Product Description
Product Description
KUBOTA 688Q COMBINE SPARE PARTS V-BLET
Specifications
SB-36 W600 KUBOTA COMBINE PARTS BANDO V BELT
KUBOTA ORIGINAL V BELT
KUBOTA WRAPPED V BELT
We can offer the following V-BELTS | |||||||
ITEM NO. | PART NO. | QUALITY LEVEL | BRAND | ITEM NO. | PART NO. | QUALITY LEVEL | BRAND |
1 | SB26 | W600 | BRAND | 29 | SB34 | W800 | BRAND |
2 | SB37 | W800 | BRAND | 30 | SB35 | W800 | BRAND |
3 | SB38 | W800 | BRAND | 31 | SB36 | W800 | BRAND |
4 | SB41 | W800 | BRAND | 32 | SB53.5 | W800 | BRAND |
5 | SB42 | W800 | BRAND | 33 | SB58 | W800 | BRAND |
6 | SB43 | W800 | BRAND | 34 | SB58 | W600 | BRAND |
7 | SB44 | W800 | BRAND | 35 | SB110 | W800 | BRAND |
8 | SB45 | W800 | BRAND | 36 | SC104(B) | W800 | BRAND |
9 | SB46 | W800 | BRAND | 37 | SC115(B) | W800 | BRAND |
10 | SB47 | W800 | BRAND | 38 | SC122 | W800 | BRAND |
11 | SB48 | W800 | BRAND | 39 | SC124 | W800 | BRAND |
12 | SB49 | W800 | BRAND | 40 | SC126 | W800 | BRAND |
13 | SB50 | W800 | BRAND | 41 | SC71 | W800 | BRAND |
14 | SB52 | W800 | BRAND | 42 | SC88 | W800 | BRAND |
15 | SB55 | W800 | BRAND | 43 | SC115(B) | W600 | BRAND |
16 | SB56 | W800 | BRAND | 44 | SC136 | W600 | BRAND |
17 | SB68 | W800 | BRAND | 45 | SC215 | W600 | BRAND |
18 | SB69 | W800 | BRAND | 46 | SC55 | W600 | BRAND |
19 | SB72 | W800 | BRAND | 47 | LB43 | W600 | BRAND |
20 | SB91 | W800 | BRAND | 48 | LB44 | W600 | BRAND |
21 | SC104(B) | W600 | BRAND | 49 | LB45 | W600 | BRAND |
22 | SC124 | W600 | BRAND | 50 | LB47 | W600 | BRAND |
23 | SC55 | W800 | BRAND | 51 | LB48 | W600 | BRAND |
24 | SC79 | W600 | BRAND | 52 | LB49 | W600 | BRAND |
25 | LB42 | W600 | BRAND | 53 | LB50 | W600 | BRAND |
26 | LB46 | W800 | BRAND | 54 | LB52 | W600 | BRAND |
27 | SB26 | W800 | BRAND | 55 | LB55 | W600 | BRAND |
28 | SB30.5 | W800 | BRAND | 56 | LB72 | W600 | BRAND |
Our Products
We are HangZhou FOREIGN MACHINERY PARTS CO., LTD.
We specialized in CZPT spare parts, CZPT machine ( kubota harvester, kubota transplanter, CZPT tractor).
MACHINE MODEL: 488, 588I, 688Q, 788, 888, DC60, DC68G, DC70, DC95, 704K, 854 ,954, 1004, NSPU68C, NSPU88C, SPW48/68C
KUBOTA machine and Spare Parts are popular in Philippines, Tailand, Vietnam and Sri Lanka and other countries. So glad to talk with you about Different CZPT machines and Spare Parts
We sell many kinds of agricultural machines, machinery parts, engine parts, combine parts,tractor parts and so on. Our products brands include KUBOTA, YANMAR, Cahngfa, SNH, YTO, Xihu (West Lake) Dis. Feng, and so on.This year we have developed many new products including mini combine harvester, mini rice, reaper, mini combine parts, balers, tubers excavators, rotary tillers and other machines with different functions.
