SU848980A1 - Apparatus for measuring relative lateral deformation of hollow cylindrical part - Google Patents

Description

(54) DEVICE FOR MEASURING RELATIVE

TRANSVERSE DEFORMATION BY FLUID CYLINDRICAL The invention relates to a measurement technique. A device for measuring the deformation of the surface of a part is known, which includes a bracket mounted on the part and carrying a contact sensor of linear displacements 1. However, this device does not allow measuring the deformation on the part to be progressively displaced in a given plane. The closest to the invention to the technical essence is a device for measuring the relative transverse deformation of a part, comprising a housing placed in a contact sensor, a sensor fixing unit on the part in the stop and guides 2. However, when using the device, measurement errors are possible Since the sensor is fixed relative to the part by an emphasis from one of the ends of the part, and during the deformation of the part, the error of the base can be commensurate with the amount of deformation due to the non-parallelism of the axis of the measured part and guiding devices, in which the housing with the sensor and the stop are swept over.

DETAILS The purpose of the invention is to improve the accuracy of measuring the relative transverse deformation of a hollow part in the process of loading with internal pressure. This goal is achieved by the fact that in the device the guides are rigidly fixed on the body, on its two opposite sides perpendicular to the sensor axis, and the fixing unit is designed as two spring-loaded sliders mounted on the guides with stops symmetrically located relative to the sensor and intended to interact with the ends of the parts. FIG. 1 shows a variant of the device, a section; in fig. 2 - the same, top view. The device includes a housing 1, in which an inductive contact sensor is placed with a coil 2 attached to the housing 1 and with a core in the form of a contact, tip 3, with a spring 5 mounted between the support 6 of the contact tip 3 and housing 1, and fixed from falling out of the nut 7. symmetrically on two opposite sides of the housing 1 perpendicular to the axis

on the tip 3, guides 8 and 9 are rigidly sealed, on which sliders 10 and 11 are placed. Slides 10 and 11 are connected to guides 8 and 9 of the axes 12 and 13, passing through the slots, which are made in directions 14 and 15. . On the sliders 10 and 11, the stops 16 and 17 are pressed tightly against the ends of the part 4 by springs 18 and 19, one ends of which are fixed to the sliders 10 and 11, while others are attached to the guides 8 and 9 with pins 20 and 21. For simultaneous control of the absolute transverse deformation of the part in the device is mounted on a flat spring 22, fixed minutes on the housing 1, the additional feeler 23.

The device works as follows.

The working fluid under high pressure is supplied to the internal cavity of the part 4, and the part 4 begins to deform. The diameter increases, and the height decreases, but the point of contact of the contact tip 3 of the inductive sensor with part 4 remains unchanged. When uneven deformation of part 4 along its height (occurrence of a corset or barrel) occurs, the contact point 3 begins to move and the inductive sensor produces a signal proportional to the relative transverse deformation of the workpiece 4. Symmetrical installation of the sensor relative to the workpiece 4 ensures its location in the zone of maximum values of relative d information Simultaneously with the measurement of the relative transverse strain with an increase in the diameter of the part 4, another contact sensor 23 can detect the value of the absolute transverse strain.

When the part is deformed by internal pressure, the axis of the detonation 4 does not affect the accuracy of measuring its relative lateral deformation.

The device allows accurate and reliable measurement of the relative lateral deformation at any position of the part when it is deformed by internal pressure.

Claims (2)

1. Authors certificateSSSR 177129, cl. G 01 B 5/30, 1964. 2. Authors certificate of the USSR 375467, cl. G 01 7/30, 1971 (prototype).