Product Description
Item | Standard Transmission Roller Chains |
Model | Series A, Series B, Heavy Duty |
Row | Simplex/Duplex/Triplex |
Application | Transmission/conveyor/drive |
Surface Treatment | Self-color/Sand-blasted/Shot-peening |
Package | Poly bag, then box, finally poly-wooden case |
A Series | 03C,04C-1,06C-1,085-1,08A-1,10A-1,12A-1,16A-1,20A-1,24A-1,28A-1,32A-1,36A-1,40A-1,48A-1. 15,25-1,35-1,41-1,40-1,50-1,60-1,80-1,100-1,120-1,140-1,160-1,180-1,200-1,240-1. |
04C-2,06C-2,085-2,08A-2,10A-2,12A-2,16A-2,20A-2,24A-2,28A-2,32A-2,36A-2,40A-2,48A-2. 15,25-2,35-2,41-2,40-2,50-2,60-2,80-2,100-2,120-2,140-2,160-2,180-2,200-2,240-2. |
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04C-3,06C-3,085-3,08A-3,10A-3,12A-3,16A-3,20A-3,24A-3,28A-3,32A-3,36A-3,40A-3,48A-3. 15,25-3,35-3,41-3,40-3,50-3,60-3,80-3,100-3,120-3,140-3,160-3,180-3,200-3,240-3. |
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B Series | 05B-1,06B-1,08B-1,10B-1,12B-1,16B-1,20B-1,24B-1,28B-1,32B-1,40B-1,48B-1,56B-1,64B-1,72B-1. |
05B-2,06B-2,08B-2,10B-2,12B-2,16B-2,20B-2,24B-2,28B-2,32B-2,40B-2,48B-2,56B-2,64B-2,72B-2. | |
05B-3,06B-3,08B-3,10B-3,12B-3,16B-3,20B-3,24B-3,28B-3,32B-3,40B-3,48B-3,56B-3,64B-3,72B-3. | |
Heavy Duty Type | 35H-1,40H-1,50H-1,60H-1,80H-1,100H-1,120H-1,140H-1,160H-1,180H-1,200H-1,240H-1. |
35H-2,40H-2,50H-2,60H-2,80H-2,100H-2,120H-2,140H-2,160H-2,180H-2,200H-2,240H-2. | |
35H-3,40H-3,50H-3,60H-3,80H-3,100H-3,120H-3,140H-3,160H-3,180H-3,200H-3,240H-3. |
Shipping Cost:
Estimated freight per unit. |
To be negotiated |
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Material: | Stainless Steel |
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Structure: | Hollow Chain |
Surface Treatment: | Polishing |
Samples: |
US$ 5/Meter
1 Meter(Min.Order) | Order Sample Chain Roller
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Customization: |
Available
| Customized Request |
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Can a drive chain be used in a conveyor oven or industrial baking application?
Yes, a drive chain can be used in a conveyor oven or industrial baking application where reliable and efficient power transmission is required. Here is a detailed explanation:
In conveyor ovens and industrial baking applications, a conveyor system is used to transport products through the baking or cooking process. Drive chains offer several advantages in these applications:
- High Temperature Resistance: Conveyor ovens and industrial baking processes often involve high temperatures. Drive chains can be selected or specially designed with materials that can withstand the elevated temperatures encountered in these applications. Heat-resistant materials, such as stainless steel or special alloys, ensure reliable chain operation and prevent chain failure due to excessive heat.
- Smooth and Continuous Operation: Drive chains provide smooth and continuous power transmission in conveyor systems, ensuring consistent movement of products through the baking or cooking process. The interlocking design of the chain and sprockets allows for precise product positioning and control.
- Load Capacity: Conveyor ovens and industrial baking applications may involve heavy loads and products with varying weights. Drive chains are designed to handle high load capacities, ensuring reliable power transmission and efficient movement of products along the conveyor system.
- Durability and Wear Resistance: Drive chains used in conveyor ovens and industrial baking applications are built to withstand the demanding conditions of continuous operation. They are designed with materials and coatings that provide durability, wear resistance, and protection against corrosion or food contamination.
- Easy Maintenance: Conveyor systems require regular maintenance to ensure optimal performance and prevent downtime. Drive chains offer ease of maintenance, with features such as removable links or easy access to chain components for inspection, lubrication, and tension adjustment. This facilitates quick and efficient maintenance routines, minimizing production interruptions.
When selecting a drive chain for a conveyor oven or industrial baking application, factors such as temperature resistance, load capacity, speed requirements, and compatibility with food or baking regulations should be considered.
