Product Description

Engine 2NZ for CZPT zuiko timing Chain kit 

Product Description

SPECIFICATION DESCRIPTION :

Items	2NZ
Car make	For TOYOTA
Material	100% tested
Package details	Customized/Original/Neutral/ FL Brand Packing
MOQ	Samll Quantity Is Acceptable
Delivery time	3-7days in stock
Warranty	12 months
Color	as same picture

Advantages:
1.Quality warranty and competitive price
2.Fast delivery & good service
3.Durable and reliable working time
4.Long exporting history and 15 years experiences
5.Positive feedback from abroad market

DETAILED PICTURES: 

ABOUT OUR COMPANY :

Guangzhou CZPT Auto Parts Co,Ltd. is a professional and experienced manufacturer,specializing in auto engine parts for many years.
The main products  are full gasket kits, various of pistons & piston rings ,oil seal , Filters,spark plug ,engine mount ,Timing Chain kit , Main & con rod bearing etc. For most Japanese cars ,American cars and Korean Cars , also provide service customized samples and OEM. we are have high reputation of good quality and excellent service. We’re looking forward to importers to build up a long term business relationship with customers in worldwide. Welcome to contact us!

1:OUR TEAM
   The management have 20 years of experience in the industry.

2:OUR CUSTOMERS
Some customers have more than 10 years of partnership.

3:OUR WITH CUSTOMERS CHAT
   With customers Chat history
   and confirm the order ,
   and confirm for payment time
   and confirm delivery time ,
   and had payment the money.
   and talk other about the goods details.

4,certificate

RELATED PICTURES:

PRODUCT ADVANTAGES :

Packaging:
1,original packing
2,neutral packing 
3,packaging as customer require

PACKAGINIG & SHIPPING:

OUR  FACTORY :

OUR SERVICE & OUR PAYMENT :

1<< Specialize in engine parts, your inquiries will get highly                   attention and prompt responses within 24 hours.
2<< ISO9002,QS9000,TS16949 certificated.
3<<Experienced engineers and technicians to make customized           sample
4<< Low quantity accepted if they are ready stocks.
5<< HangZhous quality warranty
6<< Your after-sales questions will be taken good cares

OUR SERVICE & OUR PAYMENT :

FAQ:

Q:Are your products used worldwide?
A:Yes,we supply Mid-east,Africa,south America,south Asia,Ukraine,Italy,Australia and etc, Most engine parts are used universally in application.

Q:What is the MOQ?
A:Accept small quantity if the parts are ready stock.

Q:How about the delivery time?
A:5-7 working days for ready stocks,15-30 for production items.

Q:What packing can you provide?
A:Original,neutral,customized.

Q:What is your warranty policy?
A:100,000 HangZhous quality warranty. And we accept reasonable claim for aftermarket service.

                                                                   welcome to contact me 

 

The Advantages and Disadvantages of Neoprene Timing Belts

The timing belt is an important component of an automobile engine. Made of special materials, this belt coordinates the rotational motion of the crankshaft with the camshaft. The coordinated precision is essential for sustainable combustion, and ensures that the valves in the combustion chamber open at the right times. Timing belts determine the engine’s pace, so it is essential that they perform at high synchronicity and strong enough to operate in extreme conditions.

Fabric timing belt

A timing belt is made of a yarn that has been crimped and woven into a mating surface, called the engagement surface. This yarn, known as the warp, must be able to stretch from a substantially flat state along irregularities in the mold. It must be flexible enough to stretch by several tens of percent under low load conditions. The warp yarn of a timing belt is made of synthetic fiber and is crimped into the right shape to be stretched easily.
This fabric can be used without thickening the base cloth. It can contain a large number of warp threads, and its wear resistance can be enhanced over time. The timing belt of the present invention does not crack or wear out after a long time of use. The base cloth does not wear out, which allows the timing belt to last for a long time. This makes it an extremely durable material. To learn more, read on.
The teeth of a timing belt are made of tough rubber and a nylon fabric facing. The fabric is coated with a plastic compound that gives it its shape and covers the cord. The materials used to make these belts vary, but all are strong and durable. They are also suitable for high-load applications. In addition to nylon timing belts, strongbelt premiums are also available. In addition to nylon and neoprene timing belts, they are also compatible with RPP and HTD pulleys.
The teeth of timing belts are made of high-strength polychloroprene elastomer. The teeth are made of a special manufacturing process that ensures good adhesion. The facing fabric is made of low-elongation glass cord and is covered by a polyamide fabric that has a low coefficient of friction. If you need an exact fit, you can buy a high-quality belt from TransDev.

