Product Description
MIC NO. | OEM.NO | APPLICATION | YEAR | PHOTO |
TB34FI5711 | 351241 46755714 504086751 BMW : BMW : 1128171 BMW :T.v. BMW : BMW :T.v. BMW : BMW : BMW : BMW : BMW : 1433502 BMW : 171 BMW : 1742858T.v. BMW : 1745546 BMW : 1745546T.v. BMW : 7503424 BMW : 7515864 BMW : 7515865 BMW : 7563927 FIAT : 46755714 FIAT : 504T.v. FIAT : 504086751 FIAT : 504086751T.v. IVECO : 504086751 IVECO : 504086751T.v. LAND ROVER : PQGR571 MERCEDES-BENZ : 6112T.v. MERCEDES-BENZ : 6112T.v. MERCEDES-BENZ : 6112T.v. MERCEDES-BENZ : 6112 MERCEDES-BENZ : 6462R571 TOYOTA : 1662R571T.v |
FIAT DUCATO Box (244_) 2.3 JTD FIAT DUCATO Box (250_, 290_) 110 Multijet 2,3 D FIAT DUCATO Box (250_, 290_) 120 Multijet 2,3 D FIAT DUCATO Box (250_, 290_) 120 Multijet 2,3 D 4×4 FIAT DUCATO Box (250_, 290_) 130 Multijet 2,3 D FIAT DUCATO Box (250_, 290_) 150 Multijet 2,3 D FIAT DUCATO Box (250_, 290_) 180 Multijet 2,3 D FIAT DUCATO Bus (244_) 2.3 JTD FIAT DUCATO Bus (250_, 290_) 110 Multijet 2,3 D FIAT DUCATO Bus (250_, 290_) 120 Multijet 2,3 D FIAT DUCATO Bus (250_, 290_) 130 Multijet 2,3 D FIAT DUCATO Bus (250_, 290_) 150 Multijet 2,3 D FIAT DUCATO Platform/Chassis (244_) 2.3 JTD FIAT DUCATO Platform/Chassis (250_, 290_) 110 Multijet 2,3 D FIAT DUCATO Platform/Chassis (250_, 290_) 120 Multijet 2,3 D FIAT DUCATO Platform/Chassis (250_, 290_) 120 Multijet 2,3 D 4×4 FIAT DUCATO Platform/Chassis (250_, 290_) 130 Multijet 2,3 D FIAT DUCATO Platform/Chassis (250_, 290_) 150 Multijet 2,3 D IVECO DAILY III Box Body/Estate 29 L 10 V (ALJA43A2, ALJA42A2, ALJA41A2) IVECO DAILY III Box Body/Estate 29 L 12 V (ALKA41A2, ALLA52A2, ALKA42A2) IVECO DAILY III Box Body/Estate 29 L 14 IVECO DAILY III Box Body/Estate 35 C 12 V, 35 S 12 V IVECO DAILY III Box Body/Estate 35 C 14, 35 S 14 IVECO DAILY III Box Body/Estate 35 S 10 (ANJA41A1, ANJA43A, ANJAV1A,… IVECO DAILY III Bus 35 S 12, 35 C 12, 40 C 12 IVECO DAILY III Platform/Chassis 29 L 10 (ALJAV1A1, ALJA41AA,…. IVECO DAILY III Platform/Chassis 29 L 12 (ALKA41A1, AHKA64A1, ALLA51A1) IVECO DAILY III Platform/Chassis 29 L 14 IVECO DAILY III Platform/Chassis 35 C 10 V , 35 S 10 V IVECO DAILY III Platform/Chassis 35 C 12 , 35 S 12 IVECO DAILY III Platform/Chassis 35 C 14, 35 S 14 IVECO DAILY IV Box Body/Estate 29L10 V IVECO DAILY IV Box Body/Estate 29L12 V, 29L12 V/P IVECO DAILY IV Box Body/Estate 29L14 C, 29L14 C/P, 29L14 V, 29L14 V/P IVECO DAILY IV Box Body/Estate 35C10, 35S10 IVECO DAILY IV Box Body/Estate 35C11 V, 35S11 V IVECO DAILY IV Box Body/Estate 35C12 V, 35C12 V/P, 35S12 V, 35S12 V/P IVECO DAILY IV Box Body/Estate 35C13 V, 35C13 V/P, 35S13 V, 35S13 V/P IVECO DAILY IV Box Body/Estate 35S14 C, 35S14 C/P, 35C14 V,… IVECO DAILY IV Box Body/Estate 40C10 V IVECO DAILY IV Box Body/Estate 40C11 V IVECO DAILY IV Box Body/Estate 40C12 V, 40C14 V/P IVECO DAILY IV Box Body/Estate 40C13 V, 40C13 V/P IVECO DAILY IV Bus 35S14, 35S14 /P IVECO DAILY IV Dump Truck 35C10 K IVECO DAILY IV Dump Truck 35C11 K, 35C11 DK, 35S11 K, 35S11 DK IVECO DAILY IV Dump Truck 