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China 15t timing belt drive pulley gear hdt 5m bore 5 pitch 5mm wide 16mm htd belts and pulleys v belt pulley chemical industry manufacturer

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pulley

What Is a Pulley?

The pulley is a wheel mounted on a shaft or axle. Its purpose is to support the movement of a cable that is taut. This cable transfers power to a shaft. However, there are certain safety precautions that you should follow when using a pulley. Read on to learn more! Listed below are common uses and their main parts. Listed below are some of the benefits of using a pulley.

Common uses of a pulley

A pulley is a common mechanical device used to increase the force needed to lift a heavy object. Most commonly, these devices are used in construction equipment. These machines use high-tension ropes to transfer heavy objects from one floor to another. Other common uses of a pulley include buckets and flagpoles. These devices are extremely useful in a wide range of applications. To learn more about the common uses of pulleys, keep reading.
A pulley is a wheel with grooves for holding rope. Its purpose is to change the direction and point at which a pulling force acts. It is usually used in sets to reduce the amount of force needed to lift a load, but the work involved is similar. Pulleys are also used in rock climbing devices. For many applications, a pulley is a vital part of construction.
The most common use of a pulley involves hoisting and lowering a flag. Other examples include clotheslines, bird feeders, and escalators. Pulleys are also commonly used on oil derricks. Many other common applications include hoisting and lowering garage doors. Pulley systems are also used in engines and cranes. For more information, check out our interactive pulley diagram!
Pulleys can also be used to lower total work required for a task. In many cases, a pulley will consist of two parts: the pulley hub and the shaft pulley. The hub clamps the shaft pulley, while the pulley itself is connected to the motor or other device. If you're looking for a pulley, it's important to learn how it works.
The most common uses for a pulley involve lifting heavy objects, and the mechanism used to lift them is known as a pulley. A pulley is an industrial device that uses two wheels to reduce the force needed to lift a weight. The pulley reduces this force by half by allowing the user to pull on the rope four times as far. The pulley also allows for a smaller lifting distance.

Main parts of a pulley

A pulley consists of the main element of a system. This is typically a cable, rope, belt, or chain. There are two basic types of pulleys - a Driver Pulley and a Follower Pulley. Pulleys are available in small and large sizes. The periphery part of the pulley is called the Face, and the protruding middle part is called the Crown. A pulley's face can be round, rectangular, or even "V" shaped.
The first pulley was created by the Greek mathematician Archimedes in the third century BCE. These simple machines are made of a rope, an axle, and a wheel. The pulley's end is attached to a person, object, or motor. These machines can be used in various tasks to lift heavy objects. The pulley is a great mechanical advantage for any lifter.
The ideal mechanical advantage of a pulley is defined by the number of rope segments that pull an object. The higher the number of loops on the rope, the higher the mechanical advantage. The greater the mechanical advantage, the less force is required to move the object. Likewise, the greater the distance the rope traverses, the higher the mechanical advantage of a pulley. There are several different types of pulley, depending on their combination of rope, wheel, and rope.
The basic components of a pulley are the face and hub, and the rope is threaded into the center of the pulley. The pulley is usually made of a rope and can be used to lift heavy weights. It can also be used to apply great force in any direction. Step pulleys have multiple faces, which are fixed in sequence. They can also increase the speed of the driven pulley.
A pulley is a simple machine consisting of a wheel, rope, or chain. These parts are crucial for making moving and lifting easier. Because they change the direction and magnitude of force, they can be a useful tool. Some pulleys even change direction. You can learn more about the pulley by downloading this resource today. The resources are designed to support the new 9-1 GCSEs in Design & Technology and Engineering.
pulley

Mechanical advantage

Pulleys have been used to move heavy objects for centuries. When two rope sections are used, the weight of a 100kg mass can be moved with only 500 newtons of force. Adding an extra pulley increases the mechanical advantage. If the pulley has two wheels, the distance between the rope sections and the wheel grooves is only half the distance, but the mechanical advantage still applies. Adding another pulley increases the mechanical advantage, but can be risky.
Mechanical advantage is the ratio of force used versus force applied. The calculations are made under the assumption that the ropes and weights do not elongate or lose energy due to friction. If the weights are very light, the mechanical advantage is greater than that in the real world. To calculate the mechanical advantage, the weight of the load to be lifted must be the same as the weight of the person using the pulley.
A single moveable pulley has a mechanical advantage of two. The weight passes around the pulley, and one end of the rope is attached to a fixed point. The pulling force is then applied to the other end of the rope. The distance the weight travels doubles, or halved, depending on the direction of the pulley. Adding a second pulley reduces the distance and the effort required to lift it.
There are several ways to calculate the mechanical advantage of a pulley system. Some methods are specific to certain types of systems, while others work for all systems. The T-Method is a good choice in many applications, as it calculates the units of tension for each rope segment. Once you have determined the input force, you need to determine the maximum force that will be applied to each component. A compound pulley, for example, will require 4 units of tension for each rope segment.
In simple terms, the effort is the amount of force needed to lift the load. This force is measured in newtons (N). A mechanical advantage is often presented without units. If the student does not have this unit, you may need to convert the units to newtons, since one kilogram is equal to 10 newtons. If you can't figure out the units of effort, you can use the KWL chart provided by the teacher.
pulley

