Product Description
BASIC INFORMATION
Description | VKM32184 V-ribbed belt idler pulley Top for FIAT BRAVO STILO | |
OE Number | VKM32184 / 60671789 | |
Position | TOP | |
Size | Inner Diameter: mm Outer Diameter1: 65 mm Width1: 25 mm Width2: 35 mm |
|
Brand | SI, PPB | |
Weight | 0.3 Kgs | |
Place of Origin | ZHangZhoug, China | |
Certification | ISO9 | IPD : 15-0868 QUINTON HAZELL : QTA1258 RUVILLE : 55887 REPKIT : RKT2346 RPK : RPK571042 SK : SK0 0571 2 TRIPLE FIVE : Y1656 |
APPLICABLE CAR MODELS
Vehicle Models | Active Years | Engine | Displacement | Power | Cons.Type |
FIAT BRAVO II (198_) 1.9 D Multijet (198AXC1B) | 2007-2014 | 937 A5.000 | 1910 | 110 | Hatchback |
FIAT STILO (192_) 1.8 16V (192AXC1A, 192BXC1A) | 2001-2007 | 192 A4.000 | 1747 | 98 | Hatchback |
FIAT STILO (192_) 1.9 D Multijet | 2005-2006 | 937 A5.000 | 1910 | 110 | Hatchback |
FIAT STILO Multi Wagon (192_) 1.8 16V | 2003-2008 | 192 A4.000 | 1747 | 98 | Estate |
FIAT STILO Multi Wagon (192_) 1.9 D Multijet (192DXT1B) | 2005-2008 | 937 A5.000 | 1910 | 110 | Estate |
FIAT STILO Multi Wagon (192_) 1.9 JTD | 2004-2008 | 192 A5.000 | 1910 | 103 | Estate |
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 |
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Warranty: | 1 Year / 30000-50000kms |
Type: | Tensioner Bearing |
Material: | Chrome Steel |
Tolerance: | P0 |
Certification: | ISO9001, TS16949 |
Samples: |
US$ 3/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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How do you select the right idler pulley configuration for a specific task?
Selecting the appropriate idler pulley configuration for a specific task involves considering several factors. Here are the key steps to guide you in the selection process:
1. Identify System Requirements:
Understand the specific requirements of the task or application. Determine the type of belt or chain being used, the power transmission requirements, the operating conditions (such as temperature, speed, and load), and any specific constraints or limitations.
2. Determine Belt or Chain Type:
Identify the type and specifications of the belt or chain being used in the system. This includes factors such as the belt width, pitch, tooth profile (for timing belts), and chain size. Knowing the characteristics of the belt or chain will help in selecting an idler pulley that is compatible and optimized for that specific type.
3. Consider Pulley Material and Construction:
Select a pulley material that is suitable for the task at hand. Common options include steel, cast iron, aluminum, and various plastics. Consider factors such as the required strength, durability, corrosion resistance, and the environment in which the pulley will be operating.
4. Determine Pulley Size and Configuration:
Calculate or determine the appropriate pulley size, including the diameter and width. Consider factors such as the desired belt tension, the required wrap angle (the contact area between the pulley and the belt), and any specific clearance or spacing requirements within the system.
5. Assess Bearing and Shaft Requirements:
Consider the bearing and shaft requirements for the idler pulley. Determine the load capacity, rotational speed, and any specific mounting or attachment considerations. Select bearings and shafts that can handle the anticipated loads and provide smooth operation.
6. Consult Manufacturer Recommendations:
Refer to the manufacturer’s recommendations or specifications for the idler pulley. Manufacturers often provide guidelines and technical data for their products, including load capacity charts, speed limits, and other relevant information. Ensure that the selected idler pulley aligns with these recommendations.
7. Evaluate Cost and Availability:
Consider the cost and availability of the idler pulley. Evaluate different suppliers and compare prices, ensuring that the selected pulley offers a good balance of cost-effectiveness and quality. Additionally, ensure that the idler pulley is readily available when needed.
8. Installation and Maintenance:
Lastly, consider the installation and maintenance requirements of the idler pulley. Ensure that it can be easily installed within the system and that any necessary adjustments or maintenance can be performed without significant hassle.
By following these steps and considering the specific requirements of the task or application, you can select the right idler pulley configuration that ensures proper tensioning, reliable power transmission, and optimal performance in your specific task.
How are idler pulleys customized for specific machinery and equipment?
Idler pulleys can be customized to meet the specific requirements of different machinery and equipment. Here’s a detailed explanation of how idler pulleys are customized for specific applications:
1. Size and Diameter:
Idler pulleys are available in a wide range of sizes and diameters. To customize an idler pulley for specific machinery and equipment, the size and diameter can be selected based on factors such as the space available, the desired belt wrap, and the required load-bearing capacity. Larger machinery may require larger idler pulleys to accommodate the size and power requirements, while smaller equipment may require compact idler pulleys to fit within limited spaces.
