SU609894A1 - Device for measuring radial deformations of borehole - Google Patents

Claims (2)

The measuring 7 passes through the longitudinal grooves 10 in the device case and is in contact with the corresponding cantilever beam 2 and the upper part of the support 7 abuts against when measuring the hole wall of the well. The amount of preload and thrust of the support 7 is adjusted by a nut 9, the device is equipped with a hollow shank 11 intended for screwing the installation rods when the device is mounted in the well. A scale 12 is applied on the outer surface of the body, according to which the distance from the place of embedding the console of the first beams 2 to the measuring supports 7 is determined. Hole 13 in the body serves to lead wires from the strain gauges and connect them to the reference station (not shown). The device operates as follows. Depending on the strength of the rock mass of the massif and, consequently, the expected radial deformations of the borehole walls, the measuring supports 7 are set using scale 12 at the required distance from the place of embedding of the beams 2, thus setting the required range and accuracy and measurement of well deformation. The change in the stress state of the belt causes radial deformations of the borehole walls, which leads to mixing of the measuring supports, which deform to the solo beams 2, the deflection of the console beams is fixed by resistance strain gages 3, connected to the reference station installed in the mine and connected with wires with strain gauges device. The great deflection of each cantilever beam reproduces the deformation of the well steaks at the installation site of the measuring supports 7. Before measuring, the instrument is calibrated from & locally with the readout equipment and a relationship is obtained between the deflection of cantilever beams at different positions of the measuring supports and the readings of this readout instrument. Since the length of the working arm, is equal to the distance from the place of embedding to the measuring supports, determines the sensitivity, accuracy and measurement range, then for measurements the optimum accuracy and the diapason of measurements are chosen depending on the FUELINESS of the rocks. The application of the proposed device allows to increase the accuracy and expand the range of measurements of radial deformations of wells. The invention The device for measuring radial deflections of a well, including a body, cantilever beams with strain gauges and an imeryty support, characterized by IeM, which, in order to improve accuracy and range of measurements, the device is equipped with a movable spring-loaded head and a lock, while the moving head is made with sockets for measuring supports, and the retainer is in the form of a screw pair and connects the movable head with the housing. Sources of information taken into account in the examination: 1. Korablev A. A, Modern methods and instruments for studying stressful rock mass. M., Science, 1969, p. 81. 2. In the same place 83 FIG. 2 -A