisfaction.

QUALITY: Material Inspection, Production Control, Finished Goods Test, Pre-dellivery Inspection

MISSION: “Once and forever” is our goal to serve customers in the world. Once we do
business with customer, we will do business forever.

MARKET30 different countries, mainly Germany, Austria, Japan, USA and Middle-East.

DELIVERY100% on-time delivery Guaranteed.

SERVICESFast response in English, German, Japanese and Chinese languages.

OEMCustomized orders are welcome at CHINAMFG Power.
  

Certificates

Overseas Exhibitions

Welcome your inquiry! Our Sales Team will reply you as soon as possible.

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Industrial
Speed: Variable Speed
Number of Stator: 1pH / 3pH
Function: Driving
Casing Protection: Protection Type
Number of Poles: 4
Samples:
US$ 100/Piece
1 Piece(Min.Order)

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Customization:
Available

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brushless motor

Can micro gear motors be customized for specific applications, and how is this achieved?

Yes, micro gear motors can be customized to meet the specific requirements of different applications. Customization allows for the optimization of motor performance, size, and features to best suit the intended use. Here’s how customization of micro gear motors is achieved:

  1. Motor Sizing: The customization process begins with determining the appropriate motor size for the application. Factors such as required torque, speed, power consumption, and physical dimensions are considered to select a motor that can deliver the desired performance within the constraints of the application.
  2. Gear Ratio Selection: The gear ratio determines the relationship between the motor’s speed and the output shaft’s speed. By selecting different gear ratios, the torque and speed characteristics of the micro gear motor can be tailored to match the specific requirements of the application. Higher gear ratios provide more torque at the expense of speed, while lower gear ratios offer higher speed at the expense of torque.
  3. Mounting and Integration: Micro gear motors can be customized to facilitate easy integration into the target system or device. Mounting options, such as flanges or brackets, can be designed to ensure secure attachment. Additionally, custom shaft configurations, connectors, and wiring options can be implemented to simplify the motor’s integration into the overall system.
  4. Environmental Considerations: Customization may involve adapting the micro gear motor to operate in specific environmental conditions. For example, if the motor will be exposed to moisture, dust, or extreme temperatures, protective measures such as sealing, specialized coatings, or thermal management solutions can be incorporated into the motor’s design.
  5. Control and Feedback: In some applications, customization may involve integrating specific control and feedback mechanisms into the micro gear motor. This can include position sensors, encoders, or communication interfaces that enable precise control, feedback, and integration with other system components or devices.
  6. Specialized Materials and Components: Custom micro gear motors can utilize specialized materials and components to meet unique application requirements. This may involve using specific gear materials, bearings, or insulation materials that offer enhanced performance, durability, or resistance to certain environmental factors.
  7. Performance Optimization: Customization allows for fine-tuning the micro gear motor’s performance to achieve optimal efficiency, power output, or response characteristics for the specific application. This can involve adjusting motor parameters, control algorithms, or utilizing advanced motor technologies to meet specific performance goals.

Overall, customization of micro gear motors is achieved through a combination of careful motor selection, design modifications, incorporation of specialized features and materials, and optimization of performance parameters. Collaborating with motor manufacturers or engineering firms with expertise in micro gear motors can help tailor the motor to the exact requirements of the application.

brushless motor

How does the control system of micro gear motors contribute to precision in small-scale applications?

The control system of micro gear motors plays a crucial role in achieving precision in small-scale applications. Here’s how it contributes to precision:

  • Speed Control: The control system allows precise regulation of the motor’s speed, enabling accurate and consistent movement in small-scale applications. By adjusting the voltage or current supplied to the motor, the control system can control the rotational speed of the motor shaft, ensuring precise motion according to the application’s requirements.
  • Position Control: Micro gear motors with advanced control systems, such as stepper motors, offer precise position control. The control system sends specific signals or pulses to the motor, causing it to move in discrete steps or increments. This allows for accurate positioning in small-scale applications where precise movements and alignment are critical. The control system can also maintain the motor’s position without the need for external feedback devices, enhancing precision and simplifying the overall system.
  • Torque Control: In some applications, maintaining consistent torque is essential for precision. The control system of micro gear motors can regulate the torque output, ensuring that the motor delivers the required amount of force accurately and consistently. This is particularly important in tasks that involve delicate or precise movements, such as robotics, where excessive torque can cause damage or imprecise results.
  • Feedback Mechanisms: Many micro gear motors incorporate feedback mechanisms into their control systems. These mechanisms provide information about the motor’s performance, such as speed, position, or current, and allow the control system to make adjustments in real-time. Feedback mechanisms, such as encoders or sensors, enable closed-loop control, where the control system continuously monitors and adjusts the motor’s operation to maintain precision and accuracy.
  • Control Algorithms: The control system of micro gear motors often incorporates sophisticated control algorithms that optimize performance and precision. These algorithms can include proportional-integral-derivative (PID) controllers, adaptive control, or advanced motion control algorithms. By analyzing the input signals, sensory feedback, and desired output, these algorithms can adjust the motor’s operation to minimize errors, disturbances, or deviations from the desired motion, thus enhancing precision in small-scale applications.

By integrating precise speed control, position control, torque control, feedback mechanisms, and advanced control algorithms, the control system of micro gear motors enables precise and accurate operation in small-scale applications. This precision is crucial for tasks that require fine movements, tight tolerances, or intricate positioning, such as robotics, automation, medical devices, and miniature mechanisms.

brushless motor

What types of gears are typically employed in micro gear motors for efficient power transmission?

Micro gear motors utilize various types of gears to achieve efficient power transmission. Here are some commonly employed gear types in micro gear motors:

1. Spur Gears:

Spur gears are the most basic and commonly used gears in micro gear motors. They have straight teeth and are mounted on parallel shafts. Spur gears provide efficient power transmission with low noise and high efficiency. They are suitable for applications that require high-speed rotation and moderate torque requirements.

2. Helical Gears:

Helical gears are similar to spur gears but have angled teeth. The angled teeth allow for smoother and quieter operation compared to spur gears. Helical gears provide higher torque transmission capabilities and are commonly used in micro gear motors where reducing noise and vibration is important, such as in precision instruments or small appliances.

3. Planetary Gears:

Planetary gears, also known as epicyclic gears, are compact gear systems that consist of a central gear (sun gear), multiple surrounding gears (planet gears), and an outer ring gear (ring gear). Planetary gears offer high torque transmission capabilities in a compact design. They are commonly used in micro gear motors where a high gear ratio and torque multiplication are required, such as in robotics or automation systems.

4. Worm Gears:

Worm gears consist of a worm (a screw-like gear) and a mating gear called a worm wheel. Worm gears provide a high gear reduction ratio and are suitable for applications that require high torque output and low-speed rotation. They are commonly used in micro gear motors for applications such as valve actuators, conveyor systems, or precision positioning devices.

5. Bevel Gears:

Bevel gears have teeth that are cut on conical surfaces and are used to transmit power between intersecting shafts. They are commonly employed in micro gear motors that require changes in direction or angle of power transmission. Bevel gears provide efficient power transfer and can accommodate a wide range of speed and torque requirements.

6. Hypoid Gears:

Hypoid gears are similar to bevel gears but have offset axes. They are used in micro gear motors that require high torque transmission at right angles. Hypoid gears offer efficient power transmission with reduced noise and vibration, making them suitable for applications that require compact and quiet operation.

7. Rack and Pinion:

Rack and pinion gears consist of a linear gear (rack) meshing with a rotational gear (pinion). They are commonly used in micro gear motors for linear motion applications, such as in CNC machines, 3D printers, or small-scale automation systems. Rack and pinion gears provide efficient and precise linear motion control.

These are some of the common types of gears employed in micro gear motors for efficient power transmission. The choice of gear type depends on the specific requirements of the application, including torque, speed, noise level, and space constraints.

China wholesaler 55zyt 20W 35W 30W 50W 40W 70W 80W 110V 220V Micro AC Motors with Nmrv Worm Gear   with Best Sales China wholesaler 55zyt 20W 35W 30W 50W 40W 70W 80W 110V 220V Micro AC Motors with Nmrv Worm Gear   with Best Sales
editor by CX 2024-04-24

China supplier Low Speed Right Angle Micro DC Worm Gear Motor 6V/12V/24V vacuum pump and compressor

Product Description

A. Specification of Low Speed Right Angle Micro DC Worm Gear Motor 6V/12V/24V:

1. Voltage: 3-24V
2. Speed: 1-50RPM
3. Torque: 1.2-10Kgf.cm
4. Output Power: 0.1-5W
5. Gearbox Ratio:  1:276 to 1: 2484
6. Gearbox Diameter: 33*32mm
7. Gearbox Length: 25.2mm
8. Motor Length: 30.8mm
9. Shaft Diameter: 6mm
10. Shaft Length: Customized
11. Typical Application: Central air conditioning valve, Amusement equipment, Coinrefund devices, Grill, Oven, CHINAMFG pump, ATM bank automatic system, Medical equipment, Office equipment, Household appliance, Automatic actutor and others

Note: The data sheet is only for reference, We can make the motor according to your requirement after Evaluation

B. Company Capacity

HangZhou CHINAMFG Motor Co. Ltd is a manufacturer and exporter of various of motors with over 10 years experience.
Our product ranges include:
1) DC Brush motor: 6-130mm diameter, 0.01-1000W output power
2) DC Spur Gear Motor: 12-110mm diameter, 0.1-300W output power
3) DC Planeary Gear Motor: 10-82mm diameter, 0.1-100W output power 
4) Brushless DC Motor: 28-110mm, 5-1500W output power 
5) Stepper Motor: NEMA 08 to NEMA 43, Can with gearbox and lead screw
6) Servo Motor: 42mm to 130mm diameter, 50-4000w 
7) AC Gear Motor: 49 to 100mm diameter, 6-140 output power 

1. Production Line:

2. Testing Equipment:

3. Certificates:

4. Customer Visits:

6. FAQ:

Q: What’s your main products?
A:We currently produce Brushed Dc Motors, Brushed Dc gear Motors, Planetary Dc Gear Motors, Brushless Dc Motors, Stepper motors and Ac Motors etc. You can check the specifications for above motors on our website and you can email us to recommend needed motors per your specification too.

