Product Description
Production description
Outdoor Power New Parts Idler Idler Pulley Replaces
- ID: 3/8″ | OD: 4 7/8″ | Height: 1-1/8″
- Compatible with MTD 38″, 42″, 46″ and 54″ Decks
- Compatible with Cub Cadet Parts: 756- 0571 9B, 756- 0571 9C, 956- 0571 9, and 956- 0571 9C
- Compatible with MTD Parts: 753-5711, 756- 0571 9B, 756- 0571 9C, 956- 0571 9, and 956- 0571 9C
Our advantages: Focus on the  stamping/welding/bending  of the metal parts for automotive and construction application more than  30 years.
Leading Equipment:welding robots ,continue gas stations,CNC machining centers,CNC pipe bending machines,laser cutting machine.
Inspection Equipments:CMM,Five Elemental Analyzers, Salt spray test machine,Tensile testing machine.
We now have 100 customers from all over the world.
1. We have own factory and 80% of staff in our company worked for more than 10 years.
2. We provide a competitive price.
3. High precision, tolerance can be within ±0.01mm.
4. 14 years’ export experience.
5. Small order also is welcomed.
6. We can also provide one-stop service, including mold and assembly.
7. NDA apply to all customers.
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| Mold Material | DC01,DC04,DC06 |
| Tooling life Time | 100K times |
| Tooling Material | 1) AL1060, AL6061, AL6061, AL5052 2) Steel, mild steel, SPCC 3) SS201, SS303, SS304, SS316, SS316L 4) SPTE, galvanized sheet 5) Brass, copper |
| Surface Treatment | Anodized, powder coating, lacquer coating, black oxide |
| Salt and spy test | From 72-480 h |
| Size | 1) According to customers’ drawings 2) According to customers’ samples |
| Drawing Format | step, dwg, igs, pdf |
| Certificates | ISO 9001:2015 & IATF 16949 |
| Payment Term | T/T, L/C, Trade Assurance |
New Project Product Development Process
According to APQP process develpment plan from TS 16949 Quality Management System.
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Raw Material Warehouse
Prepare the raw material according to customer delivery schedule and carry out FIFO exactly by ERP system.
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Raw Material Chemical Element
Mechanical PropertiesTest Before Production ,the first step of the quality control.
Stamping Workshop
Overview of the Stamping workshop with cover the
Stamping equipment  from 100T to 800T.
Hydraulic Press cover from 50T to 3100T.
With the mold(die,tooling) produce by ourselves we can customize all kinds of metal shape according to customer drawing call out.
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Bending Workshop
CNC bending machine with servo control precise control the tolerance according to customer requirement.
The capacity of bending diameter reach to Φ135mm.
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Welding Workshop
Welding robot with Synchronous workstation introduce from CHINAMFG Japan ,we had 23pcs welding arm with 64 pcs working stations,sheild welding support by Continuous gas supply station.
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Brazing Welding For Pipe
Pipe with brazing welding can get perfect out appearance also reduce leaking on welding area.
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Spot Welding (Resistance welding)
The ABB resistance welding robot can improve the welding joint strength also Improve spot welding efficiency.Reduce defects of traditional spot welding.
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Surface Treatment
The coating line improves the efficiency, reduces the pollution to the environment, and the wastewater discharge after industrial treatment reaches the national standard.
Mold Workshop Warehouse
We can design and manufacture molds according to customer requirements,2500Â square meter special for stamping mold warehouse.
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Tooling Prepare
We simulated the workpiece by J-STAMPING software ,then we design the mold for metal sheet part ,not only it short the leadtime for development but also saving the cost for customer.
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Gantry CNC machining center
The capacity of the CNC machining center can reach 3200*2500*1000mm,the tolerance can reach 0.008mm after test by CMM and Handy scHangZhou equipment.
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Dimension InspectionÂ
The mold and inspect gauge also the PPAP part was inspect by the CMM and Handy scHangZhou equipment.
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ERPÂ System In Our Company
All data support by ERP System, Cover From Raw Material Incoming To Shipment.
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Customer Audit
* Evaluate the quality of customer service.
* Compare the quality with previously established goals.
* Identify gaps for improvement.
* Find ways to improve customer service.
* Gather all of the required data with Live Agent.
* Check activities.
