SU68380A1 - Borehole gauge - Google Patents

Description

The proposed device for measuring the diameter of wells at predetermined depths refers to the well-known TNP of such devices, which are equipped with hinged levers on the central rod with pivoting levers that are brought into contact with the borehole walls at the measurement site.

A distinctive feature of the invention is that the electromagnet included in the supply bridge of the measuring bridge is used to hold the spring-loaded arms in a compressed state. The latter is formed by resistors fixed in the device, along which the contacts controlled by the above-mentioned levers and attached to the indicator mounted on the surface of the earth move.

FIG. 1 shows the proposed device; in fig. 2 - his electrical circuit.

Three sliding arms / pivotally connected to stem 2 passing through chamber 3, in which an electrical device is installed, consisting of four resistances 4, 5, 6 to 7, connected in a DC bridge circuit to an electrical circuit fed by a battery 8 Resistors 4 and 5, as well as 5 and 7, are wound on two insulated rods 9 and 10, through which the contacts // are moved, connected to the cores of the cable connecting the device with potentiometer P mounted on the surface. The potential difference measured by the potentiometer according to the connection scheme given in FIG. 2, is directly proportional to the axial displacement of the rod 2, and since this displacement is directly dependent on pushing the levers 1, the potential difference is also directly dependent on the average diameter of the well. In order to determine the diameter of the well according to the measurement of potential differences on the surface, chamber 3 is filled with oil, which, using a pressure compensator 12, which is a oil filled tube, is under a pressure equal to the pressure in the well. The latter allows the free movement of the rod in the packing seals 13 and 14.

The device is lowered into the well on the carotta cable 20.

When the device is lowered into the borehole, the levers / are in a compressed state held by the cup 15 mounted on the end of the core 16 of the tangled electromagnet 18. The coil 17 of the electromagnet is connected to the bridge power supply circuit. When the device reaches the lowest point from which the measurement of the diameter of the well is supposed to take place, the power supply circuit closes. In this case, the core 16 of the electromagnet 18 W 75

The arms (which extend the spring 19 to the walls of the borehole) are flexed and released. The rod 2 rises and, changing the equilibrium of the electric bridge, makes it possible to register on the surface the value of the diameter of the well.

The instrument is then raised with a continuous measurement of potential differences using potentiometer P, resulting in a well diameter diagram.

The subject of the invention is a device for measuring the diameter of wells at predetermined depths,

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provided with pivotal pivot levers on the central rod, brought into contact with the borehole walls at the measurement site, characterized in that an electromagnet is used to hold the spring-loaded arms / in a compressed state; -7, through which the contacts 11 move, controlled by the levers / and attached to the indicator mounted on the surface of the earth.

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