Product Description
Company Profile
ISO ALB 300 Turn Belt Conveyor for Factory Automation, Automobile Components, Electronics Assembly line
Product Description
Order Information
Conveyor Parameter
Overall dimension:Length, width and height of the conveying object;
Single weight of conveyor:Unit KG;
Outer packing of conveyor:Canned, Carton, Wooden, Bag, Pallet, Bulk, etc;
Types of conveying materials:Chemical raw, high temperature , frozen , toxic , corrosive , etc.
work environment
Temperature, humidity, contamination
Conveyor type
Belt, drum, chain, telescope, lift
Conveying direction
Line, Turn, Climb, Curve, Vertical Lift
Conveyor dimension
Straight line: length, effective width, machine height
Turn: Turn inside diameter, effective width, machine height
Conveyor body material
stainless steel, aluminium profile, carbon steel spraying or plastic spraying (color according to customer requirements)
Driving device
Motor, Frequency Converter and Electrical Components: Domestic or Imported Brands, Power and Parameters
Speed: Constant , Variable
Subject selection
Roller: Length, Diameter, Installation Method, Cylinder Material, Shaft Material, Surface Treatment
Belt/Tooth Belt: Ordinary, Food, Anti-static, Radiation, Oil, Climbing, Skirt, Barrier
Chain board: width, pitch; Material: engineering plastics, stainless steel; Function: food grade, ordinary grade
Plastic steel mesh belt: width, pitch, opening rate, whether to add side or skirt
Stainless steel mesh belt: length, width, wire diameter, spacing
Power Supply
Single-phase 200V, single-phase 110V, three-phase 220V, three-phase 380V
Product Description
Raw Material
We have strict selection channels to ensure that the quality of material meet customer’s standard.
Production management system
In the whole production process, we have strict management of processing sequence, machinery and workers.
Packaging system
Our packaging, storage and transportation are managed to avoid damaging the goods.
QC system
We have special quality inspectors. They are inspected and sampled during and after the production process.
Warehousing system
We have strict factory inspection and after-sales system.
| Roller small end diameter(D) | Φ 50 |
| Inner radius(R) | 900 |
| Turning angle(θ) | 45°,60°,90° |
| Belt width | 500,600,700,800,900,1000,1500 |
| High(H) | 500-1500 |
| Belt material | PVC,PU |
| Rack material | Folded plate |
| Leg profile | Square tube60*40*2 |
| Speed | Max 30m/min |
| Motor power | 0.37kw,0.55kw,0.75kw,1.5kw,2.2kw |
Our Advantages
OUR FACTORY & PRODUCTIONS
Welcome to cooperate with us .
We would like to provide our distributor/agent promotion price as reward for the cooperation.
If you are interested, please do not hesitate to contact us! /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Structure: | Roller Conveyor |
|---|---|
| Material: | Stainless Steel |
| Material Feature: | Oil Resistant, Heat Resistant, Fire Resistant |
| Application: | Chemical Industry, Grain Transport, Mining Transport, Power Plant |
| Condition: | New |
| Roller Material: | Galvanized Carbon Steel,Stainless Steel, Aluminum |
| Customization: |
Available
| Customized Request |
|---|
wheel sprocket System in Heavy Machinery and Industrial Equipment
Yes, a wheel sprocket system is commonly used in heavy machinery and industrial equipment for power transmission and motion control. The wheel sprocket configuration is a versatile and efficient method of transmitting rotational force between two shafts.
In heavy machinery and industrial equipment, the wheel is typically attached to one shaft, while the sprocket is mounted on another shaft. A chain or a toothed belt is wrapped around the wheel sprocket, connecting them. When the wheel is rotated, the chain or belt engages with the sprocket, causing the sprocket and the connected shaft to rotate as well. This mechanism allows the transfer of power from one shaft to the other, enabling various components and parts of the machinery to function.
Common applications of the wheel sprocket system in heavy machinery include:
- Construction Machinery: Wheel loaders, excavators, cranes, and other construction equipment often use wheel sprocket systems for efficient power transmission in various moving parts.
- Material Handling Equipment: Forklifts, conveyor systems, and other material handling equipment utilize wheel sprocket configurations to move goods and materials smoothly and reliably.