Q:How to select a suitable motor?
A:If you have motor pictures or drawings to show us, or you have detailed specs like voltage, speed, torque, motor size, working mode of the motor, needed life time and noise level etc, please do not hesitate to let us know, then we can recommend suitable motor per your request accordingly.

Q: Do you have customized service for your standard motors?
A:Yes, we can customize per your request for the voltage, speed, torque and shaft size/shape. If you need additional wires/cables soldered on the terminal or need to add connectors, or capacitors or EMC we can make it too.

Q:Do you have individual design service for motors?
A:Yes, we would like to design motors individually for our customers, but it may need some mould charge and design charge. 

Q:Can I have samples for testing first?
A:Yes, definitely you can. After confirmed the needed motor specs, we will quote and provide a proforma invoice for samples, once we get the payment, we will get a PASS from our account department to proceed samples accordingly.

Q:How do you make sure motor quality?
A:We have our own inspection procedures: for incoming materials, we have signed sample and drawing to make sure qualified incoming materials; for production process, we have tour inspection in the process and final inspection to make sure qualified products before shipping.

Q:What’s your lead time?
A:Generally speaking, our regular standard product will need 25-30days, a bit longer for customized products. But we are very flexible on the lead time, it will depends on the specific orders

Q:What’s your payment term?
A:For all our new customers, we will need 40% deposite, 60% paid before shipment.

Q:When will you reply after got my inquiries?
A:We will response within 24 hours once get your inquires.

Q:How can I trust you to make sure my money is safe?
A:We are certified by the third party SGS and we have exported to over 85 countries up to June.2017. You can check our reputation with our current customers in your country (if our customers do not mind), or you can order via alibaba to get trade assurance from alibaba to make sure your money is safe.

Q:What’s the minimum order quantity?
A:Our minimum order quantity depends on different motor models, please email us to check. Also, we usually do not accept personal use motor orders. 

Q:What’s your shipping method for motors?
A:For samples and packages less than 100kg, we usually suggest express shipping; For heavy packages, we usually suggest air shipping or sea shipping. But it all depends on our customers’ needs.

Q:What certifications do you have?
A:We currently have CE and ROSH certifications.

Q:Can you send me your price list?
A:Since we have hundreds of different products, and price varies per different specifications, we are not able to offer a price list. But we can quote within 24 hours once got your inquirues to make sure you can get the price in time.

Q:Can I visit your company?
A:Yes, welcome to visit our company, but please let us know at least 2 weeks in advance to help us make sure no other meetings during the day you visit us. Thanks!

Weclome contact with us if have any questions about this motor or other products! /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Robot, Toys, Automatic Door Lock, Camera
Operating Speed: Low Speed
Function: Driving
Casing Protection: Open Type
Structure and Working Principle: Brush
Type: DC Gear Motor
Samples:
US$ 10/Piece
1 Piece(Min.Order)

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Customization:
Available

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gear motor

How is the efficiency of a gear motor measured, and what factors can affect it?

The efficiency of a gear motor is a measure of how effectively it converts electrical input power into mechanical output power. It indicates the motor’s ability to minimize losses and maximize its energy conversion efficiency. The efficiency of a gear motor is typically measured using specific methods, and several factors can influence it. Here’s a detailed explanation:

Measuring Efficiency:

The efficiency of a gear motor is commonly measured by comparing the mechanical output power (Pout) to the electrical input power (Pin). The formula to calculate efficiency is:

Efficiency = (Pout / Pin) * 100%

The mechanical output power can be determined by measuring the torque (T) produced by the motor and the rotational speed (ω) at which it operates. The formula for mechanical power is:

Pout = T * ω

The electrical input power can be measured by monitoring the current (I) and voltage (V) supplied to the motor. The formula for electrical power is:

Pin = V * I

By substituting these values into the efficiency formula, the efficiency of the gear motor can be calculated as a percentage.

Factors Affecting Efficiency:

Several factors can influence the efficiency of a gear motor. Here are some notable factors:

  • Friction and Mechanical Losses: Friction between moving parts, such as gears and bearings, can result in mechanical losses and reduce the overall efficiency of the gear motor. Minimizing friction through proper lubrication, high-quality components, and efficient design can help improve efficiency.
  • Gearing Efficiency: The design and quality of the gears used in the gear motor can impact its efficiency. Gear trains can introduce mechanical losses due to gear meshing, misalignment, or backlash. Using well-designed gears with proper tooth profiles and minimizing gear train losses can improve efficiency.
  • Motor Type and Construction: Different types of motors (e.g., brushed DC, brushless DC, AC induction) have varying efficiency characteristics. Motor construction, such as the quality of magnetic materials, winding resistance, and rotor design, can also affect efficiency. Choosing motors with higher efficiency ratings can improve overall gear motor efficiency.
  • Electrical Losses: Electrical losses, such as resistive losses in motor windings or in the motor drive circuitry, can reduce efficiency. Minimizing resistance, optimizing motor drive electronics, and using efficient control algorithms can help mitigate electrical losses.
  • Load Conditions: The operating conditions and load characteristics placed on the gear motor can impact its efficiency. Heavy loads, high speeds, or frequent acceleration and deceleration can increase losses and reduce efficiency. Matching the gear motor’s specifications to the application requirements and optimizing load conditions can improve efficiency.
  • Temperature: Elevated temperatures can significantly affect the efficiency of a gear motor. Excessive heat can increase resistive losses, reduce lubrication effectiveness, and affect the magnetic properties of motor components. Proper cooling and thermal management techniques are essential to maintain optimal efficiency.

By considering these factors and implementing measures to minimize losses and optimize performance, the efficiency of a gear motor can be enhanced. Manufacturers often provide efficiency specifications for gear motors, allowing users to select motors that best meet their efficiency requirements for specific applications.

gear motor

What is the significance of gear reduction in gear motors, and how does it affect efficiency?

Gear reduction plays a significant role in gear motors as it enables the motor to deliver higher torque while reducing the output speed. This feature has several important implications for gear motors, including enhanced power transmission, improved control, and potential trade-offs in terms of efficiency. Here’s a detailed explanation of the significance of gear reduction in gear motors and its effect on efficiency:

Significance of Gear Reduction:

1. Increased Torque: Gear reduction allows gear motors to generate higher torque output compared to a motor without gears. By reducing the rotational speed at the output shaft, gear reduction increases the mechanical advantage of the system. This increased torque is beneficial in applications that require high torque to overcome resistance, such as lifting heavy loads or driving machinery with high inertia.

2. Improved Control: Gear reduction enhances the control and precision of gear motors. By reducing the speed, gear reduction allows for finer control over the motor’s rotational movement. This is particularly important in applications that require precise positioning or accurate speed control. The gear reduction mechanism enables gear motors to achieve smoother and more controlled movements, reducing the risk of overshooting or undershooting the desired position.

3. Load Matching: Gear reduction helps match the motor’s power characteristics to the load requirements. Different applications have varying torque and speed requirements. Gear reduction allows the gear motor to achieve a better match between the motor’s power output and the specific requirements of the load. It enables the motor to operate closer to its peak efficiency by optimizing the torque-speed trade-off.

Effect on Efficiency:

While gear reduction offers several advantages, it can also affect the efficiency of gear motors. Here’s how gear reduction impacts efficiency:

1. Mechanical Efficiency: The gear reduction process introduces mechanical components such as gears, bearings, and lubrication systems. These components introduce additional friction and mechanical losses into the system. As a result, some energy is lost in the form of heat during the gear reduction process. The efficiency of the gear motor is influenced by the quality of the gears, the lubrication used, and the overall design of the gear system. Well-designed and properly maintained gear systems can minimize these losses and optimize mechanical efficiency.

2. System Efficiency: Gear reduction affects the overall system efficiency by impacting the motor’s electrical efficiency. In gear motors, the motor typically operates at higher speeds and lower torques compared to a direct-drive motor. The overall system efficiency takes into account both the electrical efficiency of the motor and the mechanical efficiency of the gear system. While gear reduction can increase the torque output, it also introduces additional losses due to increased mechanical complexity. Therefore, the overall system efficiency may be lower compared to a direct-drive motor for certain applications.

It’s important to note that the efficiency of gear motors is influenced by various factors beyond gear reduction, such as motor design, control systems, and operating conditions. The selection of high-quality gears, proper lubrication, and regular maintenance can help minimize losses and improve efficiency. Additionally, advancements in gear technology, such as the use of precision gears and improved lubricants, can contribute to higher overall efficiency in gear motors.

In summary, gear reduction is significant in gear motors as it provides increased torque, improved control, and better load matching. However, gear reduction can introduce mechanical losses and affect the overall efficiency of the system. Proper design, maintenance, and consideration of application requirements are essential to optimize the balance between torque, speed, and efficiency in gear motors.

gear motor

How does the gearing mechanism in a gear motor contribute to torque and speed control?