TRADE TERMS:
Price terms | FOB office | ||||
Delivery terms | time: after 15 days ways: 1.Ship by Express.(DHL.TNT.UPS.FEDEX) 2.Ship by Air express to airport 3.Ship by sea |
||||
Payment Item | T/T ,Western Union, L/C, B/L | ||||
Port of Shipment | HangZhou, China | ||||
Packing | close package to make shipment safer and suitable for import and export. | ||||
NOTE: amend accordng to your demand! |
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Type: | V-Blet |
---|---|
Usage: | Harvester |
Material: | Rubber |
Power Source: | Diesel |
After-sales Service: | Supply |
Warranty: | Supply |
Are there any alternatives to V-belts for power transmission applications?
Yes, there are several alternatives to V-belts for power transmission applications. These alternatives offer different advantages and may be suitable for specific requirements. Here are some commonly used alternatives:
- Synchronous Belts:
- Flat Belts:
- V-Ribbed Belts:
- Chain Drives:
- Gear Drives:
- Direct Coupling:
Synchronous belts, also known as timing belts, are toothed belts that provide precise and synchronous power transmission. They have teeth on the inner side that mesh with corresponding grooves on the pulleys, eliminating slippage and ensuring accurate power transfer. Synchronous belts are commonly used in applications that require precise positioning, high torque transmission, or low maintenance.
Flat belts are thin, flexible belts that transmit power by friction between the belt and the pulleys. They offer a simple and cost-effective solution for power transmission. Flat belts are available in various materials, such as rubber, leather, or fabric-reinforced synthetic materials. They are suitable for applications with moderate power requirements and can be used in both light-duty and heavy-duty applications.
V-ribbed belts, also known as multi-rib belts or serpentine belts, are similar to V-belts but have a different cross-sectional shape. They have a flat or shallow V-shaped profile with ribs on the inner side, which engage with corresponding grooves on the pulleys. V-ribbed belts offer higher power transmission capacity and reduced slip compared to standard V-belts. They are commonly used in automotive applications, such as engine accessory drives.
Chain drives use a series of interconnected links to transmit power. They are known for their high strength, durability, and ability to handle heavy loads. Chain drives are commonly used in applications that require high torque transmission, such as industrial machinery, motorcycles, or bicycles. However, chain drives require periodic lubrication and maintenance to ensure proper operation.
Gear drives utilize interlocking gears to transmit power. They offer high efficiency, precise power transmission, and the ability to transmit large amounts of torque. Gear drives are commonly used in applications that require high precision, such as robotics, machine tools, or automotive transmissions. However, they can be more complex and expensive compared to belt drives.
In some cases, power transmission applications may utilize direct coupling, where the motor shaft is directly connected to the driven equipment without the use of belts or other intermediate components. Direct coupling offers high efficiency, compactness, and eliminates the need for belt maintenance. It is commonly used in applications with high torque requirements or where precise alignment is critical.
The choice of the alternative to V-belts depends on various factors, including the specific power transmission requirements, space limitations, cost considerations, maintenance needs, and the desired level of precision. It is important to evaluate these factors and consult with experts to select the most suitable alternative for a particular application.
Can V-belts be used in high-speed or heavy-duty applications?
V-belts are versatile power transmission belts that can be used in a wide range of applications, including high-speed and heavy-duty applications, depending on the specific design, construction, and material of the V-belt. Here’s a detailed explanation:
High-speed applications:
V-belts are capable of transmitting power efficiently at various speeds. However, the speed limitations of V-belts depend on factors such as the belt’s design, material, and construction. Traditional V-belts, also known as classical V-belts, are generally suitable for moderate to high-speed applications but may have limitations at extremely high speeds due to centrifugal forces and heat generation.
For high-speed applications, specialized V-belt designs, such as high-speed V-belts or narrow V-belts, are available. These belts are designed to reduce heat buildup and minimize the effects of centrifugal forces, allowing them to operate effectively at higher speeds. It is important to consult the manufacturer’s specifications and recommendations to select the appropriate V-belt for high-speed applications.
