Product Description
Cummins Genuine Engine Part Pulley, Idler 5372097/3017670 for CHINAMFG GTA38/K38QSK38 Engine with Competitive Price
CCEC engine part:
More CHINAMFG engine parts in sock:
PNs | Parts Description_English | |||||||||||||||
C2830346 | CONNECTION,WATER INLET | |||||||||||||||
C2830405 | BREATHER,CRANKCASE | |||||||||||||||
C2830409 | SEAL,O RING | |||||||||||||||
C283571 | SCREW,HEX FLANGE HEAD CA | |||||||||||||||
C283571 | SCREW,HEX FLANGE HEAD CA | |||||||||||||||
C283 0571 | SEAL,O RING | |||||||||||||||
C2831066 | COLLAR,SHAFT | |||||||||||||||
C2831103 | SCREW,ROUND HEAD CAP | |||||||||||||||
C2831341 | PAN,OIL | |||||||||||||||
C2831342 | PAN,OIL | |||||||||||||||
C2831370 | HOUSING,FLYWHEEL | |||||||||||||||
C2834174 | TURBOCHARGER | |||||||||||||||
C2834176 | TURBOCHARGER | |||||||||||||||
C2834302 | TURBOCHARGER | |||||||||||||||
C2834338 | TURBOCHARGER | |||||||||||||||
C2834535 | TURBOCHARGER | |||||||||||||||
C2834797 | TURBOCHARGER | |||||||||||||||
C2834799 | TURBOCHARGER | |||||||||||||||
C2834823 | TURBOCHARGER | |||||||||||||||
C2835419 | TURBOCHARGER | |||||||||||||||
C2835420 | TURBOCHARGER | |||||||||||||||
C2836276 | TURBOCHARGER | |||||||||||||||
C2836441 | TURBOCHARGER | |||||||||||||||
C2836739 | TURBOCHARGER | |||||||||||||||
C2837154 | TURBOCHARGER | |||||||||||||||
C2837412 | TURBOCHARGER | |||||||||||||||
C2838287 | TURBOCHARGER | |||||||||||||||
C2839128 | TURBOCHARGER | |||||||||||||||
C2839315 | TURBOCHARGER | |||||||||||||||
C2839317 | TURBOCHARGER | |||||||||||||||
C2839319 | TURBOCHARGER | |||||||||||||||
C2839354 | TURBOCHARGER | |||||||||||||||
C2839387 | TURBOCHARGER | |||||||||||||||
C2839487 | TURBOCHARGER | |||||||||||||||
C2839489 | TURBOCHARGER | |||||||||||||||
C2839878 | TURBOCHARGER | |||||||||||||||
C2840195 | TURBOCHARGER | |||||||||||||||
C2840947 | TURBOCHARGER | |||||||||||||||
C2841270 | TURBOCHARGER | |||||||||||||||
C2841384 | TURBOCHARGER | |||||||||||||||
C2841698 | TURBOCHARGER | |||||||||||||||
C2842807 | TURBOCHARGER | |||||||||||||||
C2842849 | TURBOCHARGER | |||||||||||||||
C2864829 | SEAL,GEAR HOUSING | |||||||||||||||
C2864882 | HOUSING,GEAR | |||||||||||||||
C2864884 | SHAFT,IDLER | |||||||||||||||
C2864886 | GASKET,COVER PLATE | |||||||||||||||
C2864887 | PLATE,COVER | |||||||||||||||
C2864899 | SCREW,CONNECTING ROD CAP | |||||||||||||||
C2866616 | BOSS | |||||||||||||||
C2869891 | GASKET,VALVE COVER | |||||||||||||||
C2869892 | GEAR,IDLER | |||||||||||||||
C2869962 | NOZZLE,PISTON COOLING | |||||||||||||||
C2870121 | SEAL,FRONT COVER | |||||||||||||||
C2871979 | SENSOR,NITROGEN OXIHU (WEST LAKE) DIS. | |||||||||||||||
C2872277 | SENSOR,POSITION | |||||||||||||||
C2872279 | SENSOR,POSITION | |||||||||||||||
C2872792 | SENSOR,TEMPERATURE | |||||||||||||||
C2873953 | BRACKET,LIFTING | |||||||||||||||
C2873961 | SEAL,O RING | |||||||||||||||
C2873968 | HOSE,ELBOW | |||||||||||||||
C2873969 | PULLEY,FAN | |||||||||||||||
C2873971 | HUB,FAN | |||||||||||||||
C2873972 | SUPPORT,BELT TENSIONER | |||||||||||||||
C2873974 | BELT,V RIBBED | |||||||||||||||
C2873975 | SUPPORT,ALTERNATOR | |||||||||||||||
C2873982 | GASKET,EXHAUST MANIFOLD | |||||||||||||||
C2873983 | HOSE,FLEXIBLE | |||||||||||||||
C2873984 | CONNECTION,TUR OIL DRAIN | |||||||||||||||
C2873989 | SCREW,FRACTURE RESISTANT | |||||||||||||||
C2874016 | HEAD,FUEL FILTER | |||||||||||||||
C2874571 | TENSIONER,BELT | |||||||||||||||
C2874571 | BELT,V RIBBED | |||||||||||||||
C2874033 | BRACE,TUBE | |||||||||||||||
C2874037 | TUBE,WATER BYPASS | |||||||||||||||
C2874042 | PUMP,WATER | |||||||||||||||
C2874044 | CARRIER,SEAL | |||||||||||||||
C2874047 | COUPLING,PLAIN HOSE | |||||||||||||||
C2874051 | HARNESS,ETR CNT MDL WRG | |||||||||||||||
C2874066 | BLOCK,CYLINDER | |||||||||||||||
C2874071 | PULLEY,IDLER | |||||||||||||||
C2874076 | PLATE,OIL SEAL | |||||||||||||||
C2874077 | SCREW,HEX FLANGE HEAD CAP | |||||||||||||||
C2874078 | WASHER,PLAIN | |||||||||||||||
C2874079 | COVER,GEAR | |||||||||||||||
C2874091 | SCREW,HEX FLANGE HEAD | |||||||||||||||
