Product Description
PC200 20y-27-11581 Excavator Parts Sprocket Wheel Chain Sprocket
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Material |
40SiMnTi |
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Finish |
Smooth |
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Colors |
Black or yellow |
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Technique |
Forging casting |
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Surface Hardness |
HRC52-58 |
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Warranty time |
2000 hour |
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Certification |
ISO9001-9002 |
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FOB Price |
FOB HangZhou USD 200-2000/Piece |
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MOQ |
2 piece |
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Delivery Time |
Within 30 days after contract established |
| For ktsu | ||||||||
| PC20-7 | PC30 | PC30-3 | PC30-5 | PC30-6 | PC40-7 | PC45 | PC45-2 | PC55 |
| PC120-6 | PC130 | PC130-7 | PC200 | PC200-1 | PC200-3 | PC200-5 | PC200-6 | PC200-7 |
| PC200-8 | PC210-6 | PC220-1 | PC220-3 | PC220-6 | PC220-7 | PC220-8 | PC270-7 | PC202B |
| PC220LC-6 | PC220LC-8 | PC240 | PC300 | PC300-3 | PC300-5 | PC300-6 | PC300-7 | PC300-7K |
| PC300LC-7 | PC350-6/7 | PC400 | PC400-3 | PC400-5 | PC400-6 | PC400lc-7 | PC450-6 | PC450-7 |
| PC600 | PC650 | PC750 | PC800 | PC1100 | PC1250 | PC2000 | ||
| D20 | D31 | D50 | D60 | D61 | D61PX | D65A | D65P | D64P-12 |
| D80 | D85 | D155 | D275 | D355 | ||||
| For HITACHI | ||||||||
| EX40-1 | EX40-2 | EX55 | EX60 | EX60-2 | EX60-3 | EX60-5 | EX70 | EX75 |
| EX100 | EX110 | EX120 | EX120-1 | EX120-2 | EX120-3 | EX120-5 | EX130-1 | EX200-1 |
| EX200-2 | EX200-3 | EX200-5 | EX220-3 | EX220-5 | EX270 | EX300 | EX300-1 | EX300-2 |
| EX300-3 | EX300-5 | EX300A | EX330 | EX370 | EX400-1 | EX400-2 | EX400-3 | EX400-5 |
| EX450 | ZAX30 | ZAX55 | ZAX200 | ZAX200-2 | ZAX330 | ZAX450-1 | ZAX450-3 | ZAX450-5 |
| ZX110 | ZX120 | ZX200 | ZX200 | ZX200-1 | ZX200-3 | ZX200-5g | ZX200LC-3 | ZX210 |
| ZX210-3 | ZX210-3 | ZX210-5 | ZX225 | ZX240 | ZX250 | ZX270 | ZX30 | ZX330 |
| ZX330 | ZX350 | ZX330C | ZX450 | ZX50 | ||||
| For CAT | ||||||||
| E200B | E200-5 | E320D | E215 | E320DL | E324D | E324DL | E329DL | E300L |
| E320S | E320 | E320DL | E240 | E120-1 | E311 | E312B | E320BL | E345 |
| E324 | E140 | E300B | E330C | E120 | E70 | E322C | E322B | E325 |
| E325L | E330 | E450 | CAT225 | CAT312B | CAT315 | CAT320 | CAT320C | CAT320BL |
| CAT330 | CAT322 | CAT245 | CAT325 | CAT320L | CAT973 | |||
| D3 | D3C | D4 | D4D | D4H | D5M | D5H | D6 | D6D |
| D6M | D6R | D6T | D7 | D7H | D7R | D8 | D8N | D8R |
| D9R | D9N | D9G | D10 | |||||
| For Sumitomo | ||||||||
| SH120 | SH120-3 | SH200 | SH210-5 | SH200 | SH220-3 | SH220-5/7 | SH290-3 | SH350-5/7 |
| SH220 | SH280 | SH290-7 | SH260 | SH300 | SH300-3 | SH300-5 | SH350 | SH60 |
| SH430 | ||||||||
| For KOBELCO | ||||||||
| SK120-6 | SK120-5 | SK210-8 | SK210LC-8 | SK220 | SK220-1 | SK220-3 | SK220-5/6 | SK200 |
| SK200 | SK200 | SK200-3 | SK200-6 | SK200-8 | SK200-5/6 | SK60 | SK290 | SK100 |
| SK230 | SK250 | SK250-8 | SK260LC-8 | SK300 | SK300-2 | SK300-4 | SK310 | SK320 |
| SK330-8 | SK330 | SK350LC-8 | SK235SR | SK450 | SK480 | SK30-6 | ||
| For DAEWOO | ||||||||
| DH200 | DH220-3 | DH220 | DH220S | DH280-2 | DH280-3 | DH55 | DH258 | DH130 |
| DH370 | DH80 | DH500 | DH450 | /DH225 | ||||
| For HYUNDAI | ||||||||
| R60-5 | R60-7 | R60-7 | R80-7 | R200 | R200-3 | R210 | R210 | R210-9 |
| R210LC | R210LC-7 | R225 | R225-3 | R225-7 | R250 | R250-7 | R290 | R290LC |
| R290LC-7 | R320 | R360 | R954 | |||||
| For KATO | ||||||||
| HD512 | HD1430 | HD 512III | HD 820III | HD820R | HD1430III | HD700VII | HD 1250VII | HD250SE |
| HD400SE | HD550SE | HD1880 | ||||||
| For DOOSAN | ||||||||
| DX225 | DX225LCA | DX258 | DX300 | DX300LCA | DX420 | DX430 | ||
| For VOLVO | ||||||||
| EC160C | EC160D | EC180B | EC180C | EC180D | EC210 | EC210 | EC210B | EC240B |
| EC290 | EC290B | EC240 | EC55 | EC360 | EC360B | EC380D | EC460 | EC460B |
| EC460C | EC700 | EC140 | EC140B | EC160B | ||||
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| After-sales Service: | Online Service |
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| Warranty: | 12 Momths |
| Type: | Undercarriage Parts |
| Customization: |
Available
| Customized Request |
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.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Safety Precautions for Working with wheel sprocket Systems
Working with wheel sprocket systems involves potential hazards, and it’s essential to follow safety precautions to prevent accidents and injuries. Here are some safety measures to consider:
- Proper Training: Ensure that anyone working with the wheel sprocket systems is adequately trained in their operation, maintenance, and safety procedures.
