Product Description
BASIC INFORMATION
| Description | VKM76CC02 for Suzuki APV/ APV Arena / Futura Injection 2 SUZUKI : 1281071CC01 SUZUKI : 1281071C02 |
REFERENCE NUMBERS
| SKFF : VKM76 ASHIKA : 4508801 ASHIKA : 4508809 AUTEX : 641238 AUTOKIT : 03279 BERTOLOTTI : Y3161 BLUE PRINT : ADK87603 BREDA LORETT : CR51 JAPANPARTS : BE801 JAPANPARTS : BE809 KAISHIN : FI49 TRISCAN : 864669104 |
APPLICABLE CAR MODELS
| Vehicle Models | Active Years | Engine | Displacement | Power | Cons.Type |
| SUZUKI ALTO IV (EF) 1.0 (SH410) | 1994-2002 | G10BB | 993 | 39 | Hatchback |
| SUZUKI ALTO V (HA12, HA23) 1.0 | 2000-2002 | G10BB | 993 | 43 | Hatchback |
| SUZUKI BALENO (EG) 1.3 (SY413) | 1996-2002 | G13BA | 1298 | 52 | Saloon |
| SUZUKI BALENO Hatchback (EG) 1.3 (SY413) | 1996-2002 | G13BA | 1298 | 52 | Hatchback |
| SUZUKI GRAND VITARA I (FT, HT) 1.6 4×4 (SQ 416) | 1998-2003 | G16B | 1590 | 69 | Closed Off-Road Vehicle |
| SUZUKI JIMNY Closed Off-Road Vehicle (SN) 1.3 16V (SN413) | 1998- | G13BB | 1298 | 59 | Closed Off-Road Vehicle |
| SUZUKI SWIFT II Hatchback (EA, MA) 1.3 (SF 413) | 2001-2003 | G13BB | 1298 | 63 | Hatchback |
| SUZUKI VITARA (ET, TA, TD) 1.6 i 16V All-wheel Drive (ET, TA02, SE416) | 1990-1998 | G16B | 1590 | 71 | Closed Off-Road Vehicle |
DETAILED PICTURES
PACKAGING & SHIPPING
| Packaging Details | 1 piece in a single box 30 boxes in a carton 40 cartons in a pallet |
| Nearest Port | ZheJiang or HangZhou |
| Lead Time | For stock parts: 1-5 days. If no stock parts: <500 pcs: 15-30 days ≥500 pcs: to be negotiated. |
OUR SERVICES
– We have more than 20 years experience in auto bearings fields.
– Excellent quality control is 1 of our main principles
– We offer OEM service, accept customer label, develop the product with your drawings or samples
– Any questions will get response within 24 hours.
FAQ
1.How do you make our business long-term and good relationship?
– We keep good quality and competitive price to ensure our customers benefit ;
– We respect every customer as our friend and we sincerely do business and make friends with them,
no matter where they come from.
2. Do you test all your goods before delivery?
– Yes, we have 100% test before delivery
3. What is your terms of payment?
– T/T 30% as deposit, and 70% before delivery. We’ll show you the photos of the products and packages
before you pay the balance.
4. What is your terms of delivery?
– EXW, FOB, CFR, CIF, DDU.
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| After-sales Service: | 24 Hours |
|---|---|
| Warranty: | 1 Year / 30000-50000kms |
| Type: | Tensioner Bearing |
| Material: | Chrome Steel |
| Tolerance: | P0 |
| Certification: | ISO9001, TS16949 |
| Samples: |
US$ 4/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
How do timing pulley systems ensure synchronized motion?
Timing pulley systems play a crucial role in ensuring synchronized motion in various mechanical systems. Here’s how timing pulley systems achieve synchronized motion:
1. Toothed Design:
Timing pulleys have teeth or grooves on their periphery that mesh with the teeth on the timing belt or chain. The toothed design creates positive engagement between the pulley and the belt or chain, preventing slippage and maintaining precise synchronization.
2. Timing Belts or Chains:
The timing pulley system works in conjunction with a timing belt or chain. The teeth on the belt or chain interlock with the teeth on the pulley, ensuring that the rotational motion is transferred accurately from the driving pulley to the driven pulley. The precise engagement of the teeth allows for synchronized motion between the pulleys.
3. Constant Pitch:
The teeth on the timing belt or chain and the corresponding teeth on the timing pulleys have a consistent pitch. The pitch refers to the distance between the teeth, and it remains constant throughout the length of the belt or chain. This constant pitch ensures that the teeth on the belt or chain engage with the pulley teeth at the same rate, maintaining synchronized motion.
4. Precise Manufacturing Tolerances:
Timing pulley systems are manufactured with tight tolerances to ensure accurate tooth profiles and consistent dimensions. The teeth on the pulleys and the teeth on the belt or chain are designed to match precisely, allowing for seamless interaction and precise synchronization. High manufacturing tolerances contribute to the reliability and efficiency of the system.
5. Tension Control:
Proper tension control is vital for achieving synchronized motion in a timing pulley system. The tension in the timing belt or chain needs to be adjusted correctly to ensure optimal engagement with the pulleys. Tensioners and idler pulleys are often used to maintain the appropriate tension, ensuring that the belt or chain remains securely engaged with the pulleys.
6. Suitable Pulley and Belt/Chain Selection:
Choosing the appropriate combination of timing pulleys and timing belts or chains is crucial for achieving synchronized motion. Factors such as pulley diameter, number of teeth, belt or chain pitch, and material selection need to be considered to match the specific requirements of the application. Proper selection ensures that the pulley system operates with accurate timing and synchronized motion.