The gearing mechanism in a gear motor plays a crucial role in controlling torque and speed. By utilizing different gear ratios and configurations, the gearing mechanism allows for precise manipulation of these parameters. Here’s a detailed explanation of how the gearing mechanism contributes to torque and speed control in a gear motor:

The gearing mechanism consists of multiple gears with varying sizes, tooth configurations, and arrangements. Each gear in the system engages with another gear, creating a mechanical connection. When the motor rotates, it drives the rotation of the first gear, which then transfers the motion to subsequent gears, ultimately resulting in the output shaft’s rotation.

Torque Control:

The gearing mechanism in a gear motor enables torque control through the principle of mechanical advantage. The gear system utilizes gears with different numbers of teeth, known as gear ratio, to adjust the torque output. When a smaller gear (pinion) engages with a larger gear (gear), the pinion rotates faster than the gear but exerts more force or torque. This results in torque amplification, allowing the gear motor to deliver higher torque at the output shaft while reducing the rotational speed. Conversely, if a larger gear engages with a smaller gear, torque reduction occurs, resulting in higher rotational speed at the output shaft.

By selecting the appropriate gear ratio, the gearing mechanism effectively adjusts the torque output of the gear motor to match the requirements of the application. This torque control capability is essential in applications that demand high torque for heavy lifting or overcoming resistance, as well as applications that require lower torque but higher rotational speed.

Speed Control:

The gearing mechanism also contributes to speed control in a gear motor. The gear ratio determines the relationship between the rotational speed of the input shaft (driven by the motor) and the output shaft. When a gear motor has a higher gear ratio (more teeth on the driven gear compared to the driving gear), it reduces the output speed while increasing the torque. Conversely, a lower gear ratio increases the output speed while reducing the torque.

By choosing the appropriate gear ratio, the gearing mechanism allows for precise speed control in a gear motor. This is particularly useful in applications that require specific speed ranges or variations, such as conveyor systems, robotic movements, or machinery that needs to operate at different speeds for different tasks. The speed control capability of the gearing mechanism enables the gear motor to match the desired speed requirements of the application accurately.

In summary, the gearing mechanism in a gear motor contributes to torque and speed control by utilizing different gear ratios and configurations. It enables torque amplification or reduction, depending on the gear arrangement, allowing the gear motor to deliver the required torque output. Additionally, the gear ratio also determines the relationship between the rotational speed of the input and output shafts, providing precise speed control. These torque and speed control capabilities make gear motors versatile and suitable for a wide range of applications in various industries.

China supplier Low Speed Right Angle Micro DC Worm Gear Motor 6V/12V/24V   vacuum pump and compressor	China supplier Low Speed Right Angle Micro DC Worm Gear Motor 6V/12V/24V   vacuum pump and compressor
editor by CX 2024-04-17

China high quality 1500W 200 Nm 33rpm 1.5 Kw 1500watt 48V 72 V 310V Brushless DC Worm Gear BLDC Electric Motor for Lawnmower vacuum pump adapter

Product Description

Product Description

Feature:
A. High power range from 50W to 2KW
B. Dia: 57mm-110mm
C. Easy for speed & direction adjustment
D. Rich stock and fast shipping time in 10 working days
E. Strong stability for driver/controller
F. Lifetime above continuous 10000 hours
G. IP65 protection rank is available for us
H. Above 90% enery efficiency motor is available
I. 3D file is available if customers needed
K.High-performance and stable matching driver and controller

Kindly remind: As different customers may need different motor parameter for fitting your equipment. If below motor can’t fit your need, please kindly send inquiry to us with information for rated power or torque,rated speed, and rated voltage for our new size drawing making for you. CLICK HERE to contact me. Thanks a lot!
Δ 110mm BLDC Motor with RV75 Worm Gearbox Size Dimensions
Dimensions (Unit: mm )
Mounting screws are included with gear head.

Δ Brushless DC Motor Specification:

Motor Power (W)

600

1000

1500

Motor Length(mm)

123

153

183

Motor Rated Speed(rpm)

2000

Δ RV63 Worm Gearbox Specification:

Gear Ratio 7.5 10 15 20 25 30 40 50 60 80 100
Rated output speed(rpm) 267 200 133 100 80 67 50 40 33 25 20
Rated Torque(N.m)  43 57.3 86 111.7 136.1 159 200.6 177 200 180 139

Other Specification form:
Δ Motor interface, Voltage, Speed can be customized.

For More Details Of Product Specifications,
Please Click here contact us for updated size drawing if you have other different parameter needed. Thanks

 

More Motor Flange Size

Δ More Motor Flange Size to choose, if you need other size. Welcome to contact us to custom.

BLDC Motor with Gearbox Range

Company Profile

DMKE motor was founded in China, HangZhou city,Xihu (West Lake) Dis. district, in 2009. After 12 years’ creativity and development, we became 1 of the leading high-tech companies in China in dc motor industry.

We specialize in high precision micro dc gear motors, brushless motors, brushless controllers, dc servo motors, dc servo controllers etc. And we produce brushless dc motor and controller with wide power range from 5 watt to 20 kilowatt; also dc servo motor power range from 50 watt to 10 kilowatt. They are widely used in automatic guided vehicle , robots, lifting equipment,cleaning machine, medical equipment, packing machinery, and many other industrial automatic equipments.

With a plant area of 4000 square meters, we have built our own supply chain with high quality control standard and passed ISO9001 certificate of quality system.

With more than 10 engineers for brushless dc motor and controllers’ research and development, we own strong independent design and development capability. Custom-made motors and controllers are widely accepted by us. At the same time, we have engineers who can speak fluent English. That makes we can supply intime after-sales support and guidance smoothly for our customers.

Our motors are exported worldwide, and over 80% motors are exported to Europe, the United States, Saudi Arabia, Australia, Korea etc. We are looking CHINAMFG to establishing long-term business relationship together with you for mutual business success.

FAQ

Q1: What kind motors you can provide?
A1: For now, we mainly provide permanent magnet brushless dc motor, dc gear motor, micro dc motor, planetary gear motor, dc servo motor, brush dc motors, with diameter range from 16 to 220mm,and power range from 5W to 20KW.

Q2: Is there a MOQ for your motors?
A2: No. we can accept 1 pcs for sample making for your testing,and the price for sample making will have 10% to 30% difference than bulk price based on different style.

Q3: Could you send me a price list?
A3: For all of our motors, they are customized based on different requirements like power, voltage, gear ratio, rated torque and shaft diameter etc. The price also varies according to different order qty. So it’s difficult for us to provide a price list.
If you can share your detailed specification and order qty, we’ll see what offer we can provide.

Q4: Are you motors reversible?
A4: Yes, nearly all dc and ac motor are reversible. We have technical people who can teach how to get the function by different wire connection.

Q5: Is it possible for you to develop new motors if we provide the tooling cost?
A5: Yes. Please kindly share the detailed requirements like performance, size, annual quantity, target price etc. Then we’ll make our evaluation to see if we can arrange or not.

Q6:How about your delivery time?
A6: For micro brush dc gear motor, the sample delivery time is 2-5 days, bulk delivery time is about 15-20 days, depends on the order qty.
For brushless dc motor, the sample deliver time is about 10-15 days; bulk time is 15-20 days.
Pleasecontact us for final reference.

Q7:What’s your warranty terms?
A6: One year /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Universal, Industrial, Household Appliances, Power Tools
Operating Speed: Adjust Speed
Excitation Mode: Compound
Function: Control, Driving
Casing Protection: Protection Type
Number of Poles: 8
Samples:
US$ 353.85/Piece
1 Piece(Min.Order)

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Customization:
Available

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gear motor

Can gear motors be used in robotics, and if so, what are some notable applications?

Yes, gear motors are widely used in robotics due to their ability to provide torque, precise control, and compact size. They play a crucial role in various robotic applications, enabling the movement, manipulation, and control of robotic systems. Here are some notable applications of gear motors in robotics:

1. Robotic Arm Manipulation:

Gear motors are commonly used in robotic arms to provide precise and controlled movement. They enable the articulation of the arm’s joints, allowing the robot to reach different positions and orientations. Gear motors with high torque capabilities are essential for lifting, rotating, and manipulating objects with varying weights and sizes.

2. Mobile Robots:

Gear motors are employed in mobile robots, including wheeled robots and legged robots, to drive their locomotion. They provide the necessary torque and control for the robot to move, turn, and navigate in different environments. Gear motors with appropriate gear ratios ensure the robot’s mobility, stability, and maneuverability.

3. Robotic Grippers and End Effectors:

Gear motors are used in robotic grippers and end effectors to control the opening, closing, and gripping force. By integrating gear motors into the gripper mechanism, robots can grasp and manipulate objects of various shapes, sizes, and weights. The gear motors enable precise control over the gripping action, allowing the robot to handle delicate or fragile objects with care.

4. Autonomous Drones and UAVs:

Gear motors are utilized in the propulsion systems of autonomous drones and unmanned aerial vehicles (UAVs). They drive the propellers or rotors, providing the necessary thrust and control for the drone’s flight. Gear motors with high power-to-weight ratios, efficient energy conversion, and precise speed control are crucial for achieving stable and maneuverable flight in drones.

5. Humanoid Robots:

Gear motors are integral to the movement and functionality of humanoid robots. They are used in robotic joints, such as hips, knees, and shoulders, to enable human-like movements. Gear motors with appropriate torque and speed capabilities allow humanoid robots to walk, run, climb stairs, and perform complex motions resembling human actions.

