Product Description
Model No. | 3063824 | Material | metal |
Warranty | 3 months | Brand | RuiHangZhou |
Type | pulley | stock | In Stock |
MOQ | 1 Piece | Part Name | crankshaft pulley |
Part Number | 3063824 | Transport Package | Cummins original |
Specification | Cummins | Trademark | Cummins |
Origin | ZheJiang | HS Code | 845719990 |
3063824 Accessory drive pulley
ā¢ Part numberĀ Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā : 3063824
ā¢ SizeĀ Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā : 25.4cm*25.4cm*14.31cm
ā¢ WeightĀ Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā : 7.757KG
ā¢ nameĀ Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā : PULLEY,ACCESSORY DRIVE
ā¢ Custom partsĀ Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā : No
ā¢ Shipping restrictionsĀ Ā Ā Ā Ā : No
ā¢ Remanufactured partsĀ Ā Ā Ā : No
ā¢ SupplierĀ Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā : CHINAMFG
ā¢ Minimum packageĀ Ā Ā Ā Ā Ā Ā Ā : 1
ā¢ Package Part Number:
ā¢ Main engine factory:
ā¢ Model:
ā¢ Engine platform:
ā¢ Engine type:
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Regards CHINAMFG engine,we provide CHINAMFG ISB/QSB4.5,cummins ISB/QS6.7,cummins QSL9,cummins QSM/ISM/M11,cummins NTA855,cummins ISX/QSX15,cummins QSK19,cummins QSK23,cummins VTA28,cummins QST30,cummins KTA19,cummins KTA38,cummins KAT50/QSK50,cummins QSK60
If you are interested in any of our products, please contact us immediately.
We promise: high quality + reasonable price + fastdelivery!
Cummins engine parts | |||
Name | Type | Name | Type |
Top repair kit | 4352580 | Bottom repair kit | 3804301 |
cylinder liner | 305715 | main shaft bushing | AR12250 |
piston complement | 3631246 | piston ring | 4955975 |
Connecting rod bearing shell | 3650900 | Exhaust pipe lock plate | 357112 |
oil filter | LF670 | oil filter | LF777 |
fuel filter | FS1006 | water filter | WF2073 |
engine oil | 11AH4518 | Air intake hose | 3630125 |
Figure 8 cover | 32177556 | Water pump pulley wear sleeve | 3 0571 46 |
Fuel line O-ring | 3922794 | Water filter seat O-ring | 145528 |
O-ring | 3046201 | O-ring | 3630740 |
O-ring | 3627695 | Front support wear sleeve | 205683 |
The wear-resistant bushing attached to the oil pump | 190397 | camshaft bushing | 2 0571 0 |
expansion plug | 3629168 | Cylinder block channel expansion plug | 4017621 |
Cylinder block small oil passage expansion plug | 3645841 | camshaft bushing | 3175805 |
Respirator small hose | 3177530 | Crankshaft front oil seal wear sleeve | 3006236 |
Exhaust manifold bolt | 3066498 | Hose clamp | 3819725 |
clamp | 1 0571 0 | Water hose for cylinder block | 3632840 |
Gear thrust plate | 130083 | STC tubing rubber ring | 131026 |
intake valve | 2881836 | valve exhaust | 385719 |
Exhaust seat ring | 3086191 | Intake seat ring | 3086192 |
valve spring | 3643725 | valve shaft guide | 3257110 |
bearings | S16054 | bearings | S16069 |
water seal | 3634007 | oil seal | 3643960 |
snap ring | 3175573 | Water pump bearing clamp ring | 70183 |
locating ring | 206196 | oil seal | 185747 |
distance sleeve of bearing | 3627684 | bearings | 206505 |
Supercharger mounting gasket | 206576 | Supercharger nut | 438571 |
Supercharger retaining bolt | 3176570 | Supercharger retaining bolt | 3521225 |
Supercharger fastening bolt lock plate | 3522904 | Supercharger repair package | 3803257 |
Supercharger intake housing clamp | 3522631 | Supercharger intake housing clamp nut | 3529372 |
Exhaust casing | 3534201 | bush | 3629855 |
bearings | 3629556 | bearings | 3629857 |
Tightening wheel bushing | 30571 | axis | 3009475 |
Bearing | 305714 | thrust | 3177129 |
oil seal | 3065830 | Intercooling connecting pad | 357165 |
Hose adhesive | 3818267 | Intercooled O-rings | 3033915 |
Intercooling hose | 3067371 | sealing gasket | 3050944 |
sealing gasket | 3648607 | Intercooled mat | 3026423 |
Intermediate cooling fitting joint gasket | 3026426 | Rectangular sealing ring for intercooling adapter | 3627449 |