Safety precautions

There are a few safety precautions you should take when using a pulley. First, always check the SWL (safe working load) before attaching anything to the pulley. This indicates the maximum weight and angle the pulley can safely handle. Second, make sure that your work area is free from people and debris. Third, wear a hard hat to protect your head from blows and falling objects.
Another important consideration is anchoring. Although the pulley reduces the weight of an object, it is not enough to eliminate the weight. This is especially true if you are hoisting a heavy object, such as a motorcycle or lawnmower. It is important to ensure that the anchoring point can support the entire weight of the load. It is also important to follow proper anchoring procedures when using a pulley to lift a motorcycle or lawnmower.
In addition to the safety latch, you should use a tag line to control the suspended load. Remember that a chain pulley block is necessary for vertical lifting. You should also wear personal protective equipment (PPE) while using a pulley to avoid injuries. If your workplace does not have an PPE policy, you should consider implementing a similar policy. These safety guidelines are a good start.
If you are using a pulley to lift heavy objects, make sure to wear gloves. Those who are not familiar with rope-pulling will have an easier time demonstrating how it works. If you are using a rope-pulley system in a classroom, be sure to follow lab safety guidelines. Wear cloth gloves, clear the area, and do not jerk the rope. In addition, never allow yourself to be pulled into the rope by an unfamiliar person.
Another important safety precaution when using a pulley is to ensure that the anchor point for your system is adequate to support the weight of the object being lifted. Check with the manufacturer of the pulley to find out what its weight limit is, as some types of pulleys are designed to lift much heavier weights than others. It is important to follow all manufacturer's instructions when using a pulley.

China 15t timing belt drive pulley gear hdt 5m bore 5 pitch 5mm wide 16mm htd belts and pulleys v belt pulley chemical industry manufacturer China 15t timing belt drive pulley gear hdt 5m bore 5 pitch 5mm wide 16mm htd belts and pulleys v belt pulley chemical industry manufacturer
editor by Cx 2023-06-21

China manufacturer Belt Tensioner & Pulleys for CZPT Px & Mkii Ranger 2.2 3.2 Drive Mazda Bt-50 Bk3q6a228bh Bk3q-6A228-Bh 1766642 Bb3q6a228ad with high quality

Product Description

Belt Tensioner & Pulleys For CZPT PX & MKII Ranger 2.2 3.2 Drive Mazda BT-50 BK3Q6A228BH BK3Q-6A228-BH 1766642 BB3Q6A228AD
Item specifics:

Product Name Tension pulley of fan belt
CAR MAKE FOR FORD
oem BK3Q-6A228BH
moq 50 pc
brand YIBAI
Delivery time 7-15 days

 

Vehicles this part fits

Make Model Year Variant Type Chassis Engine
Ford C-Max 2571 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2011 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2012 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2013 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2014 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2015 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2016 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2017 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2018 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2019 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2571 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford Fiesta 2001 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2002 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2003 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2004 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2005 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2006 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2007 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2008 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2008 Petrol Hatchback 1.4 FWD VI CB1,CCN 1388cc 71KW 97HP RTJA;RTJB;SPJA;SPJC;SPJE
Ford Fiesta 2009 Petrol Hatchback 1.4 FWD VI CB1,CCN 1388cc 71KW 97HP RTJA;RTJB;SPJA;SPJC;SPJE
Ford Fiesta 2571 Diesel Hatchback 1.4 TDCi FWD VI CB1,CCN 1399cc 51KW 70HP F6JD;KVJA
Ford Fiesta 2571 Petrol Hatchback 1.4 FWD VI CB1,CCN 1388cc 71KW 97HP RTJA;RTJB;SPJA;SPJC;SPJE
Ford Fiesta 2011 Diesel Hatchback 1.4 TDCi FWD VI CB1,CCN 1399cc 51KW 70HP F6JD;KVJA
Ford Fiesta 2011 Petrol Hatchback 1.4 FWD VI CB1,CCN 1388cc 71KW 97HP RTJA;RTJB;SPJA;SPJC;SPJE
Ford Fiesta 2012 Diesel Hatchback 1.4 TDCi FWD VI CB1,CCN 1399cc 51KW 70HP F6JD;KVJA
Ford Fiesta 2012 Petrol Hatchback 1.4 FWD VI CB1,CCN 1388cc 71KW 97HP RTJA;RTJB;SPJA;SPJC;SPJE
Ford Fiesta 2013 Diesel Hatchback 1.4 TDCi FWD VI CB1,CCN 1399cc 51KW 70HP F6JD;KVJA
Ford Focus 2004 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2004 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2005 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2005 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2006 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2006 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2007 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2007 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2008 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2008 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2009 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2009 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2571 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2571 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2011 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2011 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2012 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2012 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2012 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2013 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2014 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2015 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2016 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2017 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2018 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2019 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2571 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Galaxy 2006 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2006 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2007 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2007 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2007 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2008 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2008 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2008 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2009 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2009 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2009 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2571 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2571 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2571 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 120KW 163HP TXWA
Ford Galaxy 2571 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2011 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2011 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2011 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 120KW 163HP TXWA
Ford Galaxy 2011 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2012 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2012 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2012 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 120KW 163HP TXWA
Ford Galaxy 2012 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2013 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2013 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2013 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 120KW 163HP TXWA
Ford Galaxy 2013 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2014 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2014 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2014 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 120KW 163HP TXWA
Ford Galaxy 2014 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2015 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2015 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2015 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 120KW 163HP TXWA
Ford Galaxy 2015 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Mondeo 2007 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2008 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2009 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2571 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2011 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2012 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2013 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2014 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2015 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford S-Max 2007 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2008 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2009 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2571 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 120KW 163HP TXWA
Ford S-Max 2571 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2011 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 120KW 163HP TXWA
Ford S-Max 2011 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2012 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 120KW 163HP TXWA
Ford S-Max 2012 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2013 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 120KW 163HP TXWA
Ford S-Max 2013 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2014 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 120KW 163HP TXWA
Ford S-Max 2014 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Transit Connect 2006 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2007 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2008 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2009 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2571 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2011 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2012 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2013 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD

