China wholesaler Electric Induction High Torque Low Noise AC Gear Motor with Brake a/c vacuum pump

Product Description

Product Description

Brushless gear motor , high efficiency and energy saving

Speed reduction ratio is optional

The external scheme can be used in bulk sorting and transportation

The drum motor is customized for the conveying line

With brushless gear motor, 50 kg load can be easily driven

Integrated photoelectric input and output ports, easier field wiring

15 internal rotating speeds and 7 external rotating speeds

Product Parameters

 

 

Detailed Photos

 

 

 

FAQ

 

Q: How to order?
A: send us inquiry → receive our quotation → negotiate details → confirm the sample → sign contract/deposit → mass production → cargo ready → balance/delivery → further cooperation.

Q: How about Sample order?
A: Sample is available for you. please contact us for details. Contact us

Q: Which shipping way is avaliable?
A: DHL, UPS, FedEx, TNT, EMS, China Post,Sea are available.The other shipping ways are also available, please contact us if you need ship by the other shipping way. 

Q: How long is the deliver?
A: Devliver time depends on the quantity you order. usually it takes 15-25 working days.

Q: My package has missing products. What can I do?
A: Please contact our support team and we will confirm your order with the package contents.We apologize for any inconveniences. 

Q: How to confirm the payment?
A: We accept payment by T/T, PayPal, the other payment ways also could be accepted,Please contact us before you pay by the other payment ways. Also 30-50% deposit is available, the balance money should be paid before shipping.
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Application: Car
Speed: Constant Speed
Number of Stator: Single-Phase
Function: Driving
Casing Protection: Totally Enclosed
Number of Poles: 4
Customization:
Available

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brake motor

How do brake motors handle variations in brake torque and response time?

Brake motors are designed to handle variations in brake torque and response time to ensure reliable and efficient braking performance. These variations can arise due to different operating conditions, load characteristics, or specific application requirements. Here's a detailed explanation of how brake motors handle variations in brake torque and response time:

  • Brake Design and Construction: The design and construction of brake systems in brake motors play a crucial role in handling variations in brake torque and response time. Brake systems typically consist of brake pads or shoes that press against a brake disc or drum to generate frictional forces and provide braking action. The materials used for the brake components, such as brake linings, can be selected or designed to offer a wide range of torque capacities and response characteristics. By choosing the appropriate materials and optimizing the brake system design, brake motors can accommodate variations in torque requirements and response times.
  • Brake Control Mechanisms: Brake motors employ different control mechanisms to manage brake torque and response time. These mechanisms can be mechanical, electrical, or a combination of both. Mechanical control mechanisms often utilize springs or levers to apply and release the brake, while electrical control mechanisms rely on electromagnets or solenoids to engage or disengage the brake. The control mechanisms can be adjusted or configured to modulate the brake torque and response time based on the specific needs of the application.
  • Brake Torque Adjustments: Brake motors may offer provisions for adjusting the brake torque to accommodate variations in load requirements. This can be achieved through the selection of different brake linings or by adjusting the spring tension or magnetic force within the brake system. By modifying the brake torque, brake motors can provide the necessary braking force to meet the demands of different operating conditions or load characteristics.
  • Response Time Optimization: Brake motors can be engineered to optimize the response time of the braking system. The response time refers to the time it takes for the brake to engage or disengage once the control signal is applied. Several factors can influence the response time, including the design of the control mechanism, the characteristics of the brake linings, and the braking system's overall dynamics. By fine-tuning these factors, brake motors can achieve faster or slower response times as required by the application, ensuring effective and timely braking action.
  • Electronic Control Systems: In modern brake motors, electronic control systems are often employed to enhance the flexibility and precision of brake torque and response time adjustments. These systems utilize sensors, feedback mechanisms, and advanced control algorithms to monitor and regulate the brake performance. Electronic control allows for real-time adjustments and precise control of the brake torque and response time, making brake motors more adaptable to variations in operating conditions and load requirements.

By combining appropriate brake design and construction, control mechanisms, torque adjustments, response time optimization, and electronic control systems, brake motors can effectively handle variations in brake torque and response time. This enables them to provide reliable and efficient braking performance across a wide range of operating conditions, load characteristics, and application requirements.

brake motor

What factors should be considered when selecting the right brake motor for a task?

When selecting the right brake motor for a task, several factors should be carefully considered to ensure optimal performance and compatibility with the specific application requirements. These factors help determine the suitability of the brake motor for the intended task and play a crucial role in achieving efficient and reliable operation. Here's a detailed explanation of the key factors that should be considered when selecting a brake motor:

1. Load Characteristics: The characteristics of the load being driven by the brake motor are essential considerations. Factors such as load size, weight, and inertia influence the torque, power, and braking requirements of the motor. It is crucial to accurately assess the load characteristics to select a brake motor with the appropriate power rating, torque capacity, and braking capability to handle the specific load requirements effectively.

