Product Description
Product Description
High Quality Auto Spare Parts Car Accessories V-Ribbed Belt Tensioner with Tensioner Pulley for CZPT Nubira 1.8L for Korean cars
Water Pump for BUICK
Water Pump for CADILLAC
Water Pump for CHEVROLET
Water Pump for DAEWOO
Water Pump for LADA
Water Pump for LOTUS
Water Pump for OPEL
All kinds of car water pumps can be produced for you. Welcome to your inquiry.
MIC NO. | REF&OEM NO | APPLICATION | YEAR | PHOTO |
TB34OP8801 | 257815 CHEVROLET : 96184932 CHEVROLET : 96298799 CHEVROLET : 96435138 CHEVROLET : 96459042 DAEWOO : 96184932 DAEWOO : 96298799 DAEWOO : 96435138 DAEWOO : 96459042 OPEL : 134571 OPEL : 1340541 OPEL : 1340542 OPEL : 1340544 OPEL : 24412292 OPEL : 634571 OPEL : 9 0571 430 OPEL : 90448220 OPEL : 90505719 OPEL : 9 0571 129 SUZUKI : 9516085Z00 |
BUICK SKYLARK 2.4 CADILLAC BLS 2.0 T Flexpower CHEVROLET ALERO 2.4 16V CHEVROLET CAPTIVA (C100, C140) 2.4 CHEVROLET EPICA (KL1_) 2.0 CHEVROLET EVHangZhou 2.0 CHEVROLET LACETTI (J200) 1.8 CHEVROLET NUBIRA Estate 1.8 CHEVROLET REZZO MPV (U100) 2.0 CHEVROLET ZAFIRA (F75) 2.0 DAEWOO EVHangZhou (KLAL) 2.0 DAEWOO LEGANZA (KLAV) 2.0 16V DAEWOO NUBIRA (J100) 2.0 16V DAEWOO NUBIRA Saloon (J100) 2.0 16V DAEWOO NUBIRA Saloon (J200) 1.8 DAEWOO NUBIRA Wagon (J100) 1.6 16V DAEWOO NUBIRA Wagon (J200) 1.8 DAEWOO REZZO (U100) 2.0 LADA 110 (2110) 2.0 i (21106) LOTUS EUROPA S 2.0 Turbo OPEL ANTARA (L07) 2.4 OPEL ASTRA F (T92) 1.4 (F19, M19) OPEL ASTRA F (T92) 1.6 (F19, M19) OPEL ASTRA F (T92) 1.8 i (F19, M19) OPEL ASTRA F (T92) 2.0 i (F19, M19) OPEL ASTRA F CLASSIC Estate (T92) 1.6 i 16V (F35, M35) OPEL ASTRA F CLASSIC Hatchback (T92) 1.6 i 16V (F08, M08, F68, M68) OPEL ASTRA F CLASSIC Saloon (T92) 1.6 i 16V (F19, M19) OPEL ASTRA F Convertible (T92) 1.4 i 16V OPEL ASTRA F Convertible (T92) 1.6 i OPEL ASTRA F Convertible (T92) 1.8 i 16V OPEL ASTRA F Convertible (T92) 2.0 i OPEL ASTRA F Estate (T92) 1.4 (F35, M35) OPEL ASTRA F Estate (T92) 1.6 (F35, M35) OPEL ASTRA F Estate (T92) 1.8 i (F35, M35) OPEL ASTRA F Estate (T92) 2.0 i (F35, M35) OPEL ASTRA F Hatchback (T92) 1.4 (F08, M08, F68, M68) OPEL ASTRA F Hatchback (T92) 1.6 (F08, M08, F68, M68) OPEL ASTRA F Hatchback (T92) 1.8 i (F08, M08, F68, M68) OPEL ASTRA F Hatchback (T92) 2.0 GSI 16V (F08, M08, F68, M68) OPEL ASTRA F Van (T92) 1.6 i (F70) OPEL ASTRA G Convertible (T98) 2.0 16V Turbo (F67) OPEL ASTRA H (A04) 2.0 Turbo (L48) OPEL CALIBRA A (C89) 2.0 i (M07) OPEL COMBO (71_) 1.4 OPEL CORSA B (S93) 1.4 i (F08, F68, M68) OPEL CORSA B (S93) 1.6 GSI 16V (F08, F68, M68) OPEL CORSA B Box (S93) 1.4 i (F08, W5L) OPEL FRONTERA A (U92) 2.2 i (54MWL4) OPEL FRONTERA A Sport (U92) 2.0 i (52SUD2, 55SUD2) OPEL FRONTERA B (U99) 2.2 i (6B_ZC, 6B_VF, 6B_66, 6B_76) OPEL OMEGA B (V94) 2.0 (F69, M69, P69) OPEL OMEGA B (V94) 2.2 16V (F69, M69, P69) OPEL SINTRA (APV) 2.2 i 16V (OUN16, Y94) OPEL SPEEDSTER (E01) 2.0 Turbo (R97) OPEL TIGRA (S93) 1.4 16V (F07) OPEL TIGRA (S93) 1.6 16V (F07) OPEL VECTRA A (J89) 1.6 i (F19, M19) OPEL VECTRA A (J89) 1.8 i Cat (F19, M19) OPEL VECTRA A (J89) 2.0 i (F19, M19) OPEL VECTRA A (J89) 2000 16V 4×4 (F19, M19) OPEL VECTRA A Hatchback (J89) 1.6 i (F68, M68) OPEL VECTRA A Hatchback (J89) 1.8 i (F68, M68) OPEL VECTRA A Hatchback (J89) 2.0 i (F68, M68) OPEL VECTRA B (J96) 1.6 i (F19) OPEL VECTRA B (J96) 2.0 i (F19) OPEL VECTRA B Estate (J96) 1.6 i (F35) OPEL VECTRA B Estate (J96) 1.8 i 16V (F35) OPEL VECTRA B Estate (J96) 2.0 i 16V (F35) OPEL VECTRA B Hatchback (J96) 1.6 i (F68) OPEL VECTRA B Hatchback (J96) 1.8 i 16V (F68) OPEL VECTRA B Hatchback (J96) 2.0 i 16V (F68) OPEL ZAFIRA / ZAFIRA FAMILY B (A05) 2.0 (M75) OPEL ZAFIRA A MPV (T98) 2.0 OPC (F75) |