Neoprene timing belt

When it comes to dependable drive belts, neoprene is hard to beat. It’s widely used in insulated clothing and weather stripping, and has been a key component in the development of timing belts since the late 1970s. And because it’s so hardy, neoprene timing belts are incredibly reliable. Here are a few reasons why. Neoprene is the most durable synthetic material for timing belts, and these 3 reasons should not discourage you from purchasing a new neoprene timing belt.
Neoprene timing belts are made of a high-quality chloroprene compound with a hardness of 74 Shore A. The high-strength glass fiber strands in the belt’s body transmit high power while enhancing its flexural strength. In addition, it’s covered with a high-strength polyamide fabric to reduce friction and protect contact surfaces from wear and tear.
Unlike neoprene, polyurethane synchronous belts are resistant to temperature and abrasion. Polyurethane timing belts are resistant to acids and chlorides, and exhibit excellent abrasion resistance. A neoprene belt can be used in high-speed applications, and can withstand extreme temperatures. However, the resistance of polyurethane to abrasion is not as good as that of neoprene.
The 2 most common types of timing belts are rubber and urethane. Rubber is the least expensive and quietest, and is the least flexible of the two. Neoprene is also highly elastic and does not retain its shape when it’s stretched, making it a popular choice for applications in manufacturing, agriculture, and robotics. They are also great for applications where precision and motion control are important. These properties make timing belts extremely effective in leading the industry toward its goals.

Chain timing belt

Traditionally, a vehicle’s timing system consists of a timing belt or chain. These components keep the engine’s intake and exhaust valves in the proper order. When these components go bad, it can ruin the engine in seconds. But there are advantages and disadvantages to each of them. Read on to learn about the pros and cons of each type of timing system. Here are some examples. Chain: A timing belt is generally made of reinforced rubber.
Chain: A timing chain is generally found in heavy-duty vehicles with higher torque. This type of timing belt is also found on many cars and SUVs with 4 cylinder engines that do not require a lot of torque. Unlike timing belts, timing chains are more durable and will last longer than their rubber counterparts. But there are certain things to keep in mind when replacing a timing belt. Make sure to change the oil regularly to avoid premature wear.
Chain: A chain is easier to maintain than a timing belt. It does not change length in response to temperature. And it requires a smaller tensioner. However, this also means that the timing belt is more prone to breaking. It can jump out of place if oil is flowing along it, causing an engine malfunction. If this happens, you’ll have to replace the entire timing belt and the engine will not work correctly. That’s why replacing a chain is so important.
A timing belt is a critical part of an engine. A failed timing belt can cause catastrophic engine damage. It can slip and break, colliding with the piston and valves. Fortunately, there are a variety of ways to check your timing belt. But a good rule of thumb is to replace it as soon as possible. You’ll also need to remove the front engine cover and any other components that may be in the way. In some cases, the engine might even have to be moved.

