Product Description

Basic Info.

Model NO: BMR-160 Application: Forklift/Construction Machine
Model: BMR-B- 400 Delivery Time: 10days
Material: Cast Iron MOQ: 1PCS
Feature: Orbital Hydraulic Motor Transport Package: Standard Export Wooden Carton
Pressure: 275 Bar Specification: Standard
Mount Flange: 2 Bolts, 4 Bolts, 6 Bolts HS Code: 8413603290
Displacement: 80 Cc ~ 490cc Origin: ZheJiang , China
Maximum Flow Rate: 720 Rpm Production Capacity: 1000PCS/Month

Design Features
1.   Compact in design with disc valving and Geroler
2.   High pressure capacityshaft seal
3.   Design and manufacture of the spline and drives give the motor durability
4.   Wide variety of mounting flanges ,shafts ,ports and speed provides design flexibility
5.   Direction of shaft rotation and speed can be controlled easily and smoothly
6.   Best combination of high efficiency and economy in medium duty application

SMS(BM2 series) Advantages
1.   Advanced Roller stator Design
2.   Various choice of cc. Flange ,shaft and port
3.   Constant operating torque
4.   High radial and axial bearing capacity
5.   Long life under extreme operating condition
6.   Custom-made Service is acceptable
 
Product details
Hydraulic motor knowledge explanation professional households, today to talk about the speed and stability of the hydraulic motor knowledge introduction, the old rules see I wrote the content of our company to pay attention to the production of hydraulic motors, pro quality is good to no fun point. Speed control, low speed, high torque hydraulic motor, high quality.

Hydraulic motor manufacturers explain to us about the hydraulic motor speed and low speed stability of the relevant knowledge, the speed of the hydraulic motor depends on the flow rate of the liquid q and the displacement of the hydraulic motor itself V. Because there is a leak inside the hydraulic motor, not all the liquid entering the motor is pushing the hydraulic motor to do work, a small part of the liquid is lost due to the leak, so the actual speed of the motor is lower than the ideal situation.

When the working speed of the hydraulic motor is too low, it often cannot maintain a uniform speed, and the unstable state of moving and stopping when entering is called crawling. If it is required that the high-speed hydraulic motor does not exceed 10r/min, the speed of the low-speed high-torque hydraulic motor does not exceed 3r/min, not all hydraulic motors can meet the requirements. Generally speaking, the low-speed stability of low-speed high-torque hydraulic motors is better than that of high-speed motors. The displacement of low-speed high-torque motor is large, so the size is large, even at low speed, the sliding speed of the working friction pair is not too low, and the displacement of the motor is large, the leakage effect is relatively small, and the moment of inertia of the motor itself is large, so it is easy to get better low-speed stability.

The hydraulic motor is an executive element of the hydraulic system, which converts the liquid pressure energy provided by the hydraulic pump into the mechanical energy (torque and speed) of its output shaft. Liquids are the medium through which force and motion are transmitted.

Hydraulic motors, also known as oil motors, are mainly used in injection molding machinery, ships, lifting machines, engineering machinery, construction machinery, coal mining machinery, mining machinery, metallurgical machinery, Marine machinery, petrochemical industry, port machinery and so on.

The hydraulic motor is an executive element of the hydraulic system, which converts the liquid pressure energy provided by the hydraulic pump into the mechanical energy (torque and speed) of its output shaft. Liquids are the medium through which force and motion are transmitted.

What parameters should we pay attention to in the purchase of hydraulic motors?
1. Working pressure and rated pressure;

2. Displacement and flow;

3. Volumetric efficiency and speed;

4. Power and overall efficiency Follow what I said to choose the right hydraulic motor.

The hydraulic motor produced by our company has good quality and moderate price.

