Product Description
CASE excavator CX210 CX240 undercarriage parts guide idler wheel to repair and replacement
Excavator idler also names track idler,tensioner idler,recoil spring idler,
Some Cat dozer idler has rear and front idler,such as D6H,D6T,D6R,D8N,D8T,D9N,D9T and so on.
We have idlers of wheel rim casting steel and welding type, wheel rim grinding ring welding type and wheel body casting type. The wheel body is made by high precision alloy steel and use proper heat treatment to make sure the hardness on the surface and proper hardness layer. This makes the idler can work in various bad condition. High quality shaft, bushing, floating sealing system and oil increase lubrication effect and reduce friction. Sliding-type leg design reduce contact pressure and wear&tear, and prevent impact.
HangZhou Fortune Industrial Co., Limited | |||||
Product Name | CASE excavator and dozer undercarriage spare parts track idler | ||||
Production Standard | OEM | ||||
Material | 40SiMnTi | ||||
Finish | Smooth | ||||
Painting Color | Black or yellow | ||||
Process | Forging & casting | ||||
Surface Hardness | HRC52-58, Depth:8mm-12mm | ||||
Quality Guarantee | One Year | ||||
Certification | ISO9 | EX400LC, EX400-2,3, 992D | Idler Group | 230 | |
SJI1310 | 9137270 | EX550 | Idler Group | 277.27 | |
SJI1320 | 9134272 | EX700,750-5 | Idler Group | 360.45 | |
SJI1330 | 9101204 | EX1100 | Idler Group | 641.36 |
Komatsu excavator and dozer front rear idler part number and Berco number list
Idler | |||||
Part No. | Ref No. | Part No. | Model | Description | (kg) |
SJI1400 | 201-30-00012 | PC60-5 | Idler Group | 65 | |
SJI1500 | 203-30-00133 | PC100-5, 120-5,6 | Idler Group | 80 | |
SJI1600 | 205-30-00182 | KM1641 | PC180-2, 200-3 | Idler Group | 130 |
SJI1700 | 20Y-30-00030 | KM1642 | PC200-5, 220-5 | Idler Group | 130 |
SJI3101 | 20Y-30-00321 | KM3299 | PC220-7,8, PC228 | Idler Group | 130 |
SJI1800 | 207-30-00071 | PC300-1,2,3 | Idler Group | 190 | |
SJI1900 | 207-30-00160 | KM2018, KM1927 | PC300, 280-3, 300-5 | Idler Group | 190 |
SJI2000 | 208-30-00070 | PC400-3 | Idler Group | 290 | |
SJI2100 | 208-30-5710 | KM1973 | PC400-5, PC400 | Idler Group | 290 |
SJI7100 | 101-30-61210X | KM571 | D20 | Idler Group | 65 |
SJI3117 | 113-27-31320 | KM0840 | D31-17, D30, D37 | Idler Group | 90 |
SJI9208 | 128-04-0H92 | IN3810 | D39 | Idler Group | 150 |
SJI9207 | 124-30-5712 | 124-30-5713 | D39E,P-21 D41E,P-6 Early S/N | Idler Group | 124 |
SJI9206 | 124-30-5715 | 124-30-5716 | D41E,P-6 Late S/N | Idler Group | 160 |
SJI9205 | 134-30-5711 | KM6100 | D61E,P | Idler Group | 228 |
144-30-00038 | KM834 | D65 | Idler Group | 210 | |
SJI8300 | 14X-30-00112 | KM2107 | D65-12, D85SS-2, D85ESS-12 | Idler Group | 195 |
SJI1550 | 17A-30-00040 | KM836 | D155 | Idler Group | 474 |
SJI2200 | 195-30-5713 | KM837 | D355 | Idler Group | 650 |
FAQ
1.What HangZhou Fortune Industrial Co.,Limited supply?
We mainly supply crawler excavator and dozer undercarriage parts, such as Track roller, Carrier roller, Sprocket, Idler,Recoil spring assy, Track chain, Track shoe, Track bolt&nut,Track chain guard, Excavator bucket,Bucket teeth&adaptor, Bucket Link,Cutting Edge and End Bits,Grader blades,boom cylinder,arm cylinder,bucket cylinder,Bucket pin&bush,Slewing Bearing, Long reach boom and arm, etc.
2.How to confirm the spare parts will fit our crawler excavator and dozer?
Please send us your excavator and dozer model name, part number, Berco number, or technical drawings and dimensions
3.How about the construction machinery excavator and dozer undercarriage parts Quality Control?
We have an excellent QC system, the QC team will inspect every production process,quality and specification, to be sure best quality and correct size, untill packages finished and loaded into container.
4.What is the payment term?
TT, L/C, Paypal, Western Union, other payment term also can be negotiated.
Contact us:
HangZhou Fortune Industrial Co., Ltd.