2. Stopping Requirements: The desired stopping performance of the brake motor is another critical factor to consider. Different applications may have specific stopping time, speed, or precision requirements. The brake motor should be selected based on its ability to meet these stopping requirements, such as adjustable braking torque, controlled response time, and stability during stopping. Understanding the desired stopping behavior is crucial for selecting a brake motor that can provide the necessary control and accuracy.

3. Environmental Conditions: The operating environment in which the brake motor will be installed plays a significant role in its selection. Factors such as temperature, humidity, dust, vibration, and corrosive substances can affect the performance and lifespan of the motor. It is essential to choose a brake motor that is designed to withstand the specific environmental conditions of the application, ensuring reliable and durable operation over time.

4. Mounting and Space Constraints: The available space and mounting requirements should be considered when selecting a brake motor. The physical dimensions and mounting options of the motor should align with the space constraints and mounting configuration of the application. It is crucial to ensure that the brake motor can be properly installed and integrated into the existing machinery or system without compromising the performance or safety of the overall setup.

5. Power Supply: The availability and characteristics of the power supply should be taken into account. The voltage, frequency, and power quality of the electrical supply should match the specifications of the brake motor. It is important to consider factors such as single-phase or three-phase power supply, voltage fluctuations, and compatibility with other electrical components to ensure proper operation and avoid electrical issues or motor damage.

6. Brake Type and Design: Different brake types, such as electromagnetic brakes or spring-loaded brakes, offer specific advantages and considerations. The choice of brake type should align with the requirements of the application, taking into account factors such as braking torque, response time, and reliability. The design features of the brake, such as braking surface area, cooling methods, and wear indicators, should also be evaluated to ensure efficient and long-lasting braking performance.

7. Regulatory and Safety Standards: Compliance with applicable regulatory and safety standards is crucial when selecting a brake motor. Depending on the industry and application, specific standards and certifications may be required. It is essential to choose a brake motor that meets the necessary standards and safety requirements to ensure the protection of personnel, equipment, and compliance with legal obligations.

8. Cost and Lifecycle Considerations: Finally, the cost-effectiveness and lifecycle considerations should be evaluated. This includes factors such as initial investment, maintenance requirements, expected lifespan, and availability of spare parts. It is important to strike a balance between upfront costs and long-term reliability, selecting a brake motor that offers a favorable cost-to-performance ratio and aligns with the expected lifecycle and maintenance budget.

Considering these factors when selecting a brake motor helps ensure that the chosen motor is well-suited for the intended task, provides reliable and efficient operation, and meets the specific requirements of the application. Proper evaluation and assessment of these factors contribute to the overall success and performance of the brake motor in its designated task.

brake motor

Can you explain the primary purpose of a brake motor in machinery?

The primary purpose of a brake motor in machinery is to provide controlled stopping and holding of loads. A brake motor combines the functionality of an electric motor and a braking system into a single unit, offering convenience and efficiency in various industrial applications. Here's a detailed explanation of the primary purpose of a brake motor in machinery:

1. Controlled Stopping: One of the main purposes of a brake motor is to achieve controlled and rapid stopping of machinery. When power is cut off or the motor is turned off, the braking mechanism in the brake motor engages, creating friction and halting the rotation of the motor shaft. This controlled stopping is crucial in applications where precise and quick stopping is required to ensure the safety of operators, prevent damage to equipment, or maintain product quality. Industries such as material handling, cranes, and conveyors rely on brake motors to achieve efficient and controlled stopping of loads.

2. Load Holding: Brake motors are also designed to hold loads in a stationary position when the motor is not actively rotating. The braking mechanism in the motor engages when the power is cut off, preventing any unintended movement of the load. Load holding is essential in applications where it is necessary to maintain the position of the machinery or prevent the load from sliding or falling. For instance, in vertical applications like elevators or lifts, brake motors hold the load in place when the motor is not actively driving the movement.

3. Safety and Emergency Situations: Brake motors play a critical role in ensuring safety and mitigating risks in machinery. In emergency situations or power failures, the braking system of a brake motor provides an immediate response, quickly stopping the rotation of the motor shaft and preventing any uncontrolled movement of the load. This rapid and controlled stopping enhances the safety of operators and protects both personnel and equipment from potential accidents or damage.

4. Precision and Positioning: Brake motors are utilized in applications that require precise positioning or accurate control of loads. The braking mechanism allows for fine-tuned control, enabling operators to position machinery or loads with high accuracy. Industries such as robotics, CNC machines, and assembly lines rely on brake motors to achieve precise movements, ensuring proper alignment, accuracy, and repeatability. The combination of motor power and braking functionality in a brake motor facilitates intricate and controlled operations.

Overall, the primary purpose of a brake motor in machinery is to provide controlled stopping, load holding, safety in emergency situations, and precise positioning. By integrating the motor and braking system into a single unit, brake motors streamline the operation and enhance the functionality of various industrial applications. Their reliable and efficient braking capabilities contribute to improved productivity, safety, and operational control in machinery and equipment.

China wholesaler Electric Induction High Torque Low Noise AC Gear Motor with Brake   a/c vacuum pump		China wholesaler Electric Induction High Torque Low Noise AC Gear Motor with Brake   a/c vacuum pump
editor by CX 2024-03-28