Trapezoid shaped teeth

In terms of tooth profile, there are 2 main types of timing belts: the curvilinear and trapezoidal types. Curvilinear timing belts are more rounded and less likely to result in excessive tension loss. These types of timing belts are also more prone to backlash and reduce accuracy. Here’s how they differ from each other. These 2 types of belts share similarities but differ in important ways.
Older timing belts generally have trapezoidal-shaped teeth, but newer types use curved teeth. Curved teeth are less prone to wear out quickly and last longer than straight ones. The trapezoidal teeth also tend to wear out more quickly at higher speeds. As a result, they’re only suitable for cars that get very little use. If you’re planning on using your timing belt frequently, you may want to choose a new 1 with curved teeth.
Curvilinear teeth are designed to alleviate the stress concentrations caused by trapezoidal tooth profiles. They also have a greater depth and reduce ratcheting. In addition to their efficiency, curvilinear timing belts are quieter than their trapezoidal counterparts. And they’re a little bit more expensive than their trapezoidal counterparts. So, what’s the difference between these 2 types of teeth?
Timing belts have a tendency to favor the tracking of an “S”-shaped twist. As a result, a trapezoid-shaped timing belt is more likely to keep the engine in sync. A good quality timing belt will help you achieve this. If you don’t, consider replacing your timing belt with a metric-styled one. That way, you’ll get the best performance out of your belt.

Other types of timing belts

Timing belts are essential for operating your vehicle’s engine. These belts connect the engine’s crankshaft and camshaft. The belts synchronize the timing of the engine’s valves and pistons to prevent damage. Previously, the belt was referred to as the “gilmer drive belt.”
There are 3 basic designs for timing belts. Some are shaped like a trapezoid, while others have a curvy tooth shape. Timing belts with this tooth design are generally more efficient for force transmission, although they suffer from backlash. These teeth also wear quickly at high speeds, which can make them prone to noise. In order to solve these issues, manufacturers now offer belts with curved teeth.
Another popular type is polyurethane. These are resistant to oil and high temperatures, and are energy-efficient solutions. Polyurethane timing belts offer increased elasticity and load capacity, which are important for optimal torque production. These belts are favored by a variety of industries because of their ease of cleaning and maintenance. They can be used for power transmission systems, as well as in roller conveyor systems. However, fabric timing belts are best used when acceleration forces are high.
Other types of timing belts are not always as durable. V-Belts have teeth-like structures on their surfaces and work under constant speed. They are typically a lighter option, but have similar disadvantages. They are more expensive than chains and lack the flexibility of customizing. Unlike chains, timing belts are sold in predetermined length loops. Their pitch is easily identified. It is a key indicator of whether or not they are suitable for a specific application.

Product Description

High Quality Cam Timing Chain Xihu (West Lake) Dis. Rail OEM 14530-PNA-003

 

Product Specification

Item Name	Cam Timing Chain Xihu (West Lake) Dis. Rail
Part Number	14530-PNA-003
Size	Standard
Brand	FENGMING
MOQ	10PCS
Warranty	1 Year
Packing	1.Original Packing 2. Neutral Packing 3. CZPT brand Packing 4.Customized
Payment	L/C, T/T,  Western Union, Cash,Paypal,Alipay
Delivery	7-15 days for in stock items, 30-45  days for production items
Shipment	by DHL/ FEDEX/ TNT,  by sea,by air

Contact informations

Fengming Auto Parts CO., Ltd main products line:

1.Auto ignition system: Spark Plug, Ignition Coil
2.Suspension Parts: shock absorber, control arm, ball joint,stabilizer link, tie rod end, steering rack
3.Brake parts: brake pads, brake disc, brake master cylinder, wheel cylinder
4.Fuel pump, water pump, radiator, full gasket kit, engine belt

Customer Reviews:

95% positive testmonials from customers around the world. Fengming brand products’ quality, packing and Fengming service get excellent approval among customers. Seeing is believing!

What we can promise you?

 1. Manufacturing & Selling Integration
 2. Our companies located in HangZhou China which are in charge of different markets
 3. 1 Year warranty for Fengming brand products under normal use
 4. Unique Fengming brand packing: one Fengming poly bag plus one Fengming red box
 5. Competitive price with high & stable quality products
 6. Total 2,000 square meters warehouse to make sure fast delivery
 7. 10 years’ experience in researching, developing and supplying auto parts for Japanese cars since 2009

 

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.