Contact person:James Xie
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Warranty: | One Year |
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Type: | Crawler |
Application: | Excavator |
Certification: | CE, ISO9001: 2000 |
Condition: | New |
Material: | 40simnti |
Customization: |
Available
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How do electronic or computer-controlled tensioner rollers enhance belt system performance?
Electronic or computer-controlled tensioner rollers offer advanced features and capabilities that enhance the performance of belt systems in vehicles. These innovative tensioner rollers utilize electronic sensors, actuators, and control algorithms to optimize tension, alignment, and overall operation. Here’s a detailed explanation of how electronic or computer-controlled tensioner rollers enhance belt system performance:
1. Real-Time Tension Control:
Electronic tensioner rollers continuously monitor the tension in the belt and can adjust it in real-time. Using sensors and feedback mechanisms, these tensioner rollers measure the tension and communicate with the control unit to make precise adjustments. Real-time tension control ensures that the belt remains within the optimal tension range, minimizing the risk of slippage or excessive tension that could lead to premature wear or belt failure.
2. Adaptive Belt Alignment:
Computer-controlled tensioner rollers can also monitor and adjust the alignment of the belt. By analyzing sensor data and using actuators, these tensioner rollers can make small adjustments to correct any misalignment. Adaptive belt alignment helps ensure that the belt remains properly aligned with the pulleys, reducing wear, noise, and power losses associated with misalignment. It contributes to improved belt system performance and longevity.
3. Load Compensation:
Electronic tensioner rollers can dynamically adjust the tension based on the load or operating conditions. By analyzing inputs from various sensors, such as engine load, temperature, or accessory demands, these tensioner rollers can adapt the tension to optimize performance and efficiency. Load compensation ensures that the belt system operates optimally under different load scenarios, enhancing overall drivability and preventing belt-related issues.
4. Integrated Belt Health Monitoring:
Some electronic tensioner rollers feature integrated belt health monitoring capabilities. They utilize sensors to measure parameters such as belt wear, temperature, or vibration. By continuously monitoring the belt’s condition, these tensioner rollers can provide early warning signs of potential belt failures or maintenance needs. Integrated belt health monitoring helps prevent unexpected belt failures, improve maintenance planning, and optimize the performance and reliability of the belt system.
5. Diagnostic Capabilities:
Electronic or computer-controlled tensioner rollers often have diagnostic capabilities that can communicate with the vehicle’s onboard computer system. They can provide diagnostic information, fault codes, or performance data, allowing technicians to troubleshoot and address belt system issues more efficiently. Diagnostic capabilities contribute to quicker and more accurate diagnosis, reducing downtime, and improving overall belt system performance.
6. System Integration:
Electronic tensioner rollers can be integrated into the vehicle’s overall electronic control system. They can communicate and coordinate with other components, such as the engine management system or accessory controllers. This integration allows for optimized operation and coordination between the belt system and other vehicle systems, improving drivability, efficiency, and performance.
7. Advanced Control Algorithms:
Computer-controlled tensioner rollers employ advanced control algorithms to optimize tension, alignment, and other parameters. These algorithms take into account various inputs, such as engine speed, load, temperature, and system requirements, to determine the optimal operating conditions for the belt system. The use of advanced control algorithms ensures precise and efficient operation, contributing to enhanced belt system performance.
In summary, electronic or computer-controlled tensioner rollers enhance belt system performance by providing real-time tension control, adaptive belt alignment, load compensation, integrated belt health monitoring, diagnostic capabilities, system integration, and advanced control algorithms. These features optimize the operation of the belt system, improve drivability, reduce maintenance needs, and enhance the overall performance and reliability of the vehicle’s belt-driven systems.
What factors should be considered when selecting tensioner rollers for different industrial applications?
When selecting tensioner rollers for different industrial applications, several factors need to be taken into consideration. These factors include:
1. Load and Tension Requirements:
The load and tension requirements of the specific industrial application are crucial factors to consider. It is important to determine the maximum load the tensioner roller will experience and the required tension for proper belt operation. This information helps in selecting a tensioner roller that can handle the anticipated loads and provide the necessary tension to prevent belt slippage or excessive wear.
2. Belt Type and Size:
The type and size of the belt being used in the industrial application are important considerations. Different belts have varying characteristics, such as width, thickness, and tooth profile. It is essential to choose a tensioner roller that is compatible with the specific belt type and size to ensure proper fit, alignment, and tension distribution.
3. Operating Speed:
The operating speed of the industrial application is a critical factor when selecting tensioner rollers. High-speed applications generate centrifugal forces that can impact belt tension and introduce vibrations. Tensioner rollers designed for high-speed applications are typically equipped with features to absorb vibrations and maintain consistent tension, ensuring reliable power transmission at elevated speeds.
4. Environmental Conditions:
The environmental conditions in which the tensioner roller will operate should be considered. Factors such as temperature extremes, humidity, dust, dirt, chemicals, and exposure to moisture or corrosive substances can affect the performance and durability of the tensioner roller. Selecting a tensioner roller with appropriate materials and protective coatings ensures its reliability and longevity in the specific environmental conditions.
