Product Description

AC Gear Motor
4 RK 25 R C C F G10
Outer Diameter Motor Type Power Capacity Speed Motor Votalge Output Shaft Shape Accessories Derived Code
2 – 60mm
3 – 70mm
4 – 80mm
5 – 90mm
6 – 100mm
IK – Induction
RK – Reversible
TK – Torque
6 – 6W
15 – 15W
40 – 40W
60 – 60W
90 – 90W
120 – 120W
140 – 140W
180 – 180W
200 – 200W
250 – 250W
R   A -1 Phase 110V
C – 1 Phase 220V
C2 – 1 Phase 110V/220V
S – 3 Phase 220V
S2 – 3 Phase 220V/380V
S3 – 3 Phase 380V
S4 – 3 Phase 440V
SS3 – 3 Phase 220V/380V
A – Round Shaft
C – Toothed Shaft 
T/P – Thermally Protected
F – Fan
M – Electro-manetic
Z – Damping
Shaft Length

AC Gearhead
4 GN 60 K G12 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
60 – 1:60 K – Standard Rolling Bearings
RT – Right Angle
RC – Right Angle Hollow
G12 –  Ф12mm L – Screw Hole
T – Through Hole

Specifications of Motor
Motor Type Motor Model No. Description Rating Start Condenser Gear Model No.
Output Shaft
Pinion Cut
Output Shaft
Force Peripheral Wave No. Valtage Current Start Turning Moment Turning Moment Revolving No. Capacity Resistance Voltage Pairing Bearing Middle Gear
( W ) ( Hz ) ( V ) ( A ) ( gcm ) ( gcm ) ( rpm ) ( uF ) ( V )
4RK25A-A 4RK25GN-A 25 50 110 0.60 1950 1950 1250 8 250 4GN-K 4GN10X
60 110 0.55 1650 1620 1500 7
4RK25A-C 4RK25GN-C 50 220 0.30 1950 1950 1250 2 500 4GN-K 4GN10X
60 220 0.27 1650 1620 1500 1.8
4RK30A-A 4RK30GN-A 30 50 110 0.70 2400 2350 1250 10 250 4GN-K 4GN10X
60 110 0.65 1950 1950 1500 8
4RK30A-C 4RK30GN-C 50 220 0.35 2400 2350 1250 2.5 500 4GN-K 4GN10X
60 220 0.32 1950 1950 1500 2
4RK40A-A 4RK40GN-A 40 50 110 0.80 3250 3250 1250 16 250 4GN-K 4GN10X
60 110 0.75 3600 2600 1500 14
4RK40A-C 4RK40GN-C 50 220 0.40 3250 3250 1250 4 500 4GN-K 4GN10X
60 220 0.38 2600 2600 1500 3.5
4IK25A-A 4IK25GN-A 25 50 110 0.55 1650 1950 1250 7 250 4GN-K 4GN10X
60 110 0.50 1380 1620 1500 6
4IK25A-C 4IK25GN-C 50 220 0.28 1650 1950 1250 1.8 500 4GN-K 4GN10X
60 220 0.25 1350 1620 1500 1.5
4IK30A-A 4IK30GN-A 30 50 110 0.65 2050 2350 1250 10 250 4GN-K 4GN10X
60 110 0.60 1750 1950 1500 8
4IK30A-C 4IK30GN-C 50 220 0.33 2050 2350 1250 2.2 500 4GN-K 4GN10X
60 220 0.30 1750 1950 1500 2
External Dimension
Type Reduction Ratio L1(mm) L2(mm) L3(mm)
4IK(RK)25A(GN) 1:3 ~ 1:20 86 32 118
4IK(RK)30A(GN) 86 32 118
4IK(RK)40A(GN) 101 32 133
4IK(RK)25A(GN) 1:25 ~ 1:180 86 44 130
4IK(RK)30A(GN) 86 44 130
4IK(RK)40A(GN) 101 44 145
Gear Head-Torque Table ( 
 ( x 9.8 ÷ 100 ) = N.m
 r/min 500 300 200 150 120 100 75 60 50 30 20 15 10 7.5 6 5 3
Gear Redcution 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
Permissible Load 25W 4 6.7 10 13.3 16 20 26.7 32 39 65 80 80 80 80 80 80 80
30W 4.8 8 12 16 20 24 32 38 45 76 80 80 80 80 80 80 80
40W 6.7 11 16 21.3 28 33 42 54 65 80 80 80 80 80 80 80 80
Note: Speed figures are based on synchronous speed, the actual output speed, under rated torque conditions, is about 10~20% less than synchronous speed.
Grey background indicates: output shaft of geared motor rotates in the same direction as output shaft of motor
White background indicates: rotation in the opposite direction

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Application: Industrial
Speed: Constant Speed
Number of Stator: Single-Phase
Function: Driving, Control
Casing Protection: Protection Type
Number of Poles: 4


brake motor

How do brake motors impact the overall productivity of manufacturing processes?