Product Description

 

 

1984	Mazda	B2000	Sundowner Base Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1984	Mazda	B2000	Sundowner SE-5 Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1984	Mazda	B2000	Sundowner Sport Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1983	Mazda	626	Base Coupe 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1983	Mazda	626	Base Sedan 4-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1983	Mazda	626	LX Coupe 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1983	Mazda	626	LX Hatchback 4-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1983	Mazda	626	LX Sedan 4-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1983	Mazda	B2000	Sundowner Base Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1983	Mazda	B2000	Sundowner DLX Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1983	Mazda	B2000	Sundowner Sport Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1982	Ford	Courier	Base Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1982	Ford	Courier	Base Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1982	Ford	Courier	XLT Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1982	Ford	Courier	XLT Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1982	Mazda	626	Base Coupe 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1982	Mazda	626	Base Sedan 4-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1982	Mazda	626	LX Coupe 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1982	Mazda	626	LX Sedan 4-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1982	Mazda	B2000	Sundowner Base Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1982	Mazda	B2000	Sundowner DLX Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1982	Mazda	B2000	Sundowner Sport Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1981	Ford	Courier	Base Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1981	Ford	Courier	Base Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1981	Ford	Courier	XLT Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1981	Ford	Courier	XLT Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1981	Mazda	626	Base Coupe 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1981	Mazda	626	Base Sedan 4-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1981	Mazda	626	LX Coupe 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1981	Mazda	626	LX Sedan 4-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1981	Mazda	B2000	Base Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1981	Mazda	B2000	Sundowner Sport Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1981	Mazda	B2000	Sundowner Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1980	Ford	Courier	Base Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1980	Ford	Courier	Base Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1980	Ford	Courier	XLT Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1980	Ford	Courier	XLT Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1980	Mazda	626	Base Coupe 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1980	Mazda	626	Base Sedan 4-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1980	Mazda	B2000	Base Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1980	Mazda	B2000	Sundowner Sport Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1980	Mazda	B2000	Sundowner Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1979	Ford	Courier	Base Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1979	Ford	Courier	Base Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1979	Ford	Courier	XLT Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1979	Ford	Courier	XLT Standard Cab Pickup 2-Door	2.0L 1989CC 122Cu. In. l4 GAS SOHC Naturally Aspirated
1979	Mazda	626	Base Coupe 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1979	Mazda	626	Base Sedan 4-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1979	Mazda	B2000	Base Standard Cab Pickup 2-Door	2.0L 1970CC l4 GAS SOHC Naturally Aspirated
1978	Ford	Courier	Base Standard Cab Pickup 2-Door	1.8L 110Cu. In. l4 GAS SOHC Naturally Aspirated
1977	Ford	Courier	Base Standard Cab Pickup 2-Door	1.8L 110Cu. In. l4 GAS SOHC Naturally Aspirated
1976	Ford	Courier	Base Standard Cab Pickup 2-Door	1.8L 110Cu. In. l4 GAS SOHC Naturally Aspirated
1975	Ford	Courier	Base Standard Cab Pickup 2-Door	1.8L 110Cu. In. l4 GAS SOHC Naturally Aspirated
1974	Ford	Courier	Base	1.8L 110Cu. In. l4 GAS Naturally Aspirated
1974	Ford	Courier	Base	1.8L 1796CC 110Cu. In. l4 GAS SOHC Naturally Aspirated
1974	Ford	Courier	Base Standard Cab Pickup 2-Door	1.8L 110Cu. In. l4 GAS Naturally Aspirated
1974	Ford	Courier	Base Standard Cab Pickup 2-Door	1.8L 1796CC 110Cu. In. l4 GAS SOHC Naturally Aspirated
1973	Ford	Courier	Base	1.8L 110Cu. In. l4 GAS Naturally Aspirated
1973	Ford	Courier	Base	1.8L 1796CC 110Cu. In. l4 GAS SOHC Naturally Aspirated
1973	Ford	Courier	Base Standard Cab Pickup 2-Door	1.8L 110Cu. In. l4 GAS Naturally Aspirated
1973	Ford	Courier	Base Standard Cab Pickup 2-Door	1.8L 1796CC 110Cu. In. l4 GAS SOHC Naturally Aspirated
1972	Ford	Courier	Base	1.8L 110Cu. In. l4 GAS Naturally Aspirated
1972	Ford	Courier	Base	1.8L 1796CC 110Cu. In. l4 GAS SOHC Naturally Aspirated
1972	Ford	Courier	Base Standard Cab Pickup 2-Door	1.8L 110Cu. In. l4 GAS Naturally Aspirated
1972	Ford	Courier	Base Standard Cab Pickup 2-Door	1.8L 1796CC 110Cu. In. l4 GAS SOHC Naturally Aspirated
1972	Mazda	618	Base	1.8L 1796CC 110Cu. In. l4 GAS Naturally Aspirated
1972	Mazda	618	Base	1.8L 1796CC 110Cu. In. l4 GAS SOHC Naturally Aspirated

