SU842382A1 - Device for measuring distance between two hole axes - Google Patents

Description

(54) DEVICE FOR MEASURING THE DISTANCE BETWEEN THE AXES OF TWO HOLES

one

This invention relates to instrumentation technology.

A device is known for measuring the distance between the axes of two holes, comprising a housing, a readout head and a lever, one arm of which has a spherical tip, and the second shoulder interacts with the readout head 1.

A disadvantage of the known device is the inability to control the center-to-center distances between the axes of the holes lying in different planes.

The purpose of the invention is the expansion of technological capabilities.

The goal is achieved by the fact that the device is equipped with a disk mounted in the housing with the possibility of rotation around its axis, and the lever is installed in this disk eccentric about its axis.

In addition, the lever is mounted with the possibility of radial movement.

FIG. 1 shows the device, a general view; in fig. 2 is a diagram of measuring the center distance of two holes located in different planes, the diameters of which are smaller than the diameter of the measuring tip; in fig. 3 is a diagram of measuring the center distance of two holes, the diameter of which is larger than the diameter of the measuring tip.

The device comprises a housing 1, in which the rotary disk 2 is installed, the disk axis is removed from the bases of the housing at a distance I. The disk is bounded from axial movement on both sides by two rings 3. In the housing 1 a spring-loaded clamp 4 is installed that contacts one of the two depressions 5 , performed through 180 ° in the reversing disk 2. In disk 2, a bracket 6 is mounted, on which axis 7 of lever 8 is eccentric relative to the axis of disk 2 at distance B from it, the other arm of which is carried by a spherical tip 9 The head 10 fixed on the bracket 6 is spring-loaded 5 legs relative to the lever by the spring 11. To restrict the movement of the lever 8 relative to the reading head, fold the screw 12. The bracket 6 with the lever 8 and the reading head 10 can move in the radial groove of the disk 2 and stop with the bar 13 and screw 14.

Claims (2)

The controlled part 15 has between the axes of the holes 16 and 17 a distance A. The distance from the plane to the axis of the hole 16 is equal to B. The distance from the plane to the middle of size A is equal to / C. The distance between the forming holes is G. The distance from the plane to the forming hole is E, the distance from the plane to the middle of size F is I. The device works as follows. When the diameter D of the spherical tip 9 is larger than the diameters of the holes, set the part on a plane so that / C is equal to H, where / C is the distance from the measurement plane to the middle of the controlled center-to-center distance; H is the distance from the axis of the disk 2 to the base. Using a measure (plane-parallel tiles) expose the sphere of the tip 9 to the required eccentricity B - and expose the reading head 10 O, A - the controlled center-to-center distance. Moving the body 1 on the plane on which the controlled part 15 is installed, align the sphere of the tip 9 with the axis of the hole 17 and read the deviations from O on the readout head 10. Then turn the disk 2 by 180 ° so that the lock 4 fixes its position, move the stand, combining the sphere of the Tip 9 with the axis of the hole 16 and again read the readout of the reading head 10. The deviation from the nominal value of the controlled center-to-center distance is A1 ± Dg, where D) is the lower deviation; Yes - upper deviation. ; When the diameters of the holes are larger than the sphere of the tip 9, the deviation of the center-to-center distance along the orifices, or the value Γ, is controlled. Set the part on the plane so that I am equal to I, where I is the distance from the measuring plane to the middle of the dimension G,. where A is the nominal controlled center-to-center distance; D1 is the diameter of the upper hole; Yes, the diameter of the lower hole; I is the distance from the axis of the disk to the base. Using a measure (plane-parallel tiles), expose the sphere of the tip 9 to the required eccentricity B and expose O on the click of the reading head 10. By moving the body 1 on the plane on which the part to be installed is installed, align the sphere of the tip 9 with the lower point of the surface of the hole D and read deviations from O on the readout head 10. Then turn the disk 2 by 180 ° so that the latch 4 fixes its position, move the body 1, aligning the sphere of the tip 9 with the lower point of the hole surface Dz and read the display 10. The deviation from the nominal value of the controlled center-to-center distance is At ± D. When changing the range of controlled holes, it is enough to move the bracket b in the longitudinal slot of the disk and lock it with the strap 13 and screw 14. The proposed device provides control without a tuning part, allows control - distance from the plane to the axis of the hole and the distance between the holes lying in different planes. Claim 1. A device for measuring the distance between the axes of two holes, comprising a housing, a readout head and a lever, one arm of which has a spherical tip and the other interacts with a readout head, characterized in that, in order to extend technological capabilities. equipped with a disk mounted in the housing with the possibility of rotation around its axis, and the lever installed in this disk is eccentric about its axis. 2. A device according to claim 1, characterized in that the lever is mounted in the disk with the possibility of radial movement. Sources of information taken into account during the examination 1. E. M. Levenson et al. Designing measuring devices and tools in machine building. M., Maschgiz, 1956, p. 85 (prototype). 17