35C12 IVECO DAILY IV Dump Truck 35C13 K, 35C13 DK, 35S13 K, 35S13 DK IVECO DAILY IV Dump Truck 35S14 K, 35S14 DK IVECO DAILY IV Platform/Chassis 29L10 IVECO DAILY IV Platform/Chassis 29L12 IVECO DAILY IV Platform/Chassis 29L14 IVECO DAILY IV Platform/Chassis 35C10, 35S10 IVECO DAILY IV Platform/Chassis 35C11, 35S11, 35S11 D, 35S11 /P IVECO DAILY IV Platform/Chassis 35C12, 35S12 IVECO DAILY IV Platform/Chassis 35C13, 35C13 /P, IVECO DAILY IV Platform/Chassis 35C14, 35S14, 35S14 /P IVECO DAILY IV Platform/Chassis 40C10 IVECO DAILY IV Platform/Chassis 40C11, 40C11 D IVECO DAILY IV Platform/Chassis 40C12 IVECO DAILY IV Platform/Chassis 40C13, 40C13 /P IVECO DAILY V Box Body/Estate 29L11 V, 35C11 V, 35S11 V, 40C11 V IVECO DAILY V Box Body/Estate 29L13 V, 35C13 V, 35S13 V, 40C13 V IVECO DAILY V Box Body/Estate 29L15 V, 35S15 V, 35C15L V, 40C15L V, IVECO DAILY V Dump Truck 35C11K, 35S11DKP IVECO DAILY V Dump Truck 35C13K, 35C13DKP IVECO DAILY V Platform/Chassis 26L11, 26L11D, 35C11D, 35S11, 40C11 IVECO DAILY V Platform/Chassis 29L13, 29L13D, 35C13D, 40C13 IVECO DAILY V Platform/Chassis 29L15 V, 35S15, 35C15L V, 40C15L V IVECO DAILY VI Box 33S11, 35S11, 35C11 IVECO DAILY VI Box 33S12, 35S12, 35C12 IVECO DAILY VI Box 33S13, 35S13, 35C13 IVECO DAILY VI Box 33S14, 35S14, 35C14 IVECO DAILY VI Box 33S15, 35S15, 35C15 IVECO DAILY VI Box 33S16, 35S16, 35C16 IVECO DAILY VI Box Body/Estate 33S12, 35S12 IVECO DAILY VI Box Body/Estate 33S14, 35S14 IVECO DAILY VI Box Body/Estate 33S16, 35S16 IVECO DAILY VI Platform/Chassis 33S11, 35S11, 35C11 IVECO DAILY VI Platform/Chassis 33S12, 35S12, 35C12 IVECO DAILY VI Platform/Chassis 33S13, 35S13, 35C13 IVECO DAILY VI Platform/Chassis 33S14, 35S14, 35C14 IVECO DAILY VI Platform/Chassis 33S15, 35S15, 35C15 IVECO DAILY VI Platform/Chassis 33S16, 35S16, 35C16 |
2002- 2011- 2006- 2571- 2011- 2011- 2015- 2002- 2011- 2006- 2011- 2011- 2002-2006 2011- 2006- 2571- 2006- 2011- 2002-2007 2002-2007 2005-2006 2002-2007 2005-2006 2002-2007 2003-2006 2002-2006 2002-2006 2005-2006 2002-2006 2002-2006 2005-2006 2006-2011 2006-2011 2006-2011 2006-2011 2007-2011 2006-2011 2007-2011 2006-2011 2006-2011 2007-2011 2006-2011 2007-2011 2006-2011 2006-2011 2007-2011 2006-2011 2007-2011 2007-2011 2006-2011 2006-2011 2006-2011 2006-2011 2007-2011 2006-2011 2007-2011 2006-2011 2006-2011 2007-2011 2006-2011 2007-2011 2011-2014 2011-2014 2011-2014 2011-2014 2011-2014 2011-2014 2011-2014 2011-2014 2014-2016 2016- 2014-2016 2016- 2014-2016 2016- 2016- 2016- 2016- 2014-2016 2016- 2014-2016 2016- 2014-2016 2016- |
After-sales Service: | Online Technical Support |
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Warranty: | One Year |
Car Make: | FLAT |
Car Model: | DUCATO Box (244_) 2.3 JTD |
Application: | for FLAT DUCATO Box (244_) 2.3 JTD |
Lead time: | 60-90 days |
Samples: |
US$ 10/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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Can flat belt pulleys be part of woodworking and milling equipment?
