SU1302043A1 - Method for adjustment of angular position of shafts - Google Patents

Abstract

The invention relates to mechanical engineering, in particular, to methods for adjusting the angular position of coaxially mounted shafts. The aim of the invention is to improve the accuracy of adjusting the angular position of the shafts. For this purpose, the adjusting adjusting element is inserted into the sleeve 1, which is connected to shafts 2 and 3 by means of a differential thread. The shafts 2 and 3 are preliminarily moved in the axial direction up to the stop of the end of one shaft to the end of the other. The rotation of the shaft to the required angular value is carried out simultaneously with the rotation of the intermediate element in one direction. 1 il. g SO about GO about with

Description

one

The invention relates to mechanical engineering, in particular, to methods for re-adjusting the angular position of the axially mounted shafts.

The purpose of the invention is to improve the accuracy of adjusting the angular position of the shafts,

The drawing shows a device for implementing the proposed method

The method of adjusting the angular position of the shafts is that the intermediate adjusting element is performed in the form of a sleeve 1, which is connected to shafts 2 and 3 by means of a differential thread. The shafts 2 and 3 are preliminarily moved in the axial direction up to the stop of the end of one shaft, for example, shaft 2, to the end of another, for example, shaft 3, and the rotation of the shaft

3020432

the apparent axial displacement of the shaft 3, equal to 0.25 mm, i.e. at an angle

ten

)five

20

dL -Qi-il.

6 1.5

360 60 °

at one full rotation of the sleeve 1 oi ZbO, Thus, the calculated formula is obtained. If it is necessary to rotate one shaft relative to the other by the angle oL-, then in the described manner rotate the sleeve 1 through the angle rfS,

.

 five

S. - 5 „

ct

eight

And S,

about (r 6

3 provide a specific S S x oi g, i.e. Betav shaft rotation is 6 times more accurate than sleeve 1 can be rotated, since the sleeve is rotated by an angle 6 times larger than the desired angle of rotation of shaft 3.

2 to the required angular value simultaneously with the rotation of the intermediate element in one direction. In this case, in the axial direction, each of the shafts 2 and 3. does not shift, since the shafts are constantly in contact with their ends.

Example. Have threads on shaft ends with S, 1, 75 mm and S

12

 1.5 mm. Then, when tightening the sleeve 1 on the shaft 2 in one revolution, the sleeve 1 is displaced by 1.76 mm along the shaft 2j and along the shaft 3 the same sleeve 1 is displaced by 1, 5 mm, t, e. between shafts 2 and 3 should form a gap (or tension g - with the reverse rotation of the sleeve 1) in the amount of 0.25 mm. But the shafts 2 and 3 are fixed relative to each other in the axial direction, for example, with an internal stop butt in the butt or external stops of each shaft. In addition, simultaneously with the sleeve, shaft 3 is turned in the same direction, with a clearance (or tension g) of 0.25 mm being worked out. Moreover, the shaft 3 is rotated only at an angle, the corresponding Editor O. Bugir Order 1201/36

Compiled by T. Yanova Tehred N, Glushchenko

Corrector

Circulation 812. Subscription VNIIPI USSR State Committee

for inventions and discoveries -113035, Moscow, Zh-35, Raushsk nab., d.4 / 5

Production and printing company, Uzhgorod, Projecto st., 4

dL -Qi-il.

6 1.5

360 60 °

at one full rotation of the sleeve 1 oi ZbO, Thus, the calculated formula is obtained. If it is necessary to rotate one shaft relative to the other by the angle oL-, then in the described manner rotate the sleeve 1 through the angle rfS,

.

 five

S. - 5 „

ct

eight

And S,

about (r 6

3 provide a specific S S x oi g, i.e. Betav shaft rotation is 6 times more accurate than sleeve 1 can be rotated, since the sleeve is rotated by an angle 6 times larger than the desired angle of rotation of shaft 3.

After the adjustment is completed, the adjustment result is fixed with nuts 4 and 5, ensuring rigid coupling of shafts 2 and 3.

Claims (1)

Invention Formula The method of adjusting the angular position of the shafts in which the rotation of one of the shafts relative to the other in the circumferential direction (carried out by rotating the intermediate element with subsequent fixing its position, characterized in that, in order to improve the accuracy of adjustment, the intermediate element is in the form of a sleeve connected with shafts by means of a differential thread, the shafts are previously moved in the axial direction until the end of one shaft stops at the butt of the other, and the shaft is rotated by the required angular value simultaneously with the rotation of the intermediate element in one direction. Proofreader M.Sharoshi