6. Robotic Exoskeletons:

Gear motors play a vital role in robotic exoskeletons, which are wearable robotic devices designed to augment human strength and assist in physical tasks. Gear motors are used in the exoskeleton’s joints and actuators, providing the necessary torque and control to enhance human abilities. They enable users to perform tasks with reduced effort, assist in rehabilitation, or provide support in physically demanding environments.

These are just a few notable applications of gear motors in robotics. Their versatility, torque capabilities, precise control, and compact size make them indispensable components in various robotic systems. Gear motors enable robots to perform complex tasks, move with agility, interact with the environment, and assist humans in a wide range of applications, from industrial automation to healthcare and exploration.

gear motor

Can you explain the role of backlash in gear motors and how it’s managed in design?

Backlash plays a significant role in gear motors and is an important consideration in their design and operation. Backlash refers to the slight clearance or play between the teeth of gears in a gear system. It affects the precision, accuracy, and responsiveness of the gear motor. Here’s an explanation of the role of backlash in gear motors and how it is managed in design:

1. Role of Backlash:

Backlash in gear motors can have both positive and negative effects:

  • Compensation for Misalignment: Backlash can help compensate for minor misalignments between gears, shafts, or the load. It allows a small amount of movement before engaging the next set of teeth, reducing the risk of damage due to misalignment. This can be particularly beneficial in applications where precise alignment is challenging or subject to variations.
  • Negative Impact on Accuracy and Responsiveness: Backlash can introduce a delay or “dead zone” in the motion transmission. When changing the direction of rotation or reversing the load, the gear teeth must first overcome the clearance or play before engaging in the opposite direction. This delay can reduce the overall accuracy, responsiveness, and repeatability of the gear motor, especially in applications that require precise positioning or rapid changes in direction or speed.

2. Managing Backlash in Design:

Designers employ various techniques to manage and minimize backlash in gear motors:

  • Tight Manufacturing Tolerances: Proper manufacturing techniques and tight tolerances can help minimize backlash. Precision machining and quality control during the production of gears and gear components ensure closer tolerances, reducing the amount of play between gear teeth.
  • Preload or Pre-tensioning: Applying a preload or pre-tensioning force to the gear system can help reduce backlash. This technique involves introducing an initial force or tension that eliminates the clearance between gear teeth. It ensures immediate contact and engagement of the gear teeth, minimizing the dead zone and improving the overall responsiveness and accuracy of the gear motor.
  • Anti-Backlash Gears: Anti-backlash gears are designed specifically to minimize or eliminate backlash. They typically feature modifications to the gear tooth profile, such as modified tooth shapes or special tooth arrangements, to reduce clearance. Anti-backlash gears can be used in gear motor designs to improve precision and minimize the effects of backlash.
  • Backlash Compensation: In some cases, backlash compensation techniques can be employed. These techniques involve monitoring the position or movement of the load and applying control algorithms to compensate for the backlash. By accounting for the clearance and adjusting the control signals accordingly, the effects of backlash can be mitigated, improving accuracy and responsiveness.

3. Application-Specific Considerations:

The management of backlash in gear motors should be tailored to the specific application requirements:

  • Positioning Accuracy: Applications that require precise positioning, such as robotics or CNC machines, may require tighter backlash control to ensure accurate and repeatable movements.
  • Dynamic Response: Applications that involve rapid changes in direction or speed, such as high-speed automation or servo control systems, may require reduced backlash to maintain responsiveness and minimize overshoot or lag.
  • Load Characteristics: The nature of the load and its impact on the gear system should be considered. Heavy loads or applications with significant inertial forces may require additional backlash management techniques to maintain stability and accuracy.

In summary, backlash in gear motors can affect precision, accuracy, and responsiveness. While it can compensate for misalignments, backlash may introduce delays and reduce the overall performance of the gear motor. Designers manage backlash through tight manufacturing tolerances, preload techniques, anti-backlash gears, and backlash compensation methods. The management of backlash depends on the specific application requirements, considering factors such as positioning accuracy, dynamic response, and load characteristics.

gear motor

How does the gearing mechanism in a gear motor contribute to torque and speed control?

The gearing mechanism in a gear motor plays a crucial role in controlling torque and speed. By utilizing different gear ratios and configurations, the gearing mechanism allows for precise manipulation of these parameters. Here’s a detailed explanation of how the gearing mechanism contributes to torque and speed control in a gear motor:

The gearing mechanism consists of multiple gears with varying sizes, tooth configurations, and arrangements. Each gear in the system engages with another gear, creating a mechanical connection. When the motor rotates, it drives the rotation of the first gear, which then transfers the motion to subsequent gears, ultimately resulting in the output shaft’s rotation.

Torque Control:

The gearing mechanism in a gear motor enables torque control through the principle of mechanical advantage. The gear system utilizes gears with different numbers of teeth, known as gear ratio, to adjust the torque output. When a smaller gear (pinion) engages with a larger gear (gear), the pinion rotates faster than the gear but exerts more force or torque. This results in torque amplification, allowing the gear motor to deliver higher torque at the output shaft while reducing the rotational speed. Conversely, if a larger gear engages with a smaller gear, torque reduction occurs, resulting in higher rotational speed at the output shaft.

By selecting the appropriate gear ratio, the gearing mechanism effectively adjusts the torque output of the gear motor to match the requirements of the application. This torque control capability is essential in applications that demand high torque for heavy lifting or overcoming resistance, as well as applications that require lower torque but higher rotational speed.

Speed Control:

The gearing mechanism also contributes to speed control in a gear motor. The gear ratio determines the relationship between the rotational speed of the input shaft (driven by the motor) and the output shaft. When a gear motor has a higher gear ratio (more teeth on the driven gear compared to the driving gear), it reduces the output speed while increasing the torque. Conversely, a lower gear ratio increases the output speed while reducing the torque.

By choosing the appropriate gear ratio, the gearing mechanism allows for precise speed control in a gear motor. This is particularly useful in applications that require specific speed ranges or variations, such as conveyor systems, robotic movements, or machinery that needs to operate at different speeds for different tasks. The speed control capability of the gearing mechanism enables the gear motor to match the desired speed requirements of the application accurately.

In summary, the gearing mechanism in a gear motor contributes to torque and speed control by utilizing different gear ratios and configurations. It enables torque amplification or reduction, depending on the gear arrangement, allowing the gear motor to deliver the required torque output. Additionally, the gear ratio also determines the relationship between the rotational speed of the input and output shafts, providing precise speed control. These torque and speed control capabilities make gear motors versatile and suitable for a wide range of applications in various industries.

China high quality 1500W 200 Nm 33rpm 1.5 Kw 1500watt 48V 72 V 310V Brushless DC Worm Gear BLDC Electric Motor for Lawnmower   vacuum pump adapter	China high quality 1500W 200 Nm 33rpm 1.5 Kw 1500watt 48V 72 V 310V Brushless DC Worm Gear BLDC Electric Motor for Lawnmower   vacuum pump adapter
editor by CX 2024-04-09

China Hot selling Worm Gear Reducer Motors with Great quality

Product Description

RV series Characteristics

  • RV – Sizes:–150
  • Input Options: with input shaft, With Square flange,With Input Flange
  • Input Power 0.06 to 11 kW
  • RV-Size from 030 to 105 in die-cast aluminium alloy budy and over 110 in cast iron
  • Ratios between 5 and 100
  • Max torque 1550 N.m and admissible output radial loads max 8771 N
  • Aluminium units are supplied complete with synthetic oil and allow for universal mounting positions, with no need to modify lubricant quantity
  • Worm wheel: Copper (KK Cu). 
  • Loading capacity in accordance with: ISO 9001:2015/GB/T 19001-2016
  • Size 030 and over are painted with RAL 5571 blue
  • Worm gear reducers are available with diffferent combinations: NMRV+NMRV, NMRVpower+NMRV, JWB+NMRV
  • NMRV, NRV+VS,NMRV+AS,NMRV+VS,NMRV+F
  • Options: torque arm, output flange, viton oil seals, low/high temperature oil, filling/drain/breather/level plug,Small gap

Basic models can be applied to a wide range of power reduction ratios from 5 to 1000.
Warranty: One year from date of delivery.

 

WORM GEARBOX          
SNW SERIES          Output Speed Range:
Type Old Type Output Torque Output Shaft Dia.   14rpm-280rpm
SNW030  RV030  21N.m  φ14   Applicable Motor Power:
SNW040  RV040  45N.m  φ19   0.06kW-11kW
SNW050  RV050  84N.m  φ25   Input Options1:
SNW063  RV063  160N.m  φ25   With Inline AC Motor
SNW075  RV075  230N.m  φ28   Input Options2:
SNW090  RV090  410N.m  φ35   With Square flange
SNW105  RV105  630N.m  φ42   Input Options3:
SNW110  RV110  725N.m  φ42   With Input Shaft
SNW130  RV130  1050N.m  φ45   Input Options4:
SNW150  RV150  1550N.m  φ50   With Input Flange

Starshine Drive

ZheJiang CHINAMFG Drive Co.,Ltd,the predecessor was a state-owned military mould enterprise, was established in 1965. CHINAMFG specializes in the complete power transmission solution for high-end equipment manufacturing industries based on the aim of “Platform Product, Application Design and Professional Service”.
CHINAMFG have a strong technical force with over 350 employees at present, including over 30 engineering technicians, 30 quality inspectors, covering an area of 80000 square CHINAMFG and kinds of advanced processing machines and testing equipments. We have a good foundation for the industry application development and service of high-end speed reducers & variators owning to the provincial engineering technology research center,the lab of gear speed reducers, and the base of modern R&D.