Company Profile:HangZhou CZPT Auto Parts Industry Co., Ltd is a family owned company, established in 2005.
As a real, direct and professional manufacture in China, CZPT has grown to become 1 of greatest manfacturer and exporter in Performance parts, include intake system, exhaust system, cooling system, interior&exterior parts etc.
We own a factory located in HangZhou, HangZhou, which has 8000 square meter, tens of machine, 150 workers, 15 person sales tean, 5 R&D department. Our customers cover North American, South American, Asia, Middle east and Europe. We export the millions of USD per year. Looking forward to have a nice cooperation with you
 Why Choose YiBai?
It's simple. The YiBai Company is built on delivering more Quality, Reliability, and Value than any other manufacturer. Whether supplying the world's automakers with reliable OE parts, or developing aftermarket replacement parts at or above spec, YiBai's line of products are built to deliver superior all-around performance every day.  

Aftermarket Parts Built At or Above Specification
The quality of YiBai parts is guaranteed because every component that leaves a YiBai factory has been designed with precision, manufactured to the strictest OE standards or above, and subjected to rigorous safety and performance tests. In the end, it all comes down to quality - that's what the YiBai name stands for.
Measure Everything for a First Time Fit
Our First Time Fit philosophy attracts attention throughout the automotive world, while our commitment to pushing technology into the future and continually sets us apart around the globe.First Time Fit is a promise that YiBai makes to the aftermarket, by providing products that are OE grade or better - and fits the first time.
Our Service
1. OEM Manufacturing welcome: Product, Package... 
2. Sample order 
3. We will reply you for your inquiry in 24 hours.
4. After sending, we will track the products for you once every 2 days, until you get the products. When you got the goods, test them, and give me a feedback.If you have any questions about the problem, contact with us, we will offer the solve way for you.

FAQ
Q1. What is your terms of packing?
A: Generally, we pack our goods in neutral white boxes and brown cartons. If you have legally registered patent, we can pack the goods in your branded boxes after getting your authorization letters.
Q2. What is your terms of delivery?
A: EXW, FOB CIF, DDU.
Q3. How about your delivery time?
A: Generally, it will take 15 to 20 days after receiving your advance payment. The specific delivery time depends on the items and the quantity of your order.
Q4. What is your sample policy?
A: We can supply the sample if we have ready parts in stock, but the customers have to pay the sample cost and the courier cost.

 

How to use the pulley system

Using a pulley system is a great way to move things around your home, but how do you use a pulley system? Let's look at the basic equations that describe a pulley system, the types of pulleys, and some safety considerations when using pulleys. Here are some examples. Don't worry, you'll find all the information you need in 1 place!
pulley

Basic equations of pulley systems

The pulley system consists of pulleys and chords. When the weight of the load is pulled through the rope, it slides through the groove and ends up on the other side. When the weight moves, the applied force must travel nx distance. The distance is in meters. If there are 4 pulleys, the distance the rope will travel will be 2x24. If there are n pulleys, the distance traveled by the weight will be 2n - 1.
The mechanical advantage of the pulley system increases with distance. The greater the distance over which the force is applied, the greater the leverage of the system. For example, if a set of pulleys is used to lift the load, 1 should be attached to the load and the other to the stand. The load itself does not move. Therefore, the distance between the blocks must be shortened, and the length of the line circulating between the pulleys must be shortened.
Another way to think about the acceleration of a pulley system is to think of ropes and ropes as massless and frictionless. Assuming the rope and pulley are massless, they should have the same magnitude and direction of motion. However, in this case the quality of the string is a variable that is not overdone. Therefore, the tension vector on the block is labeled with the same variable name as the pulley.
The calculation of the pulley system is relatively simple. Five mechanical advantages of the pulley system can be found. This is because the number of ropes supporting the load is equal to the force exerted on the ropes. When the ropes all move in the same direction, they have 2 mechanical advantages. Alternatively, you can use a combination of movable and fixed pulleys to reduce the force.
When calculating forces in a pulley system, you can use Newton's laws of motion. Newton's second law deals with acceleration and force. The fourth law tells us that tension and gravity are in equilibrium. This is useful if you need to lift heavy objects. The laws of motion help with calculations and can help you better understand pulley systems.
pulley