- Use Personal Protective Equipment (PPE): Always wear appropriate PPE, such as safety glasses, gloves, and protective clothing, to protect against potential hazards.
- Lockout/Tagout: Before performing any maintenance or repair work on the system, follow lockout/tagout procedures to prevent accidental startup or energization.
- Keep Work Area Clean: Maintain a clean work area and remove any debris or obstacles that could interfere with the operation of the system.
- Inspect Regularly: Regularly inspect the wheels, sprockets, and chains for signs of wear, damage, or misalignment. Address any issues promptly.
- Ensure Proper Lubrication: Adequate lubrication of the sprockets and chains is crucial for smooth operation and to reduce friction and wear.
- Check Tension: Verify that the chain tension is within the recommended range. Too loose or too tight tension can lead to operational problems.
- Avoid Loose Clothing: Keep long hair, loose clothing, and jewelry away from moving parts to avoid entanglement.
- Follow Manufacturer’s Guidelines: Adhere to the manufacturer’s guidelines and recommendations for installation, operation, and maintenance of the wheel sprocket system.
- Use Guards and Enclosures: Install appropriate guards and enclosures to protect against contact with moving parts.
- Safe Handling: When transporting or handling heavy wheels or sprockets, use proper lifting techniques and equipment.
Prioritizing safety when working with wheel sprocket systems is essential to prevent accidents and maintain a safe working environment. Always be vigilant, follow safety protocols, and address any concerns promptly to ensure the well-being of everyone involved.
Using wheel sprocket Assembly in Robotics and Automation
Yes, wheel sprocket assemblies are commonly used in robotics and automation systems to transmit power and facilitate movement. These systems offer several advantages for robotic applications:
- Efficiency: wheel sprocket assemblies provide efficient power transmission, ensuring smooth and precise movement of robotic components.
- Compact Design: The compact nature of sprockets and wheels allows for space-saving designs, making them ideal for robotic applications where space is limited.
- Precision: Sprockets and wheels with accurate teeth profiles provide precise motion control, crucial for robotics and automation tasks that require high levels of accuracy.
- Low Noise: Properly lubricated and maintained wheel sprocket systems generate minimal noise during operation, contributing to quieter robotic movements.
- Customizability: wheel sprocket assemblies can be customized to suit specific robotic requirements, such as different gear ratios, sizes, and materials.
- Multiple Configurations: Depending on the robotic application, different configurations like single or multiple sprockets, idler sprockets, or rack and pinion systems can be used.
- High Load Capacity: Sprockets made from durable materials like steel can handle substantial loads, making them suitable for heavy-duty robotic tasks.
Examples of robotics and automation systems that commonly use wheel sprocket assemblies include:
- Robotic Arms: wheel sprocket systems are utilized in robotic arms to control their movement and reach.
- Automated Guided Vehicles (AGVs): AGVs use wheel sprocket assemblies for propulsion and steering, enabling them to navigate autonomously.
- Conveyor Systems: In automated factories, conveyor belts are often driven by sprockets and wheels for efficient material handling.
- Mobile Robots: Wheeled mobile robots use wheel sprocket assemblies to drive their wheels, enabling them to move in various directions.
- Robot Grippers: wheel sprocket mechanisms can be integrated into robot grippers to facilitate gripping and handling objects.
The choice to use wheel sprocket assemblies in robotics and automation depends on the specific application requirements, load capacity, precision, and environmental conditions. By selecting the appropriate sprockets, wheels, and materials, engineers can ensure reliable and efficient robotic performance in a wide range of automated tasks.
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 2024-05-06