C2874093 | HOUSING,OIL COOLER | |||||||||||||||
C2874120 | CONNECTION,AIR INTAKE | |||||||||||||||
C2874205 | CONNECTION,AIR TRANSFER | |||||||||||||||
C2874278 | PUMP,WATER | |||||||||||||||
C2874279 | ALTERNATOR | |||||||||||||||
C2874377 | TENSIONER,BELT | |||||||||||||||
C2874451 | CONNECTOR,BANJO | |||||||||||||||
C2874467 | UNION,MALE | |||||||||||||||
C2874490 | FILTER,LUBRICATING OIL | |||||||||||||||
C2874557 | CONNECTION,EXHAUST OUTLET | |||||||||||||||
C2874563 | CONNECTION,AIR TRANSFER | |||||||||||||||
C2874587 | VALVE,COUPLING | |||||||||||||||
C2874592 | PUMP,HYDRAULIC | |||||||||||||||
C2894940 | SENSOR,NITROGEN OXIHU (WEST LAKE) DIS. | |||||||||||||||
C2897331 | SENSOR,PRESSURE | |||||||||||||||
C2897333 | SENSOR,PRS TEMPERATURE | |||||||||||||||
C2897342 | SENSOR,POSITION | |||||||||||||||
C2897414 | INJECTOR | |||||||||||||||
C3 | BRACE,TUBE | |||||||||||||||
C3286494 | PIPE,AIR TRANSFER | |||||||||||||||
C3286499 | HOSE,PLAIN | |||||||||||||||
C3286550 | HOSE,PLAIN | |||||||||||||||
C3286575 | CONNECTION,EXHAUST OUTLET | |||||||||||||||
C3286613 | SPACER,MOUNTING | |||||||||||||||
C3286653 | BRACKET,ALTERNATOR | |||||||||||||||
C3286907 | BRACKET,BELT TENSIONER | |||||||||||||||
C3286908 | BRACKET,BELT TENSIONER | |||||||||||||||
C3287571 | SUPPORT,ALTERNATOR | |||||||||||||||
C3287099 | DIPSTICK | |||||||||||||||
C3287126 | CONNECTION,EXHAUST OUTLET | |||||||||||||||
C3287130 | MANIFOLD,EXHAUST | |||||||||||||||
C3287185 | COUPLING,PLAIN HOSE | |||||||||||||||
C3287186 | HOSE,MOLDED | |||||||||||||||
C3287193 | ADAPTER,CRANKSHAFT | |||||||||||||||
C3287202 | TUBE,CPR WATER INLET | |||||||||||||||
C3287204 | TUBE,CPR WATER OUTLET | |||||||||||||||
C3287206 | TUBE,CPR WATER OUTLET | |||||||||||||||
C3287208 | TUBE,CPR WATER OUTLET | |||||||||||||||
C3287210 | TUBE,CPR WATER INLET | |||||||||||||||
C3287272 | CLAMP,HOSE | |||||||||||||||
C3287273 | CONNECTOR,QCK DISCONNECT | |||||||||||||||
C3287274 | CONNECTOR,QCK DISCONNECT | |||||||||||||||
C32873). If you don’t have part no in hand, you can also tell us the engine number (8 Arab numbers, like25262227). CHINAMFG Quickserve on line could help. /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
How do idler pulleys contribute to the functioning of HVAC and conveyor systems?Idler pulleys play a crucial role in the functioning of HVAC (Heating, Ventilation, and Air Conditioning) and conveyor systems. Here’s a detailed explanation of how idler pulleys contribute to the operation of these systems: HVAC Systems: In HVAC systems, idler pulleys are primarily used for power transmission and belt tensioning. Here are the key ways in which idler pulleys contribute to the functioning of HVAC systems: 1. Belt Routing and Tensioning: Idler pulleys guide and support the belts used in HVAC systems, ensuring proper routing and tensioning. They help keep the belts in alignment with the driving and driven pulleys, preventing slippage and ensuring efficient power transmission. Idler pulleys maintain the necessary tension in the belts, which is crucial for optimal HVAC system operation. 2. Load Distribution: Idler pulleys assist in distributing the load evenly across the HVAC system. By supporting the movement of belts, they help distribute the load and minimize stress on individual components. Proper load distribution ensures balanced wear and tear, prolonging the lifespan of the system. 3. Noise and Vibration Reduction: Idler pulleys contribute to reducing noise and vibration in HVAC systems. They help dampen vibrations caused by belt operation, resulting in quieter and smoother system performance. Reduced noise and vibration levels enhance the comfort and usability of the HVAC system. 