Yes, flat belt pulleys can be an integral part of woodworking and milling equipment. Here’s a detailed explanation:
1. Power Transmission:
Flat belt pulleys are commonly used in woodworking and milling equipment to transmit power from a motor or engine to various components. They serve as driving pulleys, connecting the power source to critical machine parts such as saw blades, cutters, drills, or spindles. The efficient power transmission facilitated by flat belt pulleys ensures the smooth and precise operation of these components, enabling accurate woodworking and milling processes.
2. Speed Control:
Woodworking and milling equipment often require adjustable speed control for different tasks and materials. Flat belt pulleys, in combination with adjustable speed drives, allow operators to control the rotational speed of the driven components. By selecting pulleys of different sizes or adjusting the pulley positions, the speed ratios can be modified to match specific cutting or milling requirements, ensuring optimal machine performance and quality of the finished products.
3. Load Capacity:
Woodworking and milling equipment handle various types and sizes of materials, which may exert different loads on the machines. Flat belt pulleys are designed to handle different load capacities based on the specific requirements of the equipment. The pulley’s diameter and width are chosen to provide adequate support and load-bearing capacity for the belt, enabling the machines to handle different workpieces effectively.
4. Belt Tensioning and Tracking:
Proper belt tensioning and tracking are crucial in woodworking and milling equipment to ensure accurate cuts and milling operations. Flat belt pulleys are equipped with tensioning mechanisms and tracking features to maintain the appropriate belt tension and alignment. This helps prevent belt slippage, ensures precise movement of the workpiece, and minimizes the occurrence of errors or defects in the woodworking and milling processes.
5. Versatility:
Flat belt pulleys offer versatility in woodworking and milling equipment design. They can be used in various types of machines, such as table saws, band saws, planers, routers, and milling machines. The flexibility of flat belts also enables efficient movement around pulleys of different sizes and configurations, catering to the specific needs of different woodworking and milling tasks.
6. Durability and Precision:
Woodworking and milling equipment require pulleys that are durable and capable of providing precise power transmission. Flat belt pulleys are often constructed from materials such as cast iron or steel, ensuring strength and longevity. The precision of the pulley design, including accurate machining and balance, contributes to the overall precision of the woodworking and milling processes.
7. Maintenance and Replacement:
Flat belt pulleys in woodworking and milling equipment are relatively easy to maintain and replace. Regular inspection and lubrication of the pulleys, along with routine belt tension checks, contribute to efficient operation and prevent unexpected breakdowns. When replacement is necessary, flat belts and pulleys are readily available, minimizing downtime and ensuring uninterrupted woodworking and milling operations.
In summary, flat belt pulleys are commonly incorporated into woodworking and milling equipment to facilitate efficient power transmission, enable speed control, handle varying load capacities, ensure belt tensioning and tracking, offer versatility, provide durability and precision, and allow for easy maintenance and replacement. Their proper selection and maintenance are crucial for achieving high-quality woodworking and milling results.
Can flat belt pulleys withstand variations in environmental conditions?
Flat belt pulleys are designed to withstand variations in environmental conditions to a certain extent. Here’s a detailed explanation:
1. Temperature:
Flat belt pulleys can generally tolerate a wide range of temperatures. However, extreme temperatures, either too high or too low, can affect the performance and longevity of the pulleys. High temperatures can cause material expansion, accelerated wear, and deterioration of lubricants, while low temperatures can make materials brittle and increase the risk of cracking or breakage. It’s important to consider the temperature limits specified by the manufacturer and choose materials that can withstand the expected temperature range.