Types of pulleys

Different types of pulleys are commonly used for various purposes, including lifting. Some pulleys are flexible, which means they can move freely around a central axis and can change the direction of force. Some are fixed, such as hinges, and are usually used for heavier loads. Others are movable, such as coiled ropes. Whatever the purpose, pulleys are very useful in raising and lowering objects.
Pulleys are common in many different applications, from elevators and cargo lift systems to lights and curtains. They are also used in sewing machine motors and sliding doors. Garage and patio doors are often equipped with pulleys. Rock climbers use a pulley system to climb rocks safely. These pulley systems have different types of pinions that allow them to balance weight and force direction.
The most common type of pulley is the pulley pulley system. The pulley system utilizes mechanical advantages to lift weight. Archimedes is thought to have discovered the pulley around 250 BC. in ancient Sicily. Mesopotamians also used pulleys, they used ropes to lift water and windmills. Pulley systems can even be found at Stonehenge.
Another type of pulley is called a compound pulley. It consists of a set of parallel pulleys that increase the force required to move large objects. This type is most commonly used in rock climbing and sailing, while composite pulleys can also be found in theater curtains. If you're wondering the difference between these 2 types of pulleys, here's a quick overview:

Mechanical Advantages of Pulley Systems

Pulley systems offer significant mechanical advantages. The ability of the system to reduce the effort required to lift weights increases with the number of rope loops. This advantage is proportional to the number of loops in the system. If the rope had only 1 loop, then a single weight would require the same amount of force to pull. But by adding extra cycles, the force required will be reduced.
The pulley system has the advantage of changing the direction of the force. This makes it easier to move heavy objects. They come in both fixed and mobile. Pulleys are used in many engineering applications because they can be combined with other mechanisms. If you want to know what a pulley can do, read on! Here are some examples. Therefore, you will understand how they are used in engineering.
Single-acting pulleys do not change direction, but compound pulleys do. Their mechanical advantage is six. The compound pulley system consists of a movable pulley and a fixed pulley. The mechanical advantage of the pulley system increases as the number of movable wheels decreases. So if you have 2 wheels, you need twice as much force to lift the same weight because you need a movable pulley.
The mechanical advantage of a pulley system can be maximized by adding more pulleys or rope lengths. For example, if you have a single pulley system, the mechanical advantage is 1 of the smallest. By using 2 or 3 pulleys, up to 5 times the mechanical advantage can be achieved. You can also gain up to 10 times the mechanical advantage by using multiple pulley systems.
The use of a single movable pulley system also adds to the mechanical advantage of the pulley system. In this case, you don't have to change the direction of the force to lift the weight. In contrast, a movable pulley system requires you to move the rope farther to generate the same force. Using a compound pulley system allows you to lift heavy loads with ease.
pulley

Safety Issues When Using Pulley Systems

Pulleys have an incredibly unique structure, consisting of a disc with a groove in the middle and a shaft running through it. A rope or cord is attached to 1 end of a pulley that turns when force is applied. The other end of the rope is attached to the load. This mechanical advantage means that it is much easier to pull an object using the pulley system than to lift the same object by hand.
Although pulley systems are a common part of many manufacturing processes, some employers do not train their workers to use them properly or install protection to prevent injury. It is important to wear proper PPE and follow standard laboratory safety practices during pulley system activities. Make sure any support structures are strong enough to handle the weight and weight of the rope or rope. If you do fall, be sure to contact your employer immediately.

China manufacturer Belt Tensioner & Pulleys for CZPT Px & Mkii Ranger 2.2 3.2 Drive Mazda Bt-50 Bk3q6a228bh Bk3q-6A228-Bh 1766642 Bb3q6a228ad with high qualityChina manufacturer Belt Tensioner & Pulleys for CZPT Px & Mkii Ranger 2.2 3.2 Drive Mazda Bt-50 Bk3q6a228bh Bk3q-6A228-Bh 1766642 Bb3q6a228ad with high quality

China OEM Belt Tensioner & Pulleys for CZPT Px & Mkii Ranger 2.2 3.2 Drive Mazda Bt-50 Bk3q6a228bh Bk3q-6A228-Bh 1766642 Bb3q6a228ad near me supplier

Product Description

Belt Tensioner & Pulleys For CZPT PX & MKII Ranger 2.2 3.2 Drive Mazda BT-50 BK3Q6A228BH BK3Q-6A228-BH 1766642 BB3Q6A228AD
Item specifics:

Product Name Tension pulley of fan belt
CAR MAKE FOR FORD
oem BK3Q-6A228BH
moq 50 pc
brand YIBAI
Delivery time 7-15 days

 

