SU82625A1 - Instrument for measuring linear and angular deformations - Google Patents

Description

The invention relates to a device with the application of a movable supporting prism made in the form of a pyramid: p supported on a spring-loaded mat.

Instruments for measuring linear and angular deformations during mechanical testing of materials are known, based on the mechanical principle of action (lever instruments). These devices have the disadvantage that due to the presence of several hinged connections in the transmission-multiplying part of their accuracy is low. In addition, the use of a mechanical lever system does not allow to obtain a large gear ratio, on which the measurement accuracy significantly depends.

In the proposed device, in order to increase the accuracy of indications and expand the range of measurements, an optical device was used to read the indications on the intersection of the filaments of the telescope reflected on the screen with the coordinate grid. The measuring optical device is made in the form of a spring-loaded rod supported on the support prism, which deviates in the process of deformation of the test object and is equipped with a mirrored multi-faceted head. This head rejects the image of the intersection of two mutually perpendicular filaments of the optic tube onto a movable screen that is installed at a distance determined by the required magnification ratio of the strain studied.

FIG. 1 shows the proposed device in section; in fig. 2 - device operation diagram.

L - 82625-2 -

The device consists of a plate /, stop 2, with a clamp for fixing the device on the test piece and of the measuring head.

The measuring head of the device consists of a movable pyramidal double-core support prism, pressed into the bracket 4 by its middle part. for example, two) planes x.

The movable support prism 3 by the spring 7 is constantly pressed against the socket 8 and can be rotated about the point of contact with the bolster in all directions. At its other end, the prism 5, when measured, is in contact with the test piece and np: i its deformations are rotated relative to the housing of the device according to the magnitude and direction of deformation. At the same time, the multifaceted mirror 6 fastened to the prism 3 deviates from its initial position. An observer who sights with the help of the optic tube 9 (Fig. 2) the reflection of the scals 10 in the mirror 6 will see its new section.

The cross in the field of view of the tube 9 allows a quantitative reading of the magnitude of the movement of the sighting beam along the two-dimensional scale 10, provided with a coordinate grid.

By varying the distance from the mirror 6 to the slides 10, the magnification of the investigated strain is changed accordingly.

To reduce the gear ratio when measuring large deformations (for example, when measuring residual deformations), it is advisable to reduce the base of the device, characterized by the distance from the axis of the stop 2 to the axis of the prism 3.

Subject invention

Claims (2)

1. An instrument for measuring linear and angular deformations during the testing of materials using a pyramid-shaped movable support prism supported by a bucket liner, characterized in that, in order to increase the accuracy of indications and extend the measurement range, It used an optical device for reading the indications of the intersection of the filaments of the telescope reflected on the screen with a grid. 2. The form of the instrument according to claim 1, characterized in that its measuring optical device is made in the form of a supporting spring-loaded rod supported and rejected during the deformation process of the test object and equipped with a mirrored multi-faceted head, rejecting the intersection of two - perpendicular filaments of the optic tube on the movable screen, which is installed at a distance determined by the required coefficient of increase of the investigated deformation.