Tag Archives: right angle gear motor

China wholesaler ZD Right Angle Gearbox 1250, 1300, 2750, 2800rpm Electric AC Induction Gear Motor vacuum pump oil near me

Product Description

Model Selection

ZD Leader has a wide range of micro motor production lines in the industry, including DC Motor, AC Motor, Brushless Motor, Planetary Gear Motor, Drum Motor, Planetary Gearbox, RV Reducer and Harmonic Gearbox etc. Through technical innovation and customization, we help you create outstanding application systems and provide flexible solutions for various industrial automation situations.

• Model Selection
Our professional sales representive and technical team will choose the right model and transmission solutions for your usage depend on your specific parameters.

• Drawing Request

If you need more product parameters, catalogues, CAD or 3D drawings, please contact us.
 

• On Your Need

We can modify standard products or customize them to meet your specific needs.

Detailed Photos

 

Product Parameters

Features:
1) Dimensions: 90mm
2) Power: 120W
3) Voltage: 110V, 220V
4) Speed: 1250, 1300, 2750, 2800rpm
5) Reduction ratio: 3~ 750K
6) With or without flange

MORE SPECIFICATION FOR AC MOTORS: 

MOTOR FRAME SIZE 60 mm / 70mm / 80mm / 90mm / 104mm
MOTOR TYPE INDUCTION MOTOR / REVERSIBLE MOTOR / TORQUE MOTOR / SPEED CONTROL MOTOR
SERIES K series
OUTPUT POWER 3 W / 6W / 10W / 15W / 25W / 40W / 60W / 90W / 120 W / 140W / 180W / 200W (can be customized)
OUTPUT SHAFT 8mm / 10mm / 12mm / 15mm ; round shaft, D-cut shaft, key-way shaft (can be customized)
Voltage type Single phase 100-120V 50/60Hz 4P Single phase 200-240V 50/60Hz 4P
Three phase 200-240V 50/60Hz Three phase 380-415V 50/60Hz 4P
Three phase 440-480V 60Hz 4P Three phase 200-240/380-415/440-480V 50/60/60Hz 4P
Accessories Terminal box type / with Fan / thermal protector / electromagnetic brake
Above 60 W, all assembled with fan
GEARBOX FRAME SIZE 60 mm / 70mm / 80mm / 90mm / 104mm
GEAR RATIO MINIMUM 3:1—————MAXIMUM 750:1
GEARBOX TYPE PARALLEL SHAFT GEARBOX AND STRENGTH TYPE
Right angle hollow worm shaft Right angle spiral bevel hollow shaft L type hollow shaft
Right angle CHINAMFG worm shaft Right angle spiral bevel CHINAMFG shaft L type CHINAMFG shaft
K2 series air tightness improved type
Certification CCC  CE  UL  RoHS

Other Related Products

Click here to find what you are looking for:

Customized Product Service

Company Profile

 

FAQ

Q: What’re your main products?
A: We currently produce Brushed Dc Motors, Brushed Dc Gear Motors, Planetary Dc Gear Motors, Brushless Dc Motors, Stepper motors, Ac Motors and High Precision Planetary Gear Box 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 lifetime 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 a 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 an individual design service for motors?
A: Yes, we would like to design motors individually for our customers, but it may need some mold developing cost and design charge. 

Q: What’s your lead time?
A: Generally speaking, our regular standard product will need 15-30days, a bit longer for customized products. But we are very flexible on the lead time, it will depend on the specific orders.

Please contact us if you have detailed requests, thank you ! /* 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
Number of Stator: Single-Phase
Function: Driving
Casing Protection: Closed Type
Number of Poles: 2
Starting Mode: Direct on-line Starting
Customization:
Available

|

gear motor

Are gear motors suitable for both heavy-duty industrial applications and smaller-scale uses?

Yes, gear motors are suitable for both heavy-duty industrial applications and smaller-scale uses. Their versatility and ability to provide torque multiplication make them valuable in a wide range of applications. Here’s a detailed explanation of why gear motors are suitable for both types of applications:

1. Heavy-Duty Industrial Applications:

Gear motors are commonly used in heavy-duty industrial applications due to their robustness and ability to handle high loads. Here are the reasons why they are suitable for such applications:

  • Torque Multiplication: Gear motors are designed to provide high torque output, making them ideal for applications that require substantial force to move or operate heavy machinery, conveyors, or equipment.
  • Load Handling: Industrial settings often involve heavy loads and demanding operating conditions. Gear motors, with their ability to handle high loads, are well-suited for tasks such as lifting, pulling, pushing, or driving heavy materials or equipment.
  • Durability: Heavy-duty industrial applications require components that can withstand harsh environments, frequent use, and demanding operating conditions. Gear motors are typically constructed with durable materials and designed to withstand heavy vibrations, shock loads, and temperature variations.
  • Speed Reduction: Many industrial processes require the reduction of motor speed to achieve the desired output speed. Gear motors offer precise speed reduction capabilities through gear ratios, allowing for optimal control and operation of machinery and equipment.

2. Smaller-Scale Uses:

While gear motors excel in heavy-duty industrial applications, they are also suitable for smaller-scale uses across various industries and applications. Here’s why gear motors are well-suited for smaller-scale uses:

  • Compact Size: Gear motors are available in compact sizes, making them suitable for applications with limited space or small-scale machinery, devices, or appliances.
  • Torque and Power Control: Even in smaller-scale applications, there may be a need for torque multiplication or precise power control. Gear motors can provide the necessary torque and power output for tasks such as precise positioning, controlling speed, or driving small loads.
  • Versatility: Gear motors come in various configurations, such as parallel shaft, planetary, or worm gear designs, offering flexibility to match specific requirements. They can be adapted to different applications, including robotics, medical devices, automotive systems, home automation, and more.
  • Efficiency: Gear motors are designed to be efficient, converting the electrical input power into mechanical output power with minimal losses. This efficiency is advantageous for smaller-scale applications where energy conservation and battery life are critical.

Overall, gear motors are highly versatile and suitable for both heavy-duty industrial applications and smaller-scale uses. Their ability to provide torque multiplication, handle high loads, offer precise speed control, and accommodate various sizes and configurations makes them a reliable choice in a wide range of applications. Whether it’s powering large industrial machinery or driving small-scale automation systems, gear motors provide the necessary torque, control, and durability required for efficient operation.

gear motor

What are some common challenges or issues associated with gear motors, and how can they be addressed?

Gear motors, like any mechanical system, can face certain challenges or issues that may affect their performance, reliability, or longevity. However, many of these challenges can be addressed through proper design, maintenance, and operational practices. Here are some common challenges associated with gear motors and potential solutions:

1. Gear Wear and Failure:

Over time, gears in a gear motor can experience wear, resulting in decreased performance or even failure. The following measures can address this challenge:

  • Proper Lubrication: Regular lubrication with the appropriate lubricant can minimize friction and wear between gear teeth. It is essential to follow manufacturer recommendations for lubrication intervals and use high-quality lubricants suitable for the specific gear motor.
  • Maintenance and Inspection: Routine maintenance and periodic inspections can help identify early signs of gear wear or damage. Timely replacement of worn gears or components can prevent further damage and ensure the gear motor’s optimal performance.
  • Material Selection: Choosing gears made from durable and wear-resistant materials, such as hardened steel or specialized alloys, can increase their lifespan and resistance to wear.

2. Backlash and Inaccuracy:

Backlash, as discussed earlier, can introduce inaccuracies in gear motor systems. The following approaches can help address this issue:

  • Anti-Backlash Gears: Using anti-backlash gears, which are designed to minimize or eliminate backlash, can significantly reduce inaccuracies caused by gear play.
  • Tight Manufacturing Tolerances: Ensuring precise manufacturing tolerances during gear production helps minimize backlash and improve overall accuracy.
  • Backlash Compensation: Implementing control algorithms or mechanisms to compensate for backlash can help mitigate its effects and improve the accuracy of the gear motor.

3. Noise and Vibrations:

Gear motors can generate noise and vibrations during operation, which may be undesirable in certain applications. The following strategies can help mitigate this challenge:

  • Noise Dampening: Incorporating noise-dampening features, such as vibration-absorbing materials or isolation mounts, can reduce noise and vibrations transmitted from the gear motor to the surrounding environment.
  • Quality Gears and Bearings: Using high-quality gears and bearings can minimize vibrations and noise generation. Precision-machined gears and well-maintained bearings help ensure smooth operation and reduce unwanted noise.
  • Proper Alignment: Ensuring accurate alignment of gears, shafts, and other components reduces the likelihood of noise and vibrations caused by misalignment. Regular inspections and adjustments can help maintain optimal alignment.

4. Overheating and Thermal Management:

Heat buildup can be a challenge in gear motors, especially during prolonged or heavy-duty operation. Effective thermal management techniques can address this issue:

  • Adequate Ventilation: Providing proper ventilation and airflow around the gear motor helps dissipate heat. This can involve designing cooling fins, incorporating fans or blowers, or ensuring sufficient clearance for air circulation.
  • Heat Dissipation Materials: Using heat-dissipating materials, such as aluminum or copper, in motor housings or heat sinks can improve heat dissipation and prevent overheating.
  • Monitoring and Control: Implementing temperature sensors and thermal protection mechanisms allows for real-time monitoring of the gear motor’s temperature. If the temperature exceeds safe limits, the motor can be automatically shut down or adjusted to prevent damage.

5. Load Variations and Shock Loads:

Unexpected load variations or shock loads can impact the performance and durability of gear motors. The following measures can help address this challenge:

  • Proper Sizing and Selection: Choosing gear motors with appropriate torque and load capacity ratings for the intended application helps ensure they can handle expected load variations and occasional shock loads without exceeding their limits.
  • Shock Absorption: Incorporating shock-absorbing mechanisms, such as dampers or resilient couplings, can help mitigate the effects of sudden load changes or impacts on the gear motor.
  • Load Monitoring: Implementing load monitoring systems or sensors allows for real-time monitoring of load variations. This information can be used to adjust operation or trigger protective measures when necessary.

By addressing these common challenges associated with gear motors through appropriate design considerations, regular maintenance, and operational practices, it is possible to enhance their performance, reliability, and longevity.

gear motor

What is a gear motor, and how does it combine the functions of gears and a motor?

A gear motor is a type of motor that incorporates gears into its design to combine the functions of gears and a motor. It consists of a motor, which provides the mechanical power, and a set of gears, which transmit and modify this power to achieve specific output characteristics. Here’s a detailed explanation of what a gear motor is and how it combines the functions of gears and a motor:

A gear motor typically consists of two main components: the motor and the gear system. The motor is responsible for converting electrical energy into mechanical energy, generating rotational motion. The gear system, on the other hand, consists of multiple gears with different sizes and tooth configurations. These gears are meshed together in a specific arrangement to transmit and modify the output torque and speed of the motor.

The gears in a gear motor serve several functions:

1. Torque Amplification:

One of the primary functions of the gear system in a gear motor is to amplify the torque output of the motor. By using gears with different sizes, the input torque can be effectively multiplied or reduced. This allows the gear motor to provide higher torque at lower speeds or lower torque at higher speeds, depending on the gear arrangement. This torque amplification is beneficial in applications where high torque is required, such as in heavy machinery or vehicles.

