Produktbeskrivning
Produktbeskrivning
China Manufacturer Auto Parts Timing Belt Xihu (West Lake) Dis. Pulley Tensioner Pulley OEM 83062 A1 for Peugeot 308 Series
Water Pump for CITROEN
Water Pump for PEUGEOT
All kinds of car water pumps can be produced for you. Welcome to your inquiry.
| MIC NO. | REF&OEM NO | APPLICATION | YEAR | PHOTO |
| TB34BM9501 | 201160 030145299F 030145299C 030145299 | BMW 1 (E87) 130 i BMW 3 (E90) 325 i BMW 3 (E90) 330 i BMW 3 Convertible (E46) 325 Ci BMW 3 Convertible (E93) 325 i BMW 3 Convertible (E93) 330 i BMW 3 Coupe (E46) 325 Ci BMW 3 Touring (E91) 325 i BMW 5 (E39) 520 i BMW 5 (E39) 528 i BMW 5 (E60) 523 i BMW 5 (E60) 525 i BMW 5 (E60) 530 i BMW 5 (E60) 530 i xDrive BMW 5 Touring (E61) 530 i BMW 6 (E63) 630 i BMW 6 Convertible (E64) 630 i BMW 7 (E38) 728 i, iL BMW 7 (E65, E66, E67) 730 i, Li BMW 7 (E65, E66, E67) 735 i, Li BMW 7 (E65, E66, E67) 745 i, Li BMW 7 (E65, E66, E67) 760 i, Li BMW X1 (E84) xDrive 25 i BMW X1 (E84) xDrive 28 i BMW X3 (E83) 2.5 i BMW X3 (E83) 2.5 si BMW X3 (E83) 3.0 i xDrive BMW X3 (E83) 3.0 si BMW X5 (E53) 3.0 i BMW X5 (E70) 3.0 si BMW Z4 Roadster (E85) 2.2 i BMW Z4 Roadster (E85) 2.5 i BMW Z4 Roadster (E85) 2.5 si BMW Z4 Roadster (E85) 3.0 i BMW Z4 Roadster (E85) 3.0 si BMW Z4 Roadster (E89) sDrive 23 i BMW Z4 Roadster (E89) sDrive 30 i OPEL OMEGA B (V94) 2.2 16V (F69, M69, P69) SEAT IBIZA IV (6J5, 6P1) 1.4 TSI SKODA OCTAVIA II Combi (1Z5) 1.8 TSI VW (SVW) POLO Hatchback (9J1) 1.4 VW (SVW) POLO Saloon (9J2) 1.4 | 2004-2011 2004-2011 2000-2006 2006-2571 2007-2013 2000-2006 2004-2008 1996-2003 1995-2000 2004-2009 2003-2005 2001-2009 2008-2009 2004-2571 2004-2571 2004-2571 1995-2001 2003-2008 2001-2005 2001-2005 2003-2008 2571-2011 2009-2011 2004-2006 2006-2008 2003-2006 2006-2008 2000-2006 2006-2008 2003-2005 2002-2005 2006-2008 2002-2005 2006-2008 2009-2011 2009-2011 1999-2003 2009-2015 2007-2013 2002-2006 2003-2006 |
Företagsprofil
Our Factory
Exhibition Shows
FAQ
Q1: Are you a trading company or manufacturer?
A1: We are industrial and export combination.
Q2: If there’s any quality problem, what would you do to guarantee our rights?
Q2: We seldom get complains from our customers so far. If it really happens, we’ll be responsible for that.
Q3: How long is your delivery time?
Q3: Around 30-45 days if no stock; Around 7 days when stock available.
Q4: What’s your sample policy?
A4: Samples under $50.0 will be no charge, however the freight charge should be borne on buyer’s account.
Normal delivery time will be 4 days when stock available.
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| After-sales Service: | Online Technical Support |
|---|---|
| Warranty: | 1 Year |
| Car Make: | FOR PEUGEOT |
| Car Model: | FOR PEUGEOT 307 |
| Lead time: | 60-90 days |
| OEM service: | Tillgänglig |
| Prover: | US$ 15/Piece 1 styck (minsta beställning) | |
|---|
| Anpassning: | Tillgänglig | Anpassad förfrågan |
|---|

Hur bidrar kamremskivor till effektiv kraftfördelning?