Intercooling water pipe seal ring | 3348860 | Intercooled water hose | 3635070 |
Intercooling connection clip | 3641131 | Rocker tile | 25714 |
Rocker tile | 2 0571 6 | O-ring | 193736 |
piston coupling | 3076125 | stc repair package | 385710 |
oil cup | 3 0571 13 | copper packing | 25714 |
strainer | 3054999 | clip | 174299 |
pad | 173086 | base of spring | 3052218 |
Check ball | 167157 | Large oil seal | 3803615 |
gasket kit | 385710 | Long screen | 309 0571 |
Pad | 3063053 | backpad | 3 0571 17 |
Velvet bolt | 3067897 | Extinguish pad block | 3034452 |
clip | 163945 | O ring | 154087 |
N22 idle plunger | 141630 | O ring | 129888 |
AFC leather bowl | 3013811 | Throttle adjusting screw | 357140 |
Inflection point gasket | 7 0571 | Throttle shaft | 3046683 |
Governor plunger | 3571816 | STC controller repair package | 3803282 |
STC check valve injection hole | 3044993 | STC adjusting screw plug | 3417076 |
STC check valve connector | 3038743 | Exhaust pipe middle R | 3631620 |
Exhaust pipe middle L | 3631619 | Exhaust rocker arm | 357178 |
Follower roller intake | 3016826 | Follower roller intake pin | 205438 |
Follower roller intake copper pin | 4009248 | Pressure regulating plunger | 3571618 |
fan belt | 5413001 | Oil base bolt gasket | 3000082 |
Rocker arm shaft positioning pin | 25719 | Oil cooled core | 3635074 |
Front gear chamber cover bolt gasket | S610 | Front gear chamber cover bolt | 3069571 |
idler bushing | 30 0571 6 | Ā | Ā |
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Note: The diagram is for reference only. For details, please refer to the actual object.
Quality guarantee
1)3 months
2)Quality Certification: ISO9002/TS16949
3)100% tested for the accuracy and quality prior to shipment
Features
1)Fast delivery and good after sales service
2)Long Service life
3)High-speed production
4)Flexile and convenient logistic service
5)OEM orders are welcome
If you can’t find what you are looking for, pls contact us and place a customized order. We can produce according to your sample or drawings. /* 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
Certification: | ISO9001, TS16949 |
---|---|
Standard Component: | Standard Component |
Technics: | Forging |
Material: | Iron |
Type: | Pulley |
Weight: | 7.757kg |
Customization: |
Available
| Customized Request |
---|
What are some real-world examples of drive pulley applications in various industries?
Drive pulleys find extensive applications in various industries where power transmission and control are essential. They play a critical role in numerous systems that involve the movement of materials, products, or people. Here are some real-world examples of drive pulley applications in different industries:
1. Manufacturing and Industrial:
- Conveyor Systems: Drive pulleys are widely used in manufacturing and industrial settings to power conveyor systems that transport materials or products within factories, warehouses, and distribution centers. These systems are employed in industries such as automotive, food processing, logistics, and packaging.
- Machinery: Drive pulleys are utilized in various types of machinery, including milling machines, lathes, drill presses, and woodworking equipment. They enable the transmission of power to drive the rotational motion of cutting tools or workpieces, allowing for precise machining and fabrication processes.
- Textile Industry: Drive pulleys are found in textile machinery, such as spinning machines and looms, where they provide power transmission to move fibers, yarns, and fabrics through different stages of the manufacturing process.
2. Mining and Quarrying:
- Belt Conveyors: Drive pulleys are extensively used in mining and quarrying operations to power belt conveyors that transport bulk materials, such as coal, ores, aggregates, and minerals. These conveyors are crucial for efficient material handling and are commonly employed in mining sites, quarries, and material processing plants.