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Company Team
Team Working Together For Bright Future
ENJOY THE WORK, ENJOY THE LIFE.
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Cooperative Partner
Thanks To Ford, CHINAMFG Moters, Toyota,CAMSD,FAW-VOLKSWAGEN, HONDA,JMC.
FAQ:
| 1. Do you provide samples? is it free or extra? |
| Yes, we can offer the sample for free charge but do not pay the cost of freight. |
| 2. How about the shipping cost? |
| The cost of shipping depends on the method you choose to obtain the goods. Express delivery is usually the fastest method, but it is also the most expensive method. Shipping is the best solution for large quantities. For the exact shipping cost, we can only provide you with detailed information after knowing the quantity, weight and dimension. |
| 3. Do you have Stock productions to sell? |
| Yes, of course. But we also offer OEM service. The mold is customized, Please send us some drawing. What information do you want to know if i want to get a quotation? a). The application for your products. b). Special package methods if you needs. |
| 4. Do you inspect the finished products? |
| Yes. Each step of products will be carried out inspection by QC department until shipping |
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| Certification: | CE, ISO |
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| Pulley Sizes: | Type C |
| Manufacturing Process: | Forming |
| Samples: |
US$ 32.5/Piece
1 Piece(Min.Order) | Order Sample |
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| Customization: |
Available
| Customized Request |
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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What is the significance of proper alignment and tensioning in idler pulley systems?
Proper alignment and tensioning in idler pulley systems are of utmost significance for their optimal performance and longevity. Here’s a detailed explanation of the significance of proper alignment and tensioning:
1. Efficient Power Transmission:
Proper alignment and tensioning ensure efficient power transmission in idler pulley systems. When the belts or chains are correctly aligned with the pulleys, there is maximum contact and engagement, minimizing slippage and power loss. Optimal tensioning ensures that the belts or chains are appropriately tensioned, allowing for efficient transfer of power from the driving pulley to the driven pulley. Efficient power transmission improves the overall performance and productivity of the system.
2. Reduced Wear and Tear:
Proper alignment and tensioning help reduce wear and tear on belts, chains, pulleys, and other system components. Misalignment or inadequate tension can cause excessive stress, uneven loading, and premature wear. Misaligned belts or chains can rub against pulleys or adjacent components, leading to accelerated wear and potential damage. By ensuring proper alignment and tensioning, the system components experience minimal friction, resulting in reduced wear and extended service life.
3. Noise Reduction:
Proper alignment and tensioning contribute to noise reduction in idler pulley systems. Misaligned belts or chains can generate noise due to rubbing or vibration. Inadequate tensioning can cause belts or chains to slip or vibrate, resulting in noise generation. By aligning the belts or chains accurately and applying the correct tension, the system operates smoothly and quietly, enhancing the comfort and usability of the equipment.
4. System Stability and Reliability:
Proper alignment and tensioning promote system stability and reliability. When belts or chains are aligned correctly, they remain securely engaged with the pulleys, minimizing the risk of disengagement or derailing. Optimal tensioning ensures that the belts or chains maintain consistent tension, preventing slack or excessive tightness that could compromise system operation. A stable and reliable idler pulley system is crucial for maintaining continuous and trouble-free operation in various applications.
5. Extended Component Lifespan:
Proper alignment and tensioning help extend the lifespan of system components, including belts, chains, pulleys, and bearings. Misalignment and improper tensioning exert additional stress on these components, leading to accelerated wear and potential failure. By maintaining proper alignment and tension, the load is evenly distributed, reducing the strain on individual components and promoting their durability. Extended component lifespan translates to reduced maintenance costs and increased overall system productivity.
6. Safety:
Proper alignment and tensioning contribute to the safety of idler pulley systems. Misaligned belts or chains can pose safety hazards by coming into contact with surrounding equipment or personnel. Inadequate tensioning can result in sudden belt or chain disengagement, causing unexpected machine shutdowns or potential injuries. By ensuring proper alignment and tensioning, the risk of accidents or equipment damage is minimized, enhancing the safety of the working environment.
Overall, proper alignment and tensioning are vital for the efficient operation, reliability, longevity, noise reduction, and safety of idler pulley systems. Regular inspection, adjustment, and maintenance of alignment and tensioning parameters are essential to optimize system performance and maintain the integrity of the components involved.
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.
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
2024-03-11