Brake motors have a significant impact on the overall productivity of manufacturing processes by enhancing operational efficiency, improving safety, and enabling precise control over motion. They play a crucial role in ensuring smooth and controlled movement, which is vital for the seamless operation of machinery and equipment. Here’s a detailed explanation of how brake motors impact the overall productivity of manufacturing processes:

  • Precise Control and Positioning: Brake motors enable precise control over the speed, acceleration, and deceleration of machinery and equipment. This precise control allows for accurate positioning, alignment, and synchronization of various components, resulting in improved product quality and reduced errors. The ability to precisely control the motion enhances the overall productivity of manufacturing processes by minimizing waste, rework, and downtime.
  • Quick Deceleration and Stopping: Brake motors provide fast and controlled deceleration and stopping capabilities. This is particularly important in manufacturing processes that require frequent changes in speed or direction. The ability to rapidly decelerate and stop equipment allows for efficient handling of workpieces, quick tool changes, and seamless transitions between manufacturing steps. It reduces cycle times and improves overall productivity by minimizing unnecessary delays and optimizing throughput.
  • Improved Safety: Brake motors enhance safety in manufacturing processes by providing reliable braking functionality. They help prevent coasting or unintended movement of equipment when power is cut off or during emergency situations. The braking capability of brake motors contributes to the safe operation of machinery, protects personnel, and prevents damage to equipment or workpieces. By ensuring a safe working environment, brake motors help maintain uninterrupted production and minimize the risk of accidents or injuries.
  • Enhanced Equipment Performance: The integration of brake motors into manufacturing equipment improves overall performance. Brake motors work in conjunction with motor control devices, such as variable frequency drives (VFDs) or servo systems, to optimize motor operation. This integration allows for efficient power utilization, reduced energy consumption, and improved responsiveness. By maximizing equipment performance, brake motors contribute to higher productivity, lower operational costs, and increased output.
  • Reduced Downtime and Maintenance: Brake motors are designed for durability and reliability, reducing the need for frequent maintenance and minimizing downtime. The robust construction and high-quality components of brake motors ensure long service life and consistent performance. This reliability translates into fewer unplanned shutdowns, reduced maintenance requirements, and improved overall equipment availability. By minimizing downtime and maintenance-related interruptions, brake motors contribute to increased productivity and manufacturing efficiency.
  • Flexibility and Adaptability: Brake motors offer flexibility and adaptability in manufacturing processes. They can be integrated into various types of machinery and equipment, spanning different industries and applications. Brake motors can be customized to meet specific requirements, such as adjusting brake torque or incorporating specific control algorithms. This adaptability allows manufacturers to optimize their processes, accommodate changing production needs, and increase overall productivity.

In summary, brake motors impact the overall productivity of manufacturing processes by providing precise control and positioning, enabling quick deceleration and stopping, improving safety, enhancing equipment performance, reducing downtime and maintenance, and offering flexibility and adaptability. Their role in ensuring smooth and controlled movement, combined with their reliable braking functionality, contributes to efficient and seamless manufacturing operations, ultimately leading to increased productivity, improved product quality, and cost savings.

brake motor

How do manufacturers ensure the quality and reliability of brake motors?

Manufacturers employ various processes and measures to ensure the quality and reliability of brake motors. These processes involve rigorous testing, adherence to industry standards, quality control procedures, and continuous improvement initiatives. Here’s a detailed explanation of how manufacturers ensure the quality and reliability of brake motors:

  • Design and Engineering: Manufacturers invest considerable effort in the design and engineering phase of brake motors. They employ experienced engineers and designers who follow industry best practices and utilize advanced design tools to develop motors with robust and reliable braking systems. Thorough analysis, simulations, and prototyping are conducted to optimize the motor’s performance, efficiency, and safety features.
  • Material Selection: High-quality materials are chosen for the construction of brake motors. Manufacturers carefully select components such as motor windings, brake discs, brake pads, and housing materials to ensure durability, heat resistance, and optimal friction characteristics. The use of quality materials enhances the motor’s reliability and contributes to its long-term performance.
  • Manufacturing Processes: Stringent manufacturing processes are implemented to ensure consistent quality and reliability. Manufacturers employ advanced machinery and automation techniques for precision assembly and production. Strict quality control measures are applied at each stage of manufacturing to detect and rectify any defects or deviations from specifications.
  • Testing and Quality Assurance: Brake motors undergo comprehensive testing and quality assurance procedures before they are released to the market. These tests include performance testing, load testing, endurance testing, and environmental testing. Manufacturers verify that the motors meet or exceed industry standards and performance specifications. Additionally, they conduct safety tests to ensure compliance with applicable safety regulations and standards.
  • Certifications and Compliance: Manufacturers seek certifications and compliance with relevant industry standards and regulations. This may include certifications such as ISO 9001 for quality management systems or certifications specific to the motor industry, such as IEC (International Electrotechnical Commission) standards. Compliance with these standards demonstrates the manufacturer’s commitment to producing high-quality and reliable brake motors.
  • Quality Control and Inspection: Manufacturers implement robust quality control processes throughout the production cycle. This includes inspection of raw materials, in-process inspections during manufacturing, and final inspections before shipment. Quality control personnel conduct visual inspections, dimensional checks, and performance evaluations to ensure that each brake motor meets the specified quality criteria.
  • Continuous Improvement: Manufacturers prioritize continuous improvement initiatives to enhance the quality and reliability of brake motors. They actively seek customer feedback, monitor field performance, and conduct post-production evaluations to identify areas for improvement. This feedback loop helps manufacturers refine their designs, manufacturing processes, and quality control procedures, leading to increased reliability and customer satisfaction.
  • Customer Support and Warranty: Manufacturers provide comprehensive customer support and warranty programs for their brake motors. They offer technical assistance, troubleshooting guides, and maintenance recommendations to customers. Warranty coverage ensures that any manufacturing defects or malfunctions are addressed promptly, bolstering customer confidence in the quality and reliability of the brake motors.