 

What to Look for in a Belt Tensioner

If you notice the power steering, air conditioning, or power steering stops working, chances are that your belt tensioner has been compromised. A compromised belt tensioner can be completely destroyed overnight, or it can last for a long time before it breaks. Either way, you should never drive with a faulty belt tensioner. It’s far better to have it replaced before the engine shuts down completely. In addition, replacing a belt tensioner will prevent other complications, such as power steering or air conditioning, from occurring.

Misaligned idler pulley

If the tensioner arm is not rotating freely or has an abnormal chirping noise, it could be the result of a misaligned idler pulley. If this is the case, replace the idler. If the idler does not move, you may need to adjust the accessory mount points or use a laser alignment tool. The tensioner arm is only 1 part of the tensioner.
A misaligned idler pulley on a belt tensioner is usually the cause of a squeaking noise. If this noise continues even after a replacement of the belt, it’s time to replace the whole belt. A misaligned idler pulley can also be the cause of premature belt wear. If the idler pulley is out of alignment, it could also cause the belt to wear too fast and lead to the premature failure of the timing belt.
The tensioner pulley is made of nylon, steel, or plastic. It may be flat or grooved. Before replacing it, check for any cracks, dents, or debris on the pulley’s surface. Plastic pulleys may have broken sidewalls. If the idler pulley is worn out, you might also notice squealing noises when the vehicle is in motion.
The misalignment of a belt is most pronounced when the span between the 2 pulleys is short. When the span is long, however, diagnosing the problem becomes more complicated. Small degrees of offset may not be visible to the naked eye, but a laser alignment tool can help identify these subtle variations. In order to identify a misaligned idler pulley on a belt tensioner, you must first determine its cause.
When the tensioner’s idler pulleys are out of line, a belt tensioner will not be able to properly adjust the torque that the belt is under. This may result in squealing noises. If this is the case, it is time to call a mechanic. He or she will be able to determine the cause and correct it. If you suspect the problem, your next step is to replace the idler pulley on the belt tensioner.
If the ribbed belt is not properly aligned, you may have a misaligned idler pulley. To fix the misalignment, locate the belt adjustment bolt underneath the hood. You should be careful not to damage the alternator or battery terminal while doing this task. If you do accidentally connect the battery positive to the earth, you might be able to damage the ribbed belt and ruin your vehicle’s timing.
Besides a misaligned idler pulley on the belt tensioner, another problem may be the alternator’s serpentine belt. If your car’s alternator belt is not aligned properly, you could have misaligned the alternator’s pulley or a worn-out bearing. Regardless of the cause of your problem, you should have the belt inspected.