4. System Efficiency: Efficient idler pulley operation improves the overall efficiency of HVAC systems. Well-designed idler pulleys with low friction and proper tensioning minimize power losses, ensuring optimal energy consumption. By reducing inefficiencies and maximizing energy conservation, idler pulleys contribute to improved HVAC system performance. Conveyor Systems: In conveyor systems, idler pulleys are essential for belt support, tensioning, and guiding. Here’s how idler pulleys contribute to the functioning of conveyor systems: 1. Belt Support: Idler pulleys provide support to the conveyor belt, preventing sagging and maintaining its shape. They are strategically positioned along the belt path to support the weight of the conveyed material, ensuring smooth and reliable transportation. Proper belt support is crucial for preventing belt damage and ensuring efficient material handling. 2. Tensioning: Idler pulleys are used for belt tensioning in conveyor systems. They help maintain the appropriate tension in the conveyor belt, ensuring proper engagement with the drive pulley and preventing slippage. Proper belt tensioning is critical for efficient power transmission and preventing material spillage or jamming. 3. Belt Guiding and Tracking: Idler pulleys guide and track the conveyor belt, ensuring it stays aligned and centered. They are designed with grooves or cylindrical surfaces that match the shape of the conveyor belt, providing guidance and preventing lateral movement. By maintaining proper belt tracking, idler pulleys minimize belt misalignment, reducing the risk of damage and improving overall conveyor system performance. 4. Load Distribution: Idler pulleys contribute to even load distribution in conveyor systems. By supporting the belt and load, they help distribute the weight evenly across the system, minimizing stress on individual components. Proper load distribution ensures reliable and efficient operation, preventing premature wear and component failure. 5. System Reliability: Reliable idler pulley operation is crucial for the overall reliability of conveyor systems. Idler pulleys that are correctly sized, well-maintained, and properly lubricated contribute to the smooth and continuous operation of the system. They help minimize downtime, reduce the risk of belt slippage or jamming, and ensure the efficient movement of materials. Overall, idler pulleys are essential components for the functioning of HVAC and conveyor systems. Their role in belt routing, tensioning, load distribution, noise reduction, system efficiency, and reliability makes them integral to the smooth operation and performance of these systems. Can idler pulleys withstand continuous use and high-speed rotation?Idler pulleys are designed to withstand continuous use and high-speed rotation in various applications. Here’s a detailed explanation of the factors that contribute to the ability of idler pulleys to withstand continuous use and high-speed rotation: 1. Material Selection: The choice of materials for idler pulleys is crucial in determining their ability to withstand continuous use and high-speed rotation. Idler pulleys are commonly made from durable materials such as steel, aluminum, or engineered plastics. These materials offer high strength, wear resistance, and dimensional stability. The selection of materials depends on factors such as the load capacity, operating conditions, and rotational speed requirements of the specific application. 2. Bearing Design: The bearing design used in idler pulleys plays a vital role in their ability to handle continuous use and high-speed rotation. High-quality bearings with appropriate load ratings and speed capabilities are selected to support the rotational motion of the pulley. The bearing design ensures smooth operation, minimizes friction, and provides reliable support for the pulley shaft under continuous and high-speed conditions. 3. Heat Dissipation: During high-speed rotation, idler pulleys can generate heat due to friction. Adequate heat dissipation mechanisms are incorporated into the design to prevent excessive heat buildup. This can include features such as cooling fins, ventilation holes, or the use of heat-resistant materials. Effective heat dissipation helps maintain the integrity of the idler pulleys and prevents overheating that could lead to premature wear or failure. 