UA60854A - Device for measuring misalignment of machine shafts - Google Patents

Abstract

The proposed device for measuring misalignment of machine shafts contains a chain device for coupling the shafts, supports, and stops with measuring transducers, as well as a balance weight, which is positioned on the side opposite to the stops.

Description

Description of the invention

The device for measuring the misalignment of machine shafts belongs to the field of mechanical engineering, namely to 2 centering of machine shafts.

A device for measuring misalignment of machine shafts is known, with measuring devices installed on a stop that is rigidly fixed on the rack of one shaft, and a stop fixed on the rack of another shaft. The racks are connected to the shafts by means of fastening mechanisms having bases. In order to expand the range of diameters of the centered shafts on which measurements are made, the bases of the units for fastening the measuring devices and the stop 70 are made in the form of a flexible chain, the links of which have permanent magnets (a. s. Mo258631, 5018 published 03.12.69, Byul. Mo1, 1970) .

The disadvantages of the above-mentioned device are low accuracy when measuring misalignment of shafts, because it does not record their axial movement, as well as the fact that measurement accuracy is achieved only when the distances between the racks are no more than ZOmm. 19 The source of the error is the one-sided loading of the fastening nodes by measuring devices and stops, which leads to the shift of the support points of the fastening nodes and the deflection of the stops and racks. Since the length of the stops is much greater than the length of the displacements of the support surface, their deviation from the initial position increases sharply. The error that occurs in this case is much higher than the allowable one.

Щ M K-t titr t where U mk is the weight of the stop and the device; 7 distance from the rack to the center of gravity of the stops with devices;

K is a coefficient that depends on the distance from the rack to the center of gravity of the stops with devices and is in the range of values 0.4 0.9; it" distance from the rack to the center of gravity of the balancing load.

In fig. the diagram of the device fixed on remote shafts is shown.

The device contains balancing loads 1 and 2, which are located behind racks З and 4 opposite to З measuring devices 5 and fixed to stops b. The stops are connected to the racks, which are attached to the shafts 8, 9 with the help of a flexible U-chain 7. The shafts are connected using a toothed coupling 10.

The process of measuring the misalignment of remote shafts is as follows: stops b with measuring devices 5 are attached to racks C and 4, which are fixed by a flexible chain 7 on remote shafts 8 and 9, Ha") connected to each other by a coupling 10. The mass of stops and measuring devices, which is located on one side, 3o distorts the values of the measurements. To obtain the actual values of the readings, balancing loads 1 and 2 are installed on the opposite side of these devices 5 and ee, stops 6, and rack 4. The weight of the loads is determined by the formula given above.

Under the action of the mass of the balancing loads, the racks 3, 4 and the stops b occupy the required position relative to the axes of the shafts, which eliminates misalignment measurement errors. C 70 It has been experimentally established that the load, which is selected according to the specified ratio, allows to obtain a misalignment measurement with zero error or 0.01 - 0.02 mm, which is acceptable. :з» For the convenience of using balancing loads in production conditions, the device provides for the use of a set of balances with a tared mass depending on the distance between them.

The use of balancing weights allows more than 1.5 times to expand the limit of use of the b" 395 device when measuring misalignment of remote machine shafts. ("in)

Claims (1)

Formula of the invention (ee) 4! 20 A device for measuring the misalignment of machine shafts, containing a fastening mechanism with a flexible chain, racks and stops with measuring devices, which is distinguished by the fact that in the direction opposite to the devices and T" stops, a balancing load is installed with a mass calculated by the formula: Mem Kt r» de Um - the mass of the stop and the device, yiv - the distance from the rack to the center of gravity of the stops with the devices, K - the coefficient that depends on the distance from the rack to the center of gravity of the stops with the devices and is in the interval of values 0.4- 0.9, it" distance from the rack to the center of gravity of the balancing load. b5 -D-