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 |
|||||||||||||
Suspension Spacing (mm) |
150+(150× N) |
150+(150 × N) |
150+(150 × N) |
150+(150 × N) |
|||||||||||||
Chain’s Weight (kg/m) |
4.2 |
4.58 |
4.83 |
5.3 |
|||||||||||||
Single-span Weight (≤kg) |
35 |
40 |
45 |
50 |
|||||||||||||
Chain’s Allowed Pull Force (≤kgf) |
3/8822 0571 -57152031 Fax: 86~/8822 0571 -57152030
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 advantages of using a plastic conveyor chain?Plastic conveyor chains offer several advantages over traditional metal chains. Here are some of the key advantages: 1. Corrosion Resistance: Plastic chains are highly resistant to corrosion, making them ideal for applications in humid or corrosive environments. They do not rust or deteriorate when exposed to moisture or chemicals. 2. Lightweight: Plastic chains are significantly lighter than metal chains, making them easier to handle and install. Their lightweight nature reduces the overall weight of the conveyor system and can result in energy savings during operation. 3. Low Noise Operation: Plastic chains generate less noise compared to metal chains, leading to a quieter working environment. This can be particularly beneficial in industries where noise reduction is important, such as food processing or packaging. 4. Reduced Friction and Wear: Plastic chains have self-lubricating properties, which reduce friction and wear. This results in lower maintenance requirements and longer chain life. The smooth surface of plastic chains also minimizes the risk of product damage during transportation. 5. Flexibility and Modularity: Plastic chains can be easily customized and designed to fit specific conveyor system requirements. They offer flexibility in terms of length, width, and configuration. Additionally, plastic chains are often modular, allowing for easy replacement of damaged or worn-out sections without replacing the entire chain. 6. Cost-Effective: Plastic conveyor chains are generally more cost-effective compared to metal chains. They are often less expensive to manufacture and offer a longer lifespan with minimal maintenance requirements, resulting in lower overall costs. 7. Chemical Resistance: Plastic chains are resistant to a wide range of chemicals, making them suitable for applications where exposure to aggressive substances is a concern. They can withstand contact with oils, acids, alkalis, and various cleaning agents. Overall, the advantages of using a plastic conveyor chain include corrosion resistance, lightweight design, low noise operation, reduced friction and wear, flexibility, cost-effectiveness, and chemical resistance. These benefits make plastic chains a popular choice in various industries, including food processing, packaging, pharmaceuticals, and logistics. What is the load capacity of a conveyor chain?The load capacity of a conveyor chain depends on various factors, including the chain design, material, size, and the operating conditions. It is crucial to consider the specific application requirements when determining the load capacity of a conveyor chain. Here are some key factors to consider:
The load capacity of a conveyor chain is typically specified in terms of its maximum allowable working load or breaking strength. These values are determined through rigorous testing and engineering calculations. To ensure safe and efficient operation, it is important to select a conveyor chain that has a load capacity suitable for the intended application. Exceeding the recommended load capacity can lead to premature wear, chain failure, and potential safety hazards.
|