Vehicles this part fits

Make Model Year Variant Type Chassis Engine
Ford C-Max 2571 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2011 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2012 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2013 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2014 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2015 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2016 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2017 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2018 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2019 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford C-Max 2571 Diesel MPV 1.6 TDCi FWD II DXA/CB7,DXA/CEU 1560cc 85KW 115HP T1DA;T1DB
Ford Fiesta 2001 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2002 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2003 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2004 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2005 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2006 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2007 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2008 Diesel Hatchback 1.4 TDCi FWD V JD_,JH_ 1399cc 50KW 68HP F6JA;F6JB
Ford Fiesta 2008 Petrol Hatchback 1.4 FWD VI CB1,CCN 1388cc 71KW 97HP RTJA;RTJB;SPJA;SPJC;SPJE
Ford Fiesta 2009 Petrol Hatchback 1.4 FWD VI CB1,CCN 1388cc 71KW 97HP RTJA;RTJB;SPJA;SPJC;SPJE
Ford Fiesta 2571 Diesel Hatchback 1.4 TDCi FWD VI CB1,CCN 1399cc 51KW 70HP F6JD;KVJA
Ford Fiesta 2571 Petrol Hatchback 1.4 FWD VI CB1,CCN 1388cc 71KW 97HP RTJA;RTJB;SPJA;SPJC;SPJE
Ford Fiesta 2011 Diesel Hatchback 1.4 TDCi FWD VI CB1,CCN 1399cc 51KW 70HP F6JD;KVJA
Ford Fiesta 2011 Petrol Hatchback 1.4 FWD VI CB1,CCN 1388cc 71KW 97HP RTJA;RTJB;SPJA;SPJC;SPJE
Ford Fiesta 2012 Diesel Hatchback 1.4 TDCi FWD VI CB1,CCN 1399cc 51KW 70HP F6JD;KVJA
Ford Fiesta 2012 Petrol Hatchback 1.4 FWD VI CB1,CCN 1388cc 71KW 97HP RTJA;RTJB;SPJA;SPJC;SPJE
Ford Fiesta 2013 Diesel Hatchback 1.4 TDCi FWD VI CB1,CCN 1399cc 51KW 70HP F6JD;KVJA
Ford Focus 2004 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2004 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2005 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2005 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2006 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2006 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2007 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2007 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2008 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2008 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2009 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2009 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2571 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2571 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2011 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2011 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2012 Diesel Estate 2.0 TDCi FWD II DA_,DS,FFS 1997cc 100KW 136HP G6DA;G6DB;G6DD;G6DG
Ford Focus 2012 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2012 Petrol Hatchback 1.6 FWD II DA_,DP,HCP 1596cc 74KW 100HP HWDA;HWDB;SHDA;SHDB;SHDC
Ford Focus 2013 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2014 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2015 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2016 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2017 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2018 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2019 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Focus 2571 Diesel Hatchback 1.6 TDCi ECOnetic FWD III -- 1560cc 77KW 105HP NGDA;NGDB
Ford Galaxy 2006 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2006 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2007 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2007 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2007 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2008 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2008 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2008 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2009 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2009 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2009 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2571 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2571 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2571 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 120KW 163HP TXWA
Ford Galaxy 2571 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2011 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2011 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2011 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 120KW 163HP TXWA
Ford Galaxy 2011 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2012 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2012 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2012 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 120KW 163HP TXWA
Ford Galaxy 2012 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2013 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2013 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2013 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 120KW 163HP TXWA
Ford Galaxy 2013 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2014 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2014 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2014 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 120KW 163HP TXWA
Ford Galaxy 2014 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Galaxy 2015 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 100KW 136HP AZWC;UKWA
Ford Galaxy 2015 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 103KW 140HP QXWA;QXWB;QXWC;UFWA
Ford Galaxy 2015 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 120KW 163HP TXWA
Ford Galaxy 2015 Diesel MPV 2.0 TDCi FWD II WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Mondeo 2007 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2008 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2009 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2571 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2011 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2012 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2013 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2014 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford Mondeo 2015 Diesel Hatchback 2.0 TDCi FWD IV BA7 1997cc 103KW 140HP QXBA;QXBB;UFBA;UFBB
Ford S-Max 2007 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2008 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2009 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2571 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 120KW 163HP TXWA
Ford S-Max 2571 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2011 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 120KW 163HP TXWA
Ford S-Max 2011 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2012 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 120KW 163HP TXWA
Ford S-Max 2012 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2013 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 120KW 163HP TXWA
Ford S-Max 2013 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford S-Max 2014 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 120KW 163HP TXWA
Ford S-Max 2014 Diesel MPV 2.0 TDCi FWD -- WA6 1997cc 85KW 115HP KLWA;TYWA
Ford Transit Connect 2006 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2007 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2008 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2009 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2571 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2011 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2012 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD
Ford Transit Connect 2013 Diesel Van/MPV 1.8 TDCi FWD -- P65_,P70_,P80_ 1753cc 81KW 110HP RWPA;RWPB;RWPC;RWPD

Company Profile:HangZhou CZPT Auto Parts Industry Co., Ltd is a family owned company, established in 2005.
As a real, direct and professional manufacture in China, CZPT has grown to become 1 of greatest manfacturer and exporter in Performance parts, include intake system, exhaust system, cooling system, interior&exterior parts etc.
We own a factory located in HangZhou, HangZhou, which has 8000 square meter, tens of machine, 150 workers, 15 person sales tean, 5 R&D department. Our customers cover North American, South American, Asia, Middle east and Europe. We export the millions of USD per year. Looking forward to have a nice cooperation with you
 Why Choose YiBai?
It's simple. The YiBai Company is built on delivering more Quality, Reliability, and Value than any other manufacturer. Whether supplying the world's automakers with reliable OE parts, or developing aftermarket replacement parts at or above spec, YiBai's line of products are built to deliver superior all-around performance every day.  

