Merchandise Description
Cable Pulley Ceramic Pulley Wheel Wire Cable Pulley
Cable pulley wheels, wire cable pulley, flanged cable pulley, plastic cable pulley, nylon cable pulley.
Flanged ceramic roller, Wire information pulleys (ceramic pulleys) is generally used ingredient when wire passing is essential, it can be utilized in coil winding machine, cable machine and the textile equipment as well. The porcelain ring is mounted on the bearing, Coil winding wire guide pulley(wire roller) will rotate by the thread and wire passing on the area of the ring. Thus the sliding friction has been converted to the static friction.
But at the begin and end, in buy to overcome the inertia, there will be a partial sliding friction. The surface area Polish degree of the porcelain ring reaches Ra0.2 The beating throughout rotation is beneath .fifteen. We decide on the 99% Al2O3 as the materials with the hardness of HRA88 and the density of 3.85…Two nylon aspect partitions have been place to the both side of the ceramic ring and the bearing, coil winding wire guidebook pulley (wire roller) combines a single wire roller
Cable pulley wheels, wire cable pulley, flanged cable pulley, plastic cable pulley, nylon cable pulley.
Specification desk of wire roller | |||||
Modle No | A((mm) | B(mm) | C(mm) | D(mm) | E(mm) |
HCR001-B03 | 20 | 15 | 3 | 4.eight | three |
HCR002-B04 | 28.seven | 20 | four | six.4 | four |
HCR003-B03 | 30.four | fifteen | three | 10 | 3 |
HCR004-B04 | forty | 20 | four | 15 | 3 |
HCR045-B04 | 45 | four | |||
HCR045-B05 | five | ||||
HCR045-B06 | 6 | ||||
HCR005-B05 | 54.five | 30 | five | 10 | 6 |
HCR005-B06 | 6 | ||||
HCR005-B07 | 7 | ||||
HCR005-B08 | 8 | ||||
HCR006-B07 | 60 | 40 | seven | 13 | 7 |
HCR006-B08 | 8 | ||||
HCR006-B10 | ten | ||||
HCR006-B12 | twelve | ||||
HCR007-B05 | 60 | 30 | five | 18 | 6 |
HCR007-B06 | 6 | ||||
HCR007-B07 | seven | ||||
HCR007-B08 | 8 | ||||
HCR008-B10 | 79.2 | fifty | 10 | 15 | 9 |
HCR009-B07 | 80.5 | 40 | seven | 25 | 7 |
HCR009-B08 | 8 | ||||
HCR571-B10 | 99.three | 50 | 10 | 29.5 | nine |
In a twin pulley system, this ratio is equivalent to the reference diameter of the output pulley getting higher than the reference diameter of the enter pulley. It is pretty uncomplicated as long as you compute the gear ratios for a much more complicated pulley method action by phase. For multiple pulleys, the ratios of the different parts of the system must be calculated to decide the total ratio. In the photograph over, the reference diameter of the reduced push wheel is 20mm, the radius of the higher wheel is 40mm, and the ratio is 2:1. 2 spins on the decrease wheel and 1 spin on the higher wheel. The gear ratio also tells us one thing about the torque of the program since the ratio of output torque to enter torque is equal to the gear ratio. As a result, the torque used to the higher wheel is twice as rapidly, but the velocity is halved.