- Mining Equipment: Mining machinery, such as drilling rigs and conveyors, often incorporate wheel sprocket assemblies for power transmission in challenging environments.
- Agricultural Machinery: Tractors, combines, and other agricultural equipment use wheel sprocket systems to drive various components like wheels and harvesting mechanisms.
- Industrial Robotics: Robots and automated systems in manufacturing often utilize wheel sprocket setups for precise motion control and efficient power transmission.
One of the key advantages of the wheel sprocket system is its ability to handle heavy loads and transmit power over long distances. It is a reliable and cost-effective method of power transmission in various industrial settings. However, proper maintenance and alignment are crucial to ensuring the system’s optimal performance and longevity.
Overall, the wheel sprocket system is a widely used and effective power transmission solution in heavy machinery and industrial equipment, offering versatility and efficiency in a range of applications.
Noise and Vibration in wheel sprocket Configurations
In a wheel sprocket configuration, noise and vibration levels can vary depending on several factors:
- Quality of Components: The quality of the wheel sprocket components can significantly impact noise and vibration. Well-manufactured and precisely engineered components tend to produce less noise and vibration.
- Lubrication: Proper lubrication of the sprocket teeth and chain or belt can reduce friction, which in turn helps minimize noise and vibration.
- Alignment: Correct alignment between the wheel sprocket is crucial. Misalignment can lead to increased noise and vibration as the components may not mesh smoothly.
- Tension: Maintaining the appropriate tension in the chain or belt is essential. Insufficient tension can cause the chain to slap against the sprocket teeth, resulting in noise and vibration.
- Speed and Load: Higher speeds and heavier loads can lead to increased noise and vibration levels in the system.
- Wear and Damage: Worn-out or damaged components can create irregularities in motion, leading to increased noise and vibration.
To reduce noise and vibration in a wheel sprocket setup:
- Use high-quality components from reputable suppliers.
- Ensure proper lubrication with appropriate lubricants.
- Regularly inspect and maintain the system to detect any misalignment, wear, or damage.
- Follow manufacturer guidelines for chain or belt tensioning.
- Consider using vibration-damping materials or mounting methods if necessary.
Minimizing noise and vibration not only improves the comfort and safety of the machinery but also extends the life of the components by reducing wear and fatigue.
How Does a wheel sprocket Assembly Transmit Power?
In a mechanical system, a wheel sprocket assembly is a common method of power transmission, especially when dealing with rotary motion. The process of power transmission through a wheel sprocket assembly involves the following steps:
1. Input Source:
The power transmission process begins with an input source, such as an electric motor, engine, or human effort. This input source provides the necessary rotational force (torque) to drive the system.
2. Wheel Rotation:
When the input source applies rotational force to the wheel, it starts to rotate around its central axis (axle). The wheel’s design and material properties are essential to withstand the applied load and facilitate smooth rotation.
3. Sprocket Engagement:
Connected to the wheel is a sprocket, which is a toothed wheel designed to mesh with a chain. When the wheel rotates, the sprocket’s teeth engage with the links of the chain, creating a positive drive system.
4. Chain Rotation:
As the sprocket engages with the chain, the rotational force is transferred to the chain. The chain’s links transmit this rotational motion along its length.
5. Driven Component:
The other end of the chain is connected to a driven sprocket, which is attached to the component that needs to be powered or driven. This driven component could be another wheel, a conveyor belt, or any other machine part requiring motion.
6. Power Transmission:
As the chain rotates due to the engagement with the sprocket, the driven sprocket also starts to rotate, transferring the rotational force to the driven component. The driven component now receives the power and motion from the input source via the wheel, sprocket, and chain assembly.
7. Output and Operation:
The driven component performs its intended function based on the received power and motion. For example, in a bicycle, the chain and sprocket assembly transmit power from the rider’s pedaling to the rear wheel, propelling the bicycle forward.
Overall, a wheel sprocket assembly is an efficient and reliable method of power transmission, commonly used in various applications, including bicycles, motorcycles, industrial machinery, and conveyor systems.
editor by Dream 2024-05-09