Product Description

Y2EJ Electromagnetic Brake AC Electric Motor

Motor Basic Information

Output Range 0.55kw~45kw
Frame size 80~225
Rated Voltage 380V
Frequency 50Hz/60Hz
Insulation Class B
Protection degrees IP44,IP54
Cooling method IC411
Altitude No more than1000m
Ambient temperature -15ºC to 40ºC
Excitation voltage   ≤H100  DC 99V,  >H100  DC170V

Description

  • Three phase AC motor fully match standard of international electrician’s committee (IEC), has international compatibility
  • Widely used in most countries worldwide.
  • With high locked-rotor torque dependable circulation, beautiful shape, low lad noise and long lifespan.

Structures

The Y2EJ series electromagnetic brake 3 phase asynchronous motors are produced base from the original Y2 series motor, adding a DC electromagnetic brake.

Characteristics

  • High efficiency and energy-saving
  • Low noise and minimal vibration
  • Simple structure
  • Rapidly braking
  • High reliability
  • Low noise
  • Little vibration
  • Long service life
  • Easy installation and maintenance

Working conditions

  • Altitude not exceeding 1,000m above sea level
  • Ambient temperature subject to seasonal variations but not exceeding 40°C and not less than -15°C

Application

Can be applied to: hoisting crane, electric valve, machine tool, wood-working machinery, printing machinery, reducer and other machinery which need rapid and accurate braking.

Services

    • OEM accepted: customized design
    • Good service: treat clients as friend
    • Good quality: with strict quality control system, good reputation in market
    • Packing: export standard: wooden case, plywood case, carton box for sea/air freight
    • Delivery lead time: 15-20 days after receiving payment.

OUR WAREHOUSE

  

OUR COMPANY

ZheJiang CHINAMFG Industrial Technology Co., Ltd set up since 1997, with 20 years development, we become 1 of the best companies in the industry for mechanical and lectrical products system integration, logistics service and investment. The company has set up 21 subsidiaries located in southern, central, eastern and northern China, .

The products categories include:

1, Transmission Products: High and low voltage electric motors, geared motors, gear boxes, bearings, inverter and complete electrical cabinets

2, Automation Products: Automation systems, motion control, low voltage control products and systems, sensor and communication products,

3, Power distribution Products: Low-voltage power distribution products, medium voltage circuit breaker, intelligent building system and equipment.

4, Machinery components.

Count on our 20 years industry experiences. ZheJiang CHINAMFG Industrial Technology Co., Ltd give you one-stop industrial products sourcing, procurement, system integration and services, satisfy your different needs in the industry.

We are looking CHINAMFG to cooperating with you.
  

 

FAQ

Q1: What about the shipping methods?

A1: For urgent order and light weight, you can choose the following express: UPS, FedEx, TNT, DHL, EMS.

 For heavy weight, you can choose to deliver the goods by air or by sea to save cost.
 

Q2: What about the payment methods?

A2: We accept T/T, L/C for big amount, and for small amount, you can pay us by PayPal, Western Union etc.
 

Q3: How much does it cost to ship to my country?

A3: It depends on seasons. Fee is different in different seasons. You can consult us at all times.
 

Q4: What’s your delivery time?

A4: Usually we produce within 25-30days after the payment confirmed.
 

Q5: Can I print our logo/code/series number on your motor?

A5: Yes, of course.
 

Q6: Can I order some sample for our testing?

A6: Yes, but it needs some expense.
 

Q7: Can you customize my product in special requirment?

A7: Yes, we can offer OEM.

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Application: Industrial
Operating Speed: Constant Speed
Number of Stator: Three-Phase
Customization:
Available

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Shipping Cost:

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Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

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

Can you provide examples of machinery or equipment that frequently use brake motors?

In various industrial and manufacturing applications, brake motors are commonly used in a wide range of machinery and equipment. These motors provide braking functionality and enhance the safety and control of rotating machinery. Here are some examples of machinery and equipment that frequently utilize brake motors:

  • Conveyor Systems: Brake motors are extensively used in conveyor systems, where they control the movement and stopping of conveyor belts. They ensure smooth and controlled starting, stopping, and positioning of material handling conveyors in industries such as logistics, warehousing, and manufacturing.
  • Hoists and Cranes: Brake motors are employed in hoists and cranes to provide reliable load holding and controlled lifting operations. They ensure secure stopping and prevent unintended movement of loads during lifting, lowering, or suspension of heavy objects in construction sites, ports, manufacturing facilities, and other settings.
  • Elevators and Lifts: Brake motors are an integral part of elevator and lift systems. They facilitate controlled starting, stopping, and leveling of elevators, ensuring passenger safety and smooth operation in commercial buildings, residential complexes, and other structures.
  • Metalworking Machinery: Brake motors are commonly used in metalworking machinery such as lathes, milling machines, and drilling machines. They enable precise control and stopping of rotating spindles, ensuring safe machining operations and preventing accidents caused by uncontrolled rotation.
  • Printing and Packaging Machinery: Brake motors are found in printing presses, packaging machines, and labeling equipment. They provide controlled stopping and precise positioning of printing cylinders, rollers, or packaging components, ensuring accurate printing, packaging, and labeling processes.
  • Textile Machinery: In textile manufacturing, brake motors are used in various machinery, including spinning machines, looms, and winding machines. They enable controlled stopping and tension control of yarns, threads, or fabrics, enhancing safety and quality in textile production.
  • Machine Tools: Brake motors are widely employed in machine tools such as grinders, saws, and machining centers. They enable controlled stopping and tool positioning, ensuring precise machining operations and minimizing the risk of tool breakage or workpiece damage.
  • Material Handling Equipment: Brake motors are utilized in material handling equipment such as forklifts, pallet trucks, and automated guided vehicles (AGVs). They provide controlled stopping and holding capabilities, enhancing the safety and stability of load transport and movement within warehouses, distribution centers, and manufacturing facilities.
  • Winches and Winders: Brake motors are commonly used in winches and winders for applications such as cable pulling, wire winding, or spooling operations. They ensure controlled stopping, load holding, and precise tension control, contributing to safe and efficient winching or winding processes.
  • Industrial Fans and Blowers: Brake motors are employed in industrial fans and blowers used for ventilation, cooling, or air circulation purposes. They provide controlled stopping and prevent the fan or blower from freewheeling when power is turned off, ensuring safe operation and avoiding potential hazards.

These examples represent just a selection of the machinery and equipment where brake motors are frequently utilized. Brake motors are versatile components that enhance safety, control, and performance in numerous industrial applications, ensuring reliable stopping, load holding, and motion control in rotating machinery.

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.

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editor by CX 2024-04-30