China wholesaler Alternator Freewheel Pulley Bosch F00m991221 0121615003  Bosch0121615049  Bosch with Good quality

Product Description

 

 

 

 

Alternator freewheel pulleys
I.D.1 [ mm ] 17.00
O.D.1 [ mm ] 58.50
L.1 [ mm ] 39.00
L.2 [ mm ] 8.20
G. [ qty. ] 7
d. [ mm ] M16x1.5

###

Reference nb Producer
051.000.257 PSH
1111887 POWERMAX
130-02-210 ASHIKA
130210 JAPKO
2.05.0452.0 ZEN
219053 ERA
219106 ERA
23058202BN REAL
23058202OE REAL
235720 CARGO
24-91307 WAI / TRANSPO
24-91307-7 WAI / TRANSPO
27415-0L020 TOYOTA
27415-0L040 TOYOTA
28702 ZNP
3.5338.0 IKA
3.5338.1 IKA
330328 CARGO
335017 CARGO
370V1-1 NTN
5350128000 LUK
535012810 LUK
5452 ZEN
5531 ZEN
588057 VALEO
60-077 PAN PACIFIC
6C1Q-10344-AA FORD
81111887 POWERMAX
9,40113E+11 MAGNETI MARELLI
APB5720 KRAUF
APB9720 KRAUF
CCP90202 CASCO
CCP90202AS CASCO
CCP90202GS CASCO
CQ1041106 CQ
EC4037 WOODAUTO
F-556174.01 INA
F-556174.02 INA
F-623601 INA
F00M349878 BOSCH
F00M391108 BOSCH
F00M391121 BOSCH
F00M391123 BOSCH
F00M391125 BOSCH
F00M991221 BOSCH
F00M991916 BOSCH
F00M991939 BOSCH
INA535012810 WOODAUTO
P0132 GHIBAUDI
RA-210 JAPANPARTS
SCP90202 SANDO
U201-18-W10 MAZDA
ZN5452 ZEN
ZN5531 ZEN

###

Reference nb Producer
0121615003 BOSCH
0121615049 BOSCH
0121615103 BOSCH
0124315033 BOSCH
0124315034 BOSCH
0124315046 BOSCH
0125711005 BOSCH
0125711018 BOSCH
0125711046 BOSCH
0125711049 BOSCH
0125711103 BOSCH
0125711104 BOSCH
0125711133 BOSCH
0125711134 BOSCH
0125811015 BOSCH
0125811016 BOSCH
0125811085 BOSCH
0125811086 BOSCH
0986047920 BOSCH
1372737 FORD
1404792 FORD
1581844 FORD
1729366 FORD
1730987 FORD
1738113 FORD
1745662 FORD
1747017 FORD
1800123 FORD
1820604 FORD
1916724 FORD
2097255 FORD
270600L020 TOYOTA
270600L021 TOYOTA
270600L022 TOYOTA
270600L030 TOYOTA
270600L040 TOYOTA
270600L050 TOYOTA
270600L060 TOYOTA
270600L080 TOYOTA
270600L081 TOYOTA
270600L090 TOYOTA
270600L100 TOYOTA
270600L150 TOYOTA
270600L170 TOYOTA
2706030010 TOYOTA
2706030040 TOYOTA
2706030050 TOYOTA
2706030120 TOYOTA
2706030150 TOYOTA
2706030151 TOYOTA
5215796 FORD
6C1J10300CA FORD
6C1T10300CA FORD
6C1T10300CB FORD
6C1T10300CC FORD
6C1T10300CD FORD
7H1210300AA FORD
A0364 AS-PL
A0438S AS-PL
A0482 AS-PL
AB3910300AD FORD
AB3910300AE FORD
AB3910300AF FORD
AB3910300AG FORD
AC1T10300CA FORD
AC1T10300CB FORD
BK3T10300EA FORD
BK3T10300EB FORD
CC1T10300CA FORD
CC1T10300CB FORD
CC1T10300CC FORD
CC1T10300CD FORD
F000BL0131 BOSCH
F000BL0132 BOSCH
F000BL01A1 BOSCH
F000BL01A3 BOSCH
F000BL0639 BOSCH
F000BL06AK BOSCH
F000BL06BG BOSCH
F000BL06BK BOSCH
F000BL06CA BOSCH
UD13923A AS-PL
UK0118300A MAZDA
UK0118300B MAZDA
UK0118300D MAZDA
Alternator freewheel pulleys
I.D.1 [ mm ] 17.00
O.D.1 [ mm ] 58.50
L.1 [ mm ] 39.00
L.2 [ mm ] 8.20
G. [ qty. ] 7
d. [ mm ] M16x1.5