Aftermarket Parts Built At or Above Specification
The quality of YiBai parts is guaranteed because every component that leaves a YiBai factory has been designed with precision, manufactured to the strictest OE standards or above, and subjected to rigorous safety and performance tests. In the end, it all comes down to quality - that's what the YiBai name stands for.
Measure Everything for a First Time Fit
Our First Time Fit philosophy attracts attention throughout the automotive world, while our commitment to pushing technology into the future and continually sets us apart around the globe.First Time Fit is a promise that YiBai makes to the aftermarket, by providing products that are OE grade or better - and fits the first time.
Our Service
1. OEM Manufacturing welcome: Product, Package... 
2. Sample order 
3. We will reply you for your inquiry in 24 hours.
4. After sending, we will track the products for you once every 2 days, until you get the products. When you got the goods, test them, and give me a feedback.If you have any questions about the problem, contact with us, we will offer the solve way for you.

FAQ
Q1. What is your terms of packing?
A: Generally, we pack our goods in neutral white boxes and brown cartons. If you have legally registered patent, we can pack the goods in your branded boxes after getting your authorization letters.
Q2. What is your terms of delivery?
A: EXW, FOB CIF, DDU.
Q3. How about your delivery time?
A: Generally, it will take 15 to 20 days after receiving your advance payment. The specific delivery time depends on the items and the quantity of your order.
Q4. What is your sample policy?
A: We can supply the sample if we have ready parts in stock, but the customers have to pay the sample cost and the courier cost.

 

The Mechanical Advantage of a Pulley

A pulley is an important tool for many tasks. The advantage that it offers over a hand-held mechanism is its mechanical advantage. In this article, we'll discuss the types of pulleys and their applications. We'll also look at the types of compound pulleys. And, of course, there's a little bit about the mechanical advantage of a pulley. This article will help you decide whether this tool is right for your needs.
pulley

Mechanical advantage of a pulley

A pulley has a mechanical advantage over a lever because it is able to produce more force over longer distances. The mechanical advantage of a pulley sounds brilliant and could produce energy. But what exactly is this mechanical advantage? Let's take a look. First, consider how a pulley works. A rope supports a 100kg mass, which requires 500 newtons of force to lift. If the rope supports a 100kg mass, 2 sections of rope can support that load. Using a pulley, you can lift the same weight with half the force.
A pulley's ideal mechanical advantage is the ratio of the force applied to the total length of the rope. The larger the radius, the greater the mechanical advantage. A pulley made up of 4 rope segments has an ideal mechanical advantage of four. Therefore, a four-segment pulley would multiply the force applied by four. As the numbers on the rope segments are smaller than the total length of the rope, it would be better to use a compound pulley.
The mechanical advantage of a pulley can be calculated by using the T-method. The first step in calculating the mechanical advantage of a pulley is defining the force you need to lift. Then, divide that force by 2 to calculate the amount of force you need to lift the load. Once you know this amount, you can design a pulley to meet your needs. That way, you can achieve the perfect balance between the 2 types of pulleys.

Types of pulleys

The main function of the pulley is to change the direction of the force. The mechanical advantages of a single pulley are two. Ideally, 2 pulleys should have 2 or more mechanical advantages. The mechanical advantage of compound pulleys can be increased to 2 or more. The number of pulleys that make up the composite pulley will determine the mechanical advantage. Certain types of pulleys are combined in 1 housing.
A stepped pulley is a set of pulleys with stepped surfaces. Each face is anchored to the mid-axis in an ordered sequence. This design gives these pulleys their name. They are used to increase and decrease the speed of the driven pulley. Step pulleys are usually used in pairs. They can be straight or stepped, but usually come in pairs.
The 3 main types of pulleys are pulleys, rope pulleys, and chain pulleys. Pulley Pulley systems use mechanics to lift and lower heavy objects. The Greek historian Plutarch credits the invention of the pulley to Archimedes of ancient Sicily. The Mesopotamians used rope pulleys to lift water around 1500 BC, and Stonehenge is said to have been built using a rope pulley system.
pulley

Application of pulley system

The advantages of using a pulley system are numerous. The ability to lift heavy objects is a good example. The pulley system makes it easy for people to lift blocks and other large objects. It can be used in many different applications, from utility elevators to construction cranes. In addition, it is widely used on sailing boats. If you want to learn more about the benefits of a pulley system, keep reading!
You can use the pulley system to water flowers or water plants. Some of them even lowered the pot to make cleaning easier. Pendant lights are another great place to install a pulley system. Climbing and fishing are just some of the activities that utilize the pulley. They are great for fishing and gardening. And since they are so versatile, you can use the pulley system anywhere.
To get the most out of your pulley system, you must choose a product that has all of the above attributes. A high-quality pulley must have a large pulley diameter and be made of sturdy materials. The cables must also be properly supported in the pulleys to ensure a long service life for your investment. A good cable should have minimal cracks and be lubricated. These factors are the most important considerations when choosing a pulley system for your needs.