5. Alignment and Adjustment Mechanism:
The alignment and adjustment mechanism of the tensioner roller play a crucial role in maintaining proper belt tension. Consider the ease of installation, adjustment, and alignment when selecting a tensioner roller. Look for features such as adjustable mounting positions, tension adjustment mechanisms, and reliable locking mechanisms that facilitate easy and precise tension adjustment and alignment of the belt.
6. Maintenance and Serviceability:
The maintenance and serviceability aspects of the tensioner roller should be taken into account. Evaluate the accessibility of the tensioner roller for inspection, lubrication, and maintenance tasks. Choose a tensioner roller that allows for easy replacement of worn or damaged components, minimizing downtime and maintenance costs in the industrial application.
7. Compatibility with the System:
Ensure that the tensioner roller is compatible with the overall belt drive system and other components in the industrial application. Consider factors such as the mounting arrangement, space constraints, and integration with other system elements. Compatibility ensures proper fit, functionality, and overall system performance.
8. Industry Standards and Regulations:
Complying with industry standards and regulations is essential when selecting tensioner rollers for industrial applications. Consider any specific requirements or guidelines set by relevant regulatory bodies or industry associations. Adhering to these standards helps ensure safety, reliability, and compliance with applicable regulations.
In summary, when selecting tensioner rollers for different industrial applications, it is important to consider factors such as load and tension requirements, belt type and size, operating speed, environmental conditions, alignment and adjustment mechanism, maintenance and serviceability, compatibility with the system, and adherence to industry standards and regulations. Considering these factors ensures the appropriate selection of tensioner rollers that will effectively support the belt drive system and optimize the performance and reliability of the industrial application.
In what types of vehicles or machinery are tensioner rollers commonly used?
Tensioner rollers are commonly used in a variety of vehicles and machinery where belt drive systems are employed. Here’s a detailed explanation of the types of vehicles and machinery in which tensioner rollers are commonly found:
1. Automobiles:
Tensioner rollers are extensively used in automobiles, including passenger cars, SUVs, and light trucks. They are an integral part of the engine’s accessory drive system, where they help maintain proper tension in the belts that drive components such as the alternator, water pump, power steering pump, and air conditioning compressor. Tensioner rollers contribute to the reliable operation of these accessories and play a crucial role in the overall performance of the vehicle’s engine.
2. Commercial Vehicles:
Tensioner rollers are also commonly utilized in commercial vehicles, such as heavy-duty trucks, buses, and delivery vans. These vehicles often have larger and more complex engine systems that require multiple belts to drive various accessories. Tensioner rollers help ensure proper tension in these belts, allowing for efficient power transmission and reliable operation of the engine accessories.
3. Agricultural Equipment:
In the agricultural sector, tensioner rollers find widespread use in various types of machinery, including tractors, combine harvesters, and other farm equipment. These machines often rely on belt drive systems to power critical components like the water pump, alternator, hydraulic systems, or conveyor belts. Tensioner rollers play a vital role in maintaining optimal belt tension, enabling proper functionality and efficient operation of agricultural machinery.
4. Construction and Heavy Machinery:
Tensioner rollers are employed in construction and heavy machinery, such as excavators, loaders, bulldozers, and cranes. These machines utilize belt drive systems to power auxiliary components like hydraulic pumps, generators, or air compressors. Tensioner rollers help ensure that the belts remain properly tensioned, allowing for reliable power transmission and smooth operation of the machinery in demanding construction or industrial environments.
5. Industrial Equipment:
In various industrial applications, tensioner rollers are used in machinery and equipment such as manufacturing systems, conveyor systems, packaging machines, printing presses, and textile machinery. These systems often rely on belt drive mechanisms to transfer power between different components. Tensioner rollers assist in maintaining the desired tension in the belts, ensuring efficient power transmission and reliable operation of industrial equipment.
6. Recreational Vehicles and Boats:
Tensioner rollers are also found in recreational vehicles (RVs) and boats. RVs may have belt drive systems for powering components like air conditioning units, generators, or water pumps. Tensioner rollers help maintain belt tension in these systems, ensuring reliable operation during camping or travel. In boats, tensioner rollers can be used in propulsion systems or to drive accessories like water pumps or alternators, contributing to the smooth and efficient operation of marine engines.
7. Other Applications:
Additionally, tensioner rollers may be utilized in various other applications where belt drive systems are employed. This can include power tools, industrial pumps, compressors, agricultural machinery attachments, and more. Tensioner rollers are versatile components that find application in diverse machinery and equipment that rely on belt drives.
In summary, tensioner rollers are commonly used in vehicles and machinery such as automobiles, commercial vehicles, agricultural equipment, construction and heavy machinery, industrial equipment, recreational vehicles, boats, and other applications where belt drive systems are utilized. Their presence ensures proper tension in belts, contributing to efficient power transmission, reliable operation, and optimal performance in a wide range of equipment and machinery.
editor by Dream 2024-05-07