Product Description
Professional Excavator&Bulldozer CHINAMFG Undercarriage Parts Manufacturer
Factory Supplying Directly
Super Quality with Competitive Price!!!
Product Features:
Product Name: | HYUNDAI R180 R200 R210 R215 R220 R225 R230 R275 R290 R350 R360 R420 R500 R520 Excavator Undercarriage Parts Track Roller Assembly/Bottom Roller Assy/Lower Roller Wheels |
Technical: | Forging/Casting |
Surface Hardness: | HRC52-58, Deepth:8mm-12mm |
Colors: | Black or Yellow |
Finishing: | Smooth |
Applicable Industries: | Machinery Repair Shops, Construction works |
Material: | 35MnB |
Related Products: | Track Link, Track Pad, Track Roller, Idler. Sprockets, Carrier Roller, Tensioner for Excavators And Dozers |
For more than thousands types of rollers in stock!
Shipment immediately once order confirmed.
Confirming Dimensions With Us Before Ordering
Make Sure the Parts Matching with Your Machine
Strict Quality Control System
Original Factory, Quality Guarantted.
Choose us. You can buy better parts with good price!
XIHU (WEST LAKE) DIS.N Excavator&Bulldozer Undercarriage Parts&Components Including:
- Track Chain With Track Shoe Assembly
- Segments for Heavy Duty Excavator and Bulldozer
- Drive Sprockets
- Track Roller
- Carriaer Roller
- Idler
- Tensioner Spring
- Bolts&Nuts for All Part
Related Models:
THE MODELS FOR EXCAVATOR/BULLDOZER | ||||||||
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 | ZX200-1 | ZX200-3 | ZX200-5G | ZX200LC-3 | ZX210 | ZX210-3 |
ZX210-5 | ZX225 | ZX240 | ZX250 | ZX270 | ZX300 | ZX330 | ZX330C | ZX350 |
ZX450 | ZX450LC | ZX500 | ZX500LC | ZX520 | ZX670 | ZX690 | ZX870 | ZX130 |
ZX170 | ZX170LC | ZX195 | ZX260 | ZX360 | ZX360LC | ZX400 | ZX470 | ZX490 |
FOR KOMATSU(EXCAVATOR) | ||||||||
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 | PC360 | PC460 |
FOR KOMATSU(BULLDOZER) | ||||||||
D20 | D31 | D50 | D60 | D61 | D61PX | D65A | D65P | D64P-12 |
D80 | D85 | D155 | D275 | D355 | D85PX | D85EX | D65EX | D65PX |
D65E | D68 | D68ESS | D75 | D75S | D85ESS | D155 | D155A | D155AX |
D275 | D275AX | D355 | D475 | |||||
FOR CATERPILLAR(EXCAVATOR) | ||||||||
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 | CAT939C | CAT963C | CAT313 |
CAT323 | CAT318 | CAT326 | CAT328 | CAT329 | CAT336 | CAT340 | CAT345 | CAT349 |
FOR CATERPILLAR(BULLDOZER) | ||||||||
D3 | D3B | D3C | D3D | D4 | D4C | D4D | D4E | D4H |
D5 | D5B | D5C | D5D | D5H | D5M | D6 | D6C | D6D |
D6H | D6M | D6R | D6G | D6N | D7 | D7C | D7D | D7E |
D7F | D7G | D7H | D7R | D8 | D8R | D8N | D8H | D8T |
D8L | D8K | D8G | D8M | D9 | D9L | D9N | D9R | D9T |
D10 | D10R | D10N | D10T | D11 | D11R | D11N | ||
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 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 |