###

Reference nb Producer
051.000.257 PSH
1111887 POWERMAX
130-02-210 ASHIKA
130210 JAPKO
2.05.0452.0 ZEN
219053 ERA
219106 ERA
23058202BN REAL
23058202OE REAL
235720 CARGO
24-91307 WAI / TRANSPO
24-91307-7 WAI / TRANSPO
27415-0L020 TOYOTA
27415-0L040 TOYOTA
28702 ZNP
3.5338.0 IKA
3.5338.1 IKA
330328 CARGO
335017 CARGO
370V1-1 NTN
5350128000 LUK
535012810 LUK
5452 ZEN
5531 ZEN
588057 VALEO
60-077 PAN PACIFIC
6C1Q-10344-AA FORD
81111887 POWERMAX
9,40113E+11 MAGNETI MARELLI
APB5720 KRAUF
APB9720 KRAUF
CCP90202 CASCO
CCP90202AS CASCO
CCP90202GS CASCO
CQ1041106 CQ
EC4037 WOODAUTO
F-556174.01 INA
F-556174.02 INA
F-623601 INA
F00M349878 BOSCH
F00M391108 BOSCH
F00M391121 BOSCH
F00M391123 BOSCH
F00M391125 BOSCH
F00M991221 BOSCH
F00M991916 BOSCH
F00M991939 BOSCH
INA535012810 WOODAUTO
P0132 GHIBAUDI
RA-210 JAPANPARTS
SCP90202 SANDO
U201-18-W10 MAZDA
ZN5452 ZEN
ZN5531 ZEN

###

Reference nb Producer
0121615003 BOSCH
0121615049 BOSCH
0121615103 BOSCH
0124315033 BOSCH
0124315034 BOSCH
0124315046 BOSCH
0125711005 BOSCH
0125711018 BOSCH
0125711046 BOSCH
0125711049 BOSCH
0125711103 BOSCH
0125711104 BOSCH
0125711133 BOSCH
0125711134 BOSCH
0125811015 BOSCH
0125811016 BOSCH
0125811085 BOSCH
0125811086 BOSCH
0986047920 BOSCH
1372737 FORD
1404792 FORD
1581844 FORD
1729366 FORD
1730987 FORD
1738113 FORD
1745662 FORD
1747017 FORD
1800123 FORD
1820604 FORD
1916724 FORD
2097255 FORD
270600L020 TOYOTA
270600L021 TOYOTA
270600L022 TOYOTA
270600L030 TOYOTA
270600L040 TOYOTA
270600L050 TOYOTA
270600L060 TOYOTA
270600L080 TOYOTA
270600L081 TOYOTA
270600L090 TOYOTA
270600L100 TOYOTA
270600L150 TOYOTA
270600L170 TOYOTA
2706030010 TOYOTA
2706030040 TOYOTA
2706030050 TOYOTA
2706030120 TOYOTA
2706030150 TOYOTA
2706030151 TOYOTA
5215796 FORD
6C1J10300CA FORD
6C1T10300CA FORD
6C1T10300CB FORD
6C1T10300CC FORD
6C1T10300CD FORD
7H1210300AA FORD
A0364 AS-PL
A0438S AS-PL
A0482 AS-PL
AB3910300AD FORD
AB3910300AE FORD
AB3910300AF FORD
AB3910300AG FORD
AC1T10300CA FORD
AC1T10300CB FORD
BK3T10300EA FORD
BK3T10300EB FORD
CC1T10300CA FORD
CC1T10300CB FORD
CC1T10300CC FORD
CC1T10300CD FORD
F000BL0131 BOSCH
F000BL0132 BOSCH
F000BL01A1 BOSCH
F000BL01A3 BOSCH
F000BL0639 BOSCH
F000BL06AK BOSCH
F000BL06BG BOSCH
F000BL06BK BOSCH
F000BL06CA BOSCH
UD13923A AS-PL
UK0118300A MAZDA
UK0118300B MAZDA
UK0118300D MAZDA

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, two 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 four 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 two 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 two 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, two pulleys should have two or more mechanical advantages. The mechanical advantage of compound pulleys can be increased to two or more. The number of pulleys that make up the composite pulley will determine the mechanical advantage. Certain types of pulleys are combined in one 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 three 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 two 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 two 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 one 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.