By employing robust design and engineering processes, meticulous material selection, stringent manufacturing processes, comprehensive testing and quality assurance procedures, certifications and compliance with industry standards, rigorous quality control and inspection measures, continuous improvement initiatives, and dedicated customer support and warranty programs, manufacturers ensure the quality and reliability of brake motors. These measures contribute to the production of high-performance motors that meet the safety, durability, and performance requirements of industrial and manufacturing applications.

brake motor

What are the key components of a typical brake motor system?

A typical brake motor system consists of several key components that work together to provide controlled stopping and holding capabilities. These components are carefully designed and integrated to ensure the efficient operation of the brake motor. Here’s a detailed explanation of the key components of a typical brake motor system:

1. Electric Motor: The electric motor is the primary component of the brake motor system. It converts electrical energy into mechanical energy to drive the rotation of the equipment. The motor provides the necessary power and torque to perform the desired work. It can be an AC (alternating current) motor or a DC (direct current) motor, depending on the specific application requirements.

2. Braking Mechanism: The braking mechanism is a crucial component of the brake motor system that enables controlled stopping of the rotating equipment. It consists of various types of brakes, such as electromagnetic brakes or spring-loaded brakes. The braking mechanism engages when the power to the motor is cut off or the motor is de-energized, creating friction or applying pressure to halt the rotation.

3. Brake Coil or Actuator: In brake motors with electromagnetic brakes, a brake coil or actuator is employed. The coil generates a magnetic field when an electrical current passes through it, attracting the brake disc or plate and creating braking force. The coil is energized when the motor is powered, and it de-energizes when the power is cut off, allowing the brake to engage and stop the rotation.

4. Brake Disc or Plate: The brake disc or plate is a key component of the braking mechanism. It is attached to the motor shaft and rotates with it. When the brake engages, the disc or plate is pressed against a stationary surface, creating friction and stopping the rotation of the motor shaft. The material composition and design of the brake disc or plate are optimized for efficient braking performance.

5. Control System: Brake motor systems often incorporate a control system that enables precise control over the braking process. The control system allows for adjustable braking torque, response time, and braking profiles. It may include control devices such as switches, relays, or electronic control units (ECUs). The control system ensures the desired level of control and facilitates the integration of the brake motor system with other machinery or automation systems.

6. Power Supply: A reliable power supply is essential for the operation of the brake motor system. The power supply provides electrical energy to the motor and the brake mechanism. It can be a mains power supply or a dedicated power source, depending on the specific requirements of the application and the motor’s power rating.

7. Mounting and Housing: Brake motors are typically housed in a sturdy enclosure that protects the components from environmental factors, such as dust, moisture, or vibration. The housing also provides mounting points for the motor and facilitates the connection of external devices or machinery. The design of the mounting and housing ensures the stability and safety of the brake motor system.

8. Optional Accessories: Depending on the application, a brake motor system may include optional accessories such as temperature sensors, shaft encoders, or position sensors. These accessories provide additional functionality and feedback, allowing for advanced control and monitoring of the brake motor system.

These are the key components of a typical brake motor system. The integration and interaction of these components ensure controlled stopping, load holding, and precise positioning capabilities, making brake motors suitable for a wide range of industrial applications.

China Best Sales CHINAMFG Industrial Single Phase Electric AC Right Angle Brake Gear Motor 6W 15W 25W 40W 60W 90W 120W 200W 250W   vacuum pump engine	China Best Sales CHINAMFG Industrial Single Phase Electric AC Right Angle Brake Gear Motor 6W 15W 25W 40W 60W 90W 120W 200W 250W   vacuum pump engine
editor by CX 2024-05-15