China Standard a/B Series Roller Chain Steel Stainless Transmission Conveyor Leaf Chain and Attachemnt

Product Description

Simplex stainless 304 Roller Chain (08B-1, 24B-1)
 

The most commonly used chain is roller chain or as it is also known transmission chain. These are the simplest chain drives, Used mainly for transmitting power. Can be supplied from 3mm pitch up to 4″ pitch in either mild steel or stainless steel.

 

DIN/ISO
Chain No.
Pitch Roller
Diameter
 
Width Between
Inner Plates
 
Pin Diameter
 
Pin Length
 
Inner Plate depth
 
Plate thick
ness
 
Ultimate
Tensile
Strength
 
Average
Tensile
Strength
Weight Per Meter
 
Mm mm mm mm mm mm mm mm kN/LB kN Kg/m
04B-1 6.000 4.00 2.80 1.85 6.80 7.80 5.00 0.60 3.0/682 3.2 0.11
05B-1 8.000 5.00 3.00 2.31 8.20 8.90 7.10 0.80 5.0/1136 5.9 0.20
*06B-1 9.525 6.35 5.72 3.28 13.15 14.10 8.20 1.30 9.0/2045 10.4 0.41
08B-1 12.700 8.51 7.75 4.45 16.70 18.20 11.80 1.60 18.0/4091 19.40 0.69
10B-1 15.875 10.16 9.65 5.09 19.50 20.90 14.70 1.70 22.4/5091 27.50 0.93
12B-1 19.050 12.07 11.68 5.72 22.50 24.2 16.00 1.85 29.0/6591 32.20 1.15
16B-1 25.400 15.88 17.02 8.28 36.10 37.4 21.00 4.15/3.1 60.0/13636 72.80 2.71
20B-1 31.750 19.05 19.56 10.19 41.30 45.0 26.40 4.5/3.5 95.0/21591 106.7 3.70
24B-1 38.100 25.40 25.40 14.63 53.40 57.80 33.20 6.0/4.8 160.0/36364 178.0 7.10
28B-1 44.450 27.94 30.99 15.90 65.10 69.50 36.70 7.5/6.0 200.0/45455 222.0 8.50
32B-1 50.800 29.21 30.99 17.81 66.00 71.0 42.00 7.0/6.0 250.0/56818 277.5 10.25
40B-1 63.50 39.37 38.10 22.89 82.20 89.2 52.96 8.5/8.0 355.0/80682 394.0 16.35
48B-1 76.20 48.26 45.72 29.24 99.10 107.0 63.80 12.0/10.0 560.0/127272 621.6 25.00
56B-1 88.90 53.98 53.34 34.32 114.60 123.0 77.80 13.5/12.0 850.0/193180 940.0 35.78
*Bushing chain: d1 in the table indicate the external diameter of bushing
 

We own the sophisticated equipment and the advanced technology, such as: 
1. CAD Designer
2. Wire Cutting Machine
3. Chain Running In Machine
4. Conveyor Furance
5. Ball Drift
6. Shot Peened Parts
7. Design Of Link Plate Waist

Company Detail:

GOODLUCK TRANSMISSION is 1 of a professional exporter with exporting POWER TRANSMISSION PARTS: Roller chains,conveyor chain,stainless steel chains, agricultural chains, steel detachable chains, special chains, sprockets, s. S. Sprockets, HRC couplings, pulleys, bushes etc. All these products have been supplied regularly to World Wide for over 15 years.  

 

Welcome contact for more detail.

 

Usage: Transmission Chain
Material: Stainless steel
Surface Treatment: Polishing
Samples:
US$ 100/Piece
1 Piece(Min.Order)

|

Order Sample

Pls contact with Sellers
Customization:
Available

|

Customized Request

.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}

Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



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

conveyor

How do you calculate the maximum allowable tension in a conveyor chain?

The maximum allowable tension in a conveyor chain can be calculated using the following steps:

1. Determine the Chain Pitch:

– Measure the distance between the centers of two consecutive chain pins. This measurement is known as the chain pitch and is typically expressed in inches or millimeters.

2. Determine the Chain Speed:

– Determine the speed at which the conveyor chain will be operating. The chain speed is typically expressed in feet per minute or meters per second.

3. Calculate the Chain Pull:

– Determine the total weight or force that needs to be moved by the conveyor chain. This includes the weight of the conveyed material and any additional loads or forces acting on the chain.

4. Calculate the Required Tension:

– Use the following formula to calculate the required tension:

Tension = (Chain Pull × Chain Speed) / (Chain Pitch × Efficiency)

– The efficiency factor accounts for losses due to friction and other factors and is typically expressed as a decimal between 0 and 1.

