Product Description

Deep groove ball bearing

Model  d mm D mm H mm W kg
6000 10 26 8 0.019
6001 12 38 8 0.571
6002 15 32 9 0.03
6003 17 35 10 0.04
6004 20 42 12 0.069
6005 25 47 12 0.08
6006 30 55 13 0.116
6007 35 62 14 0.155
6008 40 68 15 0.185
6009 45 75 16 0.231
6571 50 80 16 0.25
6011 55 90 18 0.362
6012 60 95 18 0.385
6013 65 100 18 0.408
6014 70 110 20 0.62
6015 75 115 20 0.63
6016 80 125 22 0.86
6017 85 130 22 0.94
6018 90 140 24 1.38
6019 95 145 24 1.5
6571 100 150 24 1.63
6571 110 170 28 2.35
6571 120 180 28 2.62
6026 130 200 33 4.55
6571 140 210 33 4.21
6030 150 210 33 3.9
6032 160 240 38 5.89
6034 170 260 42 6.5
6036 180 280 46 8.51
6038 190 290 46 8.86
6040 200 310 51 11.64
6044 220 340 56 18.4
6048 240 360 56 19.6
6052 260 400 65 28.8
62216 80 140 33 1.51
62217 85 150 36 1.6
62218 90 160 40 1.7 
62219 95 170 43 1.8 
62220 100 180 46 2.0 
6200 10 30 9 0.032
6201 12 32 10 0.036
6202 15 35 11 0.044
6203 17 40 12 0.065
6204 20 47 14 0.11
6205 25 52 15 0.13
6206 30 62 16 0.21
6207 35 72 17 0.288
6208 40 80 18 0.368
6209 45 85 19 0.416
6210 50 90 20 0.463
6211 55 100 21 0.603
6212 60 110 22 0.789
6213 65 120 23 0.99
6214 70 125 24 1.084
6215 75 130 25 1.171
6216 80 140 26 1.448
6217 85 150 28 1.803
6218 90 160 30 2.71
6219 95 170 32 2.62
6220 100 180 34 3.19
6221 105 190 36 3.78
6222 110 200 38 4.42
6224 120 215 40 5.3
6226 130 230 40 6.12
6228 140 250 42 7.77
6230 150 270 45 9.78
6232 160 290 48 12.22
6234 170 310 52 15.241
6236 180 320 52 15.581
6238 190 340 55 18.691
6240 200 360 58 22.577
62312 60 130 46 2.422
62313 65 140 48 3
62314 70 150 51 3.55
62315 75 160 55 4
62316 80 170 58 4.5
62317 85 180 60 5.1
62318 90 190 64 6.1
62319 95 200 67 6.9
6300 10 35 11 0.053
6301 12 37 12 0.06
6302 15 42 13 0.082
6303 17 47 14 0.115
6304 20 52 15 0.142
6305 25 62 17 0.232
6306 30 72 19 0.346
6307 35 80 21 0.457
6308 40 90 23 0.639
6309 45 100 25 0.837
6310 50 110 27 1.082
6311 55 120 29 1.367
6312 60 130 31 1.71
6313 65 40 33 2.1
6314 70 150 35 2.55
6315 75 160 37 3.05
6316 80 170 39 3.61
6317 85 180 41 4.284
6318 90 190 43 4.97
6319 95 200 45 5.74
6320 100 215 47 7.09
6321 105 225 49 8.05
6322 105 240 50 9.53
6324 120 260 55 12.2
6326 130 280 58 14.77
6328 140 300 62 18.33
6330 150 320 65 21.87
62300 10 35 17 0.073
62301 12 37 17 0.571
62302 15 42 17 0.105
62303 17 47 19 0.146
62304 20 52 21 0.195
62305 25 62 24 0.306
62306 30 72 27 0.478
62307 35 80 31 0.647
62308 40 90 33 0.885
62309 45 100 36 1.156
62310 50 110 40 1.498
62311 55 120 43 1.918
6403 17 62 17 0.27
6404 20 72 19 0.4
6405 25 80 21 0.53
6406 30 90 23 0.735
6407 35 100 25 0.952
6408 40 110 27 1.221
6409 45 120 29 1.52
6410 50 130 31 1.855
6411 55 140 33 2.316
6412 60 150 35 2.811
6413 65 160 37 3.342
6414 70 180 42 4.896
6415 75 190 45 5.739
6416 80 200 48 6.752
6417 85 210 52 7.933
6418 90 225 54 9.56
623 3 10 4 0.002
624 4 13 5 0.003
625 5 16 5 0.005
626 6 19 6 0.008
627 7 22 7 0.014
628 8 24 8 0.016
629 9 26 8 0.019
62200 10 30 14 0.044
62201 12 32 14 0.053
62202 15 35 14 0.065
62203 17 40 16 0.096
62204 20 47 18 0.15
62205 25 52 18 0.178
62206 30 62 20 0.215
62207 35 72 23 0.31
62208 40 80 23 0.406
62209 45 85 23 0.455
62210 50 90 23 0.496
62211 55 100 25 0.81
62212 60 110 28 1.03
62213 65 120 31 1.25
62214 70 125 31 1.3 
62215 75 130 31 1.4 

 

Rolling Body: Tension Pulley
Spherical: Non-Aligning Bearings
Separated: Unseparated
Origin: China
Samples:
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Mechanical advantages of pulleys

A pulley is a mechanical device used to transmit motion. The device has a variety of uses, including lifting heavy objects. In this article, we will discuss the mechanical advantages, types, common uses and safety considerations of pulleys. We’ll also discuss how to identify pulleys and their components, and what to look out for when using pulleys. Read on to learn more about pulleys.
pulley