composite pulley

Composite pulley systems combine 2 or more movable pulleys. These systems maximize the force to move the weight and can also change direction so they can be used to lift weights. Composite pulley systems can be as simple or as complex as your needs. For example, a pulley pulley system uses multiple pulleys on each axis. This method is often used for hoisting building materials.
A compound pulley system has 2 or more rope segments, each of which is pulled up on a load. It can increase lift by making objects move faster. These systems are common on large sailboats and construction sites. Composite pulleys are also available for larger boats. Due to their versatility, they are versatile tools for construction sites and large sailboats. If you have their app, you should consider buying one.
The main advantage of composite pulleys is their versatility. You can use them to lift weights or use them to save energy. Composite pulleys are especially useful for lifting heavy objects. For example, you can tie a paper clip to the end of the rope and pull it up. The flag is then lifted into the air with the help of compound pulleys. Composite pulleys are a great invention and they are often used in construction.

security considerations

There are several safety considerations to consider when using pulleys. The first is Secure Workload (SWL). This value is a general guideline for the maximum weight a pulley can safely handle. It varies according to the height and angle of the pulley. Besides SWL, there are some other factors to consider. Consider each 1 before deciding on the pulley that best suits your needs.
Another safety consideration is the weight of the load. Since the highs of the pulley are higher than the lows, it doubles in weight. The weight of the high point should not exceed 4 kN. The safety factor is calculated by multiplying the strength of the pulley by the weight of the load. Secondary COD has a safety factor of 10:1 and bulletproof primary anchors should be used with pulleys.
If using a chain hoist, you must be trained in the appropriate type of lifting. It is important not to hang on the top hooks of the structure, nor to overload or rig the hooks with multiple slings. You should also avoid corroded or damaged chains, as they can cause the crane to jam or overload. A worn chain can even cause the load to drop.
pulley

Components of a pulley system

Proper design of the pulley system can increase the life of the cables and pulleys. Larger diameter cables should be selected as they are more durable than smaller diameter cables. The cables should also be supported in the pulley grooves. The pulley must be designed to be compatible with the cable and its lubrication should be optimal. Proper lubrication of cables and pulleys will ensure maximum durability and longevity.
The first type of pulley is called a fast pulley. These pulleys are used for quick start and stop of the machine. These pulleys are usually mounted in pairs on the countershaft of the machine. One pulley is tightly mounted on the machine shaft, while the other pulley is fitted with a free-spinning mechanism. When the machine is running, the belt is mounted on the tensioner pulley, and when it is stopped, the belt slides on the independent pulley.
Composite pulley sets reduce the overall effort required by reducing the size of the pulley. These are usually attributed to Archimedes. Flat pulleys are often used in flat belt driven transmission systems. These are used in high-speed, low-power applications. Flat pulley idlers are also used on the back of traditional V-belts.

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China supplier Timing Belt Pulleys Sheave Industrial Tensioner Taper Bush Zero Backlash Aluminium Cast Iron Motor Conveyor Tractor Flat Bore V Groove Drive V-Belt Pulley with Good quality

Product Description

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V-Belt Pulley:

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Overview of Different Types of Pulleys

A pulley is a wheel mounted on a shaft or shaft. Its purpose is to facilitate the movement or change of direction of the cable or taut rope, and to transmit power between the cable and the shaft. Pulleys are typically used for lifting, winding or forklift applications. If you are building your own pulley system, the following design and installation considerations should be followed. This article will give you an overview of the different types of pulleys.
pulley

Pulley System Mechanics

There are many different ways to utilize the mechanism of the pulley system. The most basic pulley system consists of a fixed wheel and a support frame. Both components are connected by ropes or cables used to support the load. A pulley system is effective when the force required to lift the load is less than the weight of the object being lifted.
One way to use a pulley system is to suspend a block with a mass of 0.80 kg on a fixed pulley. Then another person can hang a bucket weighing up to 40kg. The weight of the bucket is transferred to the fixed pulley. The rope is attached to the pulley by a loop or sling. The rope will spin and pull on the barrel or block.
The pulley system is also an important tool for lifting heavy objects. Pulleys are often used in construction equipment to make lifting heavy objects easier. Gun tackles, yard tackles, and stationary tackle systems are common examples of these devices. They use the mechanical advantage of the design to guide the force that lifts the object. If you want to learn more about pulley systems, visit Vedantu. This website will provide you with a full description of the mechanism and its application.

Types of pulleys

Many different types of pulleys are used to lift heavy objects. They change the direction of the force and are an integral part of the cable system. Therefore, pulleys can move large and heavy objects more easily. However, before buying a pulley, you should have an idea of ​​the benefits it brings. Below are some of the most common uses for pulleys.
Conical Pulley: Consists of several small conical pulleys connected to each other. The larger base of 1 pulley is used to guide the force. Round pulleys are used in the same way as step pulleys. They are widely used in industry and can be purchased at any hardware store. Pulleys are a huge investment, and the benefits they provide far outweigh the cost.
Movable Pulls: These are similar to their names, but work by allowing objects to move with the pull. Their movable parts are attached to the object to be lifted. They are also ideal for lifting heavy loads and can be found in utility elevators and construction cranes. They are also used in many other industries. They can also be made of wood, plastic or metal. The type of pulley you use depends on its intended use.