- Crushers and Screens: Drive pulleys are utilized in crushers and screens to transmit power and control the movement of materials during the crushing and screening processes in mining and quarrying operations. They enable the efficient processing and sorting of various types of minerals and aggregates.
3. Construction and Infrastructure:
- Concrete Plants: Drive pulleys are used in concrete mixing plants and concrete batching plants to power conveyor belts that transport aggregates, cement, and other materials required for concrete production.
- Escalators and Moving Walkways: Drive pulleys are crucial components in escalators and moving walkways, providing the power and control necessary for the continuous movement of steps or walkway surfaces. These systems are commonly seen in shopping malls, airports, train stations, and other public spaces.
- Cranes and Hoists: Drive pulleys are employed in cranes and hoists to transmit power and control the lifting and lowering of heavy loads in construction sites, warehouses, and shipping ports.
4. Automotive and Transportation:
- Engine Systems: Drive pulleys are used in automotive engines as part of the accessory drive system to transmit power from the engine crankshaft to components such as the alternator, power steering pump, water pump, and air conditioning compressor.
- Power Steering Systems: Drive pulleys are employed in power steering systems to transfer power from the engine to the power steering pump, enabling assisted steering in vehicles.
- Heavy-Duty Trucks and Buses: Drive pulleys are utilized in heavy-duty trucks and buses to transmit power from the engine to various accessories and systems, such as the air compressor, hydraulic pump, and cooling fan.
These examples illustrate the diverse range of industries and applications where drive pulleys are integral components. From manufacturing and mining to construction and automotive sectors, drive pulleys are essential for efficient power transmission, material handling, and control in numerous real-world scenarios.
What safety considerations should be kept in mind when using drive pulleys?
When using drive pulleys, it is essential to prioritize safety to prevent accidents, injuries, and equipment damage. Here are important safety considerations to keep in mind:
1. Guarding and Enclosure:
Drive pulleys should be properly guarded and enclosed to prevent accidental contact with moving parts. Guards and enclosures should be designed and installed in accordance with applicable safety regulations and standards. They should effectively restrict access to the pulley and associated belts or chains, reducing the risk of entanglement or entrapment. Regular inspection and maintenance of guards and enclosures are necessary to ensure their effectiveness and integrity.
2. Lockout/Tagout Procedures:
When performing maintenance, repair, or servicing tasks involving drive pulleys, proper lockout/tagout procedures must be followed. Lockout/tagout procedures involve isolating the power source, locking out the energy supply, and using tags to communicate the equipment’s inoperable status. This ensures that the drive pulley and associated machinery cannot be accidentally started or operated while maintenance work is being conducted, protecting personnel from unexpected hazards.
3. Training and Education:
Personnel involved in operating, maintaining, or working near drive pulleys should receive proper training and education on safe practices. They should be familiar with the potential hazards associated with drive pulleys and understand the safe operating procedures, including the use of personal protective equipment (PPE), lockout/tagout protocols, and emergency response measures. Ongoing training programs should be implemented to keep personnel updated on safety best practices.
4. Risk Assessment and Hazard Identification:
A comprehensive risk assessment should be conducted to identify potential hazards and risks associated with the operation and maintenance of drive pulleys. This assessment should consider factors such as pinch points, entanglement hazards, electrical hazards, and potential for material spillage or falling objects. By identifying these risks, appropriate control measures can be implemented to mitigate the hazards and ensure a safe working environment.
5. Maintenance and Inspection:
Regular maintenance and inspection of drive pulleys are crucial for safety. Routine inspections should be performed to check for signs of wear, damage, or misalignment. Any issues identified should be promptly addressed, and damaged or worn components should be replaced. Lubrication requirements should be followed to maintain smooth operation and prevent overheating. Adequate records of maintenance and inspections should be maintained for reference and compliance purposes.
6. Ergonomics and Body Mechanics:
When working with drive pulleys, proper ergonomics and body mechanics should be observed to minimize the risk of strain or musculoskeletal injuries. Personnel should be trained in proper lifting techniques, avoiding excessive bending, lifting heavy loads, and maintaining good posture. Mechanical aids, such as hoists or lifting equipment, should be used when handling heavy pulleys or components to reduce the risk of injuries.
