Product Description
Product Description
UH-5075-S series conveyor chains have excellent extensity and capable of making any turn on both horizontal planes and vertical planes. Based on the actual needs of various process flows, the conveyor has been deliberately designed to run across relatively long routes and abstruction objects to transmit the work pieces along the scheduled route all the way to their destinations. In this way, UH-5075 can integrae all separate production steps into an automatic production line, which has greatly improved efficiency and product quality level and strengthen the management as well.
Features:
Overhead trolley conveyors are used in wide range of applications, including: manufacturing and assembly, warehousing and distribution of the goods.
Overhead chain conveyors system can prove to be cost effective as they reduce the use of carriers and allows large volumes to move rapidly through a process.
Techncial Date
Kasin No. |
UH-5075-S Standard chain |
Heavy-duty chain
|
UH-5075-HV Heavy-duty chain |
UH-5075-HA Heavy-duty chain |
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Suspension Spacing (mm) |
150+(150× N) |
150+(150 × N) |
150+(150 × N) |
150+(150 × N) |
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Chain’s Weight (kg/m) |
4.2 |
4.58 |
4.83 |
5.3 |
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Single-span Weight (≤kg) |
35 |
40 |
45 |
50 |
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Chain’s Allowed Pull Force (≤kgf) |
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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. What are the benefits of using stainless steel conveyor chains?Stainless steel conveyor chains offer several advantages over other types of chains. Here are some of the key benefits: 1. Corrosion Resistance: Stainless steel is highly resistant to corrosion, making it suitable for applications in harsh environments or industries where frequent washdowns or exposure to moisture is required. It does not rust or corrode like other metals, ensuring a longer lifespan and reliable performance. 2. Strength and Durability: Stainless steel chains are known for their high strength and durability. They can withstand heavy loads, high temperatures, and abrasive materials without deformation or breakage. This makes them ideal for heavy-duty applications where reliability and longevity are crucial. 3. Hygienic and Sanitary: Stainless steel is a non-porous material that is easy to clean and maintain. It is resistant to bacteria, mold, and other contaminants, making it suitable for industries with strict hygiene requirements such as food processing, pharmaceuticals, and medical devices. Stainless steel chains can be thoroughly cleaned and sanitized, reducing the risk of product contamination. 4. Temperature Resistance: Stainless steel chains can withstand a wide range of temperatures, both high and low. They exhibit excellent heat resistance, allowing them to maintain their strength and performance even in extreme temperature conditions. 5. Aesthetic Appeal: Stainless steel chains have a sleek and polished appearance, adding a professional and aesthetic touch to the conveyor system. They are commonly used in industries where visual appeal and brand representation are important, such as retail or luxury goods. 6. Chemical Resistance: Stainless steel is resistant to various chemicals, including acids, alkalis, and solvents. This makes it suitable for applications where contact with corrosive substances is likely. 7. Compatibility with High-Speed Applications: Stainless steel chains can withstand high-speed operations without compromising their structural integrity or performance. They maintain their stability and accuracy even at elevated speeds. Overall, stainless steel conveyor chains offer corrosion resistance, strength, durability, hygienic properties, temperature resistance, aesthetic appeal, chemical resistance, and compatibility with high-speed applications. These benefits make them a preferred choice in industries such as food and beverage, pharmaceuticals, automotive, and manufacturing, where reliability, cleanliness, and performance are essential. What are the different types of conveyor chains?There are several types of conveyor chains available, each designed to meet specific application requirements. Here are some common types of conveyor chains:
These are just a few examples of conveyor chain types, and there are many other variations available depending on specific application requirements. The selection of the appropriate conveyor chain type depends on factors such as load capacity, speed, environment, and desired functionality.
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