1995-1999 2007- 1999-2004 2006- 2005-2006 2005- 2005- 2005-2009 2005- 2001-2012 2002- 2000-2004 1997- 2000- 2003- 1997-1999 2003- 2001-2004 1996-2000 2008- 2008-2011 1992-1998 1995-1998 1992-1998 1992-1998 1998-2005 1998-2002 1998-2002 1996-2001 1996-2001 1994-2001 1993-1994 1992-1998 1995-1998 1991-1998 1991-1994 1991-1993 1995-1998 1991-1998 1991-1998 1993-1996 2002-2005 2004-2571 1989-1996 1994-2001 1993-2000 1993-2000 1999-2000 1995-1998 1992-1998 1998-2004 1994-2000 1999-2003 1996-1999 2002-2006 1994-2000 1994-1998 1993-1995 1990-1995 1988-1990 1989-1990 1993-1995 1988-1990 1988-1990 1995-2002 1995-2002 1996-2000 1996-2000 1996-2000 1995-2003 2000-2003 1995-2000 2005-2571 2001-2005 |
Company Profile
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.
Types of V-Belt Drives
When evaluating drive technologies, you might want to consider a V-Belt. Not only can it improve the performance of an older drive, but it can save you time and money in the long run. Industry standard V-belts are prone to failing because of excessive wear, heat cracks, and stretching. Inefficient and downtime resulting from frequent retensioning and replacement can cost your company both time and money.
Cross-
A cross-belt for a V-Belt is a belt that is used in a conveyor system. This belt consists of 2 parts: an elastomer core and a fabric cover. The elastomer core is typically made of high-shock-resistant polyurethane. Different manufacturers have different synthetic rubber stocks, which may be used to prevent premature failure and extend the operating temperature range of the belt. Ideally, a well-engineered V-belt is stiff in the width and flexible along the length of the belt. The fabric covers are generally made of 2 different types of rubber, including compression and cushion rubber.
The diameter of the driver and driven pulleys are important considerations for choosing the right cross-belt for a V-belt. This will determine the belt length. The length should be proportional to the diameter of the drive shaft. Smaller diameters are better for smaller belts, which can increase elongation, which decreases the life of the belt. Larger diameters, on the other hand, can increase slippage, fluctuating force, and power loss.
Choosing the right V-belt for your vehicle is important, especially if you’re replacing a worn-out one. In some cases, the old V-belt may become too loose or a loop with a rubber-coated edge. You should measure the length of the belt before you buy it. Using a flexible english measuring tape, you can determine which size is best for your vehicle.
A cross-belt can increase power transmission by minimizing slipping. It also provides shock-absorption and increases the load capacity of the V-belt. It is the best option for heavy-duty machines where torque and power are critical. In some applications, this belt may be more effective than an open belt. If you use it for short distances, a cross-belt can be a better choice.
When choosing a V-belt, make sure to check the power ratio. The power of a belt depends on the initial tension applied to it. Also, the friction between the 2 mating surfaces is a factor. A V-belt with a high power density is not suitable for close-center applications. You can choose a narrow V-belt if you need a narrow belt for your machine.
U-shaped
The V-belt is a versatile belt used in countless industrial applications. Advancements in engineering have led to many different types of V-belts. Whether it’s a U-shaped belt or a double-sided V-belt, proper installation and maintenance are crucial for trouble-free operation. Below are some common V-belt specifications. Read on to learn more! The U-shaped V-belt is 1 of the most common.
