China Custom Disposable Customized Size AC Gear Motor for Burner Brake Pellet with Good quality

Product Description

TaiBang Motor Industry Group Co., Ltd.

The main products is induction motor, reversible motor, DC brush gear motor, DC brushless gear motor, CH/CV big gear motors, Planetary gear motor ,Worm gear motor etc, which used widely in various fields of manufacturing pipelining, transportation, food, medicine, printing, fabric, packing, office, apparatus, entertainment etc, and is the preferred and matched product for automatic machine. 

Motor Model Instruction

5RK40GN-CM

        5 R K 40 R GN C M
Frame Size Type Motor series Power Speed
Control
Motor
Shaft Type Voltage Accessory
2:60mm

3:70mm

4:80mm

5:90mm

6:104mm

I:Induction

R:Reversible

T:Torque

K series 6W

15W

25W

40W

60W

90W

120W

140W

180W

200W
 

A:Round Shaft

GN:Bevel Gear Shaft
       (6W,15W,25W,40W)

GU:Bevel Gear Shaft
      (60W,90W,120W,140W,180W,200W)

A:Single Phase 110V

C:Single Phase 220V

S:3-Phase 220V

S3:3-Phase 380V

S4:3-Phase 440V

T/P:Thermally Protected

F:Fan

M:Electro-magnetic
    Brake

Gear Head Model Instruction

5GN-100K

5 GN 100 K  
Frame Size Shaft Type Gear Reduction Ratio Bearing Type Other information
2:60mm

3:70mm

4:80mm

5:90mm

6:104mm
 

GN:Bevel Gear Shaft
      (60#,70#,80#,90# reduction gear head)

GU:Bevel Gear Shaft
      (100# reduction gear head)

GM:Intermediate Gear Head

GS:Gearhead with ears

1:100 K:Standard Rolling Bearing

RT:Right Angle With Axile

RC:Right Angle With Hollow Shaft
 

Sch as shaft diameter,shaft length,etc.

Specification of motor 40W 90mm Fixed speed AC gear motor

Type  Gear Tooth Output Shaft Power
(W)
Frequency
(Hz)
Voltage
(V)
Current
(A)
Start Torque
(g.cm)
Rated Gearbox Type
Torque
(g.cm)
Speed
(rpm)
Bearing Gearbox Middle Gearbox
Reversible Motor 5RK40GN-C 40 50 220 0.45 3000 3000 1300 5GN/GU-K 5GN10X
40 60 220 0.41 2500 2515 1550 5GN/GU-K 5GN10X

Gear Head Torque Table(Kg.cm)                                                                                                                                                                                         (kg.cm×9.8÷100)=N.m

Output Speed :RPM 500 300 200 150 120 100 75 60 50 30 20 15 10 7.5 6 5 3
Speed Ratio 50Hz 3 5 7.5 10 12.5 15 20 25 30 50 75 100 150 200 250 300 500
60Hz 3.6 6 9   15 18   30 36 60 90 120 180   300 360 600
Allowed
Torque
40W kg.cm 6.7 11 16 21.3 28 33 42 54 65 108 150 150 150 150 150 150 150
60W kg.cm 10 16 24 32 40 48 64 77 93 150 150 150 150 150 150 150 150
90W kg.cm 14 23 35 46 58 69 92 110 133 200 200 200 200 200 200 200 200
120W kg.cm 19 30.7 46 61 77 92 123 147 177 200 200 200 200 200 200 200 200
Note: Speed figures are based on synchronous speed, The actual output speed, under rated torque conditions, is about 10-20% less than synchronous speed, a grey background indicates output shaft of geared motor rotates in the same direction as output shaft of motor. A white background indicates rotates rotation in the opposite direction.

Drawing:5RK40GN-C/5GN3~20K(Short gearbox shell 43mm)

Drawing:5RK40GN-C/5GN25~180K(Short gearbox shell 61mm)

Above drawing is for standard screw hole.If need through hole, terminal box, or electronic magnet brake, need to tell the seller.

Connection Diagram:

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Application: Industrial
Speed: Constant Speed
Number of Stator: Single-Phase
Function: Driving, Control
Casing Protection: Closed Type
Number of Poles: 4
Samples:
US$ 50/Piece
1 Piece(Min.Order)

|

Customization:
Available

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brake motor

What safety precautions should be followed when working with brake motors?