2. Speed Reduction or Increase:

The gear system in a gear motor can also be used to reduce or increase the rotational speed of the motor output. By utilizing gears with different numbers of teeth, the gear ratio can be adjusted to achieve the desired speed output. For example, a gear motor with a higher gear ratio will output lower speed but higher torque, whereas a gear motor with a lower gear ratio will output higher speed but lower torque. This speed control capability allows for precise matching of motor output to the requirements of specific applications.

3. Directional Control:

Gears in a gear motor can be used to control the direction of rotation of the motor output shaft. By employing different combinations of gears, such as spur gears, bevel gears, or worm gears, the rotational direction can be changed. This directional control is crucial in applications where bidirectional movement is required, such as in conveyor systems or robotic arms.

4. Load Distribution:

The gear system in a gear motor helps distribute the load evenly across multiple gears, which reduces the stress on individual gears and increases the overall durability and lifespan of the motor. By sharing the load among multiple gears, the gear motor can handle higher torque applications without putting excessive strain on any particular gear. This load distribution capability is especially important in heavy-duty applications that require continuous operation under demanding conditions.

By combining the functions of gears and a motor, gear motors offer several advantages. They provide torque amplification, speed control, directional control, and load distribution capabilities, making them suitable for various applications that require precise and controlled mechanical power. Gear motors are commonly used in industries such as robotics, automotive, manufacturing, and automation, where reliable and efficient power transmission is essential.

China wholesaler ZD Right Angle Gearbox 1250, 1300, 2750, 2800rpm Electric AC Induction Gear Motor   vacuum pump oil near me		China wholesaler ZD Right Angle Gearbox 1250, 1300, 2750, 2800rpm Electric AC Induction Gear Motor   vacuum pump oil near me
editor by CX 2024-05-17

China Professional ZD Single Phase Right Angle Electric AC Gear Motor vacuum pump adapter

Product Description

ZD Single Phase Right Angle Electric AC Gear Motor
 

Detailed Photos

Product Description

Item#: 6IK200GU-CTF/6GU50RC

Features:
1) Dimensions: 104mm
2) Power: 200W
3) Voltage(v): 220V
4) Reduction ratio: 50RC
5) Output Speed(nS): 50Hz–27rpm,      60Hz–30rpm

 

Other Related Products

Click here to find what you are looking for:

Company Profile

 

FAQ

Q: What’re your main products?
A: We currently produce Brushed Dc Motors, Brushed Dc Gear Motors, Planetary Dc Gear Motors, Brushless Dc Motors, Stepper motors, Ac Motors and High Precision Planetary Gear Box 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 lifetime 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 a 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 an individual design service for motors?
A: Yes, we would like to design motors individually for our customers, but it may need some mold developing cost and design charge. 

Q: What’s your lead time?
A: Generally speaking, our regular standard product will need 15-30days, a bit longer for customized products. But we are very flexible on the lead time, it will depend on the specific orders.

  /* 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: Constant Speed
Number of Stator: Single-Phase
Function: Industrial
Casing Protection: Closed Type
Number of Poles: 2
Customization:
Available

|

gear motor

Are gear motors suitable for both heavy-duty industrial applications and smaller-scale uses?

Yes, gear motors are suitable for both heavy-duty industrial applications and smaller-scale uses. Their versatility and ability to provide torque multiplication make them valuable in a wide range of applications. Here’s a detailed explanation of why gear motors are suitable for both types of applications:

1. Heavy-Duty Industrial Applications:

Gear motors are commonly used in heavy-duty industrial applications due to their robustness and ability to handle high loads. Here are the reasons why they are suitable for such applications:

  • Torque Multiplication: Gear motors are designed to provide high torque output, making them ideal for applications that require substantial force to move or operate heavy machinery, conveyors, or equipment.
  • Load Handling: Industrial settings often involve heavy loads and demanding operating conditions. Gear motors, with their ability to handle high loads, are well-suited for tasks such as lifting, pulling, pushing, or driving heavy materials or equipment.
  • Durability: Heavy-duty industrial applications require components that can withstand harsh environments, frequent use, and demanding operating conditions. Gear motors are typically constructed with durable materials and designed to withstand heavy vibrations, shock loads, and temperature variations.
  • Speed Reduction: Many industrial processes require the reduction of motor speed to achieve the desired output speed. Gear motors offer precise speed reduction capabilities through gear ratios, allowing for optimal control and operation of machinery and equipment.

2. Smaller-Scale Uses:

While gear motors excel in heavy-duty industrial applications, they are also suitable for smaller-scale uses across various industries and applications. Here’s why gear motors are well-suited for smaller-scale uses:

  • Compact Size: Gear motors are available in compact sizes, making them suitable for applications with limited space or small-scale machinery, devices, or appliances.
  • Torque and Power Control: Even in smaller-scale applications, there may be a need for torque multiplication or precise power control. Gear motors can provide the necessary torque and power output for tasks such as precise positioning, controlling speed, or driving small loads.
  • Versatility: Gear motors come in various configurations, such as parallel shaft, planetary, or worm gear designs, offering flexibility to match specific requirements. They can be adapted to different applications, including robotics, medical devices, automotive systems, home automation, and more.
  • Efficiency: Gear motors are designed to be efficient, converting the electrical input power into mechanical output power with minimal losses. This efficiency is advantageous for smaller-scale applications where energy conservation and battery life are critical.

Overall, gear motors are highly versatile and suitable for both heavy-duty industrial applications and smaller-scale uses. Their ability to provide torque multiplication, handle high loads, offer precise speed control, and accommodate various sizes and configurations makes them a reliable choice in a wide range of applications. Whether it’s powering large industrial machinery or driving small-scale automation systems, gear motors provide the necessary torque, control, and durability required for efficient operation.

gear motor

What are some common challenges or issues associated with gear motors, and how can they be addressed?

Gear motors, like any mechanical system, can face certain challenges or issues that may affect their performance, reliability, or longevity. However, many of these challenges can be addressed through proper design, maintenance, and operational practices. Here are some common challenges associated with gear motors and potential solutions:

1. Gear Wear and Failure:

Over time, gears in a gear motor can experience wear, resulting in decreased performance or even failure. The following measures can address this challenge:

  • Proper Lubrication: Regular lubrication with the appropriate lubricant can minimize friction and wear between gear teeth. It is essential to follow manufacturer recommendations for lubrication intervals and use high-quality lubricants suitable for the specific gear motor.
  • Maintenance and Inspection: Routine maintenance and periodic inspections can help identify early signs of gear wear or damage. Timely replacement of worn gears or components can prevent further damage and ensure the gear motor’s optimal performance.
  • Material Selection: Choosing gears made from durable and wear-resistant materials, such as hardened steel or specialized alloys, can increase their lifespan and resistance to wear.

2. Backlash and Inaccuracy:

Backlash, as discussed earlier, can introduce inaccuracies in gear motor systems. The following approaches can help address this issue:

  • Anti-Backlash Gears: Using anti-backlash gears, which are designed to minimize or eliminate backlash, can significantly reduce inaccuracies caused by gear play.
  • Tight Manufacturing Tolerances: Ensuring precise manufacturing tolerances during gear production helps minimize backlash and improve overall accuracy.
  • Backlash Compensation: Implementing control algorithms or mechanisms to compensate for backlash can help mitigate its effects and improve the accuracy of the gear motor.

3. Noise and Vibrations:

Gear motors can generate noise and vibrations during operation, which may be undesirable in certain applications. The following strategies can help mitigate this challenge:

  • Noise Dampening: Incorporating noise-dampening features, such as vibration-absorbing materials or isolation mounts, can reduce noise and vibrations transmitted from the gear motor to the surrounding environment.
  • Quality Gears and Bearings: Using high-quality gears and bearings can minimize vibrations and noise generation. Precision-machined gears and well-maintained bearings help ensure smooth operation and reduce unwanted noise.
  • Proper Alignment: Ensuring accurate alignment of gears, shafts, and other components reduces the likelihood of noise and vibrations caused by misalignment. Regular inspections and adjustments can help maintain optimal alignment.

4. Overheating and Thermal Management:

Heat buildup can be a challenge in gear motors, especially during prolonged or heavy-duty operation. Effective thermal management techniques can address this issue:

  • Adequate Ventilation: Providing proper ventilation and airflow around the gear motor helps dissipate heat. This can involve designing cooling fins, incorporating fans or blowers, or ensuring sufficient clearance for air circulation.
  • Heat Dissipation Materials: Using heat-dissipating materials, such as aluminum or copper, in motor housings or heat sinks can improve heat dissipation and prevent overheating.
  • Monitoring and Control: Implementing temperature sensors and thermal protection mechanisms allows for real-time monitoring of the gear motor’s temperature. If the temperature exceeds safe limits, the motor can be automatically shut down or adjusted to prevent damage.

5. Load Variations and Shock Loads:

Unexpected load variations or shock loads can impact the performance and durability of gear motors. The following measures can help address this challenge:

  • Proper Sizing and Selection: Choosing gear motors with appropriate torque and load capacity ratings for the intended application helps ensure they can handle expected load variations and occasional shock loads without exceeding their limits.
  • Shock Absorption: Incorporating shock-absorbing mechanisms, such as dampers or resilient couplings, can help mitigate the effects of sudden load changes or impacts on the gear motor.
  • Load Monitoring: Implementing load monitoring systems or sensors allows for real-time monitoring of load variations. This information can be used to adjust operation or trigger protective measures when necessary.

By addressing these common challenges associated with gear motors through appropriate design considerations, regular maintenance, and operational practices, it is possible to enhance their performance, reliability, and longevity.

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 Professional ZD Single Phase Right Angle Electric AC Gear Motor   vacuum pump adapter	China Professional ZD Single Phase Right Angle Electric AC Gear Motor   vacuum pump adapter
editor by CX 2024-04-30

China supplier ZD Spiral Bevel Angel Right Angle Electric Induction AC Gear Motor For Food Packing Industry vacuum pump engine

Product Description

Model Selection

ZD Leader has a wide range of micro motor production lines in the industry, including DC Motor, AC Motor, Brushless Motor, Planetary Gear Motor, Drum Motor, Planetary Gearbox, RV Reducer and Harmonic Gearbox etc. Through technical innovation and customization, we help you create outstanding application systems and provide flexible solutions for various industrial automation situations.

• Model Selection
Our professional sales representive and technical team will choose the right model and transmission solutions for your usage depend on your specific parameters.

• Drawing Request

If you need more product parameters, catalogues, CAD or 3D drawings, please contact us.
 

• On Your Need

We can modify standard products or customize them to meet your specific needs.