A V-belt is a flexible, pliable machine element used to transmit power between 2 or more rotating shafts. Its cross-section is trapezoidal, so that as the tension increases on 1 side, the belt wedges into the groove on the opposite side. The increased friction between the 2 components results in a high torque transmission and minimal power loss from slippage. U-shaped V-belts are ideal for a variety of applications, from lawn mowers to cars.
The U-shaped V-belt is made of 2 parts: an elastomer core and a textile cover. The core is made from a flexible material with high flexural strength and shock resistance. The cover is made of textile material that is treated to create a chemical bond with the belt’s core material. This makes it pliable and strong while preventing the cover from becoming worn out or damaged.
Unlike flat belts, U-shaped V-belts are designed to fit into a U-shaped sheave, which increases their lateral rigidity. They also maintain their stability under shock and vibration loads. Their simplicity makes installation and tensioning much easier. The constructional components of a standard V-belt are illustrated in Figure 9. Each component has a vital role in the belt’s performance. Similarly, different materials can influence the belt’s performance.
As with any belt, proper tension is crucial. Having a loose belt causes slippage and rapid wear, which robs you of energy and productivity. Likewise, too much tension can cause premature belt wear. Proper tension is defined as the lowest level at which the belt does not slip or squeal under peak load. This tension range can still operate a drive, so it’s important to find the correct tension for your particular application.
Cogged
There are many advantages of a Cogged V-Belt. Its extra-thick construction allows for bends around smaller pulleys. It also runs cooler and lasts longer than a traditional V-belt. In addition, it has a higher coefficient of friction than a wrapped V-belt. Cogged V-Belts can also resist heat, making them an excellent choice for high-temperature applications.
A cogged V-Belt is also less likely to suffer from heat buildup, which can shorten the life of a standard belt and increase downtime and replacement costs. A Cogged V-Belt is more expensive than a wrap-molded belt, but it will pay for itself in as little as 1 month. Most synchronous belt conversions pay for themselves in less than 2 years. A longer payback time is typical with a larger system.
Cogged V-Belts are used in many applications, including in-line conveyors, gantry cranes, and wind turbines. The belt itself is composed of various types of rubber and reinforcements. They undergo tensile and compressive stresses as each segment of the belt passes through the pulley. Therefore, a different type of material is needed for the bottom side of the belt. The ideal material for this area should have a high coefficient of friction and increased wear resistance.
The Cogged V-Belt has a trapezium-shaped cross-section. The fabric cover resists heat and abrasion and helps protect the internal components of the v-belt. The different types of materials used in the fabric cover are patented. In some cases, the fabric cover is made of Kevlar or aramid fiber. This allows for smaller pulley diameters and more flexibility.
A Cogged V-Belt is made of 2 pieces of material. One is thick and includes a pitch line while the other has a slack side. The top is thicker and wider, while the bottom side has a lower pitch line. The slack side has a less pitch and more tension. Using a Cogged V-Belt will increase your productivity and help you save money.
Wedge
The Wedge V-Belt is 1 of the most popular types of drive belts available. The patented, narrow-profile design allows for lighter, thinner belts with greater transmission capabilities. The HY-T V-Belt is constructed with Vytacord tension members for strength and dimensional stability, and includes a cushion made of engineered rubber compound. This belt is ideal for high-speed, high-resistance applications, such as compressors, stone mills, and centrifugal pumps.
HY-T CZPT(r) belts have a continuous V-section, and a wide angle of flexibility. They provide torsional rigidity in long-center drives and are resistant to oil. The CZPT(r) belt is available in lengths up to 140 inches. Its free ribs wedge into the sheave groove to reduce belt whipping. This belt is also designed to fit into new designs and applications, so it’s compatible with virtually any type of drive.
The Wedge V-Belt is a popular choice in industrial applications. Its narrow profile reduces drive weight and space, allowing for higher horsepower. In addition, it can carry a higher load than a standard V belt. Its low cost and high efficiency make it a popular choice for many industrial applications. In addition to industrial settings, it is a popular choice in automotive and construction applications. While it may seem like a complicated belt design, the Wedge V-Belt is ideal for industrial use.
Wedge V-Belts have the same contact angle as the traditional v-belt, but have a narrow upper width. Their narrower upper width decreases their weight, which equalizes the tension on the tensile cord. The wedge-shaped design improves grip and increases wedge effect. Its durability is excellent, and it also features a cog shape for greater gripping power.
Wedge V-Belts are an efficient way to transmit power between 2 drives. They can move significant loads and can achieve very high speeds. The wedged shape of the belt allows it to wedge into the groove when the load increases. Moreover, it minimizes power loss due to slippage. If you want to get the most out of a Wedge V-Belt, make sure it is made of a material that resists heat and moisture.