SU1677489A1 - Device for checking up hole diameter - Google Patents

Abstract

This invention relates to a measurement technique. The aim of the invention is to improve the accuracy of measurement control. The device comprises a base 1, a two-lever meter 2 with a base mandrel 3, a self-setting meter U mechanism 4 along the axis of the measured cylindrical part, a longitudinal movement mechanism 5 of the part with a tray 6 for its axial base, a part rotation mechanism 7, and a rotation mechanism arresting mechanism 8 . With a direct longitudinal movement of the part, it slides over the internal cavity on the elastic petals of the mandrel with tension, while the tips of the levers of the meter also interact with the surface of the hole of the part. The diameter of the hole is measured in three sections while the part is rotating. With the reverse longitudinal movement of the part, the shape of the hole surface is measured. During the measurement, meter 2 has the ability to self-install relative to the part being monitored. 5 Il. S C 26 o s XI 00 00 th FIG

Description

The invention relates to a measurement technique, in particular, to devices for the automatic control of holes in cyindrical parts such as a glass or sleeve.

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

FIG. 1 shows a device, a view in xonometry; in fig. 2 - meter in the housing of the mechanism of self-installation, longitudinal section; in fig. 3 is a view A of FIG. 1; in fig. 4 shows a section BB in FIG. 3; in fig. 5 - base mandrel.

The device comprises a base 1, a meter 2 with a base mandrel 3, a self-installation mechanism of the meter along the axis of the test part, a mechanism 5 for longitudinal movement of the part with a tray b for its axial base, a mechanism 7 for rotating the part and a mechanism 8 for locking the mechanism for rotating the part.

Meter 2 (Fig. 2) contains two shoulders levers 9. and 10 with measuring tips 11 on one shoulder. On the other arm of the lever 9, an inductive sensor 12 is fixed. And against it on the lever 10 is a block of two plates 13. The base mandrel 3 fixed on the meter 2 is made in the form of two elastic petals 14 (Fig. 5) with spherical contact surfaces 15 at the ends . The petals 14 are located along the levers 9 and 10, and the spherical surfaces 15 and the measuring tips 11 are located in a plane perpendicular to the meter axis.

The self-installation mechanism of the meter along the axis of the part being monitored is made in the form of a box-shaped body 16, in which the centers 17 and 18 (Fig. 2) have a meter 2 installed with the possibility of rotation in the horizontal plane of two hinged parallelograms 19 connecting the body 16 with the base 1 by springs 20, compensating for the mass of the mechanism, copier 21, mounted on base 1 and case 16, spring loaded balancer 22 with two rollers 23 interacting with copier 21. Balancer 22 eliminates the gap between rollers 23 and copier groove 21, due to The accuracy of the base 2 of the meter 2 is increased in the longitudinal direction.

The mechanism for longitudinal movement of the test piece includes a drive 24 of the shaft 25 with an end cam 26 fixed on it, mounted coaxially to the gauge 2 spring-loaded rod 27 with a roller .28 at one end cooperating with the cam 26, and axle tray 6 attached to the other end of the rod based details.

Tray 6 (Fig. 3 and 4) is made in the form of a swivel bracket 29, two pairs of support

the rollers 30 and the second balancer 31c with the rollers 32 interacting with the second cam 33 fixed on the base 1. The balance bar 31 fixes the tray with the controlled part across the axis when moving, and

It also resets the part after control due to tilting of the copier groove.

The mechanism of rotation of the part (Fig. 3) is fixed by means of a bracket 34 on the rod 27 and contains an electric motor 35,

two shoulders lever 36 with a supporting roller 37 mounted symmetrically about the axis of the rod 27 and a driving roller 38 connected by a passik 39 with an electric motor 35. On the other

the lever arm 36 has a roller 40.

The mechanism for arresting the rotation of the part is made in the form of a bracket 41 mounted on the base 1 installed in it with the possibility of rotation of the shaft

42, at one end of which a lever 43 is fixed with a roller 44 interacting with a radial cam 45 mounted on the shaft 25, and a flat cam 46 fixed at the other end of the shaft 42 interacting with the roller 40 of the part rotation mechanism.

The device works as follows.

The controlled part 47 is placed

on the support rollers 30 of the tray 6 and simultaneously turn on the electric motor 35 and the drive 24 of the shaft 25 with the cams 26 and 45. When the roller 28 interacts with the face cam 26, the rod 27 moves along

the axis and the part 47 slides over the mandrel 3, the elastic lobes 14 of which are in their initial position are separated and therefore enter the part with the stress and are based on it with their contact spherical

surfaces 15, and the measuring tips 11 of the levers 9 and 10 of the meter 2 interact with the surface of the workpiece hole, turning on the hinged bridges and changing the gap between

sensor 12 and plates 13.

Further, the roller 44 on the lever 43 enters the recess on the radial cam .45 and turns the shaft 42 of the locking mechanism, and the flat cam 46 at the opposite end of the shaft 42 lowers the lever 36 of the rotation mechanism until the rollers 37 and 38 contact the outer surface of the part 47, which rotate the part around its axis. For one revolution of the hall 25, the cam 26 moves part 47 to its full length with three

stops for measuring diameter and shape in three cross sections.

During the return stroke of the rod 27, the shape of the hole in the part is measured in the longitudinal direction when the mechanisms perform actions in reverse order. At the end of the stroke of the rod 27, the bracket 29 rotates and the controlled part 47 is reset.

the surface of the tested part, the mechanism for longitudinal movement of the part with the tray for its axial base and the mechanism of rotation of the part, characterized in that. in order to increase the accuracy of control, it is equipped with a meter self-installation mechanism along the axis of the part being monitored, made in the form of a box-shaped body, in which in the plane

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In the process of measuring the diameter of the part 10, the position of the lobes of the mandrel is set to 13 meter 2 automatically g pmrmt-poi, ..- ,. , pp ...

Claims (1)

47, the gauge 2 is automatically self-centered on the diameter of the part due to the possibility of rotation in the centers 17 and 18 in the horizontal plane and vertical movement on the parallelograms 19. Due to the possibility of self-installation of the gauge relative to the part being monitored, the measurement accuracy is improved. Invention Formula The flare meter can be rotated around an axis, perpendicular to the axis of the mandrel, two articulated parallelograms and a compensating spring, connecting 15 housing with a base fixed on the base of the copier and fixed on the housing of a spring-loaded balancer with two rollers interacting with the mine. -r- - - - ROM, the tray is designed as a rotary A device for controlling the diameter of a 20 around its axis of the bracket and installed in parts contains a base and two pairs of support rollers on it and a gauge mounted on it from the base balance bar with rollers fixed by a mandrel made in the form of fixed on the base of the second two-spring copied on the gauge of the two elastic interacting with the rollers of the second petals with the contact surfaces, 25 balance bar, and the contact surfaces of the leppered designed to interact with the stacks are made spherical /////////////// the surface of the tested part, the mechanism for longitudinal movement of the part with the tray for its axial base and the mechanism of rotation of the part, characterized in that. in order to increase the accuracy of control, it is equipped with a meter self-installation mechanism along the axis of the part being monitored, made in the form of a box-shaped body, in which in the plane ivw uis-iaiui and r-uyiiy d, a MJI irim AT PLC the arrangement of the lobes of the mandrel set-poi ..- ,. , pp ... 37 Vida 46 3 27 fyo4fo . 5