2. Humidity and Moisture:
Flat belt pulleys should be protected from excessive humidity and moisture, as these can lead to corrosion and rust formation, especially in pulleys made of steel or cast iron. Proper sealing, surface treatments, or the use of corrosion-resistant materials can help mitigate the effects of humidity and moisture.
3. Dust and Contaminants:
Accumulation of dust, dirt, or other contaminants on flat belt pulleys can interfere with the belt’s grip, cause slippage, and accelerate wear. Regular cleaning and maintenance are necessary to remove such contaminants and ensure smooth operation.
4. Chemical Exposure:
Flat belt pulleys may encounter various chemicals depending on the application. Some chemicals can degrade the materials used in the pulleys, leading to reduced strength, increased wear, and failure. It’s important to select materials that are resistant to the specific chemicals present in the environment.
5. UV Exposure:
Exposure to ultraviolet (UV) radiation from sunlight or certain artificial sources can degrade the properties of pulley materials, particularly plastic components. UV-resistant coatings or selecting materials with inherent UV resistance can help mitigate the effects of prolonged UV exposure.
6. Vibrations and Shock:
Flat belt pulleys should be designed to withstand vibrations and shock loads that may be present in the operating environment. Excessive vibrations or shocks can lead to misalignment, increased wear, and premature failure. Proper installation, alignment, and the use of vibration-damping materials can help minimize these effects.
While flat belt pulleys can tolerate variations in environmental conditions, it’s important to assess the specific operating environment and select pulleys and materials accordingly. Adhering to manufacturer guidelines, performing regular inspections, and implementing appropriate maintenance practices can help ensure the longevity and reliable performance of flat belt pulleys in various environmental conditions.
How do flat belt pulleys handle variations in load capacity and speed?
Flat belt pulleys are designed to handle variations in load capacity and speed in power transmission systems. Here’s a detailed explanation:
1. Load Capacity:
Flat belt pulleys can accommodate variations in load capacity by adjusting the tension in the flat belt. Increasing the tension in the belt helps to transmit higher loads, while reducing the tension allows for lower loads. The tension can be adjusted by adjusting the position of the pulleys or by using tensioning devices such as idler pulleys or tensioning screws. By properly tensioning the belt, flat belt pulleys can efficiently transmit power and handle different load capacities.
2. Speed Variation:
Flat belt pulleys can handle variations in speed by adjusting the pulley diameters. The speed ratio between the driving pulley and the driven pulley determines the speed at which power is transmitted. By using pulleys with different diameters, the rotational speed can be adjusted accordingly. For example, a larger pulley on the driving shaft and a smaller pulley on the driven shaft will result in increased speed, while a smaller driving pulley and a larger driven pulley will reduce the speed. By selecting the appropriate pulley sizes, flat belt pulleys can accommodate different speed requirements in power transmission systems.
3. Variable Speed Pulleys:
In applications where continuous speed variation is required, variable speed pulleys can be used. These pulleys, also known as stepless or variable pitch pulleys, consist of two conical pulleys that can move axially, changing the effective diameter of the pulley. By adjusting the position of the conical pulleys, the speed ratio can be continuously varied, allowing for precise control of the transmitted speed. Variable speed pulleys are commonly used in applications such as conveyors, fans, and certain types of machinery that require adjustable speeds.
4. Belt Material Selection:
The choice of belt material can also contribute to handling variations in load capacity and speed. Different belt materials possess varying levels of strength, flexibility, and wear resistance. By selecting the appropriate belt material based on the specific application requirements, flat belt pulleys can effectively handle variations in load capacity and speed. For example, high-strength materials may be chosen for heavy-duty applications, while more flexible materials may be suitable for applications with high-speed variations.
It’s important to note that while flat belt pulleys can handle variations in load capacity and speed to a certain extent, there are practical limits based on the design and capabilities of the specific pulley system. It’s crucial to consider the manufacturer’s specifications, operating conditions, and safety factors when determining the suitable load capacity and speed requirements for a flat belt pulley system.
editor by CX
2023-10-03