Regular inspection, lubrication, and tension adjustment are crucial for maintaining the performance and longevity of the drive chain in conveyor oven or industrial baking applications. These maintenance practices help prevent chain elongation, excessive wear, and potential chain failure.
By utilizing drive chains in conveyor ovens and industrial baking applications, operators can benefit from high temperature resistance, smooth operation, high load capacity, durability, and easy maintenance, contributing to efficient and reliable baking processes and product throughput.
What are the benefits of using a corrosion-resistant drive chain?
Using a corrosion-resistant drive chain offers several benefits compared to standard chains when operating in corrosive environments. Here is a detailed explanation:
Corrosion-resistant drive chains are specifically designed and constructed to withstand the effects of corrosion, which can occur due to exposure to moisture, chemicals, saltwater, or other corrosive substances. The benefits of using such chains include:
- Enhanced Durability: Corrosion-resistant drive chains are made from materials that have superior corrosion resistance, such as stainless steel or special coatings. These materials protect the chain from rust, oxidation, and other forms of corrosion, ensuring its durability and extending its service life.
- Reliable Performance: In corrosive environments, standard chains can deteriorate quickly, leading to reduced performance, chain elongation, or even chain failure. Corrosion-resistant chains, on the other hand, maintain their structural integrity, allowing for reliable power transmission and consistent performance even in harsh conditions.
- Reduced Downtime and Maintenance Costs: Using corrosion-resistant chains can reduce downtime and maintenance costs associated with chain replacement or repair. These chains are less prone to corrosion-related damage, reducing the frequency of maintenance tasks and the need for premature chain replacements.
- Improved Safety: Corrosion-resistant chains provide increased safety in environments where standard chains might fail due to corrosion-related weaknesses. The risk of chain failure, sudden breakage, or accidents caused by chain-related issues is minimized, ensuring safer operation for both personnel and equipment.
- Compatibility with Corrosive Environments: Corrosion-resistant chains are designed to withstand exposure to various corrosive substances and environments, including marine, chemical, or industrial settings. They are engineered to resist the damaging effects of moisture, chemicals, acids, or saltwater, making them suitable for applications where standard chains would be quickly compromised.
- Application Versatility: Corrosion-resistant chains can be utilized in a wide range of industries and applications that require resistance to corrosion. These can include marine equipment, food processing machinery, chemical processing plants, wastewater treatment facilities, or outdoor equipment exposed to the elements.
It is important to note that while corrosion-resistant chains offer superior protection against corrosion, regular inspection and maintenance are still necessary to ensure optimal performance. Routine cleaning, lubrication, and monitoring for any signs of corrosion or damage are essential for maximizing the lifespan and performance of the chain.
By using corrosion-resistant drive chains, operators can benefit from increased durability, reliable performance, reduced maintenance costs, improved safety, and the ability to operate in corrosive environments without compromising the chain’s integrity.
What are the load capacities of different drive chains?
The load capacity of a drive chain depends on various factors, including the type of chain, its size, design, and material. Here is a general overview of the load capacities for different drive chains:
- 1. Roller Chains: Roller chains are commonly used and have a wide range of load capacities. The load capacity can vary based on the chain’s pitch size, roller diameter, and the material used. Standard roller chains can handle loads ranging from a few hundred pounds to several thousand pounds.
- 2. Double Pitch Chains: Double pitch chains typically have a larger pitch, resulting in increased spacing between the chain links. They are often used in applications with lighter loads and slower speeds compared to standard roller chains.
- 3. Leaf Chains: Leaf chains are known for their high tensile strength and are commonly used in heavy-duty applications that require lifting or load-bearing. They have excellent load-carrying capabilities and can handle loads ranging from several thousand pounds to tens of thousands of pounds.
- 4. Silent Chains: Silent chains, also known as inverted-tooth chains, are used in high-speed applications that require high-load capacity and precise synchronization. They have robust load-carrying capabilities and can handle significant loads while operating smoothly.
- 5. Engineered Chains: Engineered chains, such as drive chains, plastic chains, or self-lubricating chains, may have varying load capacities depending on their design and intended applications. These chains are often designed to meet specific load requirements in specialized industries.
It’s important to note that load capacities can vary within each chain type based on specific configurations and manufacturer specifications. When selecting a drive chain for a particular application, it is crucial to consider the expected load requirements and consult the manufacturer’s guidelines and specifications to ensure that the chosen chain is suitable for the intended load capacity.
editor by CX 2023-07-19