SU1665212A1 - Inside calipers for stepped hole diameters measurement - Google Patents

Abstract

This invention relates to a measurement technique. The purpose of the invention is to improve the measurement accuracy. This is achieved by the fact that the internal caliper is equipped with a second pair of measuring tips 17. A wedge section 15 is made on the rod 14, which is designed to interact alternately with the measuring tips 17, and the centering unit is made as a threaded sleeve 3 mounted on the housing 1 with spring-loaded grooves in the circumferential direction of the sleeve 6 with the holes 7 and the balls 9 arranged therein, designed to interact with the wedge grooves and the base hole of the object under test. The gage is inserted into the base hole and by turning the sleeve 3 relative to the sleeve 6, the grooves 9 are wedged on the balls 9, which, when coming into contact with the base surface, center the nut gauge relative to the axis of the hole being monitored. The wedge cut 15 of the rod 14 is installed opposite the corresponding measuring tip 17, move it in the direction against the last stop into the controlled surface and rotate the housing 1 in the threaded sleeve 3. At the same time, the measuring tip 17 feels the controlled surface along a helical line, through the rod 14 on the indicator 11 , by the deviation of the arrow which is judged on the magnitude of the error of the test surface. By alternately placing the wedge section 15 of the rod 14 against all the measuring tips 17, measurements are taken in four mutually perpendicular directions. 4 il.

Description

This invention relates to a measurement technique and is intended to measure the diameters of stepped holes in machine parts.

The purpose of the invention is to improve the measurement accuracy.

Figure 1 shows the inside meter, a General view in section; figure 2 - section aa in figure 1; on fig.Z - view B in figure 1; figure 4 - section bb In figure 1.

The caliper comprises a housing 1, made in the form of a pipe with an external thread 2, a centering unit, made in the form of a sleeve 3 installed on the thread 2 with wedge grooves 4, covering the sleeve 3 and springs 6 of the cage 6 with openings 7 in the circumferential direction the base collar 8 and balls 9 located in the holes 7, mounted on the housing 1 to the yoke 10, the indicator 11c attached thereto with the measuring rod 12, mounted in the housing 1 coaxially with the measuring rod 12 and the rod 14 wedged to spring with it 13 m and four slice 15 disposed in the housing 1 radially to the axis of the stem 14 and spring biased thereto by a spring

16 measuring tips 17 In case 1, a latch 18 of rod 14 is installed, made in the form of a ball, spring-loaded to the rod 14, in which an annular groove 19 is made, designed to interact with the ball. On the sleeve 3, the handle 20 is installed, and on the holder 6 - the handle 21. Four risks 22 are applied on the rod 14, opposite the corresponding measuring tips.

17 with the symbols I, I, III and IV, and on case 1, risk 23, designed to interact with risks 22. On case 1, there is also an annular scale of 24 linear dimensions, and on one of the ends of sleeve 3, an indicator 25, intended for interaction with the scale 24. On the sleeve 3 there is a stop 26, designed to interact with the housing 1.

Nutromer works as follows.

Having overcome the resistance of the spring 13, the rod 14 is moved in the axial direction towards the measuring rod 12 of the indicator 11 until the latch 18 interacts with the groove 19.

Before measuring, the inside gage is adjusted using the reference part, for which it is inserted into the base hole 27 of the reference part until it stops at its end of the base collar 8. After that, turning the handle 20 and 21 in the arrows A and the wedge grooves 4 of the sleeve 3 will act on the balls 9 which

contact with the surface of the base hole 27 of the reference part and thus center the inside gauge relative to the axis of the base hole 27. Turning the crosshead 10 aligns the scale zero of 24 linear dimensions with the pointer 25. Then turning the stem 14 combines one of the marks 22 with the risky 23 of the housing 1 and move the rod 14 in the axial direction towards

0 of the corresponding measuring tip 17. In this case, the wedge section 15 of the rod 14 acts on the measuring tip 17, which moves towards the surface of the reference hole

5 28 all the way into it. The scale of the indicator 11 is set to zero and move the rod 14 to its original position before interacting with the latch 18.

Then the tuning operation is repeated.

0 successively combining the risk 23 of the housing 1 with the rest of the risks 22 of the stem 14. Turning the handle 20 and 21 against the arrows a and / outputting the balls 9 from the engagement with the base hole 27 of the caliper remove

5 from the reference part, transferred to the controlled part, are based in it. As during setup.

To this end, the rod 14 is brought into contact with one of the measuring tips 17 until it stops against a controlled surface. By turning the cross bar 10 rotate the housing 1 in the threaded sleeve 3 until it stops at the stop. At the same time, the measuring tip 17 feels the controlled

5 surface along a helix in the area corresponding to the range of the scale of 24 linear dimensions According to the deviation of the indicator arrow 11, the magnitude of the error of the test surface is judged, and the sharpness of its deviation indicates the presence of defects in a specific location of the test surface.

In a similar order, measurements are taken with the combination of all four risks.

5 22 of the rod 14 with the risk 23 of the housing 1. thus checking the surface in four mutually perpendicular directions

Claims (1)

Invention Formula 0 Gauge for measuring diameters step holes, comprising a housing made in the form of a pipe with an external thread, a centering unit mounted on it, coaxially housed in the housing 5 indicator with a measuring rod and a rod springed to it and a pair of measuring tips spring-loaded to the rod in the radial direction, characterized in that, in order to improve measurement accuracy, it is equipped with a second pair of measuring tips radially aligned with the first pair, and a stem lock in a housing made in the form of a ball mounted in the housing, spring-loaded to the rod in the radial direction, an annular groove on the rod, designed to interact with the ball, and a wedge slice, intended for alternate interaction with the measuring tips, and four risks with digital signs located around the circumference opposite the corresponding measuring tips are applied to the body; there are risks designed to interact with stem risks, and a linear scale of linear dimensions, and the centering assembly is designed as a threaded screw with a pointer on one of the ends designed to interact with the scale, and wedge grooves on the outer surface surrounding the sleeve and spring-loaded in the circumferential direction clips with a base collar and holes, and balls located in the holes, designed to interact with the wedge grooves and the base hole of the object to be monitored. 15 FIG. 2 Bb Fi.Z