Bad idler pulley

Having a Bad Idler Pulley on a Belt Tensioner? If this sounds familiar, then it’s probably time to change it. Idler pulleys slowly take hits while the engine is running, causing the belt to wrap and bend. Eventually, the belt will slip, and a new idler pulley should be installed to ensure optimal tension. But before you spend a dime on a new one, let’s talk about what to look for.
Symptoms of a Bad Idler Pulley: If the noise persists, there is a problem with the idler pulley or its bearing. These parts wear out over time and may eventually cause a cracked idler pulley or serpentine belt. Not only will the idler pulley create an irritating noise, but it will also damage the belt itself, leading to overheating, stalled engine, and even damage the head gaskets. Thankfully, a Bad Idler Pulley on a Belt Tensioner is easily replaced and will only cost about $40.
Although the Idler Pulley is not the most popular component on a car, it’s a critical part that ensures that the engine runs smoothly. It’s easy to overlook this part, but its failure can make it impossible for your vehicle to operate at its optimal level. Moreover, a Bad Idler Pulley on a Belt Tensioner will cause your engine to malfunction, so it’s essential that you check it at regular intervals.
If you notice a squealing noise while driving, the Idler Pulley is likely the culprit. Because of friction between the engine belt and idler pulley, the engine belt rubs against the pulley, causing it to squeak and make a clicking noise. This squealing noise will continue until the problem is repaired or replaced. It’s time to start addressing the problem before it becomes too late.
If you notice the tensioner pulley moving away from the engine, it’s most likely that the pulley is malfunctioning. A belt that is loose or slack may make it difficult to start the car, or your engine may even overheat. If this occurs, it’s crucial to replace the Idler Pulley as soon as possible, because a Bad Idler Pulley on a Belt Tensioner can seriously damage your vehicle.
The Idler Pulley facilitates the motion of the engine belt. It serves as a smooth rotating point that allows the belt to loop without a barrier. Over time, this part of the system will begin to show signs of wear and tear, and replacement is vital to protect your engine, serpentine belt, and other accessories. An early warning sign of a problem is a squealing sound coming from the engine area.

Broken tensioner arm

The belt tensioner is a piece of machinery that is used to keep the belt tight. If this part breaks, you can easily repair it yourself using a long-handled ratchet, serpentine belt tool, or a socket. To repair the tensioner, simply remove the drive belt from the pulley and rotate it to release tension. Check for roughness, resistance, or binding of the drive belt.
Noises caused by the tensioner are a sign of a damaged component or excessive oscillation. These noises are usually caused by worn internal components or the tensioner’s pivot bushing. In some cases, the vibration damping system or a worn-out alternator pulley could also be to blame. If this is the case, replace the pulley and tensioner together. To check the condition of your belt tensioner, follow these steps.
In addition to worn-out springs, a loose or broken pivot arm could be causing your belt to misalign. A worn-out tensioner pulley bushing will also cause vibrations, noise, and seizing. Lastly, a broken tensioner spring could be preventing the belt from maintaining proper tension. Broken springs are also prone to loss of tension due to heat. Damaged tensioner housing can also affect belt tension.
Once the belt is installed, you need to check the condition of the pulley and the tensioner arm. Make sure that the pulley is moving and that the arm is moving smoothly with the cranking and releasing. If the arm is wobbling, the tensioner is failing. If the pulley wobbles or excessive chattering occurs, the tensioner is failing. It can also be seized or jammed.
If the tensioner arm has broken, replace it. Replacing the tensioner can be a tedious task. Be sure to use a suitable tool to tighten the pulley and tensioner. If you are not sure of how to replace the pulley, try using a serp belt tool. Another good option is to purchase a 3/8 drive ratchet. If you don’t have this tool, you can use a long 3/8 extension and a deep socket.
The belt tensioner assembly can fall off the engine, causing damage to the timing belt. If you are replacing it, you must replace it with a new one, and tighten all of the mounting bolts before reinstalling it. To avoid further damage to the engine, ensure you replace the belt with a new tensioner and a new belt. The tensioner is bolted to the engine’s timing cover, so make sure you carefully tighten the bolts when replacing it.