Working with brake motors requires adherence to specific safety precautions to ensure the well-being of personnel and the proper functioning of the equipment. Brake motors involve electrical components and potentially hazardous mechanical operations, so it is essential to follow established safety guidelines. Here’s a detailed explanation of the safety precautions that should be followed when working with brake motors:

  • Qualified Personnel: Only trained and qualified individuals should be allowed to work with brake motors. They should have a thorough understanding of electrical systems, motor operation, and safety procedures. Proper training ensures that personnel are familiar with the specific risks associated with brake motors and know how to handle them safely.
  • Power Isolation: Before performing any maintenance or repair tasks on a brake motor, it is crucial to isolate the power supply to the motor. This can be achieved by disconnecting the power source and following lockout/tagout procedures to prevent accidental re-energization. Power isolation eliminates the risk of electric shock and allows safe access to the motor without the danger of unexpected startup.
  • Personal Protective Equipment (PPE): When working with brake motors, appropriate personal protective equipment should be worn. This may include safety glasses, gloves, protective clothing, and hearing protection, depending on the specific hazards present. PPE helps safeguard against potential hazards such as flying debris, electrical shocks, and excessive noise, providing an additional layer of protection for personnel.
  • Proper Ventilation: Adequate ventilation should be ensured when working with brake motors, especially in indoor environments. Ventilation helps dissipate heat generated by the motor and prevents the buildup of potentially harmful fumes or gases. Proper ventilation reduces the risk of overheating and improves air quality, creating a safer working environment.
  • Safe Lifting and Handling: Brake motors can be heavy and require proper lifting and handling techniques to prevent injuries. When moving or installing a motor, personnel should use appropriate lifting equipment, such as cranes or hoists, and follow safe lifting practices. It is important to avoid overexertion, use proper body mechanics, and seek assistance when necessary to prevent strains or accidents.
  • Protection Against Moving Parts: Brake motors may have rotating or moving parts that pose a risk of entanglement or crushing injuries. Guards and protective covers should be in place to prevent accidental contact with these hazardous areas. Personnel should never reach into or attempt to adjust the motor while it is in operation or without proper lockout/tagout procedures in place.
  • Maintenance and Inspection: Regular maintenance and inspection of brake motors are essential for their safe and reliable operation. Maintenance tasks should only be performed by qualified personnel following manufacturer recommendations. Before conducting any maintenance or inspection, the motor should be properly isolated and de-energized. Visual inspections, lubrication, and component checks should be carried out according to the motor’s maintenance schedule to identify and address any potential issues before they escalate.
  • Follow Manufacturer Guidelines: It is crucial to follow the manufacturer’s guidelines and recommendations when working with brake motors. This includes adhering to installation procedures, operating instructions, and maintenance practices specified by the manufacturer. Manufacturers provide specific safety instructions and precautions that are tailored to their equipment, ensuring safe and efficient operation when followed meticulously.
  • Training and Awareness: Ongoing training and awareness programs should be implemented to keep personnel updated on safety practices and potential hazards associated with brake motors. This includes providing clear instructions, conducting safety meetings, and promoting a safety-conscious culture. Personnel should be encouraged to report any safety concerns or incidents to ensure continuous improvement of safety measures.

By following these safety precautions, personnel can mitigate risks and create a safer working environment when dealing with brake motors. Adhering to proper procedures, using appropriate PPE, ensuring power isolation, practicing safe lifting and handling, protecting against moving parts, conducting regular maintenance and inspections, and staying informed about manufacturer guidelines are all crucial steps in maintaining a safe and efficient work environment when working with brake motors.

brake motor

How do brake motors contribute to the efficiency of conveyor systems and material handling?

Brake motors play a crucial role in enhancing the efficiency of conveyor systems and material handling operations. They provide several advantages that improve the overall performance and productivity of these systems. Here’s a detailed explanation of how brake motors contribute to the efficiency of conveyor systems and material handling:

  • Precise Control: Brake motors offer precise control over the movement of conveyor systems. The braking mechanism allows for quick and accurate stopping, starting, and positioning of the conveyor belt or other material handling components. This precise control ensures efficient operation, minimizing the time and effort required to handle materials and reducing the risk of damage or accidents.
  • Speed Regulation: Brake motors can regulate the speed of conveyor systems, allowing operators to adjust the conveying speed according to the specific requirements of the materials being handled. This speed control capability enables efficient material flow, optimizing production processes and preventing bottlenecks or congestion. It also contributes to better synchronization with upstream or downstream processes, improving overall system efficiency.
  • Load Handling: Brake motors are designed to handle varying loads encountered in material handling applications. They provide the necessary power and torque to move heavy loads along the conveyor system smoothly and efficiently. The braking mechanism ensures safe and controlled stopping even with substantial loads, preventing excessive wear or damage to the system and facilitating efficient material transfer.
  • Energy Efficiency: Brake motors are engineered for energy efficiency, contributing to cost savings and sustainability in material handling operations. They are designed to minimize energy consumption during operation by optimizing motor efficiency, reducing heat losses, and utilizing regenerative braking techniques. Energy-efficient brake motors help lower electricity consumption, resulting in reduced operating costs and a smaller environmental footprint.
  • Safety Enhancements: Brake motors incorporate safety features that enhance the efficiency of conveyor systems and material handling by safeguarding personnel and equipment. They are equipped with braking systems that provide reliable stopping power, preventing unintended motion or runaway loads. Emergency stop functionality adds an extra layer of safety, allowing immediate halting of the system in case of emergencies or hazards, thereby minimizing the potential for accidents and improving overall operational efficiency.
  • Reliability and Durability: Brake motors are constructed to withstand the demanding conditions of material handling environments. They are designed with robust components and built-in protection features to ensure reliable operation even in harsh or challenging conditions. The durability of brake motors reduces downtime due to motor failures or maintenance issues, resulting in improved system efficiency and increased productivity.
  • Integration and Automation: Brake motors can be seamlessly integrated into automated material handling systems, enabling efficient and streamlined operations. They can be synchronized with control systems and sensors to optimize material flow, automate processes, and enable efficient sorting, routing, or accumulation of items. This integration and automation capability enhances system efficiency, reduces manual intervention, and enables real-time monitoring and control of the material handling process.
  • Maintenance and Serviceability: Brake motors are designed for ease of maintenance and serviceability, which contributes to the overall efficiency of conveyor systems and material handling operations. They often feature modular designs that allow quick and easy replacement of components, minimizing downtime during maintenance or repairs. Accessible lubrication points, inspection ports, and diagnostic features simplify routine maintenance tasks, ensuring that the motors remain in optimal working condition and maximizing system uptime.

By providing precise control, speed regulation, reliable load handling, energy efficiency, safety enhancements, durability, integration with automation systems, and ease of maintenance, brake motors significantly contribute to the efficiency of conveyor systems and material handling operations. Their performance and features optimize material flow, reduce downtime, enhance safety, lower operating costs, and improve overall productivity in a wide range of industries and applications.

brake motor

How do brake motors handle variations in load and stopping requirements?

Brake motors are designed to handle variations in load and stopping requirements by incorporating specific features and mechanisms that allow for flexibility and adaptability. These features enable brake motors to effectively respond to changes in load conditions and meet the diverse stopping requirements of different applications. Here’s a detailed explanation of how brake motors handle variations in load and stopping requirements:

1. Adjustable Braking Torque: Brake motors often have adjustable braking torque, allowing operators to modify the stopping force according to the specific load requirements. By adjusting the braking torque, brake motors can accommodate variations in load size, weight, and inertia. Higher braking torque can be set for heavier loads, while lower braking torque can be selected for lighter loads, ensuring optimal stopping performance and preventing excessive wear or damage to the braking system.

2. Controlled Response Time: Brake motors provide controlled response times, allowing for precise and efficient stopping according to the application requirements. The response time refers to the duration between the command to stop and the actual cessation of rotation. Brake motors can be designed with adjustable response times, enabling operators to set the desired stopping speed based on the load characteristics and safety considerations. This flexibility ensures that the braking action is appropriately matched to the load and stopping requirements.

3. Dynamic Braking: Dynamic braking is a feature found in some brake motors that helps handle variations in load and stopping requirements. When the motor is de-energized, dynamic braking converts the kinetic energy of the rotating load into electrical energy, which is dissipated as heat through a resistor or regenerative braking system. This braking mechanism allows brake motors to handle different load conditions and varying stopping requirements, dissipating excess energy and bringing the rotating equipment to a controlled stop.

4. Integrated Control Systems: Brake motors often come equipped with integrated control systems that allow for customized programming and adjustment of the braking parameters. These control systems enable operators to adapt the braking performance based on the load characteristics and stopping requirements. By adjusting parameters such as braking torque, response time, and braking profiles, brake motors can handle variations in load and achieve the desired stopping performance for different applications.

5. Monitoring and Feedback: Some brake motor systems incorporate monitoring and feedback mechanisms to provide real-time information about the load conditions and stopping performance. This feedback can include data on motor temperature, current consumption, or position feedback from encoders or sensors. By continuously monitoring these parameters, brake motors can dynamically adjust their braking action to accommodate variations in load and ensure optimal stopping performance.

6. Adaptable Brake Design: Brake motors are designed with consideration for load variations and stopping requirements. The brake design takes into account factors such as braking surface area, material composition, and cooling methods. These design features allow brake motors to handle different load conditions effectively and provide consistent and reliable stopping performance under varying circumstances.

By incorporating adjustable braking torque, controlled response time, dynamic braking, integrated control systems, monitoring and feedback mechanisms, and adaptable brake designs, brake motors can handle variations in load and stopping requirements. These features enhance the versatility and performance of brake motors, making them suitable for a wide range of applications across different industries.

China Custom Disposable Customized Size AC Gear Motor for Burner Brake Pellet   with Good quality China Custom Disposable Customized Size AC Gear Motor for Burner Brake Pellet   with Good quality
editor by CX 2024-05-15