7. Regular Maintenance and Inspection:
To ensure continued synchronized motion, regular maintenance and inspection of the timing pulley system are necessary. This includes checking for wear, proper tension, and alignment, and replacing any worn-out components. Routine maintenance helps identify and address potential issues that could affect the synchronized motion of the system.
By incorporating toothed design, timing belts or chains, constant pitch, precise manufacturing tolerances, tension control, suitable pulley and belt/chain selection, and regular maintenance, timing pulley systems ensure synchronized motion in mechanical systems. This synchronization is essential for accurate timing, coordination, and efficient operation of various applications.
What safety considerations should be kept in mind when working with timing pulleys?
Working with timing pulleys requires careful attention to safety to prevent accidents and injuries. Here are some essential safety considerations to keep in mind:
1. Proper Training:
Ensure that individuals working with timing pulleys have received proper training on their safe handling and operation. Training should cover topics such as correct installation procedures, maintenance guidelines, and understanding the risks associated with timing pulley systems.
2. Personal Protective Equipment (PPE):
Wear appropriate personal protective equipment, including safety glasses, gloves, and any other required protective gear when working with timing pulleys. PPE helps protect against potential hazards such as flying debris, sharp edges, or accidental contact with moving parts.
3. Lockout/Tagout Procedures:
Follow established lockout/tagout procedures when performing maintenance or repair tasks on machinery equipped with timing pulleys. Lockout/tagout procedures involve isolating the power source, de-energizing the system, and securing it with a lock or tag to prevent unexpected startup or energization.
4. Machine Guarding:
Ensure that timing pulleys are properly guarded to prevent accidental contact. Install appropriate machine guards, barriers, or enclosures to prevent fingers, clothing, or other objects from coming into contact with the moving pulleys or belts.
5. Regular Inspection and Maintenance:
Regularly inspect timing pulleys for signs of wear, damage, or misalignment. Replace any worn or damaged components promptly to maintain safe operation. Follow the manufacturer’s recommended maintenance schedule and procedures.
6. Avoid Loose Clothing and Jewelry:
Avoid wearing loose clothing, jewelry, or any other items that could get caught in the timing pulleys or associated machinery. Loose clothing or accessories can pose a significant risk of entanglement or injury.
7. Proper Lifting and Handling:
When handling timing pulleys or related equipment, use proper lifting techniques and equipment to prevent strain or injuries. Seek assistance when dealing with heavy or bulky pulleys.
8. Risk Assessment:
Conduct a thorough risk assessment of the machinery and work environment to identify any additional safety measures that may be required. Consider factors such as noise levels, ventilation, and ergonomics to ensure a safe working environment.
9. Emergency Stop and Shutdown:
Ensure that machinery equipped with timing pulleys has accessible emergency stop buttons or switches. Familiarize yourself with the location and operation of these emergency stop devices and know how to shut down the machinery quickly in case of an emergency.
10. Follow Manufacturer’s Guidelines:
Adhere to the manufacturer’s guidelines, instructions, and warnings specific to the timing pulleys and associated machinery. Manufacturers provide valuable information regarding safe operation, maintenance procedures, and recommended safety precautions.
By following these safety considerations, individuals can minimize the risks associated with working with timing pulleys and promote a safe working environment.
How does a timing pulley differ from a standard pulley?
A timing pulley differs from a standard pulley in design and functionality. While both types of pulleys are used in mechanical systems, they serve different purposes and have distinct features. Here’s an explanation of the key differences between a timing pulley and a standard pulley:
1. Toothed Profile:
The most significant difference between a timing pulley and a standard pulley is the presence of teeth on the timing pulley. Timing pulleys have grooves or teeth on their circumferential surface that mesh with corresponding teeth on timing belts. This toothed profile enables positive engagement between the pulley and the belt, providing precise motion and preventing slippage. In contrast, standard pulleys typically have a smooth or V-shaped groove that allows for the use of flat belts or V-belts, which rely on friction for power transmission.
2. Synchronization and Timing:
Timing pulleys are specifically designed for applications that require accurate timing and synchronization. The teeth on the timing pulley mesh with the teeth on the timing belt, creating a positive drive system. This ensures that the rotational motion of the driving pulley is transferred precisely to the driven pulleys, maintaining synchronization and accurate timing. Standard pulleys, on the other hand, do not provide this level of precise timing and are commonly used in applications where synchronization is not critical.
3. Power Transmission:
A timing pulley is primarily used for power transmission in applications that require precise motion control. The positive engagement between the teeth of the timing pulley and the timing belt ensures efficient power transfer without slippage. This is particularly important in applications where accurate speed ratios and torque transmission are necessary. Standard pulleys, while also used for power transmission, rely on friction between the pulley and the belt for power transfer, which may result in some slippage under heavy loads or high speeds.
4. Customization and Configurations:
Timing pulleys offer a wide range of customization options to meet specific application requirements. They can be manufactured with different tooth profiles, pitch sizes, and numbers of teeth to achieve the desired speed ratios and torque transmission. Standard pulleys, on the other hand, have fewer customization options and are generally available in standard sizes and configurations.
5. Maintenance and Reliability:
Timing pulleys and timing belts require less maintenance compared to standard pulleys and belts. The toothed profile of timing pulleys prevents slippage, reducing the need for frequent tension adjustments. Additionally, the positive engagement between the timing pulley and the timing belt ensures reliable power transmission with minimal wear and elongation of the belt.
Overall, the main differences between a timing pulley and a standard pulley lie in their toothed profile, synchronization capabilities, precise timing, customization options, and maintenance requirements. Timing pulleys are specifically designed for applications that demand accurate motion control and synchronization, while standard pulleys are more commonly used where precise timing is not critical.
editor by CX
2024-02-04