Mechanical Advantages of Pulley Systems

A pulley system is a simple machine that reduces the effort required to lift heavy loads. This mechanical advantage is proportional to the number of loops. For example, if you have a single rope loop, you must apply equal force to lift the weight. When you add another rope loop, you can lift heavier weights just by applying the same force. Therefore, a pulley system is an excellent way to use gravity to your advantage.
Mechanical advantage is a measure of the effectiveness of a pulley system. This ratio of force to work is called the mechanical advantage. In other words, if the rope system has a large mechanical advantage, it means that it requires less force to lift heavier loads. This advantage is usually measured in kilograms and is the same for all pulley systems. In general, the greater the mechanical advantage, the less effort is required to lift the load.
The mechanical advantage of a pulley system is that a single movable pulley requires half the force to lift an object than a single fixed pulley. Assuming frictionless bearings, the MA of a single pulley system is 2, similar to the MA of a single lever. A single pulley travels twice as much as it takes to move heavy objects manually.
pulley

Considerations when designing and installing a pulley system

The capacity of the pulley depends on the type and diameter of the cable. Besides its diameter, its sheath should also support it well. The basic function of the pulley is also important. However, most people tend to ignore the pulley selection process, resulting in ineffective load-pull capabilities. To avoid such problems, different parameters must be carefully considered during design and installation.
During the design and installation of the pulley system, the ratio of the cable diameter to the largest pulley diameter must be considered. Those who work in the industrial sector will have an idea of ​​this ratio. The greater the D:d ratio, the greater the capacity of the cable to withstand the load. The best way to ensure secure design is to take the right information and use it to design a system that is both robust and secure.
When designing a pulley system, it is important to remember that the pulley needs to have enough power to operate safely. In addition to horsepower, the belt should have sufficient elongation to absorb shock loads. If the elongation of the belt is very small, it is very likely that the teeth will be sheared or broken, causing serious damage to the system. Extensive belt sag should be compensated for by offsetting the driven pulley. Finally, the frame supporting the pulley should be rigid. Otherwise, the non-rigid frame will cause center distance and tooth skipping changes.

Add more pulleys to the system

Adding more pulleys to the spool might have some effect. The friction between the rope and the pulley increases with the number of pulleys, which in practice limits the number of spools. The best solution is to combine the pulleys into 1 housing. If the load is small enough, adding a few pulleys probably won't make a difference.
Using multiple pulleys allows a single load to be lifted with half the force required. The longer the rope, the greater the mechanical advantage. In fact, a spool can withstand a load of 100 N. Additionally, adding more pulleys quadrupled the mechanical advantage. In this case, a single 100 N load would require a force of 25 Newtons.
When the rope is used, it stretches as the weight of the object increases. This will make the rope longer, increasing its length and increasing the distance over which the load can be lifted. Eventually, the rope will break and the lifted object will fall. Then you will have to buy a new rope. It may seem like an expensive proposition, but it pays off in the long run.

cast iron pulley

Cast iron pulleys are the most popular choice among industrial users. They are made of solid cast iron and usually cost very little. Their rims are held in place by a mesh that extends from a central boss. They also have spokes and arms that hold them in place. These pulleys are ideal for a variety of applications including fan belts, compressors and conveyors.
V-groove drive pulleys are ideal for general purpose pulleys. It has an inner diameter of 1 inch and is commonly used in feeders and ventilation curtain systems. Its steel straps prevent rust and ensure it meets or exceeds industry standards. 3-1/2" cast iron pulleys are also available. In addition to the V-groove drive pulley, there are similar pulleys for power transmission. The V-groove drive pulley is powder coated for added durability.
The cross section of the arm is elliptical, with the long axis twice as long as the short axis. The radius of the arm is equal to the diameter of the pulley. The thickness of the arm is a key factor to consider when purchasing a pulley. If you're not sure which material you need, you can always consider wooden or steel pulleys. They are lighter and have a higher coefficient of friction than metal pulleys.
pulley

timing pulley

Plastic timing pulleys have many advantages over steel timing pulleys. On the 1 hand, they are lightweight and corrosion resistant, making them ideal for applications that do not require high torque and tensile strength. Another benefit is their resistance to high temperatures. Plastic timing pulleys are ideal for applications involving flammable gases, solvents or particles. They can last for many years. For more information on the different types of plastic timing pulleys.
Vertical shaft drives require flanged timing pulleys. For large span drives, at least 1 of these pulleys must be flanged. The flange provides a secure connection to the shaft and prevents ratcheting of the timing belt. Finally, HTD timing belt teeth prevent timing belt ratcheting. These teeth need a large enough space to be seated. However, they can also cause a backlash. These pulleys are not suitable for applications where positional accuracy is critical.
Timing belt systems are designed to avoid such problems. The drive shaft and the driven shaft are aligned with each other. The pulleys are located on different planes and are connected by pitch lines. The pitch line of the timing pulley coincides with the pitch line of the belt. These pulleys are also easier to implement and maintain. It is better to use a synchronous system because the resulting gear system emits less noise than other systems.

China supplier Timing Belt Pulleys Sheave Industrial Tensioner Taper Bush Zero Backlash Aluminium Cast Iron Motor Conveyor Tractor Flat Bore V Groove Drive V-Belt Pulley with Good qualityChina supplier Timing Belt Pulleys Sheave Industrial Tensioner Taper Bush Zero Backlash Aluminium Cast Iron Motor Conveyor Tractor Flat Bore V Groove Drive V-Belt Pulley with Good quality