China high quality Rover Lhp100520 F143045 Tensioner Pulley, Timing Belt pulley system

Product Description

ROVER LHP1 CHINAMFG T42207 ATB2402 VKM 27307 RUVILLE 56120 FEBI 15837

SIZE:70*312

APPLICATION:”ROVER 800 Coupe (1992/08 – 1999/02)
800 Coupe 825 Si (RS) 25 K4F Coupe 96/04 – 99/02
ROVER 800 Hatchback (XS) (1986/10 – 1999/02)
800 Hatchback (XS) 2.5 25 K4F Hatchback 96/02 – 98/10
800 Hatchback (XS) 2.5 Si 25 K4F Hatchback 96/02 – 98/10
ROVER 800 (XS) (1986/10 – 1999/02)
800 (XS) 825 Si Lux (RS) 25 K4F Saloon 96/04 – 99/02
ROVER 75 (RJ) (1999/02 – 2005/05)
75 (RJ) 2.5 V6 25 K4F Saloon 01/10 – 05/05
75 (RJ) 2.0 V6 20 K4F Saloon 99/02 – 05/05
75 (RJ) 2.5 V6 KV 6  Saloon 99/02 – 01/10
ROVER 45 (RT) (2000/02 – 2005/05)
45 (RT) 2.0 V6 20 K4F Hatchback 00/02 – 05/05
ROVER 45 Saloon (RT) (2000/02 – 2005/05)
45 Saloon (RT) 2.0 V6 20 K4F Saloon 00/02 – 05/05
V75 Tourer (RJ) (2001/08 – 2005/05)
75 Tourer (RJ) 2.0 V6 20 K4F Estate 01/08 – 05/05
75 Tourer (RJ) 2.5 V6 KV 6  Estate 01/08 – 05/05
MG ZS (2001/07 – 2005/04)
MG ZS 180 25 K4F Saloon 01/07 – 05/04
MG ZS Hatchback (2001/07 – 2005/10)
MG ZS Hatchback 180 25 K4F Hatchback 01/07 – 05/10
MG ZT (2001/06 – 2005/07)
MG ZT 180 25 K4F Saloon 03/01 – 05/07
MG ZT 190 25 K4F Saloon 01/06 – 05/07
MG ZT- T (2001/10 – 2005/07)
MG ZT- T 180 25 K4F Estate 03/01 – 05/07
MG ZT- T 190 25 K4F Estate 01/10 – 05/07

Product Parameters

OEM NO.

  LHP100520 F143045 
  Application   LANDROVER

Place of CHINAMFG

ZHangZhoug, China

Material

   Aluminium
  Product Name

Tensioner Pulley

Reference NO.

 

Packing

Neutral Packing

SHIPPING TERM

Sea/Air

Quality

100%tested

Size

same as OEM

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After-sales Service: 1 Year
Warranty: 1 Year
Certification: CCC, ISO9001, TS16949
Samples:
US$ 30/Piece
1 Piece(Min.Order)

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Customization:
Available

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Customized Request

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

timing pulley

What types of materials are typically used to manufacture timing pulleys?

Timing pulleys are manufactured using a variety of materials, each chosen based on its specific properties and performance requirements. Here are some of the materials typically used:

1. Steel:

Steel is a commonly used material for timing pulleys due to its high strength, durability, and resistance to wear. Steel pulleys can withstand heavy loads and high-speed applications. They are often used in industrial machinery, automotive engines, and power transmission systems that require robust and reliable performance.

2. Aluminum:

Aluminum timing pulleys are favored for their lightweight nature, corrosion resistance, and excellent heat dissipation properties. They are commonly used in applications where weight reduction is a priority, such as aerospace and automotive industries. Aluminum pulleys are also suitable for high-speed applications where reduced inertia is desired.

3. Cast Iron:

Cast iron timing pulleys offer excellent strength and durability. They are known for their high load-carrying capacity and resistance to wear and deformation. Cast iron pulleys are commonly used in heavy-duty industrial applications that involve high loads and harsh operating conditions.

4. Engineering Plastics:

Various engineering plastics, such as polyamide (nylon), polyoxymethylene (acetal), and polycarbonate, are used to manufacture timing pulleys. These materials offer good strength, wear resistance, and low friction properties. Engineering plastic pulleys are often chosen for their lightweight, low noise, and self-lubricating characteristics. They find applications in industries such as packaging, food processing, and automation.

5. Composite Materials:

Composite materials, which combine different materials such as carbon fibers or glass fibers with a polymer matrix, are used to manufacture high-performance timing pulleys. These pulleys offer exceptional strength-to-weight ratios, high stiffness, and excellent resistance to temperature and chemicals. Composite pulleys are typically used in demanding applications that require lightweight construction and high performance, such as motorsports and advanced machinery.

6. Other Materials:

Depending on the specific application requirements, timing pulleys can also be manufactured using materials such as brass, bronze, or stainless steel, which offer specific properties like corrosion resistance or electrical conductivity.

The choice of material for timing pulleys depends on factors such as load capacity, speed, operating conditions, environmental factors, and cost considerations. Manufacturers select the most suitable material to ensure optimal performance, durability, and reliability in the intended application.

timing pulley

What are the common applications of timing pulleys in robotics?

Timing pulleys play a vital role in various applications within the field of robotics. Here are some common applications of timing pulleys in robotics:

1. Robotic Arm Movement:

Timing pulleys are often used to control the movement of robotic arms. By connecting the motor to the driving pulley and the arm joint to the driven pulley with a timing belt or chain, the rotational motion of the motor is converted into precise and synchronized movement of the arm. This allows robots to perform tasks that require accurate positioning and controlled motion, such as pick-and-place operations in manufacturing or assembly processes.