Displ.cm3/r 36 50 63 80 100 125 160 200 250 315 400 500
LPM Continuous 40 40 40 60 60 60 60 60 60 60 60 60
Intermittent 50 50 50 75 75 75 75 75 75 75 75 75
RPM Continuous 1571 755 630 750 600 475 375 300 240 190 160 110
Intermittent 1220 970 790 940 750 600 470 375 300 240 200 128
MPA Continuous 14 14 14 17.5 17.5 17.5 16.5 13 11 8.5 8.5 8
Intermittent 16.5 17.5 17.5 20 20 20 20 17.5 14 11.5 11.5 9
N*M Continuous 69 100 124 190 240 292 363 358 352 360 420 464
Intermittent 83 126 156 220 280 340 430 448 470 470 548 580

FAQ

Q: Are you trading company or manufacturer ?

A: We are factory.

Q: How long is your delivery time?

A: Generally it is 5-10 days if the goods are in stock. or it is 15-20 days if the goods are not in stock, it is according to quantity.

Q: Do you provide samples ? is it free or extra ?

A: No, we could not offer the sample for free charge but we can supply the goods with sample price.

Q: What is your terms of payment ?

A: Payment=1000USD, 30% T/T in advance ,balance before shippment.
If you have another question, pls feel free to contact us as below:
 

 

 

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After-sales Service: Online Remote Coaching
Warranty: 1 Year
Certification: RoHS, CE, ISO9001
Customization:
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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

How does a brake motor enhance safety in industrial and manufacturing settings?

In industrial and manufacturing settings, brake motors play a crucial role in enhancing safety by providing reliable braking and control mechanisms. These motors are specifically designed to address safety concerns and mitigate potential risks associated with rotating machinery and equipment. Here’s a detailed explanation of how brake motors enhance safety in industrial and manufacturing settings:

1. Controlled Stopping: Brake motors offer controlled stopping capabilities, allowing for precise and predictable deceleration of rotating machinery. This controlled stopping helps prevent abrupt stops or sudden changes in motion, reducing the risk of accidents, equipment damage, and injury to personnel. By providing smooth and controlled stopping, brake motors enhance safety during machine shutdowns, emergency stops, or power loss situations.

2. Emergency Stop Functionality: Brake motors often incorporate emergency stop functionality as a safety feature. In case of an emergency or hazardous situation, operators can activate the emergency stop function to immediately halt the motor and associated machinery. This rapid and reliable stopping capability helps prevent accidents, injuries, and damage to equipment, providing an essential safety measure in industrial environments.

3. Load Holding Capability: Brake motors have the ability to hold loads in position when the motor is not actively rotating. This load holding capability is particularly important for applications where the load needs to be securely held in place, such as vertical lifting mechanisms or inclined conveyors. By preventing unintended movement or drift of the load, brake motors ensure safe operation and minimize the risk of uncontrolled motion that could lead to accidents or damage.

4. Overload Protection: Brake motors often incorporate overload protection mechanisms to safeguard against excessive loads. These protection features can include thermal overload protection, current limiters, or torque limiters. By detecting and responding to overload conditions, brake motors help prevent motor overheating, component failure, and potential hazards caused by overburdened machinery. This protection enhances the safety of personnel and prevents damage to equipment.

5. Failsafe Braking: Brake motors are designed with failsafe braking systems that ensure reliable braking even in the event of power loss or motor failure. These systems can use spring-loaded brakes or electromagnetic brakes that engage automatically when power is cut off or when a fault is detected. Failsafe braking prevents uncontrolled motion and maintains the position of rotating machinery, reducing the risk of accidents, injury, or damage during power interruptions or motor failures.

6. Integration with Safety Systems: Brake motors can be integrated into safety systems and control architectures to enhance overall safety in industrial settings. They can be connected to safety relays, programmable logic controllers (PLCs), or safety-rated drives to enable advanced safety functionalities such as safe torque off (STO) or safe braking control. This integration ensures that the brake motor operates in compliance with safety standards and facilitates coordinated safety measures across the machinery or production line.

7. Compliance with Safety Standards: Brake motors are designed and manufactured in compliance with industry-specific safety standards and regulations. These standards, such as ISO standards or Machinery Directive requirements, define the safety criteria and performance expectations for rotating machinery. By using brake motors that meet these safety standards, industrial and manufacturing settings can ensure a higher level of safety, regulatory compliance, and risk mitigation.