Mechanical advantages of pulleys

The mechanical advantage of pulleys is that they change the direction of force from one direction to another. In this way, the person lifting the heavy object can change its position with minimal effort. The pulleys are also easy to install and require no lubrication after installation. They are also relatively cheap. Combinations of pulleys and cables can be used to change the direction of the load.
The mechanical advantage of a pulley system increases with the number of ropes used in the system. The more cycles a system has, the more efficient it is. If the system had only one rope, the force required to pull the weight would be equal. By adding a second rope, the effort required to pull the weight is reduced. This increase in efficiency is known as the mechanical advantage of the pulley.
Pulleys have many uses. For example, ziplines are one application. This is a good example of pulleys in use today. Pulley systems can be complex and require a lot of space. Using ziplines as an example, advanced students can calculate the mechanical advantage of multiple pulleys by dividing the work done by each pulley by the remainder or fraction. Regents at the University of Colorado created a zipline with K-12 input.
Another use for pulleys is weight lifting. This technique is very effective when using multiple strands of rope. A single rope going from one pulley to the other with just two hands is not enough to lift heavy objects. Using a pulley system will greatly increase the force you receive. This power is multiplied over a larger area. So your lifting force will be much greater than the force exerted by a single rope.
The pulley is a great invention with many uses. For example, when lifting heavy objects, pulleys are a great way to get the job done, and it’s easier to do than one person. The pulley is fixed on a hinge and rotates on a shaft or shaft. Then pull the rope down to lift the object. A pulley assembly will make the task easier. In addition, it will also allow power to be transferred from one rotary shaft to another.
pulley

Types of pulleys

If you are an engineer, you must have come across different types of pulleys. Some pulleys come in multiple types, but a typical pulley has only one type. These types of pulleys are used in various industrial processes. Here are some common types of pulleys that engineers encounter on the job. In addition to the above, there are many more. If you haven’t seen them in practice, you can check out a list of the different types below.
Fixed pulleys: Fixed pulleys have a roller attached to a fixed point. The force required to pull the load through the fixed pulley is the same as the force required to lift the object. Movable pulleys allow you to change the direction of the force, for example, by moving it laterally. Likewise, movable pulleys can be used to move heavy objects up and down. Commonly used in multi-purpose elevators, cranes and weight lifters.
Composite pulleys combine fixed and movable pulleys. This combination adds to the mechanical advantage of both systems. It can also change the direction of the force, making it easier to handle large loads. This article discusses the different types of pulleys used for lifting and moving. Braided pulleys are an example of these pulleys. They combine the advantages of both types.
A simple pulley consists of one or more wheels, which allow it to reverse the direction of the force used to lift the load. On the other hand, dual-wheel pulleys can help lift twice the weight. By combining multiple materials into one pulley, a higher ME will be required. Regardless of the type of pulley, understanding the principles behind it is critical.
Pulleys are an important part of construction and mechanical engineering, and their use dates back to Archimedes. They are a common feature of oil derricks and escalators. The main use of pulleys is to move heavy objects such as boats. In addition to this, they are used in other applications such as extending ladders and lifting heavy objects. The pulley also controls the aircraft rudder, which is important in many different applications.

Commonly used

Common uses for pulleys are varied. Pulley systems are found throughout most areas of the house, from adjustable clotheslines to motor pulleys in different machines. Commercially, one of the most common uses is for cranes. Cranes are equipped with pulleys to lift heavy objects. It is also common to use pulley systems in tall buildings, which allow tall buildings to move with relative ease.
Pulleys are commonly used in interception and zipline systems, where a continuous rope around the pulley transmits force. Depending on the application, the rope is either light or strong. Pulleys are formed by wrapping a rope around a set of wheels. The rope pulls the object in the direction of the applied force. Some elevators use this system. Pull a cable on one end and attach a counterweight on the other end.
Another common use for pulleys is to move heavy objects. Pulleys mounted on walls, ceilings or other objects can lift heavy objects like heavy toolboxes or 2×4 planks. The device can also be used to transfer power from one rotating shaft to another. When used to lift heavy objects, pulleys can be used to help you achieve your goals of a good workout.
Pulley systems have a variety of uses, from the most basic to the most advanced. Its popularity is indisputable and it is used in different industries. A good example is timing belts. These pulleys transmit power to other components in the same direction. They can also be static or dynamic depending on the needs of the machine. In most cases, the pulley system is custom made for the job.
Pulley systems can be simple or complex, but all three systems transfer energy efficiently. In most cases, the mechanical advantage of a single pulley is 1 and the mechanical advantage of a single active pulley is 2. On the other hand, a single live pulley only doubles the force. This means you can trade effort for distance. Pulleys are the perfect solution for many common applications.
pulley

Safety Notice

If you use pulleys, you need to take some safety precautions. First, make sure you’re wearing the correct protective gear. A hard hat is a must to avoid being hit by falling objects. You may also want to wear gloves for added protection. You should also maintain a good distance from the pulley so that nearby people can walk around it safely.
Another important safety measure to take before using a chain hoist is to barricade the area to be lifted. Use marker lines to prevent the load from sliding when moving horizontally. Finally, use only the sprocket set for vertical lift. Always install shackle pins before lifting. You should also wear personal protective equipment such as earplugs and safety glasses when using the chain hoist.
In addition to these safety measures, you should also use cables made from aerospace-grade nylon. They will last many cycles and are made of high quality materials. Also, make sure the cables are lubricated. These measures reduce friction and corrosion. No matter what industry you are in, be sure to follow these precautions to ensure a long service life for your cables. Consult the cable manufacturer if you are unsure of the appropriate material. A company with 60 years of experience in the cable industry can recommend the right material for your system.

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editor by CX

2023-04-14