SU580435A1 - Device for monitoring coaxiality of holes - Google Patents

Description

one

The invention relates to the field of measurement technology, namely, devices for controlling the alignment.

A device for controlling coaxiality is known, comprising a linear displacement meter, a housing, a centering device, a plunger made in the form of a rod, spring-wise relative to the housing, moving in the α-axial direction and interacting with a linear displacement meter, measuring tips and a separating mechanism including a limb and pointer 1J.

However, the shape of the plunger in the form of a rod, one of the ends of which is kinematically connected with the measuring tip, and the other with a linear displacement meter, does not provide a measure of the misalignment of several holes that lie along the same axis.

The closest to the invention in its technical essence is a device for measuring the misalignment of apertures, comprising a linear displacement meter, a housing, two centering assemblies fixed to its outer surface, a spring-loaded plunger, made in the form of a rod, moving in an axial direction and interacting with a linear displacement meter and measuring tips

L J is the sufficient performance of the known device due to the need to rearrange the linear displacement meter and the plunger along the axis of the controlled and ibcpcrjiii.

ALYA increase in the productivity of control in the proposed device plunger is delivered by end cams, the working surfaces of which are shifted by an angle, making them simultaneous interaction with measuring tips made in the form of angular levers with an axis of rotation fixed to the body.

The drawing shows the proposed device in a longitudinal m section.

On the outer surface of the device housing 1, two centering units 2 and 6 are fixed. The measuring tips 4 in the form of angular levers are mounted on flat springs, o.

Pa of the housing 1 is also fixed to the limb 6 of the separating mechanism, the pointer 7 of which is connected to the spring-loaded plunger 8. The ilunlser is mounted in the housing so that it can be rotated about the longitudinal axis and spring-loaded in the axial direction. The spring-loaded plunger is provided with end cams U and 1 and with the working surface.

11 and 12. The working surfaces of the end cams are offset relative to each other by an angle, which excludes their simultaneous interaction with the measuring tips 4.

On the housing 1 fixed gauge 13 linear displacements, the measuring tip of which interacts with the end of the spring-loaded plunger 8.

The misalignment measurement is performed as follows.

The device is inserted into the controlled holes and fixed, for example, to the mounting bracket 14 by means of a mandrel 15. The centering units 2 and 3 center the housing 1 along two predetermined holes 16 and 17. The misalignment of the hole 18 is measured by rotating the spring-loaded plunger 8 into a predetermined the position determined by limb 6 and pointer 7. At a given position, the working surface 11 of the corresponding face cam 10 comes into contact with the corresponding lever 4. When the body 1 rotates, the deviation from the alignment of the hole 18 through the lever 4 and the face glachok th to 10 spring-loaded plunger 8 is transmitted to the linear displacement meter 13.

When controlling the alignment of the aperture 19, the spring-loaded plunger 8 is again rotated to the corresponding position, which is determined by the limb 6. At this moment, the lever 4 controlling the opening 18 comes out of contact with the working surface 11, and the lever controlling the opening 19 comes into contact with a corresponding face cam 12. The body 1 of the device is rotated and the equilibrium character of the aperture 19 is determined from the linear displacement meter 13.

Claims (2)

1. The UK patent number 1022554, cl. G 1M (G 01B), 1964. 2. USSR author's certificate number 324472, cl. G 01B 5/24, 1971. 13 3