5. Determine the Maximum Allowable Tension:

– The maximum allowable tension is determined by the manufacturer’s specifications for the conveyor chain. It is important to consult the manufacturer’s documentation or contact them directly to obtain the maximum allowable tension value.

6. Compare the Required Tension and Maximum Allowable Tension:

– Compare the calculated required tension with the maximum allowable tension. The required tension should be less than or equal to the maximum allowable tension to ensure safe and reliable operation of the conveyor chain.

By following these steps and considering the manufacturer’s specifications, you can accurately calculate the maximum allowable tension in a conveyor chain and ensure that it is within the safe operating limits.

conveyor

How does a conveyor chain contribute to overall production efficiency?

A conveyor chain plays a crucial role in enhancing overall production efficiency in various industries. Here are the ways in which it contributes to efficiency:

1. Continuous Material Flow: A conveyor chain enables continuous and uninterrupted material flow from one point to another. It eliminates the need for manual handling or transportation of goods, reducing downtime and delays in production processes.

2. Increased Throughput: By automating material handling, a conveyor chain enables faster and more efficient movement of goods. It allows for higher throughput and production rates, maximizing the utilization of resources and reducing cycle times.

3. Improved Productivity: With a conveyor chain, employees can focus on value-added tasks rather than manual material handling. This leads to improved productivity as workers can concentrate on more skilled and critical operations.

4. Efficient Resource Allocation: A well-designed conveyor chain system optimizes the utilization of space, allowing for efficient layout and organization of production areas. It helps in streamlining workflow and minimizing wastage of resources such as floor space, manpower, and equipment.

5. Quality Control: Conveyor chains can be integrated with inspection stations or automated processes to ensure quality control at various stages of production. This helps in detecting and rectifying any defects or inconsistencies, reducing the chances of faulty products reaching the market.

6. Reduced Material Handling Costs: By eliminating or minimizing manual material handling, a conveyor chain reduces labor costs associated with transportation, lifting, and carrying of goods. It also minimizes the risk of injuries or accidents related to manual handling.

7. Flexibility and Adaptability: Conveyor chains can be customized to suit specific production requirements. They can be designed to accommodate different types of products, handle various load capacities, and adapt to changes in production demands. This flexibility allows for seamless integration with existing production systems and easy scalability.

8. Safety and Ergonomics: Conveyor chains incorporate safety features such as guards, emergency stop buttons, and interlocks to ensure worker safety. They also promote ergonomic practices by reducing physical strain on workers and minimizing the risk of musculoskeletal injuries.

Overall, a well-designed and properly maintained conveyor chain system enhances production efficiency by optimizing material flow, increasing throughput, improving productivity, reducing costs, ensuring quality control, and prioritizing worker safety.

conveyor

What are the main components of a conveyor chain?

The main components of a conveyor chain include:

  • Chain Links: Chain links are the individual components that make up the conveyor chain. They are typically made of metal and are connected to form a continuous loop. The design and configuration of the chain links can vary depending on the specific application and load requirements.
  • Pins: Pins are the cylindrical components that hold the chain links together. They are inserted through the end of each chain link to create a solid connection. Pins are usually made of hardened steel to withstand the forces and friction within the conveyor system.
  • Sprockets: Sprockets are toothed wheels that engage with the chain links and provide the driving force to move the conveyor chain. They are typically made of durable materials such as steel or plastic and are designed to match the pitch and profile of the conveyor chain. Sprockets come in various sizes and configurations depending on the desired speed and load capacity of the conveyor system.
  • Guide Rails: Guide rails are stationary components installed along the conveyor path to guide and support the movement of the conveyor chain. They help maintain proper alignment and prevent the chain from derailing or deviating from its intended path.
  • Tensioners: Tensioners are devices used to maintain the proper tension in the conveyor chain. They ensure that the chain remains taut and engaged with the sprockets, preventing slack or excessive sagging. Tensioners can be adjusted to accommodate variations in chain length and to compensate for wear over time.
  • Attachments and Accessories: Depending on the specific application, conveyor chains may include various attachments and accessories. These can include cleats, flights, buckets, or other devices that aid in the movement and handling of specific types of materials. These attachments are typically secured to the chain links at specific intervals or locations.

The combination of these components creates a robust and reliable conveyor chain system capable of efficiently transporting materials in a wide range of industrial applications.

China Standard a/B Series Roller Chain Steel Stainless Transmission Conveyor Leaf Chain and Attachemnt  China Standard a/B Series Roller Chain Steel Stainless Transmission Conveyor Leaf Chain and Attachemnt
editor by CX 2023-10-27