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 | EC350 | EC350DL | EC480 | EC340 |
FOR LIEBHERR | ||||||||
R914 | R924 | R934 | R944 | R916 | R926 | R936 | R954 | R966 |
R974 | R984 | |||||||
FOR KUBOTA | ||||||||
JH60-7 | JH115 | JH135 | JH161 | JH185 | ||||
FOR DAEWOO | ||||||||
DH200 | DH220-3 | DH220 | DH220S | DH280-2 | DH280-3 | DH55 | DH258 | DH130 |
DH370 | DH80 | DH500 | DH450 | DH225 | DH150 | DH330 | DH400 | DH580 |
FOR HYUNDAI | ||||||||
R60-5 | R60-7 | R80-7 | R200 | R200-3 | R210 | R210-1 | R210-9 | R210LC |
R210LC-7 | R225 | R225-3 | R225-7 | R250 | R250-7 | R290 | R290LC | R290LC-7 |
R320 | R360 | R954 | R205 | R210-5 | R215 | R230 | R235 | R275 |
R300 | R385 | R485 | ||||||
FOR KATO | ||||||||
HD512 | HD1430 | HD512III | HD820III | HD820R | HD1430III | HD700VI | HD1250VII | HD250SE |
HD400SE | HD500SE | HD1880 | ||||||
FOR DOOSAN | ||||||||
DX225 | DX225LC | DX258 | DX300 | DX300LCA | DX420 | DX430 | DX140 | DX150 |
DX220 | DX250 | DX255 | DX260 | DX370 | DX480 | DX520 | ||
FOR SHXIHU (WEST LAKE) DIS.I | ||||||||
SD13-2 | DH16J2XL | DH16J2LGP | SD16 | SD22 | SD32 | |||
FOR CASE | ||||||||
CX210 | CX210B | CX210C | CX210D | CX210LC | CX225 | CX235 | CX235C | CX240 |
CX240C | CX245 | CX250 | CX250C | CX300 | CX300C | CX330 | CX330C | CX350 |
CX350C | CX460 | CX460LC | CX470 | CX470C | CX490 | CX490D | CX700 | CX700B |
CX750 | CX750D | |||||||
FOR JCB | ||||||||
JS200 | JS200SC | JS210 | JS210SC | JS220 | JS220LC | JS230 | JS230LC | JS240 |
JS240LC | JS290 | JS290LC | JS300 | JS300LC | JS330 | JS330LC | ||
FOR XCMG | ||||||||
XE55DA | XE60DA | XE65DA | XE75DA | XE80C | XE80D | XE85C | XE85D | XE135D |
XE155DK | XE150D | XE155D | XE200DA | XE200D | XE200C | XE205DA | XE215DA | XE215C |
XE215D | XE215HB | XE225DK | XE230C | XE245DK | XE240D | XE260C | XE265C | XE270DK |
XE305D | XE335DK | XE335C | XE370D | XE370DK | XE370CA | XE370C | XE380DK | XE470D |
XE490DK | XE490CK | XE500HB | XE520DK | XE550DK | XE750D | XE750G | XE950D | XE950G |
XE950DA | XE55 | XE60 | XE65 | XE75 | XE80 | XE85 | XE135 | XE150 |
XE155 | XE200 | XE205 | XE215 | XE225 | XD230 | XE240 | XE245 | XE260 |
XE265 | XE270 | XE305 | XE335 | XE370 | XE380 | XE470 | XE490 | XE500 |
XE520 | XE550 | XE750 | XE950 | |||||
FOR MITSUBISHI | ||||||||
MS30 | MS110 | MS110-3 | MS110-5 | MS110-8 | MS180 | |||
FOR SAMSUNG | ||||||||
SE210 | SE280 | SE320 | ||||||
FOR IHI | ||||||||
IHI35 | IHI50 | IHI55 | IHI60 | IHI75 | ||||
FOR YMMA | ||||||||
YM15 | YM30 | YM35 | YM55 | YM65 | YM85 | |||
FOR LIUGONG | ||||||||
LG906C | LG907 | LG200 | LG220 | LG925 | LG934 |
Packing&Shipping
FAQ
1. You are a trader or a manufacture?
We are an industry and trade integration business.