 

Detailed Photos

Product Parameters

size output power voltage Frequency
60.70.80.90.100mm 3.6.10.20.40.60.90.100W 110.220.12V 50/60HZ

SPECIFICATION FOR AC MOTORS:
 

MOTOR FRAME SIZE 60 mm / 70mm / 80mm / 90mm / 104mm
MOTOR TYPE INDUCTION MOTOR / REVERSIBLE MOTOR / TORQUE MOTOR / SPEED CONTROL MOTOR
SERIES K series
OUTPUT POWER 3 W / 6W / 10W / 15W / 25W / 40W / 60W / 90W / 120 W / 140W / 180W / 200W (can be customized)
OUTPUT SHAFT 8mm / 10mm / 12mm / 15mm ; round shaft, D-cut shaft, key-way shaft (can be customized)
Voltage type Single phase 100-120V 50/60Hz 4P Single phase 200-240V 50/60Hz 4P
Three phase 200-240V 50/60Hz Three phase 380-415V 50/60Hz 4P
Three phase 440-480V 60Hz 4P Three phase 200-240/380-415/440-480V 50/60/60Hz 4P
Accessories Terminal box type / with Fan / thermal protector / electromagnetic brake
Above 60 W, all assembled with fan
GEARBOX FRAME SIZE 60 mm / 70mm / 80mm / 90mm / 104mm
GEAR RATIO MINIMUM 3:1—————MAXIMUM 750:1
GEARBOX TYPE PARALLEL SHAFT GEARBOX AND STRENGTH TYPE
Right angle hollow worm shaft Right angle spiral bevel hollow shaft L type hollow shaft
Right angle CHINAMFG worm shaft Right angle spiral bevel CHINAMFG shaft L type CHINAMFG shaft
K2 series air tightness improved type
Certification CCC  CE  UL  RoHS

 

Other Related Products

Click here to find what you are looking for:

Company Profile

 

FAQ

Q: What’re your main products?
A: We currently produce Brushed Dc Motors, Brushed Dc Gear Motors, Planetary Dc Gear Motors, Brushless Dc Motors, Stepper motors, Ac Motors and High Precision Planetary Gear Box 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 lifetime 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 a 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 an individual design service for motors?
A: Yes, we would like to design motors individually for our customers, but it may need some mold developing cost and design charge.

Q: What’s your lead time?
A: Generally speaking, our regular standard product will need 15-30days, a bit longer for customized products. But we are very flexible on the lead time, it will depend on the specific orders.

/* 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: Constant Speed
Number of Stator: Single-Phase
Function: Driving, Control
Casing Protection: Closed Type
Number of Poles: 2
Customization:
Available

|

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

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

What is a gear motor, and how does it combine the functions of gears and a motor?

A gear motor is a type of motor that incorporates gears into its design to combine the functions of gears and a motor. It consists of a motor, which provides the mechanical power, and a set of gears, which transmit and modify this power to achieve specific output characteristics. Here’s a detailed explanation of what a gear motor is and how it combines the functions of gears and a motor:

A gear motor typically consists of two main components: the motor and the gear system. The motor is responsible for converting electrical energy into mechanical energy, generating rotational motion. The gear system, on the other hand, consists of multiple gears with different sizes and tooth configurations. These gears are meshed together in a specific arrangement to transmit and modify the output torque and speed of the motor.

The gears in a gear motor serve several functions:

1. Torque Amplification:

One of the primary functions of the gear system in a gear motor is to amplify the torque output of the motor. By using gears with different sizes, the input torque can be effectively multiplied or reduced. This allows the gear motor to provide higher torque at lower speeds or lower torque at higher speeds, depending on the gear arrangement. This torque amplification is beneficial in applications where high torque is required, such as in heavy machinery or vehicles.

2. Speed Reduction or Increase:

The gear system in a gear motor can also be used to reduce or increase the rotational speed of the motor output. By utilizing gears with different numbers of teeth, the gear ratio can be adjusted to achieve the desired speed output. For example, a gear motor with a higher gear ratio will output lower speed but higher torque, whereas a gear motor with a lower gear ratio will output higher speed but lower torque. This speed control capability allows for precise matching of motor output to the requirements of specific applications.

3. Directional Control:

Gears in a gear motor can be used to control the direction of rotation of the motor output shaft. By employing different combinations of gears, such as spur gears, bevel gears, or worm gears, the rotational direction can be changed. This directional control is crucial in applications where bidirectional movement is required, such as in conveyor systems or robotic arms.

4. Load Distribution:

The gear system in a gear motor helps distribute the load evenly across multiple gears, which reduces the stress on individual gears and increases the overall durability and lifespan of the motor. By sharing the load among multiple gears, the gear motor can handle higher torque applications without putting excessive strain on any particular gear. This load distribution capability is especially important in heavy-duty applications that require continuous operation under demanding conditions.

By combining the functions of gears and a motor, gear motors offer several advantages. They provide torque amplification, speed control, directional control, and load distribution capabilities, making them suitable for various applications that require precise and controlled mechanical power. Gear motors are commonly used in industries such as robotics, automotive, manufacturing, and automation, where reliable and efficient power transmission is essential.

China supplier ZD Spiral Bevel Angel Right Angle Electric Induction AC Gear Motor For Food Packing Industry   vacuum pump engine	China supplier ZD Spiral Bevel Angel Right Angle Electric Induction AC Gear Motor For Food Packing Industry   vacuum pump engine
editor by CX 2024-04-22

China supplier CE Certification Hot Selling Micro Gear Electric Hypoid Motors Right Angle Reduction Motor vacuum pump oil

Product Description

Model Selection

ZD Leader has a wide range of micro motor production lines in the industry, including DC Motor, AC Motor, Brushless Motor, Planetary Gear Motor, Drum Motor, Planetary Gearbox, RV Reducer and Harmonic Gearbox etc. Through technical innovation and customization, we help you create outstanding application systems and provide flexible solutions for various industrial automation situations.

• Model Selection
Our professional sales representive and technical team will choose the right model and transmission solutions for your usage depend on your specific parameters.

• Drawing Request

If you need more product parameters, catalogues, CAD or 3D drawings, please contact us.
 

• On Your Need

We can modify standard products or customize them to meet your specific needs.

Detailed Photos

Product Parameters

Product Number Code

ZDF3 Size Chart—100W Motor

Outline Drawing

Note : It’s just the typical technical data for you reference, The specification such as voltage, speed, torque, shaft can be customized by your needs. Please contact us for more details. Thanks. 

 

Company Profile

FAQ

 

Q: What’re your main products?

A: We currently produce Brushed Dc Motors, Brushed Dc Gear Motors, Planetary Dc Gear Motors, Brushless Dc Motors, Stepper motors, Ac Motors and High Precision Planetary Gear Box 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 lifetime 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 a 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 an individual design service for motors?
A: Yes, we would like to design motors individually for our customers, but it may need some mold developing cost and design charge. 

Q: What’s your lead time?
A: Generally speaking, our regular standard product will need 15-30days, a bit longer for customized products. But we are very flexible on the lead time, it will depend on the specific orders.

Please contact us if you have detailed requests, thank you ! /* 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: Constant Speed
Number of Stator: Single-Phase
Function: Driving, Control
Casing Protection: Closed Type
Number of Poles: 4
Customization:
Available

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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

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

What is a gear motor, and how does it combine the functions of gears and a motor?

A gear motor is a type of motor that incorporates gears into its design to combine the functions of gears and a motor. It consists of a motor, which provides the mechanical power, and a set of gears, which transmit and modify this power to achieve specific output characteristics. Here’s a detailed explanation of what a gear motor is and how it combines the functions of gears and a motor:

A gear motor typically consists of two main components: the motor and the gear system. The motor is responsible for converting electrical energy into mechanical energy, generating rotational motion. The gear system, on the other hand, consists of multiple gears with different sizes and tooth configurations. These gears are meshed together in a specific arrangement to transmit and modify the output torque and speed of the motor.

The gears in a gear motor serve several functions:

1. Torque Amplification:

One of the primary functions of the gear system in a gear motor is to amplify the torque output of the motor. By using gears with different sizes, the input torque can be effectively multiplied or reduced. This allows the gear motor to provide higher torque at lower speeds or lower torque at higher speeds, depending on the gear arrangement. This torque amplification is beneficial in applications where high torque is required, such as in heavy machinery or vehicles.

2. Speed Reduction or Increase:

The gear system in a gear motor can also be used to reduce or increase the rotational speed of the motor output. By utilizing gears with different numbers of teeth, the gear ratio can be adjusted to achieve the desired speed output. For example, a gear motor with a higher gear ratio will output lower speed but higher torque, whereas a gear motor with a lower gear ratio will output higher speed but lower torque. This speed control capability allows for precise matching of motor output to the requirements of specific applications.

3. Directional Control:

Gears in a gear motor can be used to control the direction of rotation of the motor output shaft. By employing different combinations of gears, such as spur gears, bevel gears, or worm gears, the rotational direction can be changed. This directional control is crucial in applications where bidirectional movement is required, such as in conveyor systems or robotic arms.

4. Load Distribution:

The gear system in a gear motor helps distribute the load evenly across multiple gears, which reduces the stress on individual gears and increases the overall durability and lifespan of the motor. By sharing the load among multiple gears, the gear motor can handle higher torque applications without putting excessive strain on any particular gear. This load distribution capability is especially important in heavy-duty applications that require continuous operation under demanding conditions.

By combining the functions of gears and a motor, gear motors offer several advantages. They provide torque amplification, speed control, directional control, and load distribution capabilities, making them suitable for various applications that require precise and controlled mechanical power. Gear motors are commonly used in industries such as robotics, automotive, manufacturing, and automation, where reliable and efficient power transmission is essential.

China supplier CE Certification Hot Selling Micro Gear Electric Hypoid Motors Right Angle Reduction Motor   vacuum pump oil	China supplier CE Certification Hot Selling Micro Gear Electric Hypoid Motors Right Angle Reduction Motor   vacuum pump oil
editor by CX 2024-04-16

China factory 60mm 30W DC Brush Right Angle Gear Motor, DC Brushed Geared Motor for Solar Panel Cleaner, Turnstiles Flap Barrier vacuum pump booster

Product Description

DC Brush Right Angle Gear Motor
G    DM   06 62 99.5
Enterprise Code Motor Type Outer Diameter Cover Model  Outer Length
G – GPG DM – DC Motor 60 – 60 × 60
70 – 70 × 70
80 – 80 × 80
90 – 90 × 90
104 – 104 × 104
55 – 55mm
62 – 62mm
69 – 69mm
80 – 80mm
90 – 90mm
104 -104mm
70-70mm
75-75mm
79-79mm
86.5- 86.5mm
99.5- 99.5mm
105-105mm
118-118mm
122-122mm
140-140mm
165-165mm
167-167mm
175-175mm
30 P B 12 18
Power Capacity Mounting Face Motor Shaft Shape Accessories Voltage Speed
10W  15W
20W  25W
30W  35W
40W  60W
90W
120W  150W
180W  200W
250W  300W
350W  400W
R – Round Flange
S – Square Flange
P: Cylindrical Shaft
C: Gear Shaft
H – Feet Seat
B – Brake Magnetic
12 – DC 12V
24 – DC 24V
110 – DC 110V
220 – DC 220V
15 – 1500
18 – 1800
22 – 2200
32 – 3200
Gearbox
2 GN 55 RT G8 T
Outer Diameter Motor Shaft Shape Gear Ratio Bearing Model Output Shaft Diameter Installation Method
2 – 60mm
3 – 70mm
4 – 80mm
5 – 90mm
6 – 104mm
GN – Bevel Gear Shaft
GU – Bevel Gear Shaft
GS – Strengthen T-shaped Installation
GZ – Right-angle gearbox
GM – Intermediate gearbox
55 – 1 : 55 RT – Right-Angle
RC – Right-Angle Hollow
G8 –  Ф8mm L – Screw Hole
T – Through Hole

