SU1044776A2 - Apparatus for measuring well diameter - Google Patents

Description

The invention relates to a technique for measuring deformations in an array of rocks surrounding underground engineering structures. A device for measuring radial borehole wall measurements, consisting of resilient sensing element with strain gages and supports, is described on the basis of the main car. made in the form of a ski with holes and hinged on a rod mounted perpendicular to the sensitive element. The device is sent to a pre-drilled well to the desired depth using a special tool. Radial movements of the borehole walls caused by creeping of rocks or changes in the stress state of the rock mass are transmitted through supports to the elastic element. Elastic deformations of the elastic element are transformed by sensors (for example, resistance strain gages) into an electrical signal that is transmitted and recorded by the recording device TI JLost The device is a lack of accuracy of measurements, tg-ak as the mechanical part of it (an upward element and supports with counters). Unlike an electrical circuit, it does not have t temperature compensation. Therefore, a device placed in a well in which there are no radial movements produces a signal (apparent deformation) if its temperature changes. For example, when a device is installed in a well, the temperature of the device is several degrees different from the air temperature in it and for the first time after installation these temperatures equalize. In this case, in a known device made of steel, the temperature error may reach 6, 7 kgf / cm-hail. The purpose of the invention is to improve accuracy. The goal is achieved by the fact that the device for measuring the diameter of the well according to autol. No. 283132 is equipped with compensating elements made in the form of glasses and mounted on the ends of elastic elements on the inner side of the latter, with the stems of the supports fixed in the bottom of the glasses and large, - than from the material of the rod, the temperature coefficient of linear expansion is I oi-tur wheret the temperature coefficient of linear expansion of the material compensating the element; .. temperature coefficient of linear expansion of stock material. . The drawing shows the proposed device. The device consists of an elastic element 1, strain gauges 2, centering springs .3, compensating elements made in the form of glasses, rods 5, axes 6, supports 7 and locking nuts 8.. . The compensating elements k are screwed into the holes of the elastic element 1 from the inside. The elongated rod 5 of the support 7 enters the internal cavity of the compensating element 4 and is connected to it by means of a thread in the bottom of the latter. From turning and selecting the dead stroke of the thread, the rod 5 is fixed by a lock nut 8o. When it is installed in the borehole, the supports 7 through the rods 5 and axis 6 tightly press against the borehole walls due to the bending deformation of the elastic element 1 о. the temperature changes the linear dimensions of the elastic element 1, the rods 5, the supports 7 and the compensating elements 4. If the temperature change of the first three specified parts causes the occurrence of deformation bending of an elastic element 1 of one sign, then the same temperature change of the compensating element causes deformation of the bending of the elastic element 1 of another sign due to the fact that the compensating element k is connected to the elastic element 1 from the inside, and the rod 5 - from the bottom compensating element. The dimensions of the compensating element of C are selected by elemental calculation based on the temperature coefficients of the linear expansion of materials and the geometric dimensions of the elastic element 1, the length of the rod 5 and the height of the support 7. When choosing the material of the elastic element, it is necessary to obtain stable elastic characteristics strain gauges. The best material for this is steel. LUTOK 5 can also be made of steel, but to reduce the linear dimensions of the compensating element k, the stem material should have the minimum possible temperature of 10 6,. linear expansion coefficient. For example, if the rod 5 is made of Invar, the dimensions of the balancing element 4 can be reduced by reducing the requirement for completeness of temperature error compensation. The introduction of a compensating element into the device improves the measurement accuracy due to temperature compensation of the mechanical part in all cases when the temperature of the device does not remain constant. Due to this, the application of the method of boreholes to frozen rocks and rocks adjacent to tunnel workings, the temperature in which is subject to daily and seasonal fluctuations

Claims (2)

1 · DEVICE FOR MEASURING A WELL DIAMETER by auth. No. 283132, characterized in that, in order to improve accuracy, it is equipped with compensating elements made in the form of glasses and mounted on the ends of the elastic elements on the inside of the latter, and the rod rods are fixed in the bottom of the glasses. , 2. The device according to π. 1, and the fact that the compensating elements are made of a material with a temperature coefficient of linear expansion tJ greater than that of the rod material, where c1 _K1 is the temperature coefficient of linear expansion of the compensating elements; the temperature coefficient p of the linear expansion of the rod material. >