Our Team

Quality Control
Quality:Insist on Improvement,Strive for Excellence With the development of equipment manufacturing indurstry,customer never satirsfy with the current quality of our products,on the contrary,wcreate the value of quality.
Quality policy:to enhance the overall level in the field of power transmission  
Quality View:Continuous Improvement , pursuit of excellence
Quality Philosophy:Quality creates value

3. Incoming Quality Control
To establish the AQL acceptable level of incoming material control, to provide the material for the whole inspection, sampling, immunity. On the acceptance of qualified products to warehousing, substandard goods to take return, check, rework, rework inspection; responsible for tracking bad, to monitor the supplier to take corrective measures
 to prevent recurrence.

4. Process Quality Control
The manufacturing site of the first examination, inspection and final inspection, sampling according to the requirements of some projects, judging the quality change trend;
 found abnormal phenomenon of manufacturing, and supervise the production department to improve, eliminate the abnormal phenomenon or state.

5. FQC(Final QC)
After the manufacturing department will complete the product, stand in the customer’s position on the finished product quality verification, in order to ensure the quality of 
customer expectations and needs.

6. OQC(Outgoing QC)
After the product sample inspection to determine the qualified, allowing storage, but when the finished product from the warehouse before the formal delivery of the goods, there is a check, this is called the shipment inspection.Check content:In the warehouse storage and transfer status to confirm, while confirming the delivery of the product
 is a product inspection to determine the qualified products.

Packing

Delivery

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Application: Motor, Machinery, Marine
Function: Distribution Power, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction
Layout: Corner
Hardness: Hardened Tooth Surface
Installation: Vertical Type
Step: Single-Step
Customization:
Available

|

gear motor

Where can individuals find reliable resources for learning more about gear motors and their applications?

Individuals seeking to learn more about gear motors and their applications have access to various reliable resources that provide valuable information and insights. Here are some sources where individuals can find reliable information about gear motors:

1. Manufacturer Websites:

Manufacturer websites are a primary source of information about gear motors. Gear motor manufacturers often provide detailed product specifications, application guides, technical documentation, and educational materials on their websites. These resources offer insights into different gear motor types, features, performance characteristics, and application considerations. Manufacturer websites are a reliable and convenient starting point for learning about gear motors.

2. Industry Associations and Organizations:

Industry associations and organizations related to mechanical engineering, automation, and motion control often have resources and publications dedicated to gear motors. These organizations provide technical articles, whitepapers, industry standards, and guidelines related to gear motor design, selection, and application. Examples of such associations include the American Gear Manufacturers Association (AGMA), International Electrotechnical Commission (IEC), and Institute of Electrical and Electronics Engineers (IEEE).

3. Technical Publications and Journals:

Technical publications and journals focused on engineering, robotics, and motion control are valuable sources of in-depth knowledge about gear motors. Publications like IEEE Transactions on Industrial Electronics, Mechanical Engineering magazine, or Motion System Design magazine often feature articles, case studies, and research papers on gear motor technology, advancements, and applications. These publications provide authoritative and up-to-date information from industry experts and researchers.

4. Online Forums and Communities:

Online forums and communities dedicated to engineering, robotics, and automation can be excellent resources for discussions, insights, and practical experiences related to gear motors. Websites like Stack Exchange, engineering-focused subreddits, or specialized forums provide platforms for individuals to ask questions, share knowledge, and engage in discussions with professionals and enthusiasts in the field. Participating in these communities allows individuals to learn from real-world experiences and gain practical insights.

5. Educational Institutions and Courses:

Technical colleges, universities, and vocational training centers often offer courses or programs in mechanical engineering, mechatronics, or automation that cover gear motor fundamentals and applications. These educational institutions provide comprehensive curricula, textbooks, and lecture materials that can serve as reliable resources for individuals interested in learning about gear motors. Additionally, online learning platforms like Coursera, Udemy, or LinkedIn Learning offer courses on topics related to gear motors and motion control.

6. Trade Shows and Exhibitions:

Attending trade shows, exhibitions, and industry conferences related to automation, robotics, or motion control provides opportunities to learn about the latest advancements in gear motor technology. These events often feature product demonstrations, technical presentations, and expert panels where individuals can interact with gear motor manufacturers, industry experts, and other professionals. It’s a great way to stay updated on the latest trends, innovations, and applications of gear motors.

When seeking reliable resources, it’s important to consider the credibility of the source, the expertise of the authors, and the relevance to the specific area of interest. By leveraging these resources, individuals can gain a comprehensive understanding of gear motors and their applications, from basic principles to advanced topics, enabling them to make informed decisions and effectively utilize gear motors in their projects or applications.

gear motor

Can you explain the role of backlash in gear motors and how it’s managed in design?

Backlash plays a significant role in gear motors and is an important consideration in their design and operation. Backlash refers to the slight clearance or play between the teeth of gears in a gear system. It affects the precision, accuracy, and responsiveness of the gear motor. Here’s an explanation of the role of backlash in gear motors and how it is managed in design:

1. Role of Backlash:

Backlash in gear motors can have both positive and negative effects:

  • Compensation for Misalignment: Backlash can help compensate for minor misalignments between gears, shafts, or the load. It allows a small amount of movement before engaging the next set of teeth, reducing the risk of damage due to misalignment. This can be particularly beneficial in applications where precise alignment is challenging or subject to variations.
  • Negative Impact on Accuracy and Responsiveness: Backlash can introduce a delay or “dead zone” in the motion transmission. When changing the direction of rotation or reversing the load, the gear teeth must first overcome the clearance or play before engaging in the opposite direction. This delay can reduce the overall accuracy, responsiveness, and repeatability of the gear motor, especially in applications that require precise positioning or rapid changes in direction or speed.

2. Managing Backlash in Design:

Designers employ various techniques to manage and minimize backlash in gear motors:

  • Tight Manufacturing Tolerances: Proper manufacturing techniques and tight tolerances can help minimize backlash. Precision machining and quality control during the production of gears and gear components ensure closer tolerances, reducing the amount of play between gear teeth.
  • Preload or Pre-tensioning: Applying a preload or pre-tensioning force to the gear system can help reduce backlash. This technique involves introducing an initial force or tension that eliminates the clearance between gear teeth. It ensures immediate contact and engagement of the gear teeth, minimizing the dead zone and improving the overall responsiveness and accuracy of the gear motor.
  • Anti-Backlash Gears: Anti-backlash gears are designed specifically to minimize or eliminate backlash. They typically feature modifications to the gear tooth profile, such as modified tooth shapes or special tooth arrangements, to reduce clearance. Anti-backlash gears can be used in gear motor designs to improve precision and minimize the effects of backlash.
  • Backlash Compensation: In some cases, backlash compensation techniques can be employed. These techniques involve monitoring the position or movement of the load and applying control algorithms to compensate for the backlash. By accounting for the clearance and adjusting the control signals accordingly, the effects of backlash can be mitigated, improving accuracy and responsiveness.

3. Application-Specific Considerations:

The management of backlash in gear motors should be tailored to the specific application requirements:

  • Positioning Accuracy: Applications that require precise positioning, such as robotics or CNC machines, may require tighter backlash control to ensure accurate and repeatable movements.
  • Dynamic Response: Applications that involve rapid changes in direction or speed, such as high-speed automation or servo control systems, may require reduced backlash to maintain responsiveness and minimize overshoot or lag.
  • Load Characteristics: The nature of the load and its impact on the gear system should be considered. Heavy loads or applications with significant inertial forces may require additional backlash management techniques to maintain stability and accuracy.

In summary, backlash in gear motors can affect precision, accuracy, and responsiveness. While it can compensate for misalignments, backlash may introduce delays and reduce the overall performance of the gear motor. Designers manage backlash through tight manufacturing tolerances, preload techniques, anti-backlash gears, and backlash compensation methods. The management of backlash depends on the specific application requirements, considering factors such as positioning accuracy, dynamic response, and load characteristics.

gear motor

How does the gearing mechanism in a gear motor contribute to torque and speed control?

The gearing mechanism in a gear motor plays a crucial role in controlling torque and speed. By utilizing different gear ratios and configurations, the gearing mechanism allows for precise manipulation of these parameters. Here’s a detailed explanation of how the gearing mechanism contributes to torque and speed control in a gear motor:

The gearing mechanism consists of multiple gears with varying sizes, tooth configurations, and arrangements. Each gear in the system engages with another gear, creating a mechanical connection. When the motor rotates, it drives the rotation of the first gear, which then transfers the motion to subsequent gears, ultimately resulting in the output shaft’s rotation.

Torque Control:

The gearing mechanism in a gear motor enables torque control through the principle of mechanical advantage. The gear system utilizes gears with different numbers of teeth, known as gear ratio, to adjust the torque output. When a smaller gear (pinion) engages with a larger gear (gear), the pinion rotates faster than the gear but exerts more force or torque. This results in torque amplification, allowing the gear motor to deliver higher torque at the output shaft while reducing the rotational speed. Conversely, if a larger gear engages with a smaller gear, torque reduction occurs, resulting in higher rotational speed at the output shaft.

By selecting the appropriate gear ratio, the gearing mechanism effectively adjusts the torque output of the gear motor to match the requirements of the application. This torque control capability is essential in applications that demand high torque for heavy lifting or overcoming resistance, as well as applications that require lower torque but higher rotational speed.