Product Description

Subject	Auto Car Engine Parts Tensioner Timing Chain for CZPT Lexus 13540-50030
Item Name	Timing chain
Part number	13540-50030
Car Model	for CZPT Lexus
Material	Iron
MOQ	20pcs
Warranty	6 months
Price term	EXW HangZhou
Package	OEM packing
Payment	T/T, Western Union, PayPal, Moneygram
Delivery time	small order about 3-7 days,big order about 15-30 days
Shipping Way	Express like DHL/Airline/Sea/Land transportation
Sea Port	Hongkong

 

Choosing a V-Belt

When choosing a v-belt, you should understand the characteristics of each type and how they affect the performance of your machine. Listed below are the characteristics of Cogged, Narrow profile, and wide v-belts. Learn about the advantages and disadvantages of each. Choose the right v-belt for your machine to maximize its performance. Learn about the different materials used to make v-belts and how they influence the performance of your machine.

Narrow v-belts

While the flat belts are the most common type of v-belt, narrow v-belts are also a common option for industrial applications. These belts are similar to wedge belts in that they transmit heavier loads, but in a smaller form. Narrow v-belts are typically designated as 3V, 5V, and 8V and are denoted by their top width, multiplied by an eighth of an inch. Narrow v-belt sections conform to a wedge belt profile and are usually standardized by manufacturers. For example, section 3V corresponds to a wedge-type profile, while section 5V corresponds to SPB.
Both narrow and conventional v-belts are made of rubber stocks, which are generally composed of polymer or synthetic rubber. Fabric materials may be used to cover the stock material, adding a layer of reinforcement and protection. Narrow v-belts have a higher power rating than traditional V-belts. This is due to their greater depth-to-width ratio, which puts more of the reinforcing cord beneath the sheave.
The Wedge TLP ™ Narrow V-belt from Continental features a homogeneous one-piece design for maximum strength and long-term performance. These belts feature a high-denier cord and can handle significant horsepower increases. These belts are ideal for industrial applications. However, they are not as durable as their wider counterparts. The Wedge TLP is also an excellent choice for heavy-duty industrial applications.

Cogged v-belts

A key benefit of cogged v-belts is their ability to increase power output without sacrificing reliability. These belts are designed with precision-engineered cogs, which allow them to fit into smaller pulleys without reducing power output. Their raw-edge sidewalls and specially formulated EPDM rubber compound also help provide grip power. Cogged v-belts are manufactured by Carlisle(r) and offer several advantages over conventional belts.
The performance benefits of Cogged V-Belts are widely acknowledged. The company uses added-strength EPDM compounds in their belts to help reduce downtime and energy consumption. They are ideal for demanding applications such as power transmission. These belts are available in a variety of sizes and cross-sections. The section number of Cogged v-belts is H3V, H4V, and H5V.
The main difference between cogged v-belts and wedge belts is in the contact angle. While wedge and cogged v-belts have the same contact angle, the design and construction differs. Cogged v-belts typically include top and bottom layers of rubber, dampening rubber, tension cords, and top and bottom metal rings. Polychloroprene and polyester cords are common materials for the top and bottom layers, while aramid fibers are used for punishing applications.
Cogged v-belts are more flexible than traditional v-belts. Because of the slots on the belt surface, they reduce bending resistance. They are compatible with the same pulleys as standard v-belts, and run cooler and longer. They are also more efficient than standard V-belts. If you are considering a cogged V-belt for your application, it may be worth it to investigate the benefits of this belt type.

Wide v-belts

Variable-speed v-belts are wider in cross section than classical v-belts. The design of variable-speed v-belts varies depending on the manufacturer, but generally features a parallel top and bottom surface. This type of v-belt wedges tightly into its pulley’s grooves, reducing power loss and slippage. This type of v-belt is best suited to applications where speed changes frequently.
High-performance Wide V-belts feature a fibre-reinforced EPDM rubber base. The resulting supercharged EPDM mix is better suited for applications where the belts are subject to higher temperatures. This type of drive belt can also replace existing drives with ease and efficiency. CZPT offers a wide range of drive belts for all applications. For applications where slack is an issue, wrapped V-belts are a smart choice.
Narrow-V-belts, on the other hand, have a more favorable height-to-width ratio. This means that a narrow-V belt can be smaller while still providing the same power transmission. These belts also have a lower mass, which reduces centrifugal forces and enables higher speeds. However, narrow-V-belts are prone to wear, but are still a popular choice in many applications.
In addition to being more durable, wrapped-V-belts have fabric-coated edges for better heat resistance. The material covering wrapped-V-belts also protects them from damage from friction and external contaminants. Unlike their rigid counterparts, these wide-V-belts have an improved lifespan and require less maintenance and downtime. These are excellent alternatives to conventional v-belts. So, what are the benefits of Wide-V-belts?