7. Warning Signs and Labels:
Appropriate warning signs and labels should be placed near drive pulleys to communicate potential hazards and provide safety instructions. These signs should be clearly visible and easy to understand. They may include warnings about rotating parts, entanglement hazards, pinch points, and required PPE. Warning signs and labels serve as visual reminders to personnel and visitors to exercise caution and follow safety protocols.
8. Emergency Stop and Emergency Response:
Drive pulley systems should be equipped with emergency stop controls that can quickly shut down the equipment in case of emergencies or hazardous situations. Personnel should be trained on the location and operation of emergency stop buttons. Additionally, an emergency response plan should be in place, outlining procedures for addressing accidents, injuries, or equipment malfunctions. This plan should include protocols for providing first aid, reporting incidents, and evacuating the area if necessary.
In summary, ensuring safety when using drive pulleys is of paramount importance. This involves proper guarding, lockout/tagout procedures, training personnel, conducting risk assessments, performing regular maintenance and inspections, observing ergonomics, using warning signs, and having emergency stop controls and response plans in place. By following these safety considerations, the risks associated with drive pulleys can be minimized, promoting a safe working environment.
Can you explain the key components and design features of a drive pulley?
A drive pulley consists of several key components and design features that enable its proper functioning and efficient power transmission. Understanding these components and design features is essential for the effective selection and utilization of drive pulleys. Here are the main components and design features of a drive pulley:
1. Pulley Body:
The pulley body is the main structure of the drive pulley. It is typically a cylindrical or disk-like component that provides the foundation for the other components. The pulley body is usually made of materials such as steel, cast iron, or aluminum, chosen for their strength, durability, and resistance to wear and corrosion. The body is designed to withstand the forces and stresses encountered during operation.
2. Pulley Rim:
The pulley rim is the outer edge of the drive pulley, and it is where the belt or chain makes contact. The rim is often larger in diameter than the central portion of the pulley to provide a surface for the belt or chain to ride on. It is designed with a specific profile, such as a V-groove or a flat surface, depending on the type of belt or chain being used. The rim’s shape and surface ensure proper engagement and grip, preventing slippage and ensuring efficient power transfer.
3. Hub or Bore:
The hub or bore is the central opening in the drive pulley that allows it to be mounted on a shaft. The hub is typically cylindrical in shape and is sized to fit the diameter of the shaft. It may have keyways, splines, or other features to provide a secure connection with the shaft and prevent slippage. The hub is often secured to the shaft using fasteners such as set screws, keyways, or locking mechanisms.
4. Keyway and Key:
Many drive pulleys have a keyway and key arrangement to ensure a secure and non-slip connection with the shaft. The keyway is a slot cut into the pulley’s bore, while the key is a rectangular metal piece that fits into the keyway. The key prevents relative rotation between the pulley and the shaft, ensuring that the rotational motion is effectively transferred. The keyway and key mechanism provide a strong and reliable connection, especially in applications with high torque or heavy loads.
5. Balancing Features:
Drive pulleys are often balanced to minimize vibration and ensure smooth operation. Imbalances in the pulley can lead to increased wear, noise, and reduced efficiency. Balancing features, such as counterweights or precision machining, are incorporated into the pulley design to achieve proper balance. This helps to maintain the stability and long-term performance of the drive pulley and the entire mechanical system.
6. Flanges and Guards:
In some applications, drive pulleys are equipped with flanges or guards. Flanges are raised edges located on either side of the pulley rim to prevent the belt or chain from slipping off during operation. Flanges help maintain the belt’s alignment and ensure proper engagement with the pulley. Guards, on the other hand, are protective covers that enclose the pulley, preventing contact with moving parts and enhancing safety in the surrounding environment.
7. Surface Coatings and Treatments:
Drive pulleys may undergo surface coatings or treatments to enhance their performance and longevity. These coatings can include materials such as rubber, polyurethane, or ceramic, which provide improved grip, wear resistance, and reduced friction between the pulley and the belt or chain. Surface treatments can also include processes like heat treatment or hardening to increase the pulley’s hardness and durability, particularly in demanding applications.
These are the key components and design features of a drive pulley. By considering these factors and selecting the appropriate pulley design for a specific application, engineers and designers can ensure optimal power transmission, reliability, and longevity in mechanical systems.
editor by CX
2023-12-22