Speed Control:

The gearing mechanism also contributes to speed control in a gear motor. The gear ratio determines the relationship between the rotational speed of the input shaft (driven by the motor) and the output shaft. When a gear motor has a higher gear ratio (more teeth on the driven gear compared to the driving gear), it reduces the output speed while increasing the torque. Conversely, a lower gear ratio increases the output speed while reducing the torque.

By choosing the appropriate gear ratio, the gearing mechanism allows for precise speed control in a gear motor. This is particularly useful in applications that require specific speed ranges or variations, such as conveyor systems, robotic movements, or machinery that needs to operate at different speeds for different tasks. The speed control capability of the gearing mechanism enables the gear motor to match the desired speed requirements of the application accurately.

In summary, the gearing mechanism in a gear motor contributes to torque and speed control by utilizing different gear ratios and configurations. It enables torque amplification or reduction, depending on the gear arrangement, allowing the gear motor to deliver the required torque output. Additionally, the gear ratio also determines the relationship between the rotational speed of the input and output shafts, providing precise speed control. These torque and speed control capabilities make gear motors versatile and suitable for a wide range of applications in various industries.

China Hot selling Worm Gear Reducer Motors   with Great quality China Hot selling Worm Gear Reducer Motors   with Great quality
editor by CX 2024-04-08

China high quality 70zyt 50W 80W 70W 120W 100W 120W 110V 220V Micro Motoren DC Electric Motors with Nmrv Worm Gear manufacturer

Product Description

70ZYT 50w 80w 70w 120w 100w 120w 110v 220v Micro Motoren DC Electric Motors with NMRV Worm Gear

Round AC / DC Motor Specification

Model Torque
( mN.m)
Speed
(r/min)
Power
(W)
Voltage
(V)
Max Current
( A)
CW/CCW Speed Difference
( r/min)
55ZYT01 63.7 3000 20 24 1.50  200
55ZYT02 63.7 3000 20 27 1.30  200
55ZYT03 63.7 3000 20 48 0.70  200
55ZYT04 63.7 3000 20 110 0.34  200
55ZYT05 55.7 6000 35 24 2.50  300
55ZYT06 55.7 6000 35 27 2.20  300
55ZYT07 55.7 6000 35 48 1.30  300
55ZYT08 55.7 6000 35 110 0.54  300
55Z YT10 63.7 3600 24 110 0.40  200
55ZYT51 92.3 3000 29 24 2.10  200
55ZYT52 92.3 3000 29 27 1.80  200
55ZYT53 92.3 3000 29 48 1.10  200
55ZYT54 92.3 3000 29 110 0.46  200
55ZYT55 79.6 6000 50 24 3.45  300
55ZYT56 79.6 6000 50 27 3.10  300
55ZYT57 79.6 6000 50 48 1.74  300
55ZYT58 79.6 6000 50 110 0.74  300
55ZYT59 85 8000- 10000 80 110 1.15  500
55ZYT61 76.4 5000 40 24 2.50  250
55ZYT63/H1 127.4 1500 20 24 1.25  100
55ZYT64/H9 95 3000 30 220 0.25  200
55ZYT65 89.2 7500 70 110 1.00  400
55ZYT66 110.8 2500 29 110 0.45  150
55ZYT68 69.6 5500 40 36 1.70  250
55ZYT72 95.5 2500 25 24 1.70  150
70ZYT01 159.2 3000 50 24 3.20  200
70ZYT02 159.2 3000 50 27 2.90  200
70ZYT03 159.2 3000 50 48 1.50  200
70ZYT04 159.2 3000 50 110 0.70  200
70ZYT05 135.4 6000 85 24 5.20  300
70ZYT06 135.4 6000 85 27 4.80  300
70ZYT07 135.4 6000 85 48 2.60  300
70ZYT08 135.4 6000 85 110 1.10  300
70ZYT16 191 2000 40 24 2.30  100
70ZYT21 95.5 3000 50 220 0.20  200
70ZYT51 223 3000 70 24 4.30  200
70ZYT52 223 3000 70 27 3.80  200
70ZYT53 223 3000 70 48 2.20  200
70ZYT54 223 3000 70 110 0.95  200
70ZYT55 191.1 6000 120 24 7.50  300
70ZYT56 191.1 6000 120 27 6.60  300
70ZYT57 191.1 6000 120 48 3.80  300
70ZVT58 191.1 6000 120 110 1.60  300
70ZYT59 166.6 7500-9500 148 110 1.95  400
70ZYT60 238.8 4000 100 110 1.30  200
70ZYT80 223 3000 70 80 1.20  200
90ZYT01 323 1500 50 110 0.66  100
90ZYT02 323 1500 50 220 0.33  100
90ZYT03 294 3000 92 110 1.20  200
90ZYT04 294 3000 92 220 0.60  200
90ZYT05 294 3000 92 24 6.10  200
90ZYT51 510 1500 80 110 1.10  100
90ZYT52 510 1500 80 220 0.55  100
90ZYT53 480 3000 150 110 2.00  200
90ZYT54 480 3000 150 220 1.00  200
90ZYT55 510 1500 80 24 5.00  100
90ZYT56 480 3000 150 24 8.00  200
90ZYT101 796 1500 125 110 1.60  100
90ZYT102 7986 1500 125 220 0.80  100
90ZYT103 733 3000 230 110 2.80  200
90ZYT104 733 3000 230 220 1.50  200
90ZYT105 733 3000 230 24 13.50  200
90ZYT106 796 1500 125 24 6.50  200
110ZYT51 1177 1500 185 110 2.50  100
110ZYT52 1177 1500 185 220 1.25  100
110ZYT53 980 3000 308 110 4.00  200
110ZYT54 980 3000 308 220 2.00  200
110ZYT55 980 3000 308 24 16.50  200
110ZYT56 1177 1500 180 24 8.00  100
110ZYT101 1560 1500 245 110 3.00  100
110ZYT102 1560 1500 245 220 1.50  100
110ZYT103 1274 3000 400 110 4.80  200
110ZYT104 1274 3000 400 220 2.40  200
110ZYT105 1274 3000 400 24 22.50  200
110ZYT106 1560 1500 250 24 12.00  100
110ZYT151 2390 1500 375 110 4.50  100
110ZYT152 2390 1500 375 220 2.30  100
110ZYT153 2230 3000 700 110 8.50  200
110ZYT154 2230 3000 700 220 4.20  200
110ZYT155 2230 3000 700 24 45.00  200
110ZYT156 2390 1500 370 24 22.00  100
130ZYT51 3185 1500 550 110 5.80  100
130ZYT52 3185 1500 550 220 2.90  100
130ZYT53 3185 3000 1000 110 11.00  200
130ZYT54 3185 3000 1000 220 5.50  200
130ZYT55 3185 3000 1000 24 50.00  200
130ZYT56 3185 1500 550 24 28.00  100
130ZYT101 3822 1500 700 110 7.00  100
130ZYT102 3822 1500 700 220 3.50  100
130ZYT103 3822 3000 1200 110 13.00  200
130ZYT104 3822 3000 1200 220 6.50  200
130ZYT105 3820 1500 700 24 30.00  100
130ZYT106 3820 3000 1100 24 50.00  200
130ZYT151 4500 1500 1000 110 8.00  100
130ZYT152 4500 1500 1000 220 4.00  100
130ZYT153 4500 3000 1500 110 15.00  200
130ZVT154 4500 3000 1500 220 8.00  200
130ZYT155 4500 1500 1000 24 38.00  100
130ZYT156 4500 3000 1200 24 55.00  200
130ZYT185 6200 1500 1200 24 60.00  100

Worm Gearbox Specification

 

NMRV PAM N M P D
IEC 5 7.5 10 15 20 25 30 40 50 60 80 100
571 56B14 50 65 80 9 9 9 9 9 9 9 9 9
030 63B5 95 115 140 11 11 11 11 11 11 11 11 11
63B14 60 75 90
56B5 80 100 120 9 9 9 9 9 9 9 9 9 9 9
56B14 50 65 80
040 71B5 110 130 160 14 14 14 14 14 14 14 14
71B14 70 85 105
63B5 95 115 140 11 11 11 11 11 11 11 11 11 11 11 11
63B14 60 75 90
56B5 80 100 120 9 9 9 9
050 80B5 130 165 200 19 19 19 19 19 19 19
80B14 80 100 120
71B5 110 130 160 14 14 14 14 14 14 14 14 14 14 14
71B14 70 85 105
63B5 95 115 140 11 11 11 11 11
063 90B5 130 165 200 24 24 24 24 24 24 24
90B14 95 115 140
80B5 130 165 200 19 19 19 19 19 19 19 19 19 19
80B14 80 100 120
71B5 110 130 160 14 14 14 14 14
71B14 70 85 105
075 100/112B5 180 215 250 28 28 28
100/112B14 110 130 160
90B5 130 165 200 24 24 24 24 24 24 24 24
90B14 95 115 140
80B5 130 165 200 19 19 19 19 19 19 19 19
80B14 80 100 120
71B5 110 130 160 14 14 14 14
090 100/112B5 180 215 250 28 28 28 28 28 28 28
100/112B14 110 130 160
90B5 130 165 200 24 24 24 24 24 24 24 24 24 24
90B14 95 115 140
80B5 130 165 200 19 19 19 19 19
80B14 80 100 120
110 132B5 230 265 300 38 38 38 38
100/112B5 180 215 250 28 28 28 28 28 28 28 28 28
90B5 130 165 200 24 24 24 24 24 24 24
80B5 130 165 200 19 19
130 132B5 230 265 300 38 38 38 38 38 38 38
100 /112B5 180 215 250 28 28 28 28 28 28 28
90B5 130 165 200 24 24

Note:

Motor voltage, power and speed will be customized according to your request under the allowed circumstance of adoptable dimension. You may feel free to contact us for details. Our sales engineer will reply as soon as possible.

