Product Description

The main application is for conveying various food products and containers.
The 820 is a plastic version of the related. The plastic chains however have a reinforcing middle rib underneath. The link thickness is 4.0 mm (0.16 in.) for the 820-series. The links overlap, so there is no space between the links.
Plate mat.:POM/PP; Pin mat.:stainless steel
Max.speed: 80m/min lubrication; 50m/min dry
Max.length:12m; Color:white/brown; Packing unit:10ft(80links)
China CHINAMFG Machinery Co.,Ltd is a special supplier of conveyor system components,including plastic and stainless steel flat top chains, Modular belts, other spare parts, such as UHMWPE wearstrips, side guards, chains guide, bipods, tripods, brackets, clampls.ect.
With our years of experence, quality products, excellent services we work with world wide clients from America, Europe, Africa, many counrties of Asia. We keep very good business relation with them, and get trusted from them.
Our products application:
Packaging and conveying industry
Beverage bottling and handling industry
Food and meat processing industry
Chemical industry
Pharmaceuticals industry
Automobile industry
Electrical and electronics industry
Textile industry
Light engineering industry

Material: Plastic
Structure: Top Chain
Surface Treatment: Low Friction
Chain Size: Pitch 38.1mm
Color: Brown/White/Others
Materials: POM/PP/PE
US$ 6/Meter
1 Meter(Min.Order)

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How do you calculate the required horsepower for a conveyor chain drive?

The calculation of required horsepower for a conveyor chain drive involves considering various factors related to the conveyor system and the specific application. Here is a step-by-step process:

1. Determine the Total Resistance:

– Calculate the total resistance that the conveyor chain needs to overcome during operation. This includes the resistance due to the load being conveyed, frictional losses, elevation changes, and any other resistances in the system.

2. Convert the Resistance to Equivalent Inertia:

– Convert the total resistance to an equivalent inertia by multiplying it by the square of the chain speed.

3. Calculate the Total Inertia:

– Determine the total inertia of the system by considering the inertia of all the rotating components, such as the conveyor chain, sprockets, and any other driven elements.

4. Determine the Required Torque:

– Calculate the required torque by multiplying the total inertia by the desired acceleration or deceleration rate.

5. Convert Torque to Horsepower:

– Convert the required torque to horsepower by dividing it by the motor speed (in RPM) and multiplying by a conversion factor.

6. Consider Safety Factors and Efficiency:

– Apply safety factors to the calculated horsepower to account for variations, contingencies, and future growth.

– Consider the efficiency of the drive system, including the motor, gearbox, and other transmission components, to ensure accurate power transmission.

It’s important to note that the above calculation method provides an estimate of the required horsepower. Consulting with conveyor system manufacturers, engineers, or industry-specific guidelines is recommended for precise calculations and to ensure the selected conveyor chain drive meets the application requirements.


What are the different attachment options available for a conveyor chain?

Conveyor chains can be equipped with various types of attachments or accessories to accommodate specific material handling needs. Here are some common attachment options:

1. Cleats or Flights: Cleats or flights are raised sections attached to the conveyor chain to prevent materials from slipping or sliding off the chain. They are commonly used in incline or decline applications or when handling loose or bulk materials.

2. Side Plates or Side Guards: Side plates or side guards are installed along the edges of the conveyor chain to provide containment and prevent materials from spilling or falling off the sides. They are particularly useful when conveying small or irregularly shaped items.

3. Pusher Bars: Pusher bars are extensions mounted on the conveyor chain that can be pneumatically or mechanically actuated to push materials onto a different conveyor line or divert them to a specific location. They are often used for sorting or diverting applications.

4. Hold-Downs or Brackets: Hold-downs or brackets are devices attached to the conveyor chain to secure and stabilize the transported materials. They ensure that the materials remain in a fixed position during the conveying process, especially when encountering vibrations or changes in speed.

5. Guide Rails: Guide rails are installed alongside the conveyor chain to provide guidance and alignment for the materials being conveyed. They help maintain the desired path and prevent lateral movement or misalignment.

6. Magnetic Attachments: Magnetic attachments are used when handling ferrous materials. They allow the conveyor chain to attract and hold magnetic objects, ensuring effective transport and separation.

7. Tooling Plates: Tooling plates are platforms or mounting surfaces attached to the conveyor chain to accommodate specific equipment, such as fixtures, sensors, or robotic arms. They provide a convenient and customizable interface for integrating additional functionalities into the conveyor system.

8. Diverters or Transfer Units: Diverters or transfer units are specialized attachments that enable the seamless transfer of materials from one conveyor line to another, or between different processing stations. They ensure smooth transitions and precise material flow control.

These attachment options offer flexibility and versatility in conveyor chain applications, allowing customization based on the specific requirements of the material being transported or the production process. By selecting the appropriate attachments, conveyor chains can effectively handle a wide range of materials and optimize material flow within a conveyor system.


What are the common causes of conveyor chain failures?

Conveyor chain failures can occur due to various reasons, and identifying the root cause is crucial for preventing future issues. Here are some common causes of conveyor chain failures:

  • Lack of Lubrication: Insufficient or improper lubrication can lead to increased friction and wear on the chain components, resulting in premature failure.
  • Excessive Load: Overloading the conveyor chain beyond its rated capacity can cause excessive stress and strain, leading to chain elongation, deformation, or link breakage.
  • Misalignment: Improper alignment of the conveyor chain can cause uneven loading and excessive wear on specific areas, leading to chain failure.
  • Environmental Factors: Harsh operating environments, such as high temperatures, corrosive substances, or abrasive materials, can accelerate chain wear and corrosion, leading to failure.
  • Foreign Objects: The presence of foreign objects or debris on the conveyor system can interfere with the movement of the chain, causing jamming, binding, or chain damage.
  • Poor Maintenance: Inadequate maintenance practices, such as irregular inspections, failure to address minor issues promptly, or neglecting to replace worn components, can contribute to chain failures.
  • Incorrect Installation: Improper installation, including incorrect tensioning, misalignment, or using incompatible components, can result in premature chain failure.
  • Fatigue and Wear: Continuous operation over time can lead to fatigue and wear in the chain, especially in high-speed or heavy-duty applications, resulting in eventual failure.

Regular maintenance, proper lubrication, adequate training for operators, and adherence to manufacturer guidelines can help mitigate these common causes of conveyor chain failures. Conducting routine inspections, promptly addressing issues, and replacing worn components can also significantly extend the life of the conveyor chain.

China factory Thermoplastic Conveyor Flat Top Chains LF820-K400 Table Top Conveyor Chains  China factory Thermoplastic Conveyor Flat Top Chains LF820-K400 Table Top Conveyor Chains
editor by CX 2023-12-11