SU1226011A1 - Device for indicating rock mass deformation when driving working - Google Patents

Abstract

The invention relates to a measurement technique and can be used to measure bundles in the ceiling zone of workings. The aim of the invention is to increase the reliability of the device. A set screw is screwed into the glass with the windows, thereby ensuring the pinout of the signal pin, which is the starting point for setting the allowable deformation. If the thread pitch is set, the set screw is turned out of the glass by the amount of permissible deformation. After that, a signal finger is inserted into the cup and a key is screwed into its tail, with which the sensor is inserted into the hole until the grip is connected to the lower end of the depth reference frame. The housing is rigidly fixed in the hole of the spacer hole. Perpendicular to the axis of the signal finger, plates are installed that are connected by a hinge on the periphery by means of a connecting element connected through holes in the plates with a flexible rod. As the rock deforms, the body moves with the rock relative to the glass. The lower edges of the grooves in the glass gradually bend back the flat springs towards the grooves. The signal finger is pushed out of the cup by the action of the coil spring. The bending of the ha is weakened, and the plates under the action of their own mass are opened with a luminescent coating to the outside, signaling about the past deformation. 2 Il. from 05 to 05

Description

The invention relates to a measurement technique and can be used to measure bundles in the ceiling zone of workings.

The purpose of the invention is to increase reliability.

FIG. 1 shows a device for signaling rock strains, general view; in fig. 2 - the same during work.

A device for signaling deformations of a rock mass when excavating underground workings contains a deep frame 1, at which the linear displacement sensor is fixed at the lower end of the rod. The sensor consists of a housing 2, a spacer 3 for fixing the cup 4, in the upper part a set screw 5 is screwed in with the catch 6. In the case 2 and the cup 4 there are combined through longitudinal grooves 7 and 8 through which the flat springs 9 are passed.

In the glass 4, a signal finger 10, held from falling out by flat springs 9, and a cylindrical spring 11 are placed.

The signal finger 10 is connected to the set screw 5 by the thread 12. The device also contains a visualization unit, made in the form of a flexible rod 13, one end connected to the signal finger 10, two parallel plates 14 with holes 15, connected by a hinge 16, and element 17. The surfaces of the plates 14, facing one another, are covered with a fluorescent coating.

The device works as follows.

Before installation, the sensor is adjusted to the amount of permissible deformation. For this purpose, a set screw 5 is screwed into the cup 4, into which the signal pin 10 is inserted, thereby securing the signal pin 10, which is the starting point for setting the allowable deformation. If you know the thread pitch, the adjusting screw 5 is turned out of the glass 4 by the amount of permissible deformation. After that, the signal finger 10 is inserted into the cup and a key (not shown) is screwed into its tail, with which the sensor is inserted into the hole until the grip 6 is connected to the lower end of the depth frame 1, and the sensor body 2 is rigidly

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five

secured to the hole of the hole using the spacer 3.

After that, the key is turned out of the cup 4. A visualization unit is connected to the device, for which the plates 14 are installed perpendicular to the axis of the signal finger 10 and connected with the aid of a connecting element 17.

As the rock deforms, the sensor body together with the rock moves relative to the glass 4 fixed on the lower end of the depth frame 1. At the same time, the lower edges of the grooves in the glass 4 gradually bend the flat springs 9 towards the grooves 7. The signal finger 10 is released and under the action of the cylindrical spring 11 pushed out of the cup 4, bending the rod ha 13 weakens and under the action of the self-mass of the plate opens with a luminescent coating to the outside, signaling about the past strain.

Claims (1)

Invention Formula A device for signaling a rock mass deformation during excavation of underground workings, containing a deep frame and a linear displacement sensor made in the form of a telescopically connected cylindrical body with longitudinal grooves and a glass with windows aligned with the body grooves, a set screw fixed in the bottom of the glass and associated with the reper, two flat springs, each of which is fixed to the body with one end and its other end placed in the corresponding window of the glass, and a spring-loaded signal finger, Placed in a glass and associated with a set screw, characterized in that, in order to increase reliability, it is equipped with a visualization unit, made in the form of a flexible rod, one end connected to the free end of the signal finger, a connecting element and two parallel plates with holes interconnected pivotally around the periphery and perpendicular to the axis of the signal finger, the second end of the flexible rod goes through holes in the plates and is connected to a connecting element whose dimensions are larger than These are the holes mentioned, and the surfaces of the plates facing one another are covered with a fluorescent coating. Fig2