2. How can I be sure the part will fit my excavator/bulldozer?
Give us correct model number/machine serial number/ any numbers on the parts itself. Or measure the parts give us dimension or drawing.
3. How about the payment terms?
We usually accept T/T(Wire Transfer). other terms also could be negotiated.
4. What is your minimum order?
It depends on what you are buying. Normally, 1 pcs also can be suppllied.
5. What is your delivery time?
FOB HangZhou or any Chinese port : 20 days . If there are any parts in stock , our delivery time is only 1-5 days.
6. What about Quality Control?
We have a perfect QC system for the perfect products. A team who will detect the product quality and specification piece carefully, monitoring every production process until packing is complete, to ensure product safety into container.
Contact Us:
Freda Wang —————- Sales Manager ZheJiang XIHU (WEST LAKE) DIS.N MACHINERY CO., LTD. |
/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
After-sales Service: | Technical Support |
---|---|
Warranty: | 1 Year |
Type: | Undercarriage Parts Track Roller Bottom Roller |
Application: | Hyundai Excavator&Bulldozer |
Certification: | CE, ISO9001: 2000 |
Condition: | New |
Samples: |
US$ 30/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
|
|
---|
Can you provide insights into the importance of proper tensioner roller alignment?
Proper tensioner roller alignment is of utmost importance in a belt drive system as it directly affects the system’s functionality, performance, and longevity. Here are detailed insights into the importance of proper tensioner roller alignment:
1. Optimal Belt Tension:
Proper tensioner roller alignment ensures optimal belt tension, which is crucial for the efficient operation of the belt drive system. When the tensioner roller is correctly aligned, it applies the appropriate tension to the belt, keeping it properly tensioned and preventing excessive slack or tightness. Optimal belt tension ensures efficient power transfer, minimizes belt slippage, reduces wear on the belt and other components, and maximizes the overall performance of the system.
2. Prevents Belt Misalignment:
Tensioner roller alignment plays a vital role in preventing belt misalignment. Misalignment occurs when the belt deviates from its intended path, causing it to run off-center or make contact with adjacent components. Improper tensioner roller alignment can introduce lateral forces on the belt, leading to misalignment. Belt misalignment can result in reduced power transmission efficiency, increased wear on the belt and pulleys, and the generation of noise and vibrations. Proper tensioner roller alignment helps maintain the belt’s alignment, ensuring smooth operation and minimizing the risk of misalignment-related issues.
3. Reduces Belt Wear and Failure:
Proper tensioner roller alignment helps minimize belt wear and failure. Misalignment can cause the belt to rub against the pulleys or other components, resulting in accelerated wear and damage to the belt. Excessive wear can lead to belt stretching, cracking, or even premature failure. By ensuring proper tensioner roller alignment, the belt remains in its intended position, reducing friction, wear, and the risk of belt failure. This extends the lifespan of the belt and minimizes the need for frequent replacements, resulting in cost savings and improved system reliability.
4. Minimizes Noise and Vibration:
Correct tensioner roller alignment contributes to reduced noise and vibration levels in the belt drive system. Misalignment can cause the belt to oscillate, vibrate, or produce noise as it rubs against the pulleys or other components. These vibrations and noise can be transmitted throughout the system, leading to discomfort, increased wear on components, and a decrease in overall system efficiency. Proper tensioner roller alignment ensures smooth belt operation, minimizing vibrations and noise, and providing a quieter and more comfortable working environment.
5. Improves System Efficiency:
Proper tensioner roller alignment improves the overall efficiency of the belt drive system. Misalignment can result in energy losses due to increased friction, belt slippage, or inefficient power transfer. When the tensioner roller is correctly aligned, it helps maintain optimal belt contact with the pulleys, reducing energy losses and ensuring efficient power transmission. Improved system efficiency leads to reduced energy consumption, increased productivity, and cost savings over the long term.