4. Load Capacity: Idler pulleys are designed to handle specific load capacities, which include both radial and axial loads. The load capacity of an idler pulley is determined by factors such as the size, material, and bearing selection. Manufacturers provide load capacity guidelines to ensure that the idler pulleys can withstand continuous use and high-speed rotation without excessive stress or deformation. 5. Precision Manufacturing: Idler pulleys are manufactured with precision to ensure proper balance, concentricity, and dimensional accuracy. The precise manufacturing process helps minimize vibration, wobbling, and noise during high-speed rotation. It also enhances the overall stability and performance of the idler pulley under continuous use. 6. Quality Control: Idler pulleys undergo rigorous quality control measures during the manufacturing process. These measures include inspections, testing, and adherence to industry standards to ensure that the pulleys meet the required specifications. Quality control measures help ensure the reliability, durability, and performance of idler pulleys during continuous use and high-speed rotation. Overall, idler pulleys are designed and engineered to withstand continuous use and high-speed rotation in various applications. Through careful material selection, bearing design, heat dissipation, load capacity considerations, precision manufacturing, and quality control measures, idler pulleys can reliably perform their intended functions even under demanding operating conditions. What is an idler pulley, and what is its role in mechanical systems?An idler pulley is a type of pulley that is used in mechanical systems to change the direction of a belt or to maintain tension in the belt. It is called an “idler” because it does not transmit power to any other components but instead acts as a guide or support for the belt. The primary role of an idler pulley is to redirect the path of a belt in a system. It is typically used when the desired path of the belt requires a change in direction or when there is a need to take up slack or maintain proper tension in the belt. Here are some key functions and roles of an idler pulley in mechanical systems: 1. Belt Direction Change: An idler pulley can redirect the path of a belt, allowing it to travel around obstacles or change its course. By introducing an idler pulley at a specific location, the belt can be guided along a desired path, enabling efficient power transmission and operation of the system. 2. Belt Tension Maintenance: Idler pulleys are often used to maintain proper tension in a belt. By incorporating an idler pulley in a belt system, it can take up slack or provide additional tension to ensure optimal power transmission and prevent belt slippage. 3. Belt Length Compensation: In some systems, the length of the belt may need to be adjusted to accommodate variations in the distance between pulleys or to accommodate different operating conditions. Idler pulleys can be used to compensate for these variations by allowing the belt to be lengthened or shortened as required. 4. Belt Alignment: Idler pulleys can contribute to maintaining proper belt alignment. By strategically positioning idler pulleys along the belt path, they can help guide the belt and prevent it from drifting or misaligning, ensuring smooth and efficient operation. 5. Noise and Vibration Reduction: In some cases, idler pulleys can help reduce noise and vibration in a mechanical system. By properly tensioning the belt and minimizing unnecessary movement or oscillation, idler pulleys can contribute to a quieter and more stable operation. It’s important to note that the specific role and function of an idler pulley can vary depending on the particular mechanical system and its requirements. Proper selection, installation, and maintenance of idler pulleys are crucial to ensure optimal performance, belt longevity, and overall system efficiency.
2024-03-29 |