Product Description
Product Description
Year | Make | Model | Body & Trim | Engine & Transmission |
---|---|---|---|---|
2571 | Land Rover | Range Rover | Autobiography, SV Autobiography, SV Autobiography Dynamic | 5.0L V8 – Gas |
2019 | Land Rover | Range Rover | Autobiography, SV Autobiography, SV Autobiography Dynamic, Supercharged | 5.0L V8 – Gas |
2019 | Land Rover | Range Rover Sport | Autobiography Dynamic, SVR, Supercharged Dynamic | 5.0L V8 – Gas |
2018 | Land Rover | Range Rover Sport | Autobiography Dynamic, SVR, Supercharged, Supercharged Dynamic | 5.0L V8 – Gas |
2018 | Land Rover | Range Rover | Autobiography, SV Autobiography, SV Autobiography Dynamic, Supercharged | 5.0L V8 – Gas |
2017 | Land Rover | Range Rover Sport | Autobiography, SVR, Supercharged | 5.0L V8 – Gas |
2017 | Land Rover | Range Rover | Autobiography, SV Autobiography, Supercharged | 5.0L V8 – Gas |
2016 | Land Rover | Range Rover | Autobiography, SV Autobiography, Supercharged | 5.0L V8 – Gas |
2016 | Land Rover | Range Rover Sport | Autobiography, SVR, Supercharged, Supercharged Dynamic | 5.0L V8 – Gas |
2015 | Land Rover | Range Rover Sport | Autobiography, SVR, Supercharged | 5.0L V8 – Gas |
2015 | Land Rover | Range Rover | Autobiography, Supercharged | 5.0L V8 – Gas |
2014 | Land Rover | Range Rover Sport | Autobiography, Supercharged | 5.0L V8 – Gas |
2014 | Land Rover | Range Rover | Autobiography, Autobiography Black, Supercharged | 5.0L V8 – Gas |
2013 | Land Rover | Range Rover Sport | Autobiography, GT Limited Edition, HSE, HSE Lux, Supercharged | 5.0L V8 – Gas |
2013 | Land Rover | Range Rover | Autobiography, Base, HSE, Supercharged | 5.0L V8 – Gas |
2013 | Land Rover | LR4 | Base, HSE, HSE Lux | 5.0L V8 – Gas |
2012 | Land Rover | Range Rover | Autobiography, HSE, HSE Lux, Supercharged | 5.0L V8 – Gas |
2012 | Land Rover | Range Rover Sport | Autobiography, GT Limited Edition 3, HSE, HSE Lux, Supercharged | 5.0L V8 – Gas |
2012 | Land Rover | LR4 | Base, HSE, HSE Lux | 5.0L V8 – Gas |
2011 | Land Rover | Range Rover Sport | Autobiography, GT Limited Edition, HSE, Supercharged | 5.0L V8 – Gas |
2011 | Land Rover | LR4 | Base, HSE | 5.0L V8 – Gas |
2011 | Land Rover | Range Rover | HSE, Supercharged | 5.0L V8 – Gas |
2571 | Land Rover | LR4 | HSE, V8 | 5.0L V8 – Gas |
2571 | Land Rover | Range Rover | HSE, Supercharged | 5.0L V8 – Gas |
2571 | Land Rover | Range Rover Sport | HSE, Supercharged | 5.0L V8 – Gas |
Detailed Photos
After-sales Service: | 1 Year |
---|---|
Warranty: | 1 Year |
Transport Package: | Carton |
Origin: | China |
Samples: |
US$ 50/Piece
1 Piece(Min.Order) | |
---|
Can a drive chain be used in a HVAC or ventilation system?
Yes, a drive chain can be used in HVAC (Heating, Ventilation, and Air Conditioning) or ventilation systems where reliable and efficient power transmission is required. Here is a detailed explanation:
HVAC and ventilation systems utilize various components such as fans, blowers, dampers, and louvers to control air flow, temperature, and humidity in residential, commercial, and industrial buildings. Drive chains offer several advantages in these applications:
- Reliable Power Transmission: Drive chains provide reliable power transmission for HVAC and ventilation systems. They are capable of transmitting power over long distances, accommodating various speeds and torque requirements, and operating in different directions of rotation.
- Flexible System Design: Drive chains offer flexibility in system design and layout. They can be easily configured to connect and drive multiple components, such as fans, motors, and dampers, allowing for efficient control and adjustment of air flow and system performance.
- Accurate Speed Control: Drive chains allow for precise speed control in HVAC systems. By using sprockets of different sizes or incorporating variable speed drives, the rotational speed of fans or blowers can be adjusted to achieve the desired air flow rates and maintain optimal environmental conditions.
- High Load Capacity: HVAC and ventilation systems often require components to handle significant air volumes and pressure differentials. Drive chains are designed to handle high loads and transmit power effectively, ensuring reliable operation of fans, blowers, and other equipment.
- Durability and Longevity: Drive chains are engineered to withstand the demanding conditions of HVAC and ventilation systems. They are designed to resist wear, corrosion, and fatigue, ensuring durability and long service life even in continuous or high-cycle operations.
- Quiet Operation: Drive chains, when properly lubricated and maintained, can operate quietly in HVAC systems, minimizing noise and vibration levels. This is crucial for maintaining a comfortable and noise-free environment in residential, commercial, or institutional settings.
When selecting a drive chain for HVAC or ventilation applications, factors such as load capacity, speed requirements, environmental conditions (such as temperature and humidity), and maintenance considerations should be taken into account.
Regular inspection, lubrication, and tension adjustment are important for ensuring the optimal performance and longevity of the drive chain in HVAC and ventilation systems.
By utilizing drive chains in HVAC and ventilation systems, operators can benefit from reliable power transmission, flexible system design, accurate speed control, high load capacity, durability, longevity, and quiet operation, contributing to efficient and effective air conditioning and ventilation in various building environments.
Can a drive chain be used in an escalator or elevator system?
Yes, a drive chain can be used in certain types of escalator or elevator systems as a method of power transmission. Here is a detailed explanation:
In escalator and elevator systems, the purpose of the drive chain is to transmit power from the motor to the moving steps or elevator car. While other power transmission methods, such as belts or gears, are commonly used in modern escalators and elevators, drive chains can still be found in certain applications:
- Escalator Systems: In older or traditional escalator systems, drive chains are commonly used to transmit power from the main drive motor to the step chains. The step chains engage with the steps, causing them to move in a continuous loop. The drive chain ensures synchronized movement and reliable power transmission.
- Elevator Systems: In some elevator systems, particularly older hydraulic or traction types, drive chains can be used as part of the power transmission mechanism. These chains transmit power from the motor to the elevator car or counterweight, enabling vertical movement.
It is important to note that the design and configuration of escalators and elevators can vary depending on factors such as capacity, speed, height, and building regulations. Modern escalators and elevators often employ more advanced and efficient power transmission methods, such as belts or gears, which offer advantages in terms of noise, efficiency, and maintenance. However, in certain cases, drive chains may still be used, especially in older systems or specific applications.
It is essential to consult with escalator or elevator manufacturers, experts, or maintenance technicians to determine the appropriate power transmission method for a particular escalator or elevator system. They can provide guidance on chain selection, maintenance requirements, and compliance with safety standards to ensure optimal performance and reliability.
editor by CX 2023-07-27