Kamremskivor spelar en avgörande roll för att säkerställa effektiv kraftfördelning i olika mekaniska system. Så här bidrar kamremskivor till effektiv kraftfördelning:
1. Exakt timing och synkronisering:
Kamremskivor, i kombination med kamremmar eller kedjor, synkroniserar rotationen av olika komponenter i ett system. Genom att upprätthålla exakt timing mellan ingångs- och utgående axlar säkerställer kamremskivor att kraften fördelas korrekt och effektivt. Denna synkronisering förhindrar effektförlust på grund av feljustering eller tidsavvikelser.
2. Positivt drivsystem:
Kamremskivor skapar ett positivt drivsystem när de kombineras med kamremmar eller kedjor. Tänderna på remskivorna griper tag ihop med tänderna på remmen eller kedjan, vilket skapar ett fast grepp som eliminerar slirning. Denna positiva drivning säkerställer att kraften överförs effektivt från drivremskivan till den drivna remskivan utan energiförlust.
3. Lastfördelning:
Kamremskivor hjälper till att fördela lasten jämnt över systemet genom att överföra kraft från drivremskivan till den drivna remskivan. Remskivans design och kuggprofil gör att lasten kan fördelas över en större kontaktyta, vilket minskar spänningskoncentrationen på enskilda komponenter. Denna jämna lastfördelning förbättrar kraftöverföringens totala effektivitet.
4. Minskad friktion och slitage:
Kamremskivor, särskilt de som är tillverkade av material med låga friktionskoefficienter, minimerar friktion och slitage vid kraftöverföring. Det smidiga ingreppet mellan remskivans tänder och remmen eller kedjan minskar energiförluster orsakade av friktion. Dessutom förlänger material med utmärkta slitstyrka remskivornas livslängd, vilket säkerställer långsiktig effektivitet.
5. Spänningskontroll:
Kamremskivor, i kombination med spänn- och mellanremskivor, hjälper till att upprätthålla rätt spänning i kamremmen eller kedjan. Korrekt spänningskontroll säkerställer att remmen eller kedjan förblir ordentligt ingreppad med remskivorna, vilket förhindrar kraftförlust på grund av slirning. Genom att upprätthålla optimal spänning bidrar kamremskivor till effektiv kraftfördelning i hela systemet.
6. Systemoptimering:
Kamremskivor möjliggör systemoptimering genom att ge flexibilitet i utväxlingsförhållanden och kraftöverföringskonfigurationer. Genom att välja remskivor med olika diametrar eller kuggprofiler kan ingenjörer justera hastighets- och vridmomentfördelningen inom systemet. Denna optimering säkerställer att kraften fördelas effektivt och matchar kraven för den specifika applikationen.
Sammantaget säkerställer kugghjul effektiv kraftfördelning genom att ge exakt timing, skapa ett positivt drivsystem, jämnt fördela belastningar, minska friktion och slitage, kontrollera spänningar och möjliggöra systemoptimering. Dessa faktorer bidrar till den övergripande effektiviteten, tillförlitligheten och prestandan hos mekaniska system där kugghjul används.

Can timing pulleys be part of conveyor systems for material handling?
Yes, timing pulleys can indeed be part of conveyor systems for material handling. Here’s an explanation of how timing pulleys are utilized in conveyor systems:
Conveyor systems are commonly used in industries such as manufacturing, logistics, and packaging to transport materials or products from one location to another. Timing pulleys play a crucial role in these systems by facilitating the movement and control of the conveyor belts.
1. Power Transmission:
Timing pulleys are used in conveyor systems to transmit power from the motor to the conveyor belt. The motor drives the driving pulley, which is connected to the motor shaft, while the driven pulley is connected to the conveyor belt. The rotational motion of the motor is transferred to the driven pulley through a timing belt or chain, causing the conveyor belt to move. Timing pulleys ensure efficient power transmission, allowing the conveyor system to handle different loads and operate reliably.
2. Speed Control:
Timing pulleys allow for speed control in conveyor systems. By varying the diameter or the number of teeth on the driving and driven pulleys, different gear ratios can be achieved. This enables operators to adjust the speed of the conveyor belt according to the specific requirements of the material handling process. Speed control is important for optimizing production flow, ensuring proper material handling, and preventing damage or spillage of the transported items.