Model Gear Box Rated Power Voltage Amp Speed Turning Moment Shell Diameter Motor Height
W V A r/min mN.m mm 06 07
GDM06-62SP
GDM06-62SC
2GN 25 12 3.80 1500 159.08 Φ62 86.5  
1800 132.50
2200 108.50
Optical Axis 12 3.80 3200 74.60
2GN 24 1.75 1500 159.08
1800 132.50
2200 108.50
Optical Axis 24 1.75 3200 746.00
GDM06-62SP
GDM06-62SC
2GN 30 12 4.50 1500 1909.00 99.5
1800 159.08
2200 130.20
Optical Axis 12 4.50 3200 89.55
2GN 24 2.08 1500 190.90
1800 159.08
2200 1302.00
Optical Axis 24 2.08 3200 89.55
2GN 110 0.46 1500 190.90
1800 159.08
2200 130.20
Optical Axis 110 0.46 3200 89.55
2GN 220 0.23 1500 190.90
1800 159.08
2200 130.20
Optical Axis 220 0.23 3200 89.55

CHINAMFG Motor Industrial Group Co., Ltd. is a professional manufacturer which combined with series gear transmission products of design , manufacture, and sale promotion. 
occupied more than 30,000 square meters, had more than 1000 workers, and more than 200 sets of advanced equipment,
operated strictly according to ISO9000 Quality management system.
• provide you with more than just high-performance products, more industry users tailored package of application solutions,
• based on corporate issues, to provide users with the most suitable products, the most suitable solution.
• Lead customer innovation through the products and service, help the customer realize the maximum benefit.
• 1995: CHINAMFG Company and the Ministry of Aerospace, Peking University,
               and scientific research experts jointly established a micro-micro motor manufacturing company
• 2000: CHINAMFG established a branch in HangZhou, ZHangZhoug
• 2005: ZHangZhoug CHINAMFG Motor Industry Co., Ltd. established HangZhou ZheJiang State-owned Industrial Co., Ltd.
• 2012: Established ZheJiang CHINAMFG Automobile Co., Ltd.
• 2014: Approved the new factory site of the second phase of the HangZhou National Economic Park in ZHangZhoug Province,
               which is expected to be completed and put into operation in 2018
• 2018:  A new 120,000 square CHINAMFG automated production base

  /* 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: Constant Speed
Number of Stator: Three-Phase
Function: Driving, Control
Casing Protection: Protection Type
Number of Poles: 4
Customization:
Available

|

dc motor

What are the main components of a DC motor, and how do they contribute to its functionality?

A DC (Direct Current) motor consists of several key components that work together to enable its functionality. Each component plays a crucial role in the operation of the motor. Here’s a detailed explanation of the main components of a DC motor and their contributions:

1. Stator:

The stator is the stationary part of the motor. It typically consists of permanent magnets or electromagnets that produce a fixed magnetic field. The stator’s magnetic field interacts with the rotor’s magnetic field to generate the required torque for motor rotation. The stator provides the foundation for the motor’s magnetic field and contributes to its overall stability and efficiency.

2. Rotor:

The rotor is the rotating part of the motor and is connected to the motor’s output shaft. It contains coils or windings that carry the armature current. The rotor’s windings interact with the stator’s magnetic field, resulting in the generation of a mechanical force that causes the rotor to rotate. The rotor’s movement is responsible for converting electrical energy into mechanical motion, enabling the motor to perform its intended function.

3. Armature:

The armature is the core of the rotor that holds the armature windings. The armature windings are typically made of copper wire and are evenly spaced around the armature. When a current passes through the armature windings, a magnetic field is created around them. This magnetic field interacts with the stator’s magnetic field, resulting in the generation of a torque that drives the rotor’s rotation. The armature is a critical component that facilitates the conversion of electrical energy into mechanical energy.

4. Commutator:

The commutator is a cylindrical ring attached to the rotor shaft. It consists of multiple segments, usually made of copper, that are insulated from each other. The commutator plays a vital role in the DC motor’s operation by providing the necessary electrical connections to the armature windings. As the rotor spins, the brushes make physical contact with different commutator segments, effectively reversing the direction of the current in the armature windings at the appropriate timing. This reversal of current flow ensures that the torque generated in the armature windings is always in the same direction, allowing for continuous rotation of the rotor.

5. Brushes:

The brushes are stationary contacts that make physical contact with the commutator segments. They are typically made of carbon or graphite and provide electrical connections to the armature windings. The brushes supply the current to the armature windings through the commutator, allowing for the creation of the magnetic field necessary for motor operation. The brushes need to maintain proper contact with the commutator to ensure efficient electrical transmission and reliable motor performance.

6. Housing or Frame:

The housing or frame of the DC motor encloses and supports all the internal components. It provides structural integrity, protects the motor from external elements, and helps dissipate heat generated during operation. The housing or frame also serves as a mounting point for the motor, allowing it to be securely installed in various applications.

By understanding the main components of a DC motor and their contributions, one can gain insights into how each part works together harmoniously to achieve the desired motor functionality.

dc motor

Can DC motors be used in renewable energy systems, such as wind turbines or solar tracking systems?

Yes, DC (Direct Current) motors can be effectively used in various renewable energy systems, including wind turbines and solar tracking systems. The unique characteristics and advantages of DC motors make them well-suited for these applications. Here’s a detailed explanation of how DC motors can be utilized in renewable energy systems:

1. Wind Turbines:

DC motors can be employed in wind turbines to convert the mechanical energy of the wind into electrical energy. There are two common configurations:

a. Direct Drive Wind Turbines:

In direct drive wind turbines, the rotor of the turbine is directly connected to a DC generator. The rotor’s rotational motion is transmitted directly to the generator, which produces DC electrical power. DC motors can be used as DC generators in this configuration. The advantage of using DC motors/generators is their simplicity, reliability, and ability to operate efficiently at variable speeds, which is beneficial in varying wind conditions.

b. Hybrid Wind Turbines:

Hybrid wind turbines combine both aerodynamic and electrical conversion systems. In this configuration, DC motors can be utilized for the pitch control mechanism and yaw control system. The pitch control mechanism adjusts the angle of the turbine blades to optimize performance, while the yaw control system enables the turbine to align itself with the wind direction. DC motors provide precise control and responsiveness required for these functions.

2. Solar Tracking Systems:

DC motors are commonly employed in solar tracking systems to maximize the efficiency of solar panels by optimizing their orientation towards the sun. There are two main types of solar tracking systems:

a. Single-Axis Solar Tracking Systems:

Single-axis solar tracking systems adjust the inclination of solar panels along a single axis (typically the east-west axis) to track the movement of the sun throughout the day. DC motors can be used to drive the rotation mechanism that adjusts the panel’s tilt angle. By continuously adjusting the panel’s position to face the sun directly, the solar energy harvested can be significantly increased, resulting in higher energy output compared to fixed solar panel installations.

b. Dual-Axis Solar Tracking Systems:

Dual-axis solar tracking systems adjust the inclination of solar panels along both the east-west and north-south axes to track the sun’s movement throughout the day and throughout the year. DC motors are utilized in the rotation mechanisms for both axes. This type of solar tracking system provides the highest possible energy yield by keeping the solar panels perpendicular to the sun’s rays at all times, maximizing the exposure to sunlight.

DC motors are preferred in renewable energy systems due to their advantages, including:

  • Efficiency at Variable Speeds: DC motors can operate efficiently at varying speeds, making them suitable for applications with fluctuating wind speeds or changing solar angles.
  • Control and Precision: DC motors offer precise control and responsiveness, allowing for accurate tracking and adjustment in wind turbines and solar tracking systems.
  • Reliability: DC motors are known for their reliability, with fewer moving parts compared to other motor types, reducing the risk of failure in remote or harsh environments.
  • Compatibility with Energy Storage Systems: DC motors can easily be integrated with energy storage systems, such as batteries or supercapacitors, to store excess electrical energy generated by wind turbines or solar panels.

In conclusion, DC motors can be effectively utilized in renewable energy systems such as wind turbines and solar tracking systems. Their efficiency, control capabilities, reliability, and compatibility with energy storage systems make them a suitable choice for these applications, contributing to the advancement of sustainable energy generation.

dc motor

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

Yes, DC (Direct Current) motors can be used in robotics, and they are widely employed in various robotic applications. DC motors offer several advantages that make them suitable for robotic systems, including their controllability, compact size, and versatility. Here’s a detailed explanation of how DC motors are used in robotics and some notable applications:

DC Motors in Robotics:

DC motors are commonly used in robotics due to their ability to provide precise speed control and torque output. They can be easily controlled by adjusting the voltage applied to the motor, allowing for accurate and responsive motion control in robotic systems. Additionally, DC motors can be designed in compact sizes, making them suitable for applications with limited space and weight constraints.

There are two main types of DC motors used in robotics:

  1. DC Brushed Motors: These motors have a commutator and carbon brushes that provide the electrical connection to the rotating armature. They are relatively simple in design and cost-effective. However, they may require maintenance due to brush wear.
  2. DC Brushless Motors: These motors use electronic commutation instead of brushes, resulting in improved reliability and reduced maintenance requirements. They are often more efficient and offer higher power density compared to brushed motors.

Notable Applications of DC Motors in Robotics:

DC motors find applications in various robotic systems across different industries. Here are some notable examples:

1. Robotic Manipulators: DC motors are commonly used in robotic arms and manipulators to control the movement of joints and end-effectors. They provide precise control over position, speed, and torque, allowing robots to perform tasks such as pick-and-place operations, assembly, and material handling in industrial automation, manufacturing, and logistics.

2. Mobile Robots: DC motors are extensively utilized in mobile robots, including autonomous vehicles, drones, and rovers. They power the wheels or propellers, enabling the robot to navigate and move in different environments. DC motors with high torque output are particularly useful for off-road or rugged terrain applications.

3. Humanoid Robots: DC motors play a critical role in humanoid robots, which aim to replicate human-like movements and capabilities. They are employed in various joints, including those of the head, arms, legs, and hands, allowing humanoid robots to perform complex movements and tasks such as walking, grasping objects, and facial expressions.

4. Robotic Exoskeletons: DC motors are used in robotic exoskeletons, which are wearable devices designed to enhance human strength and mobility. They provide the necessary actuation and power for assisting or augmenting human movements, such as walking, lifting heavy objects, and rehabilitation purposes.

5. Educational Robotics: DC motors are popular in educational robotics platforms and kits, including those used in schools, universities, and hobbyist projects. They provide a cost-effective and accessible way for students and enthusiasts to learn about robotics, programming, and control systems.

6. Precision Robotics: DC motors with high-precision control are employed in applications that require precise positioning and motion control, such as robotic surgery systems, laboratory automation, and 3D printing. The ability of DC motors to achieve accurate and repeatable movements makes them suitable for tasks that demand high levels of precision.

These are just a few examples of how DC motors are used in robotics. The flexibility, controllability, and compactness of DC motors make them a popular choice in a wide range of robotic applications, contributing to the advancement of automation, exploration, healthcare, and other industries.

