Stainless Steel Transmission Chain, Stainless Steel Roller Chain, Stainless Steel Conveyor chain, Stainless steel chains for bottle conveyor line which is used on bottle filling conveyor lines, other standard ss chain or special ss chain(SS304 chains, SS316 chains, SS316L chains, SS conveyor chains, SS304 conveyor chain, SS316 conveyor chain) all available
We have special technolodgy to arrange more hardness on SS chains plate as per the request of famous chains factory in Europe
We have many OEM chain factory customer from Europe and our stainless steel chain quality is similar to the A quality in the world
We are professional supplier of chains:
1. Bicycle chain: 408, 410, 415
2. Motorcycle chain: 04C, 25H, 06C, T3, 270H, 415H, 420, 420L, 425, 428, 428H, 520,
3. ASA roller chain: 35, 40, 41, 50, 60, 60H, 80, 80H, 100, 120, 140, 160, 200, 240
4. Chain (British standard): 05-B, 06-B, 08-B, 10-B, 12-B, 16-B, 20-B, 24-B, 28-B,
32-B, 40-B (Catalog)
5. Large pitch chains: 100, 100H, 120, 120H, 140, 140H, 160, 160H, 180, 200, 240
6. Extend-pitch precision roller chain: 208A, 208B, 210A, 210B, 212A, 212B, 216A,
216B, 220A, 220B, 224A, 224B, 228B, 232B
7. Roller chains for beer buntline conveyor: CK-70S, CK-100S, CK-100SA, CK-100SC, CK-133XA,
CK-140X, CK-140XA, CK-150X, CK-150S, CK-154X, CK-155X, CK-155XA, CK-160X, CK-160XA, CK-160XB, CK-160XC, CK-165X, CK-165XA, CK-169, CK-180X, CK-180XA, CK-200S, CW-102, CW-127
8. Implement roller chains for conveyors: 81X, 81XH, 81XHH, CA550, CA555, CA620
9. Multi strand sizes available; Up to 5 strands, for select size standard attachment
10. Chains from 04b~16b are with spring clips, others are riveted; Cottered design
Is available for size 80 to 240
11. Stainless steel chain and nickel plated chains is available; Special design also available
(i. E., oven conveyor) and we can produce as per material your requests, usually stainless steel chain material is SS304, if you need SS316 or SS316L etc. It is available too
Our conveyor chains are as following items:
Short pitch, double pitch conveyor roller chain:
1)European standard short pitch roller conveyor accessories: A1 – WSK2
2)European Standard Short Pitch Hollow Pin Chains and accessories: 08BHP – 12BHP
3)European standard short pitch bending roller conveyor: 08BSB, 10BSB, 4)12BSB
4)European standard double pitch conveyor chain: C208B – C232BL
5)American Standard Short pitch conveyor chain attachments: A1 – WSK2
6)American Standard Short Pitch Hollow Pin Chain: 40HP – 80HP
7)American Standard short pitch bending roller conveyor: 35SB – 80SB
8)American Standard Double pitch conveyor roller: C2040 – C2162H
9)American Standard Double pitch conveyor roller attachment: A1 – WSK2
10)American standard double pitch hollow pin chain: C2040HP – C2082HP
11)American Standard Double pitch conveyor roller scoliosis: C2040SB, C2050SB, C2060SB
12)American standard double pitch conveyor roller Plastic Large: C2042D – C2102HD
13)American Standard controllable beat conveyor (speed chain): C2030VR – C2080VR
14)American Standard side-mounted conveyor roller (short pitch double pitch): 40PSR – 100PSR; C2040PSR – C2100PRS
15)American Standard overhead plastic roller conveyor chains (short pitch, double pitch and long pitch): 40TR – 100TR; C2040TR – C2100TR
|Feature:||Fire Resistant, Oil Resistant, Heat Resistant|
|Usage:||Transmission Chain, Drag Chain, Dedicated Specia|
How does the length of a transmission chain impact its performance?
The length of a transmission chain plays a significant role in its overall performance and functionality. Here’s a detailed explanation:
1. Proper Fit and Function: The length of a transmission chain needs to be carefully selected to ensure it fits and functions correctly within the designated system. If the chain is too short, it may not be able to reach the sprockets or pulleys properly, leading to ineffective power transmission and potential chain slippage. On the other hand, if the chain is too long, it may sag, create excessive tension, or cause interference with other components, resulting in inefficient operation or premature wear.
2. Tension and Slack Control: The length of a transmission chain affects the tension and slack control within the system. A properly tensioned chain ensures optimal power transmission, reduces backlash, and minimizes the risk of chain derailment. The chain length must be adjusted to maintain the appropriate tension throughout the operating cycle, considering factors such as load variations, temperature changes, and system dynamics.