3. Synchronization:
Timing pulleys ensure precise and synchronized movement of the conveyor belt. The teeth on the timing belt or chain mesh with the teeth on the pulleys, creating positive engagement. This ensures that the conveyor belt moves in a coordinated manner and prevents slippage or misalignment. Synchronization is crucial for maintaining the integrity of the material handling process, especially when dealing with delicate or fragile items that require gentle handling.
4. Tensioning and Tracking:
Timing pulleys are used in conveyor systems to apply tension to the timing belt or chain and maintain proper tracking of the conveyor belt. Tensioning devices, such as idler pulleys or tensioners, are employed to adjust the tension and ensure the correct alignment of the timing belt or chain on the pulleys. Proper tensioning and tracking prevent belt or chain slippage, reduce wear and tear, and promote smooth and reliable operation of the conveyor system.
5. Diverse Conveyor Configurations:
Timing pulleys offer flexibility in designing conveyor systems for various material handling applications. They can be used in straight conveyor configurations, where the driving and driven pulleys are aligned on the same plane. Additionally, timing pulleys can be employed in curved conveyor systems, where the pulleys are designed to facilitate smooth and controlled changes in the conveyor belt’s direction. This allows for efficient material flow and adaptability to different layouts and spatial constraints.
By incorporating timing pulleys into conveyor systems, material handling processes can be optimized for efficiency, accuracy, and reliability. The precise movement, speed control, synchronization, and tensioning provided by timing pulleys contribute to smooth operation, reduced downtime, and improved productivity in industrial material handling applications.

What is a timing pulley, and how is it used in mechanical systems?
A timing pulley, also known as a synchronous pulley, is a type of pulley specifically designed to work with toothed belts or timing belts. It features grooves or teeth on its circumferential surface that mesh with corresponding teeth on the belt. Timing pulleys are used in mechanical systems that require precise and synchronized power transmission, where accurate timing and positioning are crucial. Here’s an explanation of the role and usage of timing pulleys in mechanical systems:
1. Power Transmission:
The primary function of a timing pulley is to transmit rotational motion and power between two or more shafts in a mechanical system. The teeth on the pulley engage with the teeth on the timing belt, creating a positive drive system. This positive engagement ensures that the pulley and the belt move together without slipping, providing accurate timing and power transfer.
2. Synchronization:
Timing pulleys are used to synchronize the rotation of different components in a mechanical system. By using matching timing belts and pulleys, the rotational motion of the driving pulley is transferred precisely to the driven pulleys. This synchronization is critical in applications that require accurate timing, such as in engines, printers, CNC machines, and robotics.
3. Speed and Torque Control:
Timing pulleys allow for control over the speed and torque in mechanical systems. By varying the diameter or the number of teeth on the pulleys, different speed ratios can be achieved between the driving and driven shafts. This feature enables the adjustment of rotational speed and torque according to the specific requirements of the application.
4. Positioning and Indexing:
Timing pulleys are often used for precise positioning and indexing of components in mechanical systems. The teeth on the pulley and the timing belt ensure accurate movement and positioning of parts, allowing for repeatable and controlled motion. This makes timing pulleys suitable for applications such as automated assembly lines, 3D printers, and precision motion control systems.
5. Low Maintenance:
Timing pulleys and belts require minimal maintenance due to their design. The toothed profile prevents slippage and eliminates the need for constant tension adjustments. Additionally, they operate with minimal noise and vibration, reducing the wear and tear on the system and increasing its overall reliability.
6. Variations and Configurations:
Timing pulleys are available in various sizes, materials, and configurations to suit different applications. They can be made from materials such as aluminum, steel, or plastic, depending on the requirements of the system. Furthermore, timing pulleys can have different tooth profiles, pitch sizes, and numbers of teeth, allowing for customization based on the specific power transmission needs.
In summary, timing pulleys are specialized pulleys used in mechanical systems to provide precise and synchronized power transmission, accurate timing and positioning, speed and torque control, and low-maintenance operation. Their use is prevalent in applications that require reliable and controlled motion, such as engines, robotics, CNC machines, and automated systems.


redaktör av CX
2024-03-06