China factory 60mm 30W DC Brush Right Angle Gear Motor, DC Brushed Geared Motor for Solar Panel Cleaner, Turnstiles Flap Barrier   vacuum pump booster	China factory 60mm 30W DC Brush Right Angle Gear Motor, DC Brushed Geared Motor for Solar Panel Cleaner, Turnstiles Flap Barrier   vacuum pump booster
editor by CX 2024-03-04

China wholesaler CHINAMFG S Series Right Angle Helical Worm Reduction Gear Motor with Best Sales

Product Description

AOKMAN S Series Right Angle Helical Worm Reduction Gear Motor

1.Technical data

Input power Ratio Input speed Torque Transmission stage Mounting type
0.18~22kW 9.96~244.74(MAX:4606) 1400rpm
900rpm
700rpm
90~4000N.m 2stage
3stage
Foot mounted
Flange mounted

2.Input power rating and permissible torque

Size 37 47 57 67 77 87 97
Structure S   SA   SF   SAF   SAT   SAZ
Input Power(kW) 0.18~0.75 0.18~1.5 0.18~3 0.25~5.5 0.55~7.5 0.75~15 1.5~22
Ratio 10.27~165.71 11.46~244.74 10.78~196.21 11.55~227.20 9.96~241.09 11.83~223.26 12.75~230.48
Permissible Torque(N.m) 90 170 300 520 1270 2280 4000

 
 
3.Gear unit weight

Size 37 47 57 67 77 87 97
Weight(kg) 7 10 14 26 50 100 170

 

4.Structures of S series gearbox

S series gear units are available in the following designs
S…Y… Foot-mounted parallel shaft helical gear units with solid shaft
SA…Y… Parallel shaft helical gear units with hollow shaft
SAZ…Y… Short-flange mounted parallel shaft helical gear units with hollow shaft
SF…Y… Flange-mounted parallel shaft helical gear units with solid shaft
SAT…Y… Flange-mounted parallel shaft helical gear units with hollow shaft
S(SF,SA,SAF,SAZ)S… Shaft input parallel shaft helical gear units
S(SF,SA,SAF,SAZ)…R…Y… Combinatorial parallel shaft helical gear units
S(SF,SA,SAF,SAZ)S…R… Shaft input combinatorial parallel shaft helical gear units

5.Field Gear Box’s Usage
1. Metallurgy 2 Mine 3 Machine 4 Energy 5 Transportation 6 Water Conserbancy 7 Tomacco 8 Pharmacy 9 Printing Package 10 Chemical industry…

6.Our services:

Pre-sale services 1. Select equipment model.
2.Design and manufacture products according to clients’ special requirement.
3.Train technical personal for clients
Services during selling 1.Pre-check and accept products ahead of delivery.
2. Help clients to draft solving plans.
After-sale services 1.Assist clients to prepare for the first construction scheme.
2. Train the first-line operators.
3.Take initiative to eliminate the trouble rapidly.
4. Provide technical exchanging.

7.S series gearbox are available in the following designs:
(1) SY
Foot mounted helical worm gearbox with CHINAMFG shaft

(2) SAY
Helical worm gearbox with hollow shaft

(3) SAZY
Small flange mounted helical worm gearbox with hollow shaft

(4) SA (S,SF,SAF,SAZ)Y
Assemble users’ motor or special motor, flange is required

(5) SFY
Flange mounted helical worm gearbox with CHINAMFG shaft

(6) SAFY
Flange mounted helical worm gearbox with hollow shaft

(7) SATY
Torque arm mounted helical worm gearbox with hollow shaft

(8) S (SF,SA,SAF,SAZ) S
Shaft input helical worm gearbox

(9) SA (S,SF,SAF,SAZ)RY
Combined helical worm gearbox

(10) SA (S,SF,SAF,SAZ)SR
Shaft input combined helical worm gearbox

Customer visiting:

11.FAQ:
1.Q:What kinds of gearbox can you produce for us?
A:Main products of our company: UDL series speed variator,RV series worm gear reducer, ATA series shaft mounted gearbox, X,B series gear reducer,
P series planetary gearbox and R, S, K, and F series helical-tooth reducer, more
than 1 hundred models and thousands of specifications
2.Q:Can you make as per custom drawing?
A: Yes, we offer customized service for customers.
3.Q:What is your terms of payment ?
A: 30% Advance payment by T/T after signing the contract.70% before delivery
4.Q:What is your MOQ?
A: 1 Set

If you are interested in our product, welcome you contact me.
Our team will support any need you might have.

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Application: Motor, Machinery
Hardness: Hardened Tooth Surface
Installation: Horizontal Type
Layout: Right Angle
Gear Shape: Helical Gear
Step: Double-Step
Samples:
US$ 20/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

gear motor

Are there innovations or emerging technologies in the field of gear motor design?

Yes, there are several innovations and emerging technologies in the field of gear motor design. These advancements aim to improve the performance, efficiency, compactness, and reliability of gear motors. Here are some notable innovations and emerging technologies in gear motor design:

1. Miniaturization and Compact Design:

Advancements in manufacturing techniques and materials have enabled the miniaturization of gear motors without compromising their performance. Gear motors with compact designs are highly sought after in applications where space is limited, such as robotics, medical devices, and consumer electronics. Innovative approaches like micro-gear motors and integrated motor-gear units are being developed to achieve smaller form factors while maintaining high torque and efficiency.

2. High-Efficiency Gearing:

New gear designs focus on improving efficiency by reducing friction and mechanical losses. Advanced gear manufacturing techniques, such as precision machining and 3D printing, allow for the creation of intricate gear tooth profiles that optimize power transmission and minimize losses. Additionally, the use of high-performance materials, coatings, and lubricants helps reduce friction and wear, improving overall gear motor efficiency.

3. Magnetic Gearing:

Magnetic gearing is an emerging technology that replaces traditional mechanical gears with magnetic fields to transmit torque. It utilizes the interaction of permanent magnets to transfer power, eliminating the need for physical gear meshing. Magnetic gearing offers advantages such as high efficiency, low noise, compactness, and maintenance-free operation. While still being developed and refined, magnetic gearing holds promise for various applications, including gear motors.

4. Integrated Electronics and Controls:

Gear motor designs are incorporating integrated electronics and controls to enhance performance and functionality. Integrated motor drives and controllers simplify system integration, reduce wiring complexity, and allow for advanced control features. These integrated solutions offer precise speed and torque control, intelligent feedback mechanisms, and connectivity options for seamless integration into automation systems and IoT (Internet of Things) platforms.

5. Smart and Condition Monitoring Capabilities:

New gear motor designs incorporate smart features and condition monitoring capabilities to enable predictive maintenance and optimize performance. Integrated sensors and monitoring systems can detect abnormal operating conditions, track performance parameters, and provide real-time feedback for proactive maintenance and troubleshooting. This helps prevent unexpected failures, extend the lifespan of gear motors, and improve overall system reliability.

6. Energy-Efficient Motor Technologies:

Gear motor design is influenced by advancements in energy-efficient motor technologies. Brushless DC (BLDC) motors and synchronous reluctance motors (SynRM) are gaining popularity due to their higher efficiency, better power density, and improved controllability compared to traditional brushed DC and induction motors. These motor technologies, when combined with optimized gear designs, contribute to overall system energy savings and performance improvements.

These are just a few examples of the innovations and emerging technologies in gear motor design. The field is continuously evolving, driven by the need for more efficient, compact, and reliable motion control solutions in various industries. Gear motor manufacturers and researchers are actively exploring new materials, manufacturing techniques, control strategies, and system integration approaches to meet the evolving demands of modern applications.

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

In which industries are gear motors commonly used, and what are their primary applications?

Gear motors find widespread use in various industries due to their versatility, reliability, and ability to provide controlled mechanical power. They are employed in a wide range of applications that require precise power transmission and speed control. Here’s a detailed explanation of the industries where gear motors are commonly used and their primary applications:

1. Robotics and Automation:

Gear motors play a crucial role in robotics and automation industries. They are used in robotic arms, conveyor systems, automated assembly lines, and other robotic applications. Gear motors provide the required torque, speed control, and directional control necessary for the precise movements and operations of robots. They enable accurate positioning, gripping, and manipulation tasks in industrial and commercial automation settings.

2. Automotive Industry:

The automotive industry extensively utilizes gear motors in various applications. They are used in power windows, windshield wipers, HVAC systems, seat adjustment mechanisms, and many other automotive components. Gear motors provide the necessary torque and speed control for these systems, enabling smooth and efficient operation. Additionally, gear motors are also utilized in electric and hybrid vehicles for powertrain applications.

3. Manufacturing and Machinery:

Gear motors find wide application in the manufacturing and machinery sector. They are used in conveyor belts, packaging equipment, material handling systems, industrial mixers, and other machinery. Gear motors provide reliable power transmission, precise speed control, and torque amplification, ensuring efficient and synchronized operation of various manufacturing processes and machinery.

4. HVAC and Building Systems:

In heating, ventilation, and air conditioning (HVAC) systems, gear motors are commonly used in damper actuators, control valves, and fan systems. They enable precise control of airflow, temperature, and pressure, contributing to energy efficiency and comfort in buildings. Gear motors also find applications in automatic doors, blinds, and gate systems, providing reliable and controlled movement.

5. Marine and Offshore Industry:

Gear motors are extensively used in the marine and offshore industry, particularly in propulsion systems, winches, and cranes. They provide the required torque and speed control for various marine operations, including steering, anchor handling, cargo handling, and positioning equipment. Gear motors in marine applications are designed to withstand harsh environments and provide reliable performance under demanding conditions.

6. Renewable Energy Systems:

The renewable energy sector, including wind turbines and solar tracking systems, relies on gear motors for efficient power generation. Gear motors are used to adjust the rotor angle and position in wind turbines, optimizing their performance in different wind conditions. In solar tracking systems, gear motors enable the precise movement and alignment of solar panels to maximize sunlight capture and energy production.

7. Medical and Healthcare:

Gear motors have applications in the medical and healthcare industry, including in medical equipment, laboratory devices, and patient care systems. They are used in devices such as infusion pumps, ventilators, surgical robots, and diagnostic equipment. Gear motors provide precise control and smooth operation, ensuring accurate dosing, controlled movements, and reliable functionality in critical medical applications.

These are just a few examples of the industries where gear motors are commonly used. Their versatility and ability to provide controlled mechanical power make them indispensable in numerous applications requiring torque amplification, speed control, directional control, and load distribution. The reliable and efficient power transmission offered by gear motors contributes to the smooth and precise operation of machinery and systems in various industries.

China wholesaler CHINAMFG S Series Right Angle Helical Worm Reduction Gear Motor   with Best Sales China wholesaler CHINAMFG S Series Right Angle Helical Worm Reduction Gear Motor   with Best Sales
editor by CX 2024-02-23

China high quality ZD 110V/220V/380V/415V 6W-200W 60mm-104mm 2IK,3IK,4IK,5Ik,6Ik Series Square Mount Right Angle Single Phase Three Phase Micro Electric Induction AC Gear Motor near me manufacturer

Product Description

Model Selection

        ZD Leader has a wide range of micro motor production lines in the industry, including DC Motor, AC Motor, Brushless Motor, Planetary Gear Motor, Drum Motor, Planetary Gearbox, RV Reducer and Harmonic Gearbox etc. Through technical innovation and customization, we help you create outstanding application systems and provide flexible solutions for various industrial automation situations.

• Model Selection

Our professional sales representive and technical team will choose the right model and transmission solutions for your usage depend on your specific parameters.

• Drawing Request

If you need more product parameters, catalogues, CAD or 3D drawings, please contact us.

• On Your Need

We can modify standard products or customize them to meet your specific needs.