Small Electric Motor Family

Company Overview

 
HISTORY: Greensky is a mechanical brand of CHINAMFG Power Co., Ltd. With over 10 years’
mechanical manufacturing experiences, CHINAMFG Power always strictly stands on the
principle of Best Customer Satisfaction.

QUALITY: Material Inspection, Production Control, Finished Goods Test, Pre-dellivery Inspection

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MARKET30 different countries, mainly Germany, Austria, Japan, USA and Middle-East.

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Application: Universal, Industrial
Operating Speed: Adjust Speed
Excitation Mode: Excited
Function: Driving
Casing Protection: Protection Type
Number of Poles: 4
Samples:
US$ 100/Piece
1 Piece(Min.Order)

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Customization:
Available

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brushless motor

How can individuals troubleshoot common issues related to micro gear motor performance?

When encountering common issues related to micro gear motor performance, individuals can follow these troubleshooting steps:

  1. Check Power Supply: Ensure that the micro gear motor is receiving an adequate power supply. Verify the voltage and current levels are within the motor’s specifications. Check for loose connections, damaged cables, or faulty power sources.
  2. Inspect Mechanical Components: Examine the mechanical components of the micro gear motor, including gears, bearings, and shafts. Look for signs of wear, damage, or misalignment. Lubricate the gears and bearings if necessary. Tighten any loose screws or fasteners.
  3. Verify Control Signals: If the micro gear motor is controlled electronically, check the control signals. Ensure that the motor is receiving the correct signals and that the control circuitry is functioning properly. Test the motor with different control inputs to verify its response.
  4. Check for Overheating: Overheating can adversely affect micro gear motor performance. Monitor the motor’s temperature during operation. If it becomes excessively hot, check for proper ventilation and cooling. Remove any obstructions that may impede airflow around the motor.
  5. Inspect Wiring and Connections: Examine the wiring and connections of the micro gear motor. Look for loose or damaged wires, poor solder joints, or faulty connectors. Ensure that all electrical connections are secure and properly insulated.
  6. Review Motor Specifications: Refer to the motor’s specifications and documentation. Compare the operating conditions and requirements with the actual operating parameters. Ensure that the motor is being used within its specified limits regarding voltage, current, temperature, and load.
  7. Clean the Motor: Dust, debris, or contaminants can affect the performance of micro gear motors. Clean the motor and its components using appropriate methods and materials. Be careful not to damage any sensitive parts during the cleaning process.
  8. Seek Professional Assistance: If the troubleshooting steps do not resolve the issues or if the problems persist, it may be necessary to seek professional assistance. Contact the manufacturer, consult technical support, or seek the expertise of a qualified technician who specializes in micro gear motors.

By following these troubleshooting steps, individuals can diagnose and address common issues related to micro gear motor performance. It is important to approach troubleshooting with caution and adhere to safety guidelines to prevent further damage or injury.

brushless motor

What factors should be considered when selecting a micro gear motor for a particular application?

When selecting a micro gear motor for a particular application, several important factors should be taken into consideration. These factors help ensure that the chosen motor meets the specific requirements of the application and performs optimally. Here are the key factors to consider:

1. Torque Requirement:

Determine the torque requirements of the application. Consider both the maximum torque needed and the continuous torque required for sustained operation. Select a micro gear motor that can deliver the required torque output while considering factors such as load variations, start-up torque, and intermittent peak torque demands.

2. Speed Requirement:

Consider the desired speed range for the application. Determine the required output speed of the micro gear motor to ensure that it can meet the speed requirements of the specific task. It is important to select a motor with an appropriate gear ratio that can achieve the desired speed while considering the motor’s inherent speed limitations.

3. Power Supply:

Take into account the available power supply for the micro gear motor. Consider the voltage and current requirements of the motor and ensure compatibility with the available power source. Additionally, consider the power consumption and efficiency of the motor to optimize energy usage and minimize heat generation.

4. Physical Size and Mounting:

Consider the physical size and mounting requirements of the micro gear motor. Evaluate the available space for installation and ensure that the motor dimensions fit within the allotted space. Consider the mounting options, such as through-hole mounting, flange mounting, or custom mounting brackets, and choose a motor that can be easily integrated into the application.

5. Environmental Conditions:

Assess the environmental conditions in which the micro gear motor will operate. Consider factors such as temperature range, humidity, dust, vibration, and exposure to chemicals or corrosive substances. Select a motor that is designed to withstand and perform reliably under the specific environmental conditions of the application.

6. Expected Lifetime and Reliability:

Evaluate the expected lifetime and reliability requirements of the micro gear motor. Consider the duty cycle of the application, the expected operating hours, and the required maintenance intervals. Choose a motor with a reputation for reliability and durability to ensure long-term performance without frequent breakdowns or the need for premature replacements.

7. Control and Feedback:

Consider the control and feedback requirements of the micro gear motor. Determine if the application requires specific control interfaces, such as analog or digital signals, PWM control, or communication protocols like Modbus or CAN bus. Additionally, assess whether feedback mechanisms like encoders or sensors are necessary to provide accurate position or speed control.

8. Cost and Budget:

Evaluate the cost and budget constraints for the micro gear motor. Consider the overall cost of the motor, including the initial purchase price, installation costs, and any additional accessories or components required for proper operation. Balance the desired performance and features with the available budget to select a motor that provides the best value for the specific application.

9. Supplier and Support:

Consider the reputation and support provided by the micro gear motor supplier. Choose a reliable supplier with a track record of delivering quality products and excellent customer support. Ensure that the supplier offers technical assistance, documentation, and warranty coverage to address any potential issues or concerns that may arise during the motor’s lifespan.

By considering these factors, you can make an informed decision when selecting a micro gear motor for a particular application. It is essential to carefully evaluate the requirements and characteristics of the application to choose a motor that will meet performance expectations, ensure reliability, and provide optimal functionality.

brushless motor

What are micro gear motors, and how do they differ from standard-sized gear motors?

Micro gear motors are compact and lightweight motor units that combine a small electric motor with a gear mechanism. They are designed to provide precise and controlled motion in applications where space is limited and weight reduction is crucial. Here’s how micro gear motors differ from standard-sized gear motors:

1. Size and Weight:

The most apparent difference between micro gear motors and standard-sized gear motors is their size and weight. Micro gear motors are significantly smaller and lighter than standard-sized gear motors. They are typically designed to fit in tight spaces or applications where size and weight constraints are critical, such as miniature robots, drones, or portable devices.

2. Power and Torque Output:

Due to their smaller size, micro gear motors generally have lower power and torque output compared to standard-sized gear motors. They are optimized for applications that require precise and low-power motion, rather than heavy-duty or high-torque operations. Micro gear motors are commonly used in applications such as micro robotics, medical devices, or small-scale automation systems.

3. Gearing Ratio:

The gearing ratio of micro gear motors is often higher compared to standard-sized gear motors. This means that the gear mechanism in micro gear motors provides a greater reduction in rotational speed and an increase in torque. The higher gearing ratio allows micro gear motors to deliver more torque output relative to their small motor size, enabling precise motion control in miniature applications.

4. Efficiency and Performance:

Micro gear motors may have slightly lower efficiency and performance compared to standard-sized gear motors. The smaller size and compact design can result in higher power losses and increased heat generation. However, advancements in motor and gear manufacturing technologies have significantly improved the efficiency and performance of micro gear motors, making them suitable for a wide range of applications.

5. Operating Characteristics:

Micro gear motors often exhibit different operating characteristics compared to standard-sized gear motors. They may have lower inertia, faster response times, and reduced backlash in the gear mechanism. These characteristics make micro gear motors suitable for applications requiring precise positioning, quick acceleration, and deceleration, such as miniature robotic arms or camera gimbal systems.

6. Cost:

Micro gear motors generally tend to be more expensive compared to standard-sized gear motors. The smaller size and specialized design of micro gear motors involve higher manufacturing costs. Additionally, the demand for micro gear motors is often driven by niche or specialized applications, which can contribute to their higher price point.

Despite their differences, both micro gear motors and standard-sized gear motors serve specific purposes in different applications. The choice between the two depends on the specific requirements of the application, including available space, weight limitations, power and torque requirements, and the desired level of precision and control.

China high quality 70zyt 50W 80W 70W 120W 100W 120W 110V 220V Micro Motoren DC Electric Motors with Nmrv Worm Gear   manufacturer China high quality 70zyt 50W 80W 70W 120W 100W 120W 110V 220V Micro Motoren DC Electric Motors with Nmrv Worm Gear   manufacturer
editor by CX 2024-04-04

China Professional Custom Torque 5kg Micro Worm Gear DC Motor with Gearbox 12V with Best Sales

Product Description

We are a professional manufacturer for micro DC motor, our products include carbon brush motor, metal brush motor, brushless motor, stepper motor. We got ISO9001, TS16949 certificate, if you have any enquiry, please feel free to contact me.

