Product Description

 

Detailed Photos

 

 

Product Description

An overhead conveyor is a type of conveyor system that is installed above the working area, typically in a manufacturing or industrial setting. It is used to move products, materials, or components from 1 point to another in a factory or warehouse, and is particularly useful for transporting heavy or bulky items that are difficult to move manually.

Overhead conveyors are commonly used in a variety of applications, such as automotive assembly lines, food and beverage processing, material handling and distribution, and storage and retrieval systems. They can be used for both horizontal and vertical transportation and can move products along a fixed path or in a continuous loop.

Some specific uses of overhead conveyors include:

  1. Assembly line transportation: Overhead conveyors are commonly used in manufacturing assembly lines to transport parts and components to different workstations along the line.

  2. Powder coating: Overhead conveyors are used in powder coating operations to move products through a paint booth, where they are coated with a dry powder before being cured in an oven.

 

Spare parts item Features Photo
Up-Down track for rising or falling areas. standard diameter is 1.2 meters,180º angle. it can be cut based on any necessary angles of any install conditions.the angle should not be more than 45º angle. the distance between 2 adjiacent hangers should be considered.
Check track There is a hatch which can open the track, through the hatch, worker can dismantle or install, check or maintain the conveying chains. Driving device for each conveying route is usually located between driver and take-up device for easy checking and maintenace.
Take-up device

(Tensioner)

Keep the chains in the state of original tension and compensate for the tensile deformation caused by tensile force or telescopic deformaton caused by varied temperature while working.
Make sure certain tensile force between driver and take-up device.   Install it behind driver about distance 3~6 meters. Better have no up-down track behind take-up device. 
Straight track for where conveyor chain go straight. it can be cut according to the specific install condition. standard length is 3 meters.
Caterpiller driver device Two types-Standard type and heavy duty type.
The driving device adjust the momentum that the motor ouput, after speed reduction unit increase its power which is to be passed to the driver caterpiller, the pusher dogs on which transport the chain so that chain can move forward.
Hanger  
Several types hangers:

Cross type hanger;

Y type hanger;

I type hanger;

Sprocket wheel hanger;

U-type hanger;

Bearing hanger;

Customized.

Automatic oil sprayer Specially designed for various automatic conveying chain;

More convenient to check oil-feeding diyusyion nsdrf CHINAMFG oil volume in the transparent oil pipes.

 

 
 

 

FAQ

Q1: Are you trading company or manufacturer ?
A: We are factory.

Q2: How long is your delivery time and shipment?
1.Sample Lead-times: generally 30 workdays.
2.Production Lead-times: 60 workdays after getting your deposit.

Q3. What is your terms of payment?
A: T/T 30% as deposit, and 70% before delivery.
We’ll show you the photos of the products and packages before you pay the balance.

Q4: What is your advantages?
1. Manufacturer,the most competitive price and good quality.
2. Perfect technical engineers give you the best support.
3. OEM is available.
4. Rich stock and quick delivery.

Q5. If you can’t find the product on our website,what do you next?
Please send us inquiry with product pictures and drawings by email or other ways and we’ll check
 

 

 

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Material: Alloy
Structure: Roller Chain
Surface Treatment: Polishing
Customization:
Available

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Customized Request

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about shipping cost and estimated delivery time.
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Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

drive chain

How does the design of a drive chain affect its efficiency and performance?

The design of a drive chain plays a crucial role in determining its efficiency and performance characteristics. Here is a detailed explanation:

The efficiency and performance of a drive chain are influenced by several design factors that are carefully considered during its development:

  • Chain Pitch and Size: The pitch and size of the chain links affect the load-carrying capacity, efficiency, and overall performance of the drive chain. A proper balance must be struck between chain size and strength to ensure optimal power transmission while minimizing friction and energy losses.
  • Roller Design: The shape and dimensions of the chain’s rollers impact its efficiency and performance. Well-designed rollers reduce friction and wear by promoting smooth rolling motion between the chain and the sprocket teeth. They also contribute to improved power transmission and reduced noise levels.
  • Plate and Pin Design: The shape and material of the chain’s plates and pins influence its strength, durability, and flexibility. Properly designed plates and pins ensure reliable power transmission, resistance to wear, and the ability to accommodate shock loads and varying torque conditions.
  • Sprocket Profile and Tooth Design: The design of the chain’s sprockets is critical for efficient power transmission. Sprockets with accurately machined teeth and suitable profiles minimize friction, ensure proper engagement with the chain, and facilitate smooth chain articulation. Well-designed sprockets reduce wear, noise, and energy losses.
  • Lubrication Features: Drive chain design often incorporates lubrication features such as oiling holes or grooves to facilitate proper lubricant distribution along the chain’s moving parts. Well-designed lubrication features ensure effective lubrication, reduce friction, prevent wear, and enhance the chain’s overall efficiency and lifespan.
  • Material Selection: The choice of materials for the chain’s components, such as the rollers, plates, pins, and bushings, significantly impacts its efficiency and performance. The selected materials must possess appropriate strength, wear resistance, and fatigue resistance to withstand the operating conditions and demands of the application.
  • Tensioning and Adjustment Mechanisms: Drive chain design often includes mechanisms for tensioning and adjusting the chain’s tension. Properly designed tensioning systems ensure optimal chain tension throughout its operation, promoting efficient power transmission, reducing chain vibration, and extending the chain’s service life.

A well-designed drive chain minimizes energy losses due to friction, reduces wear, and optimizes power transmission efficiency. It provides smooth and reliable operation, reduces noise levels, and contributes to the overall performance and longevity of the power transmission system.

It is important to note that drive chain design should consider the specific requirements and constraints of the application, including load capacity, speed, environmental conditions, and maintenance considerations. Regular inspection, lubrication, and proper tensioning are essential for maintaining the efficiency and performance of the drive chain over time.

By incorporating efficient design principles and considering the various factors that influence performance, manufacturers can produce drive chains that offer high efficiency, reliable power transmission, extended service life, and optimal performance in their intended applications.

drive chain

How does the efficiency of a drive chain compare to other power transmission systems?

The efficiency of a drive chain can vary depending on factors such as chain type, design, lubrication, and operating conditions. Here is a detailed explanation of how the efficiency of a drive chain compares to other power transmission systems:

  • High Efficiency: Drive chains are known for their high efficiency in power transmission. When properly lubricated and maintained, they can achieve efficiency levels of 95% or higher, which means that a minimal amount of power is lost during transmission.
  • Comparable to Other Systems: The efficiency of a drive chain is generally comparable to other common power transmission systems such as belt drives and gear drives. Each system has its own advantages and considerations, and their efficiencies can be similar when operating under optimal conditions.
  • Factors Affecting Efficiency: The efficiency of a drive chain can be influenced by several factors. These include the type and design of the chain, the condition of the sprockets, the level of lubrication, the alignment of the system, and the tension of the chain. Proper selection, installation, and maintenance play key roles in maximizing the efficiency of a drive chain.
  • Losses in Power Transmission: Despite their high efficiency, drive chains do experience some power losses during operation. These losses occur due to friction within the chain, sliding at the contact points between the chain and the sprockets, and other mechanical factors. However, these losses can be minimized through proper lubrication and tensioning of the chain.

In summary, drive chains offer high efficiency in power transmission, comparable to other common power transmission systems. By selecting the appropriate chain type, ensuring proper lubrication and maintenance, and optimizing the system’s alignment and tension, the efficiency of a drive chain can be maximized, resulting in effective power transmission and minimal power losses.

China high quality X458 Drive Chain  China high quality X458 Drive Chain
editor by CX 2024-03-18