SU446737A1 - Device for measuring the misalignment of the holes - Google Patents

Description

one

The invention relates to the field of linear measurement techniques, in particular to means for measuring the misalignment of the aperture.

Devices for measuring the misalignment of holes are known, comprising a body, body centering units, two base stops fixed to the body, two linear displacement gauges remote from the base stops for a predetermined distance, and a body gravity deflection compensation unit made in the form of levers and counterweights.

A disadvantage of the known devices is the lack of accuracy due to incomplete compensation of the gravity deflection of the body and the reduced performance of the control due to the additional time spent on adjusting the counterweight.

The proposed device differs from the known one in that the node

compensation of the gravitational deflection of the body is made in the form of an end measure located along the body and two bearing linear displacement gauges of L-shaped levers, one shoulders of which are extended along the body, the second ones are located radially and interact with the end measure, and the axes of the levers pass through the centers Tinplate sections of the hull B planes of bezovy stops.

The drawing shows the proposed device. It comprises a housing I, made in the form of a pipe, the centering assemblies of the housing B aperture (not shown), two basic stops 2 and 3 and two dimensions 4 and. 5 linear displacements removed from the base stops for the distance C determined by the measurement base. For axial fixation of the body, the device is provided with an axial stop 6. To eliminate the influence of gravitational deflection

the housing on the measurement result, the device is equipped with a gravitational deflection compensation unit made in the form of two L-shaped levers 7 and 8 and an end measure 9 with spherical ends. The axes 10 and II of the L-shaped levers are located in planes perpendicular to the axis of the housing, planes of the base stops and pass through the center of gravity of the cross section of the housing. Elongated along the body. The shoulders of the L-shaped levers are carried

gauges and 5 linear displacements, and radially located — they interact with the end measure 9. The clamping of the L-shaped levers to the end measure of the sensation is prulinia 12 and 13.

The device works as follows.

The device is inserted into the controlled hole and the base stops 2 and 3, as well as the measuring tips of the linear interchange meters 4 and 5, interact with the hole-forming ones; rotate the housing 360 and record with this the readings of linear displacement meters; The maximum difference between the readings of the meters is taken as the misalignment value.

Due to the fact that the axes of the 10 and II L-shaped levers are placed in the planes of the base stops 2 and 3, the vertical displacement of these axes during bending of the body will be insignificant. Due to the fact that the said axes pass through the centers and gauges of sections of the hull, they likat in the so-called neutral layer and the approach of the axes during bending of the hull can also be considered negligible. Similarly, we can assume that the length of the end gauge is unchanged when bending. The position of the two points of the L-shaped levers (the axis and the end of the radial shoulder) can be considered practically independent of the gravitational deflection of the body;

Thus, the proposed device makes it possible to completely eliminate the influence of the gravitational deflection of the hull on the result of measuring the misalignment of the holes.

SUCCESSFUL KOREETESHIЯ,. A device for measuring the misalignment of the holes, comprising a housing, body centering units, two base stops fixed to the core-mustache, two linear displacement gauges remote from the base stops for a given distance, and a gravitational bumper body compensation unit, characterized in that the purpose of the increase, - "

productivity and accuracy of measurements, the gravitational deflection compensation unit of the body is made in the form of gauge gauged along the body and two bearing linear displacement gauges of T-shaped levers, one shoulders of which are elongated along the body, the second are located radially and interact with the gauge, and axes. Swing levers are passed through the centers of the sheet metal of the body sections in the planes of the base stops.