3. Flexibility and Bending Requirements: The length of a transmission chain influences its flexibility and bending characteristics. Longer chains may have a higher degree of flexibility, allowing them to navigate complex paths or accommodate greater distances between sprockets or pulleys. However, excessive chain length can lead to excessive bending, resulting in increased friction, wear, and potential premature failure.
4. Sprocket Interactions: The length of the transmission chain affects its interaction with the sprockets or pulleys. The number of chain links determines the engagement between the chain and the teeth of the sprockets. Proper length ensures smooth engagement, minimal tooth wear, and efficient power transfer. Incorrect chain length can cause misalignment, increased noise, and accelerated sprocket or chain wear.
5. System Efficiency and Performance: The length of a transmission chain directly impacts the overall efficiency and performance of the system. A properly sized chain ensures optimum power transmission, minimal energy losses, and reliable operation. By selecting the appropriate chain length, system designers can maximize efficiency, minimize wear, and optimize the lifespan of both the chain and related components.
When selecting the length of a transmission chain, it’s crucial to consider the specific requirements of the application, including the distance between sprockets or pulleys, the desired tension, and the expected load conditions. Consulting with chain manufacturers or industry experts can provide valuable guidance in determining the appropriate chain length for optimal performance and longevity.
What are the advantages of using a flame-retardant transmission chain?
Flame-retardant transmission chains offer specific benefits in certain applications where fire safety is a concern. Here’s a detailed answer to the question:
1. Fire Protection: The primary advantage of using a flame-retardant transmission chain is enhanced fire protection. These chains are designed with materials and coatings that have high resistance to ignition and flame spread. In the event of a fire, they help to minimize the risk of the chain contributing to the spread of flames.
2. Safety: Flame-retardant transmission chains contribute to overall safety in environments where fire hazards are present. By reducing the flammability of the chain, they help prevent the chain from igniting or sustaining a fire, protecting personnel and property.
3. Compliance with Fire Regulations: In industries or applications where fire safety regulations are stringent, using flame-retardant transmission chains ensures compliance with these requirements. It helps to meet the necessary standards and regulations for fire prevention and protection.
4. Extended Escape Time: In situations where personnel may need to evacuate quickly during a fire, flame-retardant transmission chains can provide valuable additional time for safe evacuation. By resisting ignition and flame propagation, they help maintain structural integrity and delay the spread of fire.
5. Property Protection: Flame-retardant transmission chains help protect valuable equipment, machinery, and assets from fire damage. By reducing the risk of the chain catching fire, they minimize the potential for equipment failure and subsequent loss or damage.
It’s important to note that flame-retardant transmission chains may have specific design considerations and limitations. They are typically used in applications where fire safety is critical, such as in transportation systems, aerospace, mining, and other industries where the risk of fire is high. Selecting the appropriate flame-retardant chain requires considering the specific requirements of the application and ensuring compliance with relevant fire safety standards and regulations.
What are the common causes of failure in transmission chains?
Transmission chains are subject to various factors that can contribute to their failure over time. Here’s a detailed explanation:
1. Insufficient Lubrication: Inadequate or improper lubrication is one of the leading causes of chain failure. Insufficient lubrication can lead to increased friction, heat generation, and accelerated wear between the chain’s components, such as pins, bushings, and rollers.
2. Contamination: Contaminants like dirt, dust, debris, and moisture can enter the chain system, affecting its performance and causing accelerated wear. Contamination can hinder proper lubrication, increase friction, and cause corrosion, leading to chain failure.
3. Overloading: Applying excessive loads beyond the chain’s rated capacity can lead to overloading, which causes stress and deformation of the chain’s components. Overloading can result in chain elongation, accelerated wear, and ultimately, chain failure.
4. Misalignment: Improper alignment of the chain and sprockets can cause uneven distribution of forces, leading to localized wear and increased stress on certain areas of the chain. Misalignment can result from incorrect installation or wear and tear of sprockets, leading to premature chain failure.
5. Fatigue: Repeated cyclic loading and stress can cause fatigue in the chain, leading to cracks, fractures, and ultimately, chain failure. Fatigue failure is more likely to occur when the chain is subjected to high-speed or high-frequency applications.
6. Corrosion: Exposure to corrosive environments, such as high humidity, chemicals, or extreme temperatures, can cause corrosion on the chain’s components. Corrosion weakens the chain’s structural integrity, leading to premature failure.
7. Poor Maintenance: Inadequate maintenance practices, such as infrequent inspections, lack of lubrication, and neglecting to address potential issues, can contribute to chain failure. Regular maintenance, including lubrication, cleaning, and proper tensioning, is essential for the longevity and reliable performance of transmission chains.
It is important to address these factors to prevent chain failure. Proper lubrication, regular inspections, cleaning, and alignment checks are essential maintenance practices. Selecting the right chain for the application, following manufacturer guidelines, and adhering to industry standards can also help mitigate the risk of failure and ensure the optimal performance and longevity of transmission chains.
editor by CX 2023-07-25