SU1392334A1 - Device for checking holes for axial aligniment - Google Patents

Abstract

This invention relates to a measurement technique. The purpose of the invention, the extension of the measurement range, is achieved by the fact that the probe is made in the form of a slider 15 mounted with the possibility of radial movement relative to the axis of the spindle 8, and the spindle 8 is installed in the housing I with the possibility of reciprocating along the axis of the housing 1 and rotational movements. A wedge 17 is made on the slider 15 of the measuring probe, transmitting through the rod 9 a reciprocating movement to the tip 18 of the reading unit 19, according to which readings the misalignment of the stepped hole being monitored is determined. 2 Il. g / m with SO 1 00 00 4

Description

The invention relates to a measurement technique, namely, devices for controlling the coaxiality of the stepped holes of machine parts and components,

The purpose of the invention is to expand the measurement range.

FIG. 1 shows the proposed device, a general view; in fig. 2 is a view along arrow A in FIG. one.

The device comprises a housing 1 with a base assembly 2, made in the form of a three-cam mechanism with cams 3 having internal 4 and external 5 working surfaces and mounted for movement along guides in the form of an Archimedean spiral. The base unit 2 is mounted on the case 1 by means of annulities 5 with the surface of the larger opening of the measured part 25 (Fig. 1). Thereby, the device is centered on the measured part 25.

To control the coaxiality of the stepped hole of the measuring part 25, the spindle 8 together with the measuring probe and the reading unit 19 is turned around its axis until it is fully turned. If there is a misalignment, the distance from the head of the probe 16 to the axis of the spindle 8 is changed. While the wedge 17 of the slide 15, changes its position, affects the rod 9, which in turn transmits the reciprocating movement of the tip 18 of the reference node 19, By changing

Ca 6, fastened with screws 7, In the core-20 of the readings of the reading unit 19, bus 1 has a spindle 8 with a rod 9 spring-loaded 10 along its axis to a nut 11 screwed into the spindle 8. At one end of the spindle 8 there is a measuring probe attached - 25 craving body 12, spring loaded 13 to nut 14, screwed into body 12 slider 15 with probe 16, and the ability to be adjusted in the radius of the misalignment of the stepped hole of the measured part 25 is determined.

To control the straightness of the smaller holes forming the measured part 25, the spindle B is moved along its axis along the entire length of the hole and according to a change in the readings from the arrow direction. Slider 15 between-30 ki of the reference node is determined by the magnitude of the wedge connection 17 in contact with the rod 9, and the latter in turn with the tips 18 of the reference node 19 installed by the sleeve 20 and screw 21 on the second end of the spindle 8. At the ends of the housing 1, split conical sleeves 23 are mounted with nuts 22, by means of which the radial rupture between housing 1 and spins-40 section 8 is adjusted,

On the surface of the housing 1 there are three basic supports 24 serving to install the device on the measured part 25.45

The device works as follows.

The probe 16 is adjusted to a size of 0.5-1 mm, larger than the smaller hole of the measured part 25, and the control is 50 nay.

By turning the base assembly 2, the cams 3 move in the direction of the spindle 8 until it stops.

the rank of non-linearity of forming a controlled hole,

Claims (1)

Invention Formula A device for controlling the coaxiality of the holes, comprising a housing with a base assembly, a spindle installed in the housing with a rod springed along its axis, and a measuring probe fixed at one end of the spindle, and on the other - a reading unit that interacts through a stem with a measuring probe different in that, in order to expand the range of measurements, the base unit is designed in the form of a three-cam mechanism, the cams of which have internal and external working surfaces and are installed with the possibility of moving along a conductive Archimedean spiral, the probe is designed as a slide mounted for radial displacements with respect to re spindle axis. The device is installed on the end face 55, the spindle is installed in the housing with The measured part 25 and the rotation of the node 2 of the base of the cam 3 are moved to full contact by their workers with the possibility of reciprocating along the axis of the housing and rotary movements. readings of the reference point 19 determine the misalignment of the stepped hole of the measured part 25. To control the straightness of the smaller holes that form the measured part 25, the spindle B is moved along its axis along the entire length of the hole, and the values of the rank of non-linearity of forming a controlled hole, Invention Formula A device for controlling the coaxiality of the holes, comprising a housing with a base assembly, a spindle installed in the housing with a rod springed along its axis, and a measuring probe fixed at one end of the spindle, and a test assembly at the other end, interacting through a stem with a measuring probe differing from that that, in order to expand the measurement range, the base unit is designed in the form of a three-cam mechanism, the cams of which have internal and external working surfaces and are mounted with the possibility of moving yuschim in the form of an Archimedean spiral, the measuring probe is configured as a slider mounted for radial movement relative to the spindle axis. possibility of reciprocating along the axis of the body and rotational movements. 22 20 Vida FIG. 2