Product Parameters

AC Gear Motor

Type Of AC Gear Motor

Other Products

 

Company Profile

MOTOR FRAME SIZE 60 mm / 70mm / 80mm / 90mm / 104mm
MOTOR TYPE Induction Motor / Reversible Motor / Torque Motor / Speed Control Motor
OUTPUT POWER 10W / 15W / 25W / 40W / 60W / 90W / 120 W / 140W / 180W / 200W / 300W(Can Be Customized)
OUTPUT SHAFT 8mm / 10mm / 12mm / 15mm ; Round Shaft, D-Cut Shaft, Key-Way Shaft (Can Be Customized)
Voltage type Single phase 100-120V 50/60Hz; Three phase 200-240V 50/60Hz; Three phase 440-480V 60Hz 4P
Accessories Electric Brake / Fan / Speed Controller / Terminal Box /  Thermal Protector
GEARBOX FRAME SIZE 60 mm / 70mm / 80mm / 90mm / 104mm
Gear Ratio 3K-200K
Type Of Pinion GN Type / GU Type
Gearbox Type Regular Square Case gearbox / Right Angle Gearbox / L Type Gearbox
MOTOR FRAME SIZE 60 mm / 70mm / 80mm / 90mm / 104mm
MOTOR TYPE Induction Motor / Reversible Motor / Torque Motor / Speed Control Motor
OUTPUT POWER 10W / 15W / 25W / 40W / 60W / 90W / 120 W / 140W / 180W / 200W / 300W(Can Be Customized)
OUTPUT SHAFT 8mm / 10mm / 12mm / 15mm ; Round Shaft, D-Cut Shaft, Key-Way Shaft (Can Be Customized)
Voltage type Single phase 100-120V 50/60Hz; Three phase 200-240V 50/60Hz; Three phase 440-480V 60Hz 4P
Accessories Electric Brake / Fan / Speed Controller / Terminal Box /  Thermal Protector
GEARBOX FRAME SIZE 60 mm / 70mm / 80mm / 90mm / 104mm
Gear Ratio 3K-200K
Type Of Pinion GN Type / GU Type
Gearbox Type Regular Square Case gearbox / Right Angle Gearbox / L Type Gearbox

Benefits of a Planetary Motor

A planetary motor has many benefits. Its compact design and low noise makes it a good choice for any application. Among its many uses, planetary gear motors are found in smart cars, consumer electronics, intelligent robots, communication equipment, and medical technology. They can even be found in smart homes! Read on to discover the benefits of a planetary gear motor. You’ll be amazed at how versatile and useful it is!
Motor

Self-centering planet gears ensure a symmetrical force distribution

A planetary motor is a machine with multiple, interlocking planetary gears. The output torque is inversely proportional to the diameters of the planets, and the transmission size has no bearing on the output torque. A torsional stress analysis of the retaining structure for this type of motor found a maximum shear stress of 64 MPa, which is equivalent to a safety factor of 3.1 for 6061 aluminum. Self-centering planet gears are designed to ensure a symmetrical force distribution throughout the transmission system, with the weakest component being the pinions.
A planetary gearbox consists of ring and sun gears. The pitch diameters of ring and planet gears are nearly equal. The number of teeth on these gears determines the average gear-ratio per output revolution. This error is related to the manufacturing precision of the gears. The effect of this error is a noise or vibration characteristic of the planetary gearbox.
Another design for a planetary gearbox is a traction-based variant. This design eliminates the need for timing marks and other restrictive assembly conditions. The design of the ring gear is similar to that of a pencil sharpener mechanism. The ring gear is stationary while planet gears extend into cylindrical cutters. When placed on the sun’s axis, the pencil sharpening mechanism revolves around the ring gear to sharpen the pencil.
The JDS eliminates the need for conventional planetary carriers and is mated with the self-centering planet gears by dual-function components. The dual-function components synchronize the rolling motion and traction of the gears. They also eliminate the need for a carrier and reduce the force distribution between the rotor and stator.

Metal gears

A planetary motor is a type of electric drive that uses a series of metal gears. These gears share a load attached to the output shaft to generate torque. The planetary motor is often CNC controlled, with extra-long shafts, which allow it to fit into very compact designs. These gears are available in sizes from seven millimeters to 12 millimeters. They can also be fitted with encoders.
Planetary gearing is widely used in various industrial applications, including automobile transmissions, off-road transmissions, and wheel drive motors. They are also used in bicycles to power the shift mechanism. Another use for planetary gearing is as a powertrain between an internal combustion engine and an electric motor. They are also used in forestry applications, such as debarking equipment and sawing. They can be used in other industries as well, such as pulp washers and asphalt mixers.
Planetary gear sets are composed of three types of gears: a sun gear, planet gears, and an outer ring. The sun gear transfers torque to the planet gears, and the planet gears mesh with the outer ring gear. Planet carriers are designed to deliver high-torque output at low speeds. These gears are mounted on carriers that are moved around the ring gear. The planet gears mesh with the ring gears, and the sun gear is mounted on a moveable carrier.
Plastic planetary gear motors are less expensive to produce than their metal counterparts. However, plastic gears suffer from reduced strength, rigidity, and load capacity. Metal gears are generally easier to manufacture and have less backlash. Plastic planetary gear motor bodies are also lighter and less noisy. Some of the largest plastic planetary gear motors are made in collaboration with leading suppliers. When buying a plastic planetary gear motor, be sure to consider what materials it is made of.
Motor

Encoder

The Mega Torque Planetary Encoder DC Geared Motor is designed with a Japanese Mabuchi motor RS-775WC, a 200 RPM base motor. It is capable of achieving stall torque at low speeds, which is impossible to achieve with a simple DC motor. The planetary encoder provides five pulses per revolution, making it perfect for applications requiring precise torque or position. This motor requires an 8mm hex coupling for proper use.
This encoder has a high resolution and is suitable for ZGX38REE, ZGX45RGG and ZGX50RHH. It features a magnetic disc and poles and an optical disc to feed back signals. It can count paulses as the motor passes through a hall on the circuit board. Depending on the gearbox ratio, the encoder can provide up to two million transitions per rotation.
The planetary gear motor uses a planetary gear system to distribute torque in synchrony. This minimizes the risk of gear failure and increases the overall output capacity of the device. On the other hand, a spur gear motor is a simpler design and cheaper to produce. The spur gear motor works better for lower torque applications as each gear bears all the load. As such, the torque capacity of the spur gear motor is lower than that of a planetary gear motor.
The REV UltraPlanetary gearbox is designed for FTC and has three different output shaft options. The output shaft is made of 3/8-inch hex, allowing for flexible shaft replacement. These motors are a great value as they can be used to meet a wide range of power requirements. The REV UltraPlanetary gearbox and motor are available for very reasonable prices and a female 5mm hex output shaft can be used.

Durability

One of the most common questions when selecting a planetary motor is “How durable is it?” This is a question that’s often asked by people. The good news is that planetary motors are extremely durable and can last for a long time if properly maintained. For more information, read on! This article will cover the durability and efficiency of planetary gearmotors and how you can choose the best one for your needs.
First and foremost, planetary gear sets are made from metal materials. This increases their lifespan. The planetary gear set is typically made of metals such as nickel-steel and steel. Some planetary gear motors use plastic. Steel-cut gears are the most durable and suitable for applications that require more torque. Nickel-steel gears are less durable, but are better able to hold lubricant.
Durability of planetary motor gearbox is important for applications requiring high torque versus speed. VEX VersaPlanetary gearboxes are designed for FRC(r) use and are incredibly durable. They are expensive, but they are highly customizable. The planetary gearbox can be removed for maintenance and replacement if necessary. Parts for the gearbox can be purchased separately. VEX VersaPlanetary gearboxes also feature a pinion clamped onto the motor shaft.
Dynamic modeling of the planetary gear transmission system is important for understanding its durability. In previous studies, uncoupled and coupled meshing models were used to investigate the effect of various design parameters on the vibration characteristics of the planetary gear system. This analysis requires considering the role of the mesh stiffness, structure stiffness, and moment of inertia. Moreover, dynamic models for planetary gear transmission require modeling the influence of multiple parameters, such as mesh stiffness and shaft location.
Motor

Cost

The planetary gear motor has multiple contact points that help the rotor rotate at different speeds and torques. This design is often used in stirrers and large vats of liquid. This type of motor has a low initial cost and is more commonly found in low-torque applications. A planetary gear motor has multiple contact points and is more effective for applications requiring high torque. Gear motors are often found in stirring mechanisms and conveyor belts.
A planetary gearmotor is typically made from four mechanically linked rotors. They can be used for various applications, including automotive and laboratory automation. The plastic input stage gears reduce noise at higher speeds. Steel gears can be used for high torques and a modified lubricant is often added to reduce weight and mass moment of inertia. Its low-cost design makes it an excellent choice for robots and other applications.
There are many different types of planetary gear motors available. A planetary gear motor has three gears, the sun gear and planet gears, with each sharing equal amounts of work. They are ideal for applications requiring high torque and low-resistance operation, but they require more parts than their single-stage counterparts. The steel cut gears are the most durable, and are often used in applications that require high speeds. The nickel-steel gears are more absorptive, which makes them better for holding lubricant.
A planetary gear motor is a high-performance electrical vehicle motor. A typical planetary gear motor has a 3000 rpm speed, a peak torque of 0.32 Nm, and is available in 24V, 36V, and 48V power supply. It is also quiet and efficient, requiring little maintenance and offering greater torque to a modern electric car. If you are thinking of buying a planetary gear motor, be sure to do a bit of research before purchasing one.

China Good quality 90W Spiral Bevel Angel AC Right Angle Gear Motor with Great quality

Merchandise Description

25w 30w substantial torque reduced pace appropriate angle ac gear motor

one. Mild excess weight, modest dimension and straightforward set up
two. Wide velocity ranges and large torque
three. Reduced sounds and large effectiveness
4. Stable and risk-free, long life time
five. Multi-construction, various assembling techniques
6. 1-stop remedy with pace controller, driver, encoder, brake and transformer available.

Motor Specification
 

Allowable load for the equipment motor

other merchandise

 

Certifications

 

Packaging & Shipping

 

Organization Profile

FAQ

Q: How to pick a appropriate motor or gearbox?
A:If you have motor photographs or drawings to display us, or you have thorough specs, this sort of as, voltage, velocity, torque, motor measurement, functioning manner of the motor, needed lifetime and noise amount and so forth, you should do not wait to enable us know, then we can advise appropriate motor per your request accordingly.

Q: Do you have a customized service for your common motors or gearboxes?
A: Sure, we can personalize per your request for the voltage, speed, torque and shaft size/condition. If you need extra wires/cables soldered on the terminal or want to incorporate connectors, or capacitors or EMC we can make it too.

Q: Do you have an personal layout provider for motors?
A: Of course, we would like to design motors independently for our consumers, but some kind of molds are necessory to be developped which may want actual price and layout charging.

Q: What is actually your lead time?
A: Normally talking, our normal common product will need fifteen-30days, a little bit lengthier for customized goods. But we are quite flexible on the lead time, it will count on the certain orders.
 

The Positive aspects of Employing a Gear Motor

A equipment motor performs on the theory of conservation of angular momentum. As the more compact gear addresses far more RPM and the greater gear makes much more torque, the ratio in between the two is better than a single. Similarly, a numerous equipment motor follows the theory of strength conservation, with the course of rotation constantly opposite to the a single that is adjacent to it. It really is effortless to understand the concept powering gear motors and the a variety of types offered. Study on to find out about the diverse sorts of gears and their applications.