Narrow profile v-belts

When it comes to choosing the best V-belt for your needs, it is important to understand the differences between narrow profile and classical. Narrow profile V-belts are generally narrower in cross-section than classical v-belts. This makes them ideal for high-speed compact drives and light-duty applications. The following section details the differences between narrow and classical v-belts.
The tensile cords, or “cords,” are embedded into the rubber compound. These cords are the main power-transmitting component of a narrow profile v-belt. The tension cords are located at the pitch diameter of the belt cross-section and increase the tensile strength. They are typically made of steel, aramid fibers, or polyester. The core is usually made of polyurethane, but other materials can be used.
When measuring the v-belt’s width, it is important to understand the various sign-codes. Some v-belts have the wrong sign-coding schema. For example, a classical profile belt should be read as Lw = 3522 mm, while a narrow profile belt should be read as La=3553mm. A narrow profile v-belt has a steeper side-wall, which increases the wedging action. Moreover, the narrow profile v-belt has higher load capacity.
Despite their name, narrow profile v-belts are the most widely used and versatile type of v-belts. They are also the easiest to install. Their general size is similar to that of a wedge, and their number is derived from their numerical prefix. A narrow profile v-belt with a 3L300 part number is 3/8″ wide and 300.0 inches long.

Wide profile v-belts

Wide profile v-belts are designed for heavy-duty applications where extreme performance is required. They are ideal for such applications due to their high-flexural strength and shock-resistance. They also come with many benefits, including good noise-reduction, increased sturdiness, and easy maintenance. This article explores the features of wide profile v-belts and how they can benefit your business.
Classical v-belts have an internal dimensional metric marking called the “CZPT.” This identifies each specific belt. Generally, this number is a combination of the normal profile size designation letter and the internal length in inches. The inside length of the v-belt is indicated on the index of the v-belt. To begin installing the v-belt, mark the floor where it will be hung. Tape the end stop marker to the first stick.
Narrow v-belts are narrower than standard wide v-belts. They are also available in raw-edge cogged profiles and are intended for light-duty applications. Narrow V-belts are also available in 4 sizes. Compared to standard wide profile v-belts, narrow v-belts are most appropriate for high-speed, compact drives. However, wide profile v-belts are generally longer than narrow V-belts.
A v-belt is composed of different types of rubber and reinforcements. It undergoes tensile and compressive stresses on both sides. The top side of a v-belt experiences longitudinal tensile force, while the bottom side is subjected to compression against a pulley. Moreover, the included angle of a v-belt section is 40 deg. Various types of v-belts are available according to their cross-sections and performance specifications.

Standard v-belts

If you are installing v-belts, you must know the right way to measure them. Many v-belts are mislabelled as classic or SPA. If you are unsure of which 1 to choose, you can refer to the standard v-belts index. The basic way to measure v-belts is by using a measuring tape or a cable tie. Using the right technique will ensure you get the right length.
A well-engineered V-belt is made from an elastomer core, which is a material that is resistant to abrasion. The elastomer core is usually composed of polyurethane, which has excellent flexural strength and shock resistance. In addition to the elastomer core, a fabric cover protects the core from wear and environmental forces. Its fabric cover is treated to form a chemical bond with the belt core, which increases the fabric’s resistance to constant bending.
The cross-section of a standard V-belt is commonly described as a trapezium, with its top and bottom sides parallel. Knowing the cross-section of a standard V-belt is essential in matching it with a pulley. It is also important to know how the v-belt is positioned on a pulley and how to select the right belt for the job.