8. Operator Safety: Brake motors also contribute to operator safety by reducing the risk of unintended movement or hazardous conditions. The controlled stopping and load holding capabilities of brake motors minimize the likelihood of unexpected machine behavior that could endanger operators. Additionally, the incorporation of safety features like emergency stop buttons or remote control options provides operators with convenient means to stop or control the machinery from a safe distance, reducing their exposure to potential hazards.

By providing controlled stopping, emergency stop functionality, load holding capability, overload protection, failsafe braking, integration with safety systems, compliance with safety standards, and operator safety enhancements, brake motors significantly enhance safety in industrial and manufacturing settings. These motors play a critical role in preventing accidents, injuries, and equipment damage, contributing to a safer working environment and ensuring the well-being of personnel.

brake motor

What industries and applications commonly use brake motors?

Brake motors find wide-ranging applications across various industries that require controlled stopping, load holding, and precise positioning. Here’s a detailed overview of the industries and applications commonly using brake motors:

1. Material Handling: Brake motors are extensively used in material handling equipment such as cranes, hoists, winches, and conveyors. These applications require precise control over the movement of heavy loads, and brake motors provide efficient stopping and holding capabilities, ensuring safe and controlled material handling operations.

2. Elevators and Lifts: The vertical movement of elevators and lifts demands reliable braking systems to hold the load in position during power outages or when not actively driving the movement. Brake motors are employed in elevator systems to ensure passenger safety and prevent unintended movement or freefall of the elevator car.

3. Machine Tools: Brake motors are used in machine tools such as lathes, milling machines, drilling machines, and grinders. These applications often require precise positioning and rapid stopping of rotating spindles or cutting tools. Brake motors provide the necessary control and safety measures for efficient machining operations.

4. Conveyor Systems: Conveyor systems in industries like manufacturing, logistics, and warehouses utilize brake motors to achieve accurate control over the movement of goods. Brake motors enable smooth acceleration, controlled deceleration, and precise stopping of conveyor belts, ensuring proper material flow and minimizing the risk of collisions or product damage.

5. Crushers and Crushers: In industries such as mining, construction, and aggregates, brake motors are commonly used in crushers and crushers. These machines require rapid and controlled stopping to prevent damage caused by excessive vibration or unbalanced loads. Brake motors provide the necessary braking force to halt the rotation of crusher components quickly.

6. Robotics and Automation: Brake motors play a vital role in robotics and automation systems that require precise movement control and positioning. They are employed in robotic arms, automated assembly lines, and pick-and-place systems to achieve accurate and repeatable movements, ensuring seamless operation and high productivity.

7. Printing and Packaging: Brake motors are utilized in printing presses, packaging machines, and labeling equipment. These applications require precise control over the positioning of materials, accurate registration, and consistent stopping during printing or packaging processes. Brake motors ensure reliable performance and enhance the quality of printed and packaged products.

8. Textile Machinery: Brake motors are commonly found in textile machinery such as spinning machines, looms, and textile printing equipment. These applications demand precise control over yarn tension, fabric movement, and position holding. Brake motors offer the necessary braking force and control for smooth textile manufacturing processes.

9. Food Processing: Brake motors are employed in food processing equipment, including mixers, slicers, extruders, and dough handling machines. These applications require precise control over mixing, slicing, and shaping processes, as well as controlled stopping to ensure operator safety and prevent product wastage.

These are just a few examples, and brake motors are utilized in numerous other industries and applications where controlled stopping, load holding, and precise positioning are essential. The versatility and reliability of brake motors make them a preferred choice in various industrial sectors, contributing to enhanced safety, productivity, and operational control.

China factory Bmr-B-160 200 250 315 400 Brake Hydraulic Motor Can Be Configured with Balance Valve Shuttle Valve Brake Torque Large Brake Hydraulic Motor   vacuum pump diyChina factory Bmr-B-160 200 250 315 400 Brake Hydraulic Motor Can Be Configured with Balance Valve Shuttle Valve Brake Torque Large Brake Hydraulic Motor   vacuum pump diy
editor by CX 2024-03-27