Heavy-duty applications:
V-belts can also be used in heavy-duty applications that require the transmission of high torque or power. Heavy-duty V-belts, also known as industrial or agricultural V-belts, are specifically designed to handle heavy loads and provide reliable power transmission in demanding conditions.
Heavy-duty V-belts are constructed using reinforced materials, such as strong fabric layers or aramid cords, to enhance strength and durability. These belts are designed to resist stretching, withstand high loads, and operate in environments with high temperatures, humidity, or exposure to chemicals.
In addition to heavy-duty V-belts, there are other belt options available for heavy-duty applications, such as cogged V-belts and synchronous belts. These belts feature specialized designs and toothed profiles that offer increased power transmission capabilities, improved grip, and enhanced resistance to slip.
When considering the use of V-belts in high-speed or heavy-duty applications, it is crucial to consult the manufacturer’s specifications, guidelines, and application recommendations. The manufacturer can provide information on the suitable V-belt types, sizes, and materials that can withstand the specific demands of the application.
Overall, V-belts can be used effectively in high-speed and heavy-duty applications, provided the appropriate type, design, and construction are selected based on the application requirements and manufacturer’s recommendations.
What are the common causes of V-belt failure and how can they be prevented?
V-belt failure can occur due to various factors, and understanding the common causes is essential for preventing premature belt failure and ensuring reliable operation. Here are some common causes of V-belt failure and preventive measures:
- Misalignment: Misalignment between the pulleys can cause excessive wear, uneven load distribution, and belt slippage. To prevent misalignment, ensure proper pulley alignment during installation and regularly inspect and adjust the pulleys as needed.
- Over-tensioning or under-tensioning: Incorrect belt tension can lead to excessive stress or slippage. Over-tensioning can cause accelerated wear, while under-tensioning can result in belt slipping and reduced power transmission. Follow the manufacturer’s recommended tension guidelines and use a tension gauge to achieve the proper tension for the specific V-belt.
- Pulley damage: Damaged or worn-out pulleys can cause belt damage and premature failure. Inspect the pulleys regularly for signs of wear, such as grooves, cracks, or deformation. Replace any damaged pulleys promptly to prevent belt damage.
- Contamination: Contaminants such as dirt, debris, oil, or chemicals can affect the belt’s grip and cause accelerated wear. Keep the belt and pulleys clean and free from contaminants. Regularly inspect the environment and implement appropriate measures to prevent contamination.
- Excessive heat: High temperatures can cause belt degradation, leading to reduced strength and increased wear. Ensure proper ventilation and cooling in the belt drive system. If the application generates excessive heat, consider using heat-resistant belts or implementing cooling measures.
- Excessive load: Overloading the V-belt beyond its capacity can cause excessive stress and lead to premature failure. Ensure the V-belt is appropriately sized for the application and consider factors such as torque, horsepower, and load requirements. If the load exceeds the belt’s capacity, consider using a higher-rated belt or alternative power transmission methods.
- Age and wear: Over time, V-belts naturally wear out and lose their effectiveness. Regularly inspect the belts for signs of wear, such as fraying, cracking, or glazing. Replace worn-out belts as part of a preventive maintenance schedule to avoid unexpected failures.
Preventive measures to reduce V-belt failure include regular inspections, proper installation, correct tensioning, pulley maintenance, cleanliness, temperature management, load monitoring, and timely replacement. Following manufacturer’s guidelines, conducting routine maintenance, and addressing any issues promptly will help extend the lifespan and reliability of V-belts in power transmission systems.
In summary, common causes of V-belt failure include misalignment, incorrect tensioning, pulley damage, contamination, excessive heat, excessive load, and age/wear. By implementing preventive measures and conducting regular maintenance, these causes can be minimized, ensuring optimal V-belt performance and longevity.
editor by CX 2024-03-27