Product Description

Product Description
brake ac reduction gear motors electric motor 140 watt 220v 380v Specifications:

 

Note : It’s just the typical technical data for you reference, The specification such as voltage, speed, torque, shaft can customized.

More Details:

Rated Voltage:      110V/220V/380V

No Load Speed:    10-600RPM

Load Torque:          20-400kgf.cm

Reduction Ratio:     3:1-150:1

Output Power:         120W

Motor Diameter:      104mm

Gearbox Diameter:  104*104mm

Motor Length:           185mm

Gearbox Length:       72mm

Shaft Type:               15h7

Related Products

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

 Production Equipment

Certifications

Customer Visit and Fair 

FAQ

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

 

Thanks!

Contact Us

HangZhou CHINAMFG Motor Co.,Ltd
Contact Person: Celia Chen

 
 
 

 
 

 

Any email or trademanager inquires will be replied within 24 hours.

Normal samples can be offer very quickly(within 10 days)

Customized service for kind of motor accoring to your requirement

Professional Tchnical support and After-sale service

Sourcing motor parts like gears, encoders, cables, connectors and so on
 

 

 

 

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Application: Universal, Industrial, Household Appliances, Power Tools, Industrial, Universal, Motorized Plastic Model
Operating Speed: Low Speed
Function: Driving
Casing Protection: Closed Type
Structure and Working Principle: Brush
Certification: ISO9001, CCC, Ce, RoHS
Samples:
US$ 105/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

brake motor

What advancements in brake motor technology have improved energy efficiency?

Advancements in brake motor technology have led to significant improvements in energy efficiency, resulting in reduced power consumption and operational costs. These advancements encompass various aspects of brake motor design, construction, and control systems. Here’s a detailed explanation of the advancements in brake motor technology that have improved energy efficiency:

  • High-Efficiency Motor Designs: Brake motors now incorporate high-efficiency motor designs that minimize energy losses during operation. These designs often involve the use of advanced materials, improved winding techniques, and optimized magnetic circuits. High-efficiency motors reduce the amount of energy wasted as heat and maximize the conversion of electrical energy into mechanical power, leading to improved overall energy efficiency.
  • Efficient Brake Systems: Brake systems in modern brake motors are designed to minimize energy consumption during braking and holding periods. Energy-efficient brake systems utilize materials with low friction coefficients, reducing the energy dissipated as heat during braking. Additionally, advanced control mechanisms and algorithms optimize the engagement and disengagement of the brake, minimizing power consumption while maintaining reliable braking performance.
  • Regenerative Braking: Some advanced brake motors incorporate regenerative braking technology, which allows the recovery and reuse of energy that would otherwise be dissipated as heat during braking. Regenerative braking systems convert the kinetic energy of the moving equipment into electrical energy, which is fed back into the power supply or stored in energy storage devices. By harnessing and reusing this energy, brake motors improve energy efficiency and reduce the overall power consumption of the system.
  • Variable Speed Control: Brake motors equipped with variable frequency drives (VFDs) or other speed control mechanisms offer improved energy efficiency. By adjusting the motor’s speed and torque to match the specific requirements of the application, variable speed control reduces energy wastage associated with operating at fixed speeds. The ability to match the motor’s output to the load demand allows for precise control and significant energy savings.
  • Advanced Control Systems: Brake motors benefit from advanced control systems that optimize energy usage. These control systems employ sophisticated algorithms and feedback mechanisms to continuously monitor and adjust motor performance based on the load conditions. By dynamically adapting the motor operation to the changing requirements, these control systems minimize energy losses and improve overall energy efficiency.
  • Improved Thermal Management: Efficient thermal management techniques have been developed to enhance brake motor performance and energy efficiency. These techniques involve the use of improved cooling systems, such as advanced fan designs or liquid cooling methods, to maintain optimal operating temperatures. By effectively dissipating heat generated during motor operation, thermal management systems reduce energy losses associated with excessive heat and improve overall energy efficiency.

These advancements in brake motor technology, including high-efficiency motor designs, efficient brake systems, regenerative braking, variable speed control, advanced control systems, and improved thermal management, have collectively contributed to improved energy efficiency. By reducing energy losses, optimizing braking mechanisms, and implementing intelligent control strategies, modern brake motors offer significant energy savings and contribute to a more sustainable and cost-effective operation of equipment.

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

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 factory Brake AC Reduction Gear Motors Electric Motor 140 Watt 220V 380V   vacuum pump brakesChina factory Brake AC Reduction Gear Motors Electric Motor 140 Watt 220V 380V   vacuum pump brakes
editor by CX 2024-04-19