Electrical motor

The selection of an electric motor for equipment motor is mostly dependent on the application. There are a variety of motor and gearhead combinations offered, and some are more productive than other folks. However, it is vital to comprehend the software requirements and decide on a motor that fulfills these needs. In this article, we’ll look at some of the rewards of making use of a equipment motor. The pros and negatives of every sort are briefly talked about. You can purchase new equipment motors at competitive rates, but they aren’t the most reliable or tough alternative for your application.
To determine which motor is best for your software, you’ll want to consider the load and velocity requirements. A gear motor’s performance (e) can be calculated by taking the input and output values and calculating their relation. On the graph underneath, the input (T) and output (P) values are represented as dashed lines. The input (I) price is represented as the torque utilized to the motor shaft. The output (P) is the volume of mechanical vitality converted. A DC equipment motor is 70% efficient at 3.seventy five lb-in / 2,100 rpm.
In addition to the worm equipment motor, you can also select a compact DC worm equipment motor with a variable gear ratio from 7.5 to eighty. It has a variety of choices and can be customized-manufactured for your certain application. The 3-section AC gear motor, on the other hand, functions at a rated energy of 1 hp and torque of 1.143.2 kg-m. The output voltage is usually 220V.
One more crucial factor is the output shaft orientation. There are two major orientations for gearmotors: in-line and offset. In-line output shafts are most best for programs with large torque and limited reduction ratios. If you want to stay away from backlash, decide on a correct angle output shaft. An offset shaft can trigger the output shaft to grow to be excessively scorching. If the output shaft is angled at a certain angle, it may be also huge or too tiny.
Motor

Equipment reducer

A equipment reducer is a unique kind of speed decreasing motor, generally employed in big machinery, this sort of as compressors. These reducers have no cooling fan and are not developed to handle large masses. Different reasons call for various service factors. For instance, a equipment that needs frequent rapidly accelerations and occasional load spikes needs a equipment reducer with a high services aspect. A equipment reducer which is created for long manufacturing shifts should be larger than a machine that uses it for brief intervals of time.
A equipment reducer can minimize the speed of a motor by a issue of two. The reduction ratio adjustments the rotation speed of the acquiring member. This modify in velocity is typically essential to resolve issues of inertia mismatch. The torque density of a equipment reducer is measured in newton meters and will count on the motor employed. The first criterion is the configuration of the input and output shafts. A gear ratio of 2:1, for example, indicates that the output pace has been reduce in 50 percent.
Bevel gear reducers are a excellent choice if the input and output shafts are perpendicular. This sort is quite sturdy and is best for conditions where the angle among two axes is little. Nevertheless, bevel equipment reducers are high-priced and demand continuous maintenance. They are usually utilized in weighty-responsibility conveyors and farm equipment. The right choice of equipment reducer for equipment motor is critical for the efficiency and reliability of the mechanism. To get the best equipment reducer for your software, speak to a qualified manufacturer today.
Choosing a gear reducer for a equipment motor can be difficult. The wrong one can wreck an entire equipment, so it really is important to know the particulars. You need to know the torque and speed needs and choose a motor with the appropriate ratio. A gear reducer need to also be appropriate with the motor it is meant for. In some cases, a scaled-down motor with a gear reducer will function much better than a greater 1.
Motor

Motor shaft

Appropriate alignment of the motor shaft can greatly increase the overall performance and life span of rotating units. The appropriate alignment of motors and pushed instruments improves the transfer of energy from the motor to the instrument. Incorrect alignment sales opportunities to added sound and vibration. It may also direct to premature failure of couplings and bearings. Misalignment also benefits in increased shaft and coupling temperatures. Consequently, correct alignment is vital to enhance the effectiveness of the driven instrument.
When picking the appropriate variety of gear prepare for your motor, you need to have to consider its vitality performance and the torque it can deal with. A helical geared motor is far more efficient for substantial output torque programs. Relying on the necessary speed and torque, you can decide on amongst an in-line and a parallel helical geared motor. Both kinds of gears have their advantages and drawbacks. Spur gears are prevalent. They are toothed and operate parallel to the motor shaft.
A planetary equipment motor can also have a linear output shaft. A stepping motor should not work at too higher recent to stop demagnetization, which will direct to step decline or torque fall. Ensure that the motor and gearbox output shafts are secured from exterior impacts. If the motor and gearbox are not safeguarded from bumps, they may possibly trigger thread defects. Make positive that the motor shafts and rotors are guarded from exterior impacts.
When picking a metal for your equipment motor’s motor shaft, you ought to take into account the cost of hot-rolled bar stock. Its outer levels are a lot more difficult to device. This kind of substance contains residual stresses and other problems that make it difficult to machine. For these apps, you should decide on a substantial-power steel with hard outer levels. This type of steel is cheaper, but it also has dimensions concerns. It’s best to check every material 1st to decide which one fits your demands.
In addition to reducing the pace of your system, a geared motor also minimizes the torque generated by your device. It can be utilized with both AC and DC energy. A high-top quality gear motor is vital for stirring mechanisms and conveyor belts. Even so, you need to pick a geared motor that uses high-grade gears and supplies greatest performance. There are numerous sorts of planetary equipment motors and gears on the industry, and it is important to choose the correct one.
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Very first stage gears

The initial stage gears of a gear motor are the most critical components of the total unit. The motor’s power transmission is ninety% efficient, but there are many elements that can impact its efficiency. The gear ratios utilised should be higher sufficient to manage the load, but not as well large that they are restricting the motor’s speed. A equipment motor need to also have a healthful security element, and the lubricant must be sufficient to overcome any of these aspects.
The transmission torque of the equipment alterations with its speed. The transmission torque at the input side of the equipment decreases, transferring a tiny torque to the output side. The number of tooth and the pitch circle diameters can be employed to estimate the torque. The first stage gears of equipment motors can be categorized as spur gears, helical gears, or worm gears. These three types of gears have diverse torque capacities.
The very first stage helical gear is the most essential part of a gear motor. Its operate is to transfer rotation from one particular gear to the other. Its output is the gearhead. The second phase gears are connected by a carrier. They perform in tandem with the initial phase gear to supply the output of the gearhead. Moreover, the initial stage provider rotates in the exact same path as the enter pinion.
An additional important part is the output torque of the gearmotor. When choosing a gearmotor, contemplate the commencing torque, operating torque, output velocity, overhung and shock loads, obligation cycles, and far more. It is essential to select a gearmotor with the appropriate ratio for the application. By choosing the appropriate gearmotor, you will get maximum efficiency with minimum running fees and increase plant efficiency. For a lot more data on very first stage gears, verify out our website.
The first stage of a gear motor is composed of a established of mounted and rotating sprockets. The very first phase of these gears functions as a generate equipment. Its rotational mass is a restricting aspect for torque. The next stage is composed of a rotating shaft. This shaft rotates in the route of the torque axis. It is also the restricting drive for the motor’s torque.

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China Hot selling ZD Low Voltage High Torque Right Angle Electric Brushless DC Gear Motor near me shop

Merchandise Description

Merchandise Description

      Brushless DC Gear Motor combine higher performance DC brushless motors and  motor motorists to offer you outstanding CZPT personal savings, high torque and speed security as properly as a broad pace handle variety. With brushless DC motors you can downsize your software as the motors have slim bodies and give substantial electrical power owing to everlasting magnets being utilized in the rotor.

  • Output Power from 15 W  up to 750 W 
  • Parallel Shaft, Proper-Angle Shaft and Flat Hollow Shaft Equipment possibilities
  • Speed Manage/Motor Driver Offered

Characteridtics Of BLDC Motor

Variety Of BLDC Motor

Selection Of BLDC Gearmotor

Pleas click on to view far more comprehensive specification for each series of BLDC Motor.

Other Merchandise

Firm Profile

What Is a Equipment Motor?

A equipment motor is an electric powered motor coupled with a gear teach. It utilizes possibly DC or AC energy to obtain its goal. The principal advantage of a equipment reducer is its capacity to multiply torque even though maintaining a compact dimensions. The trade-off of this added torque will come in the sort of a reduced output shaft pace and general effectiveness. However, suitable equipment technology and ratios give ideal output and velocity profiles. This kind of motor unlocks the total possible of OEM equipment.

Inertial load

Inertial load on a equipment motor is the quantity of drive a rotating device generates thanks to its inverse sq. connection with its inertia. The higher the inertia, the considerably less torque can be created by the equipment motor. Nonetheless, if the inertia is as well large, it can result in difficulties with positioning, settling time, and controlling torque and velocity. Equipment ratios should be selected for ideal power transfer.
The duration of acceleration and braking time of a equipment motor is dependent on the sort of driven load. An inertia load demands for a longer time acceleration time whereas a friction load needs breakaway torque to start off the load and keep it at its desired speed. Way too quick a time period can trigger excessive gear loading and might outcome in ruined gears. A secure strategy is to disconnect the load when electrical power is disconnected to stop inertia from driving back by way of the output shaft.
Inertia is a elementary idea in the design and style of motors and travel techniques. The ratio of mass and inertia of a load to a motor decides how effectively the motor can control its velocity in the course of acceleration or deceleration. The mass second of inertia, also referred to as rotational inertia, is dependent on the mass, geometry, and middle of mass of an item.
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Applications

There are many purposes of gear motors. They offer a effective nevertheless successful signifies of speed and torque management. They can be possibly AC or DC, and the two most common motor varieties are the a few-section asynchronous and the everlasting magnet synchronous servomotor. The type of motor used for a given software will establish its cost, reliability, and complexity. Gear motors are usually used in programs in which high torque is required and room or electricity constraints are substantial.
There are two varieties of equipment motors. Based on the ratio, each equipment has an output shaft and an input shaft. Equipment motors use hydraulic force to produce torque. The strain builds on one facet of the motor right up until it generates adequate torque to electrical power a rotating load. This kind of motors is not advisable for applications exactly where load reversals occur, as the holding torque will diminish with age and shaft vibration. Even so, it can be utilised for precision purposes.
The market landscape shows the aggressive surroundings of the gear motor industry. This report also highlights key things, income and price development by location and nation. The report also examines the competitive landscape by region, including the United States, China, India, the GCC, South Africa, Brazil, and the relaxation of the planet. It is important to note that the report contains section-specific info, so that readers can easily recognize the industry likely of the geared motors market place.