2. Material Selection:
The choice of material for idler pulleys depends on the specific application. Idler pulleys can be made from various materials, including steel, aluminum, plastic, or composite materials. The material selection depends on factors such as the environment, load capacity, desired weight, and durability requirements. Corrosion-resistant materials may be chosen for applications in harsh or corrosive environments, while lightweight materials may be preferred for applications where weight reduction is critical.
3. Bearing Type:
Idler pulleys utilize bearings to support the rotating shaft. The selection of bearing type depends on factors such as the load capacity, speed, and environmental conditions. Common bearing types include ball bearings, roller bearings, and needle bearings. The choice of bearing type ensures smooth rotation and proper load distribution, contributing to the overall performance and longevity of the idler pulley.
4. Mounting Configuration:
Idler pulleys can be customized with various mounting configurations to suit specific machinery and equipment. The mounting configuration includes options such as bolt-on, flange-mounted, or shaft-mounted designs. The selection depends on the installation requirements and the available mounting points on the equipment. Customizable mounting options allow for easy integration and proper alignment of the idler pulley within the system.
5. Special Features:
In some cases, idler pulleys may require special features or modifications to meet unique application needs. This can include the addition of groove profiles for specific belt types, design modifications for improved belt tracking, or the incorporation of tensioning mechanisms for precise tension adjustment. These customization options ensure that the idler pulleys are optimized for the specific machinery and equipment, resulting in enhanced performance and functionality.
6. Application-Specific Testing:
In certain cases, idler pulleys may undergo application-specific testing to validate their performance and suitability for the intended use. This can include testing for load capacity, rotational speed, temperature resistance, noise levels, and durability. By conducting these tests, manufacturers can ensure that the customized idler pulleys meet the specific requirements and performance expectations of the machinery and equipment.
Customizing idler pulleys for specific machinery and equipment allows for optimal performance, improved efficiency, and increased reliability. By considering factors such as size, material, bearing type, mounting configuration, special features, and conducting application-specific testing, idler pulleys can be tailored to meet the unique needs of different applications.
How does the size and diameter of an idler pulley affect its performance?
The size and diameter of an idler pulley play a significant role in determining its performance characteristics. Here’s a detailed explanation of how the size and diameter of an idler pulley affect its performance:
1. Tension and Belt Engagement:
The size and diameter of an idler pulley impact the tension and engagement of the belt. A larger idler pulley will create more belt wrap around its circumference, resulting in increased belt contact and improved grip. This helps to maintain proper tension in the belt and prevent slippage, especially in high-torque applications. Conversely, a smaller idler pulley may have less belt wrap, leading to reduced grip and potentially lower tension.
2. Belt Speed:
The size and diameter of an idler pulley affect the speed at which the belt travels. A larger idler pulley will cover a greater distance per revolution, resulting in a higher belt speed. This can be advantageous in applications where increased speed is desired. Conversely, a smaller idler pulley will cover a shorter distance per revolution, leading to a slower belt speed.
3. Belt Flexibility:
The size and diameter of an idler pulley impact the flexibility of the belt. A larger idler pulley allows for a larger bend radius, reducing the stress on the belt and improving its durability. It also minimizes the risk of excessive bending or flexing that could lead to premature wear or failure. In contrast, a smaller idler pulley may require the belt to bend more sharply, potentially increasing the risk of damage or wear.
4. System Clearance:
The size and diameter of an idler pulley affect the overall clearance in the mechanical system. In tight spaces or constrained environments, a smaller idler pulley may be preferred, as it requires less clearance. Conversely, a larger idler pulley may require additional space to accommodate its size.
5. Load Distribution:
The size and diameter of an idler pulley impact its ability to distribute the load across the belt. A larger idler pulley can distribute the load over a larger surface area, reducing the stress on the belt and other components. It helps to minimize wear and prolong the life of the system. On the other hand, a smaller idler pulley concentrates the load on a smaller area, potentially increasing the risk of localized wear or failure.
6. Bearing Life and Friction:
The size and diameter of an idler pulley influence the bearing life and friction within the system. Larger idler pulleys typically have larger bearings, which can handle higher loads and exhibit improved durability. They also tend to generate lower friction, leading to reduced heat and wear. In contrast, smaller idler pulleys may have smaller bearings that may have limitations in terms of load capacity and friction.
It’s important to note that the specific requirements for size and diameter of an idler pulley will depend on the application and the intended function within the mechanical system. Factors such as belt type, load requirements, speed, and space constraints should be considered when selecting the appropriate size and diameter of an idler pulley for optimal performance.
editor by CX
2024-05-17