2. Joint Actuation:

Robotic joints rely on timing pulleys to provide rotational movement. The driving pulley is connected to the motor, while the driven pulley is linked to the joint axis through a timing belt or chain. This configuration facilitates precise and coordinated movement of the robotic joint, enabling robots to perform tasks that require flexibility and dexterity, such as reaching different positions, manipulating objects, or mimicking human-like motions.

3. Linear Actuators:

Timing pulleys are utilized in linear actuator systems within robotics. By connecting the motor to the driving pulley and a linear mechanism, such as a lead screw or a linear belt, to the driven pulley, linear motion can be achieved. This enables robots to perform linear movements, such as extending or retracting a robotic arm or a gripper, adjusting the height of a platform, or executing precise linear positioning tasks.

4. Conveyor Systems:

Timing pulleys are employed in robotic conveyor systems to control the movement of objects or workpieces. By connecting the motor to the driving pulley and the conveyor belt to the driven pulley, the rotational motion of the motor is transferred to the conveyor belt, enabling the transportation of items. Timing pulleys ensure precise and synchronized movement of the conveyor belt, allowing robots to handle material handling tasks efficiently in industries such as logistics, manufacturing, and packaging.

5. Robot Mobility:

Timing pulleys are utilized in robotic mobility systems, such as wheeled or tracked robots. By connecting the motor to the driving pulley and the wheel or track mechanism to the driven pulley with a timing belt or chain, rotational motion is converted into linear motion, enabling the robot to move. Timing pulleys ensure precise and coordinated movement of the wheels or tracks, allowing robots to navigate and maneuver effectively in various environments.

6. Gripping and Manipulation:

Timing pulleys are employed in robotic gripper systems for precise gripping and manipulation of objects. By connecting the motor to the driving pulley and the gripper mechanism to the driven pulley, the rotational motion is converted into controlled gripping and releasing motions. Timing pulleys enable accurate and synchronized movement of the gripper, allowing robots to handle objects of different shapes, sizes, and weights with precision.

7. Articulated Limbs and Biomechanical Robotics:

Timing pulleys are used in robotics applications that aim to mimic human or animal movements. They are employed in the design of articulated limbs and biomechanical robots to provide precise and coordinated motion similar to natural joints and muscles. The timing pulleys facilitate the controlled movement of the robotic limbs, enabling robots to perform tasks that require lifelike motion, such as prosthetics, exoskeletons, or research in the field of biomechanics.

These are just a few examples of the common applications of timing pulleys in robotics. The precise and synchronized movement enabled by timing pulleys is crucial in achieving accurate and controlled robotic operations in various industries and research fields.

timing pulley

Can you explain the importance of precision in timing pulley systems?

Precision is of utmost importance in timing pulley systems due to the critical nature of their applications. Here’s an explanation of why precision is essential in timing pulley systems:

1. Accurate Timing and Synchronization:

Precision ensures accurate timing and synchronization between the driving and driven components in a mechanical system. Timing pulley systems are commonly used in applications where precise motion control is necessary, such as engines, robotics, CNC machines, and automated systems. Any deviation from the intended timing can lead to errors, malfunctions, or decreased performance in these systems.

2. Consistent Power Transmission:

In a timing pulley system, the teeth on the timing pulley engage with the teeth on the timing belt, creating a positive drive system. Precision in the design and manufacturing of the timing pulley and timing belt ensures consistent power transmission without slippage or backlash. This reliability is crucial in applications that require accurate speed ratios, torque transmission, and consistent performance.

3. Positioning and Indexing Accuracy:

Precision in timing pulley systems allows for precise positioning and indexing of components. The teeth on the timing pulley and belt ensure accurate movement and positioning, enabling repeatable and controlled motion. This is essential in applications such as automated assembly lines, 3D printers, and precision motion control systems, where precise positioning is critical for achieving desired outcomes.

4. Reduced Wear and Maintenance:

Precision in timing pulley systems leads to reduced wear and maintenance requirements. When the teeth of the timing pulley and belt mesh precisely, there is minimal abrasion and elongation of the belt, resulting in increased longevity. Additionally, precise timing and synchronization minimize stress on the system, reducing the need for frequent adjustments and replacements.

5. Noise and Vibration Reduction:

Precision in timing pulley systems helps minimize noise and vibration. When the teeth of the timing pulley and belt are precisely matched, there is a smooth transfer of power, reducing noise generation and vibration. This is particularly important in applications where noise and vibration can affect the performance or comfort of the system, such as in precision instruments or equipment used in quiet environments.

6. System Reliability and Performance:

Precision contributes to the overall reliability and performance of timing pulley systems. Accurate timing, synchronization, and power transmission ensure that the system operates as intended, minimizing the risk of failures, errors, or inefficiencies. Reliable performance is crucial in critical applications where downtime or errors can have significant consequences.

In summary, precision is vital in timing pulley systems to achieve accurate timing and synchronization, consistent power transmission, precise positioning and indexing, reduced wear and maintenance, noise and vibration reduction, and overall system reliability and performance. Attention to precision during the design, manufacturing, installation, and maintenance of timing pulley systems is essential to ensure optimal functionality and meet the specific requirements of the application.

China high quality Rover Lhp100520 F143045 Tensioner Pulley, Timing Belt   pulley system	China high quality Rover Lhp100520 F143045 Tensioner Pulley, Timing Belt   pulley system
editor by CX