SU977775A1 - Deformation meter - Google Patents

Description

(5) DEFORMOMETER

Claims (2)

The invention relates to mining and can be used to investigate the stress state, deformations and properties of an array of rocks. A deformometer is known, consisting of a body, elastic sensing elements, supports and connecting elements 1. A disadvantage of the design of this deformometer is that, when measuring strains in a well, it does not prevent the development of inelastic strains around the well, and the transition from measured strains to stress It is based on the formulas of the theory of elasticity. Therefore, the stresses measured, for example, in coal using a deformometer of this design, differ from the stresses measured using hydrosensors or pressure meters by more than 1.5 times, i.e., the accuracy of the measurement of stresses due to these factors is insufficient . The closest in technical essence to the present invention is a deformometer comprising a body with a lid, a drive connected by means of hinge bars to the body, and contact supports mounted on the middle joint hinge bar g 23. The drawbacks of the device are the insufficient accuracy and reliability of measuring strain in hole due to the fact that stress measurements are made only in one measuring direction, and also that the control over the change of deformations is carried out by changing the pressure in Indra (as is known, the accuracy of the hydraulically sensors is significantly lower than for example, strain gauge, capacitive and m. p.). The purpose of the invention is to improve the measurement accuracy and reliability of the device. The goal is achieved by the fact that in a deformeter, including a body 3977 with a lid, a drive connected by means of hinge bars with the body and contact supports mounted on the middle joint hinge bar, the deformometer is equipped with strain beams, one ends of which are fixed to the body under gami, others - by means of additional tg are connected to the middle connecting hinge of g. and the strain gauge wires are placed in the cavity of the housing, and the drive is designed as common pistons common to each other. FIG. 1 shows the deformometer, cut; FIG. 2 is a view along arrow A in FIG. 1. The deformometer consists of body 1, cover 2, which through gasket 3 is connected to body 1, eight pistons t, fitting 5 of a sealing nut 6, cable 7, eight contact supports 8, each of which is connected with its piston by means of cable 9 k, and with the help of the pulling rod 10 - with the housing 1. For each of the eight contact supports there is a strain gauge beam 11, which is fixed with one end to the housing 1, and with the other end using the coupling 12 with its contact support 8. In the cover 2 has an annular cavity 13 which communicates with eight holes ti mi 14, which perform the role of piston cavities for pistons k. The deformometer works as follows. The device is placed and oriented in the well. Through the nozzle 5 and the annular cavity 13, the working fluid under pressure enters the holes and causes the pistons to move. The pistons k in turn, by means of grids 9 and 10, act on the contact supports 8, causing them to move before they come into contact with the walls of the well (thus, the required spreading of the deformeter is set). Such a design of the deformer allows it to be used for measurements in wells of non-circular cross section, since the contact supports 8 are not connected kinematically among themselves, and if some of them have already come into contact with the walls of the well, they do not interfere with the rest in contact with the walls of the well. 5 Measurement of stresses in a rock mass with the help of a deformometer is carried out as follows. A change in the stresses around the well causes deformations, its contours, which are transmitted to the strain gages 11 through the contact supports 8 and the springs 10, causing them to bend. The magnitude of the deflection is detected by strain gauges, the signal from which is fed through a cable 7, fixed by a sealing nut 6, to the recording equipment. Monitoring the change in stresses around the well can also be carried out by changing the pressure in the hydraulic system caused by the movement of the contact supports B pivotally connected by means of piston 9 with pistons. Application of the proposed deformeter will eliminate the formation of an inelastic zone around the well (which is essential during operation in weak coals, where the inelastic strain fraction is significant), perform measurements in wells that have a cross-sectional shape that differs from round ones, as well as if cavities and residues are present in the wells. yba. Claims A deformometer comprising a housing with a lid, an actuator connected by means of hinged bolts to the hull, and contact supports j mounted on the middle hinge joint, characterized in that, in order to improve the accuracy and reliability of the deforometer, it is equipped with strain beams, some of the ends are mounted on the housing under the grommets, others are connected to the middle joint hinge by the additional tg, and the strain gauge wires are placed in the cavity of the housing, while the drive 8in1 is filled in ie symmetrically placed along the contour of the body of the individual pistons, communicated with each other, information sources, received into account in the examination certificate of the USSR By 1.Avtorskoe 58725, cl. E 21 C 39/00, 1978. 2. USSR author's certificate number A70622, cl. E 21 C 39/00, 1975 (prototype).