6. Ensures Reliable Performance:
Tensioner roller alignment is critical for ensuring reliable performance of the belt drive system. Misalignment can lead to unexpected system failures, breakdowns, or unplanned downtime. Proper tensioner roller alignment helps maintain the overall stability and reliability of the system, reducing the risk of sudden failures or disruptions. By ensuring reliable performance, proper tensioner roller alignment contributes to increased productivity, improved operational efficiency, and enhanced system longevity.
7. Facilitates Maintenance and Service:
Proper tensioner roller alignment simplifies maintenance and service tasks. When the tensioner roller is correctly aligned, it is easier to access and adjust, allowing for straightforward tension adjustments or replacement when necessary. Maintenance personnel can quickly identify and address any alignment issues, ensuring that the system remains in optimal working condition. Proper tensioner roller alignment facilitates efficient maintenance practices, reduces downtime during servicing, and enhances the overall serviceability of the belt drive system.
In summary, proper tensioner roller alignment is crucial for the optimal performance, longevity, and reliability of a belt drive system. It ensures optimal belt tension, prevents misalignment, reduces wear on the belt, minimizes noise and vibration, improves system efficiency, and facilitates maintenance and service. By giving due attention to tensioner roller alignment, system operators can maximize the benefits of their belt drive systems and avoid potential issues that can arise from misalignment.
How does the design of tensioner rollers impact the overall efficiency of belt-driven systems?
The design of tensioner rollers plays a significant role in determining the overall efficiency of belt-driven systems. Various design factors influence the performance, reliability, and energy efficiency of the system. Here’s a detailed explanation of how the design of tensioner rollers impacts the overall efficiency:
1. Friction and Energy Loss:
The design of tensioner rollers affects the amount of friction generated between the roller and the belt. Excessive friction can result in energy loss and reduced efficiency. Tensioner rollers with smooth surfaces, low-friction materials, and optimal contact area reduce friction, minimizing energy loss in the system. Well-designed tensioner rollers help maximize power transmission efficiency by reducing frictional losses.
2. Bearing Design and Lubrication:
The design of the bearings used in tensioner rollers influences the overall efficiency of the system. High-quality bearings with low friction and proper lubrication minimize power losses due to bearing friction. Well-designed tensioner rollers incorporate efficient bearing arrangements, such as sealed or lubricated-for-life bearings, to reduce friction and improve overall system efficiency.
3. Weight and Inertia:
The weight and inertia of tensioner rollers can impact the system’s efficiency, especially in high-speed applications. Heavier tensioner rollers require more energy to accelerate and decelerate, resulting in increased power consumption. Well-designed tensioner rollers optimize their weight and inertia to minimize energy losses associated with rotational motion, improving the overall efficiency of the belt-driven system.
4. Material Selection:
The choice of materials for tensioner rollers can significantly impact system efficiency. Materials with low friction coefficients, high strength, and good wear resistance help reduce energy losses and improve overall efficiency. Well-designed tensioner rollers utilize materials that minimize internal friction, reduce wear on the belt, and enhance power transmission efficiency.
5. Dynamic Tension Control:
Some tensioner roller designs incorporate dynamic tension control mechanisms that adapt to changes in operating conditions. These mechanisms adjust the tension in real-time, optimizing the belt’s grip and reducing power losses due to slippage or excessive tension. Tensioner rollers with advanced tension control features help maintain optimal tension levels, improving overall system efficiency.
6. Alignment and Belt Tracking:
Proper alignment and belt tracking are essential for efficient power transmission and reduced wear. Tensioner rollers with well-designed alignment features ensure that the belt remains properly aligned with the pulleys throughout its operation. This minimizes energy losses resulting from misalignment, reduces belt wear, and improves the overall efficiency of the belt-driven system.