Size

The security aspect, or SF, of a equipment motor is an essential thought when picking 1 for a specific application. It compensates for the stresses placed on the gearing and allows it to run at highest efficiency. Producers supply tables detailing common applications, with multiplication elements for responsibility. A equipment motor with a SF of 3 or far more is ideal for tough applications, while a gearmotor with a SF of one or two is ideal for comparatively easy programs.
The international gear motor industry is highly fragmented, with numerous small gamers catering to numerous end-use industries. The report identifies a variety of business developments and gives comprehensive data on the market place. It outlines historical knowledge and provides beneficial insights on the industry. The report also employs many methodologies and methods to examine the industry. In addition to offering historical info, it contains in depth information by industry section. In-depth analysis of industry segments is supplied to support recognize which systems will be most suited for which programs.
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Price

A equipment motor is an electric motor that is paired with a equipment teach. They are available in AC or DC energy systems. Compared to conventional motors, equipment reducers can optimize torque while keeping compact proportions. But the trade-off is the diminished output shaft speed and overall performance. Nevertheless, when utilized accurately, a gear motor can generate best output and mechanical match. To recognize how a gear motor performs, let us appear at two types: proper-angle geared motors and inline geared motors. The 1st two kinds are generally employed in automation tools and in agricultural and medical applications. The latter type is developed for rugged applications.
In addition to its performance, DC gear motors are area-preserving and have reduced power use. They can be employed in a quantity of applications like funds counters and printers. Computerized window machines and curtains, glass curtain walls, and banknote vending devices are some of the other key apps of these motors. They can expense up to ten horsepower, which is a whole lot for an industrial device. Nonetheless, these are not all-out pricey.
Electrical equipment motors are adaptable and extensively employed. Nonetheless, they do not function well in applications requiring large shaft speed and torque. Examples of these incorporate conveyor drives, frozen beverage equipment, and medical tools. These apps require large shaft pace, so gear motors are not perfect for these applications. Even so, if sounds and other difficulties are not a worry, a motor-only answer may possibly be the greater choice. This way, you can use a solitary motor for multiple apps.
Motor

Maintenance

Geared motors are amongst the most typical tools employed for travel trains. Correct upkeep can prevent damage and maximize their performance. A information to equipment motor servicing is available from WEG. To avoid further harm, follow these upkeep methods:
Often verify electrical connections. Check for loose connections and torque them to the recommended values. Also, examine the contacts and relays to make positive they are not tangled or ruined. Check the environment close to the gear motor to avert dust from clogging the passageway of electric powered existing. A proper upkeep plan will support you determine troubles and prolong their life. The handbook will also inform you about any issues with the gearmotor. However, this is not adequate – it is critical to examine the issue of the gearbox and its components.
Perform visible inspection. The objective of visible inspection is to observe any irregularities that may point out possible problems with the gear motor. A dirty motor may possibly be an indicator of a tough setting and a lot of troubles. You can also perform a scent examination. If you can smell a burned odor coming from the windings, there could be an overheating issue. Overheating can lead to the windings to burn off and injury.
Reactive routine maintenance is the most common strategy of motor servicing. In this type of routine maintenance, you only carry out repairs if the motor stops functioning thanks to a malfunction. Typical inspection is necessary to steer clear of unexpected motor failures. By utilizing a logbook to document motor operations, you can determine when it is time to replace the equipment motor. In distinction to preventive upkeep, reactive upkeep demands no standard exams or companies. Nonetheless, it is recommended to perform inspections each and every six months.

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China OEM Helical Gear AC Right Angle Gear Motor Spiral Bevel wholesaler

Product Description

RRODUCT FATUERS:

The business is a specialised manufacturing unit that creates miniature equipment reduction motors on a fixed-position foundation. It has a generation historical past of far more than ten a long time. The company has a total established of organization management and specialized administration systems, and its goods are created in rigorous accordance with GB / T19001-2000 expectations.

The “Weiqiang” equipment reducer created by our company sells nicely in provinces, municipalities and autonomous locations of the country. It is commonly utilised in metallurgy, mining, lifting, transportation, petroleum, chemical, textile, pharmaceutical, foodstuff, light-weight business, grain, oil, feed and other industries, and is deeply trustworthy by clients.
Welcome new and old clients to visit and guidebook.

Packaging & Shipping:
1, Waterproof plastic bag packed in foam box and carton as outer packing.
two, Export wooden box packaging for products.

 

Rewards of a Planetary Motor

If you are searching for an reasonably priced way to energy a machine, think about acquiring a Planetary Motor. These units are created to provide a huge selection of gear reductions, and are able of generating a lot higher torques and torque density than other sorts of push programs. This post will make clear why you must contemplate getting a single for your wants. And we’ll also go over the variances among a planetary and spur equipment method, as properly as how you can reward from them.

planetary gears

Planetary gears in a motor are utilised to decrease the velocity of rotation of the armature 8. The reduction ratio is established by the structure of the planetary gear device. The output shaft 5 rotates by means of the gadget with the assistance of the ring equipment 4. The ring gear 4 engages with the pinion 3 after the shaft is rotated to the engagement position. The transmission of rotational torque from the ring gear to the armature triggers the motor to start off.
The axial conclude surface area of a planetary gear system has two circular grooves 21. The frustrated portion is used to retain lubricant. This lubricant prevents overseas particles from moving into the planetary gear area. This characteristic enables the planetary equipment device to be compact and light-weight. The cylindrical part also minimizes the mass inertia. In this way, the planetary gear unit can be a very good choice for a motor with constrained place.
Due to the fact of their compact footprint, planetary gears are fantastic for minimizing heat. In addition, this design allows them to be cooled. If you need substantial speeds and sustained efficiency, you might want to contemplate employing lubricants. The lubricants current a cooling impact and reduce sound and vibration. If you want to maximize the effectiveness of your motor, commit in a planetary gear hub drivetrain.
The planetary gear head has an inside sunshine equipment that drives the several outer gears. These gears mesh jointly with the outer ring that is fastened to the motor housing. In industrial applications, planetary gears are used with an escalating quantity of teeth. This distribution of power assures greater performance and transmittable torque. There are several advantages of employing a planetary equipment motor. These rewards incorporate:
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planetary gearboxes

A planetary gearbox is a kind of drivetrain in which the input and output shafts are linked with a planetary structure. A planetary gearset can have 3 principal factors: an input equipment, a planetary output equipment, and a stationary situation. Diverse gears can be used to alter the transmission ratios. The planetary framework arrangement offers the planetary gearset higher rigidity and minimizes backlash. This large rigidity is crucial for quick begin-cease cycles and rotational direction.
Planetary gears require to be lubricated frequently to avert wear and tear. In addition, transmissions should be serviced often, which can consist of fluid alterations. The gears in a planetary gearbox will wear out with time, and any difficulties ought to be fixed immediately. However, if the gears are damaged, or if they are faulty, a planetary gearbox company will repair it for free.
A planetary gearbox is usually a 2-speed design, but skilled producers can supply triple and one-speed sets. Planetary gearboxes are also compatible with hydraulic, electromagnetic, and dynamic braking methods. The very first phase to developing a planetary gearbox is defining your application and the wanted final result. Well-known constructors use a consultative modeling strategy, beginning every single venture by learning equipment torque and running problems.
As the planetary gearbox is a compact layout, area is constrained. Therefore, bearings need to have to be selected meticulously. The compact needle roller bearings are the most typical choice, but they are not able to tolerate big axial forces. These that can manage high axial forces, this sort of as worm gears, need to decide for tapered roller bearings. So, what are the advantages and disadvantages of a helical gearbox?

planetary equipment motors

When we think of planetary gear motors, we have a tendency to think of huge and powerful equipment, but in reality, there are a lot of smaller sized, much more low-cost versions of the exact same machine. These motors are usually made of plastic, and can be as modest as 6 millimeters in diameter. As opposed to their larger counterparts, they have only 1 gear in the transmission, and are created with a modest diameter and little number of enamel.
They are related to the solar method, with the planets rotating all around a sunshine equipment. The planet pinions mesh with the ring equipment inside of the sunshine gear. All of these gears are connected by a planetary provider, which is the output shaft of the gearbox. The ring gear and planetary provider assembly are hooked up to each and every other via a sequence of joints. When power is utilized to any of these associates, the whole assembly will rotate.
When compared to other configurations, planetary gearmotors are a lot more complex. Their design is made up of a sunlight equipment centered in the centre and many smaller sized gears that mesh with the central sunshine equipment. These gears are enclosed in a more substantial internal tooth gear. This design allows them to deal with larger loads than traditional gear motors, as the load is dispersed amongst many gears. This kind of motor is generally more high-priced than other configurations, but can face up to the larger-load needs of some devices.
Because they are cylindrical in shape, planetary gear motors are extremely versatile. They can be employed in various applications, such as automatic transmissions. They are also employed in programs in which higher-precision and velocity are necessary. In addition, the planetary gear motor is robust and is characterized by lower vibrations. The advantages of making use of a planetary equipment motor are large and contain:
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planetary gears vs spur gears

A planetary motor makes use of several tooth to share the load of rotating components. This gives planetary gears large stiffness and minimal backlash – often as low as one particular or two arc minutes. These qualities are important for programs that undergo regular start off-quit cycles or rotational course adjustments. This post discusses the positive aspects of planetary gears and how they vary from spur gears. You can view the animation underneath for a clearer comprehension of how they operate and how they differ from spur gears.
Planetary gears transfer in a periodic method, with a comparatively modest meshing frequency. As the meshing frequency will increase, the amplitude of the frequency also will increase. The amplitude of this frequency is tiny at lower clearance values, and increases dramatically at increased clearance amounts. The amplitude of the frequency is greater when the clearance reaches .2-.6. The amplitude boosts speedily, while dress in increases slowly after the original .2-.6-inch-extensive clearance.
In higher-speed, higher-torque apps, a planetary motor is far more effective. It has several contact points for better torque and larger speed. If you are not sure which variety to pick, you can seek the advice of with an expert and style a personalized gear. If you are not sure of what type of motor you need to have, get in touch with Twirl Motor and request for assist choosing the correct one for your application.
A planetary equipment arrangement provides a quantity of rewards in excess of standard fixed-axis equipment program designs. The compact dimensions permits for reduce loss of effectiveness, and the a lot more planets in the gear method enhances the torque density and ability. Yet another advantage of a planetary gear technique is that it is a lot more powerful and far more resilient than its spur-equipment counterpart. Combined with its several rewards, a planetary gear arrangement offers a excellent remedy to your shifting requirements.
Motor

planetary gearboxes as a compact alternative to pinion-and-equipment reducers

While conventional pinion-and-equipment reducer design and style is cumbersome and complicated, planetary gearboxes are compact and adaptable. They are suited for many apps, specially in which place and weight are problems, as nicely as torque and velocity reduction. However, knowing their mechanism and operating is not as straightforward as it sounds, so here are some of the crucial advantages of planetary gearing.
Planetary gearboxes function by making use of two planetary gears that rotate about their very own axes. The sunlight gear is utilised as the enter, while the planetary gears are linked via a casing. The ratio of these gears is -Ns/Np, with 24 teeth in the sunlight gear and -3/2 on the planet gear.
Unlike classic pinion-and-gear reducer patterns, planetary gearboxes are considerably more compact and considerably less expensive. A planetary gearbox is about 50% scaled-down and weighs significantly less than a pinion-and-equipment reducer. The smaller equipment floats on leading of three big gears, reducing the effects of vibration and ensuring steady transmission in excess of time.
Planetary gearboxes are a great substitute to pinion-and-equipment push methods because they are scaled-down, considerably less complex and offer a larger reduction ratio. Their meshing arrangement is comparable to the Milky Way, with the sunlight equipment in the center and two or a lot more outer gears. They are connected by a provider that sets their spacing and incorporates an output shaft.
When compared to pinion-and-gear minimizes, planetary gearboxes offer larger pace reduction and torque capability. As a outcome, planetary gearboxes are modest and compact and are usually chosen for space-constrained apps. But what about the large torque transfer? If you might be seeking for a compact alt

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