1.1. Size:Dia:16*15.5*18.6mm
1.2. End Play:0.5mm MAX 
1.3. Operating Temperature:    -10 ~ +60°C

Note:

        1. Shaft length,D-shaped size and length can be custom made.

        2. L is 14 and redcution ratio: 100:1

        3 Reduction ratios for option:

Gear box length(mm)

Reduction Ratio

      11

1/13,1/16

      12.5 1/26,1/32,1/37,1/45
      14 1/75,1/91,1/105,1/128
     15.5 1/148,1/182,1/210,1/256,1/296,1/362
      17 1/592,1/825,1/1571

2.1.MEASURING CONDITIONS
       1.1.Rated voltage:             6  V DC
       1.2.Motor Position:            To be measured with motor horizontally held.
       1.3.Environmental temperature:25±10°C.
       1.4.Environmental humidity:65%±20%RH.

2.2.ELECTRICAL CHARACTERISTICS (At initial stage after 30 seconds run-in): 
      2.2.1.At No load
            2.1.1.Speed:              146.3 ±12%rpm
            2.1.2.Current:            0.084  A(max   0.17A)

      2.2.2.At On load
            2.2.1.Torque:             0.28 kg.cm
            2.2.2.Speed:              126.5 ±12%rpm
            2.2.3.Current:            0.18  A (max   0.27A)

      2.2.3.Direction of Rotation:      CCW  (Counter-Clockwise when viewing from the output shaft end with positive voltage applied to positive terminal.)

 

Remark:The above technical datas are only for reference,we can customerize them according to different requirements after evaluation. 

 

Ratio Model No. Voltage No Load On Load
Operating
Range
Nominal
Voltage
Current Speed Current Torque Speed
V V A r/min A kg.cm r/min
1/14.4 BS-16A030-14.4-06805 6.0-12.0 6 0.03 805 0.06 0.03 610
1/35.9 BS-16A030-35.9-06184 4.0-8.0 6.0 0.019 184 0.04 0.05 156
1/89.8 BS-16A030-89.8-06179 4.0-6.0 6 0.079 179 0.228 0.4 150
1/225 BS-16A030-225-0651 4.0-8.0 6.0 0.04 51 0.112 0.5 42
1/562 BS-16A030-562-03.731 4.0-6.0 3.7 0.09 31 0.38 1.5 25

 

Application: Universal, Industrial, Household Appliances, Car, Power Tools
Operating Speed: High Speed
Excitation Mode: SACS
Function: Control, Driving
Casing Protection: Protection Type
Number of Poles: 10
Samples:
US$ 0/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

brushless motor

What role do materials play in the design and manufacturing of reliable micro gear motors?

Materials play a critical role in the design and manufacturing of reliable micro gear motors. Here’s how they contribute:

  • Gear Material: The choice of material for the gears is crucial for the overall performance and reliability of micro gear motors. Gears are subjected to high loads, friction, and wear during operation. Common materials used for gears include steel, stainless steel, brass, and various engineering plastics. The selected material should have high strength, good wear resistance, and low friction characteristics to ensure smooth and efficient power transmission, minimize gear failure, and prolong the motor’s lifespan.
  • Motor Housing: The material used for the motor housing affects its durability, thermal management, and protection against environmental factors. Common materials for motor housings include aluminum, stainless steel, and engineering plastics. The housing should provide structural integrity, efficient heat dissipation, and protection against dust, moisture, and other contaminants to maintain the motor’s reliability and performance in various operating conditions.
  • Bearing Materials: Bearings are essential components in micro gear motors as they reduce friction and enable smooth rotation of the motor shaft. The choice of bearing material is crucial for ensuring reliable and long-lasting operation. Common bearing materials include stainless steel, ceramics, and various self-lubricating materials. The selected material should have low friction, high load-bearing capacity, and resistance to wear and corrosion to minimize power losses, maintain efficiency, and extend the motor’s lifespan.
  • Magnetic Materials: In motors that utilize permanent magnets, such as brushless DC (BLDC) motors, the choice of magnetic material is crucial for generating and maintaining magnetic fields. Neodymium magnets are commonly used due to their high magnetic strength and energy efficiency. The quality and characteristics of the magnetic material directly impact the motor’s performance, torque output, and overall efficiency.
  • Electrical Insulation: Micro gear motors often involve the flow of electrical current through the motor windings. Insulation materials, such as enamel or varnish, are used to electrically isolate the windings and prevent short circuits. The selected insulation material should have high dielectric strength, good thermal stability, and resistance to environmental factors to ensure reliable electrical insulation and prevent motor failures.

By carefully selecting appropriate materials for gears, motor housing, bearings, magnetic components, and electrical insulation, designers and manufacturers can optimize the reliability, efficiency, and performance of micro gear motors. The materials should be chosen based on the specific requirements of the application, considering factors such as load capacity, operating conditions, environmental factors, and cost-effectiveness.

brushless motor

How does the control system of micro gear motors contribute to precision in small-scale applications?

The control system of micro gear motors plays a crucial role in achieving precision in small-scale applications. Here’s how it contributes to precision:

  • Speed Control: The control system allows precise regulation of the motor’s speed, enabling accurate and consistent movement in small-scale applications. By adjusting the voltage or current supplied to the motor, the control system can control the rotational speed of the motor shaft, ensuring precise motion according to the application’s requirements.
  • Position Control: Micro gear motors with advanced control systems, such as stepper motors, offer precise position control. The control system sends specific signals or pulses to the motor, causing it to move in discrete steps or increments. This allows for accurate positioning in small-scale applications where precise movements and alignment are critical. The control system can also maintain the motor’s position without the need for external feedback devices, enhancing precision and simplifying the overall system.
  • Torque Control: In some applications, maintaining consistent torque is essential for precision. The control system of micro gear motors can regulate the torque output, ensuring that the motor delivers the required amount of force accurately and consistently. This is particularly important in tasks that involve delicate or precise movements, such as robotics, where excessive torque can cause damage or imprecise results.
  • Feedback Mechanisms: Many micro gear motors incorporate feedback mechanisms into their control systems. These mechanisms provide information about the motor’s performance, such as speed, position, or current, and allow the control system to make adjustments in real-time. Feedback mechanisms, such as encoders or sensors, enable closed-loop control, where the control system continuously monitors and adjusts the motor’s operation to maintain precision and accuracy.
  • Control Algorithms: The control system of micro gear motors often incorporates sophisticated control algorithms that optimize performance and precision. These algorithms can include proportional-integral-derivative (PID) controllers, adaptive control, or advanced motion control algorithms. By analyzing the input signals, sensory feedback, and desired output, these algorithms can adjust the motor’s operation to minimize errors, disturbances, or deviations from the desired motion, thus enhancing precision in small-scale applications.

By integrating precise speed control, position control, torque control, feedback mechanisms, and advanced control algorithms, the control system of micro gear motors enables precise and accurate operation in small-scale applications. This precision is crucial for tasks that require fine movements, tight tolerances, or intricate positioning, such as robotics, automation, medical devices, and miniature mechanisms.

brushless motor

In which applications are micro gear motors commonly used due to their compact size?

Micro gear motors find applications in various industries where their compact size is advantageous. Here are some common applications where micro gear motors are commonly used:

1. Micro Robotics:

Micro gear motors are extensively used in micro robotics applications. These motors provide the necessary torque and precision for controlling the movements of miniature robot platforms, robotic arms, grippers, and other robotic components. Their small size allows for intricate and precise motion control in confined spaces.

2. Medical Devices:

In the medical field, micro gear motors are employed in various devices and equipment, including medical robots, surgical instruments, diagnostic devices, and drug delivery systems. Their compact size enables integration into portable and handheld medical devices while ensuring precise and controlled movements for accurate diagnostics and minimally invasive procedures.

3. Automotive Systems:

Micro gear motors are used in automotive systems that require compact and lightweight actuators. They find applications in power windows, door locks, seat adjustment mechanisms, mirror adjustment, and HVAC controls. The small size of micro gear motors allows for efficient utilization of space within the vehicle while providing reliable and precise operation.

4. Consumer Electronics:

Micro gear motors are found in various consumer electronic devices. They are used in camera autofocus mechanisms, zoom controls, robotic toys, smart home devices, and wearable technology. The compact size of micro gear motors enables seamless integration into these devices, providing precise and controlled motion capabilities.

5. Industrial Automation:

In industrial automation applications, micro gear motors are utilized in small-scale machinery, robotics, and automated systems. They are used in conveyor systems, pick-and-place machines, miniature actuators, and precision positioning systems. The small size and high gearing ratio of micro gear motors allow for accurate and repeatable positioning in tight spaces.

6. Aerospace and Defense:

Micro gear motors are employed in aerospace and defense applications, including drones, unmanned aerial vehicles (UAVs), miniature satellites, and guidance systems. Their compact size and lightweight properties are crucial for reducing the overall weight and improving maneuverability in these applications.

7. Scientific and Laboratory Equipment:

Micro gear motors are used in scientific instruments, laboratory equipment, and research devices. They find applications in precision syringe pumps, sample handling systems, microfluidic devices, and motion control mechanisms for optical instruments. The compact size and precise motion control capabilities of micro gear motors support accurate and controlled experimentation and analysis.

8. Industrial and Manufacturing:

In industrial and manufacturing settings, micro gear motors are utilized in small-scale machinery, conveyors, packaging equipment, and assembly systems. They provide compact and efficient motion control for precise material handling, part positioning, and automation processes.

These are just a few examples of the many applications where micro gear motors are commonly used due to their compact size. Their small form factor and precise motion control capabilities make them ideal for applications where space constraints, weight reduction, and accurate motion control are crucial factors.

China Professional Custom Torque 5kg Micro Worm Gear DC Motor with Gearbox 12V   with Best Sales China Professional Custom Torque 5kg Micro Worm Gear DC Motor with Gearbox 12V   with Best Sales
editor by CX 2023-12-15