7. Durability and Maintenance:
The design of tensioner rollers can impact their durability and maintenance requirements. Well-designed tensioner rollers are built to withstand the rigors of the application, reducing the need for frequent replacements. Additionally, easy-to-maintain designs with accessible components simplify maintenance tasks, minimizing downtime and improving the overall efficiency of the belt-driven system.
8. Compliance with Industry Standards:
Designing tensioner rollers to comply with industry standards and specifications ensures that they meet performance and efficiency requirements. Standards such as ISO or ANSI define specifications for tensioner roller design, load capacity, and efficiency. Tensioner rollers designed and manufactured to meet these standards are more likely to contribute to the overall efficiency of the belt-driven system.
In summary, the design of tensioner rollers has a significant impact on the overall efficiency of belt-driven systems. Factors such as friction reduction, bearing design, weight and inertia optimization, material selection, dynamic tension control, alignment and belt tracking, durability, maintenance, and compliance with industry standards all contribute to improving system efficiency. Well-designed tensioner rollers help minimize energy losses, reduce wear, and enhance power transmission efficiency, resulting in more efficient and reliable belt-driven systems.
How do tensioner rollers differ from other components in a vehicle’s belt drive system?
Tensioner rollers in a vehicle’s belt drive system have distinct characteristics that set them apart from other components. Here’s a detailed explanation of how tensioner rollers differ from other components in a vehicle’s belt drive system:
1. Function:
Tensioner rollers are specifically designed to maintain proper tension in belts within the vehicle’s belt drive system. Their primary function is to apply the necessary force to keep the belts properly tensioned, ensuring efficient power transmission and preventing slippage. Other components in the belt drive system, such as pulleys or idler pulleys, have different functions like redirecting the belt’s path or guiding it around various engine accessories.
2. Design:
Tensioner rollers, also known as belt tensioners or idler pulleys, typically consist of a pulley-like structure mounted on a spring-loaded arm or bracket. They have a smooth or grooved surface that comes into contact with the belt. The design allows the tensioner roller to rotate freely on bearings or bushings, accommodating the movement of the belt and maintaining the desired tension. In contrast, other components in the belt drive system, such as crankshaft pulleys or accessory pulleys, have different shapes and configurations depending on their specific tasks.
3. Tension Adjustment:
Tensioner rollers are designed to automatically adjust the tension in the belts. They can compensate for belt stretch or wear by adapting their position and maintaining the desired tension level. This self-adjusting feature ensures consistent belt tension throughout the vehicle’s operation. In contrast, other components in the belt drive system usually have a fixed position and do not actively contribute to tension adjustment.
4. Location:
Tensioner rollers are typically positioned at strategic locations within the belt drive system to optimize tensioning. They are often placed in locations where the belt’s tension tends to decrease due to the movement of different engine accessories. This placement allows the tensioner rollers to provide the necessary tension and prevent belt slippage. Other components, such as crankshaft pulleys or accessory pulleys, have specific positions based on their roles in driving the various engine accessories.
5. Maintenance and Replacement:
Tensioner rollers require regular maintenance and inspection to ensure their proper functioning. They may need lubrication, and their condition should be checked for signs of wear, damage, or misalignment. If a tensioner roller is found to be faulty or no longer providing adequate tension, it should be promptly replaced to prevent belt-related issues. Other components in the belt drive system may have their maintenance requirements and replacement intervals based on their specific design and usage.
6. Impact on Belt Performance:
Tensioner rollers have a direct impact on belt performance by maintaining the correct tension. They help prevent belt slippage, ensure optimal power transmission, and contribute to the overall efficiency and reliability of the belt drive system. Other components, although crucial for the system’s operation, may not have the same direct influence on belt tension and performance.
In summary, tensioner rollers differ from other components in a vehicle’s belt drive system in terms of their function, design, tension adjustment capabilities, location, maintenance requirements, and impact on belt performance. Understanding these differences is important for effectively maintaining and optimizing the performance of the belt drive system in a vehicle.
editor by CX 2023-12-22