SU1145126A1 - Borehole caliper - Google Patents

Abstract

1. CAVERNOMER, comprising a housing, a head mounted movably in the axial direction, a spring-loaded lever system, one ends of which is pivotally fixed to the housing, others on the head, the transmission and measuring elements inside the housing, the registering unit, l and h and i so that, in order to increase the measurement accuracy due to the regulation of the forces, press the lever system to the walls of the wells drilled from the mountain workings, the measuring element is filled in the form of a cup mounted on the body, the volume in the stacker is made of axial holes, and the transfer element is designed as a set of rods connected between each other, the free ends of which are fixed respectively in the lid of the glass and the head .. 2. The caliper is pop.1, it is different Measuring scales are placed along the circumference of the body and on the side of the joint with the glass. 2. The caliper according to claim 1, is (the handle is rigidly fixed on the body and on the glass. 4. The caliper according to claim 1, which is equipped with a rod mounted on the body from the compounds of the latter with 4; glass. SP to O5

Description

I The invention relates to a device; for testing walls of boreholes. A well-known caliper is known, comprising a housing on which measuring levers located in two mutually perpendicular planes, registering unit, transfer and measuring elements 1 J are fixed. The disadvantages of this caliper are complexity and bulkiness. design, especially logging station, the presence of a rheostat with open contacts, which prevents its use in the conditions of coal mines. Also known is a caliper, containing a body, a head mounted movably in the axial direction, a spring-loaded lever system, one ends of which are hinged on the body, others on the head, transfer and measuring elements located inside the body, registering node 2. The disadvantage of the well-known cavern is There is no regulation of efforts to press the lever system to the walls of the preparatory workings of coal mines, which affects the change in the diameter of the wells. The purpose of the invention is to improve the accuracy of measurements due to the regulated force of pressing the lever system to the walls of wells drilled from mining workings. The goal is achieved by the fact that in a caliper, comprising a body, a head mounted movably in the axial direction, a spring-loaded lever system, one ends of which are hinged on the body, others on the head, the transmission and measuring elements located inside the Body, the registering node, The measuring element is made in the form of a cup mounted on the body, while the axial holes are made in the glass rim, and the transfer element is made in the form of a set of rods interconnected, free the ends of which are fixed respectively in the lid of the glass and the head. In addition, evenly around the circumference of the body and from the side, the latter is connected to a glass from measuring scales. 26 a The handles are rigidly fixed on the case and on the glass. The caliper is equipped with a rod mounted on the housing from the side of the latter's connection with the glass. FIG. 1 shows a caliper, the general view in FIG. 2 is a view A of FIG. one; in fig. 3 shows a section BB in FIG. 1. A caliper consists of a lever mechanism 1 with rollers 2 connected through hinges 3 with a guide head 4 and a sleeve 5 of the body. A safety cover 6 is rigidly connected with the guide head 4 and the rod 7 through the threaded connection, finally connected to the rod 8 located inside the housing 9. The housing 9 is connected to the sleeve 5 through the threaded connection to which the springs 11 are attached by screws 10, squeezing levers of the hinge mechanism 1. The rod 8 is threadedly connected to a measuring cup 12, which slides freely on scales 13 and 14 to measure the size of the size of the cavity in the wells. Handles 15, a rod 16 and a fitting 17 with openings for fastening the flexible cable used for connection to the recording unit are rigidly attached to the body 9 and the glass 12. To measure the depth and length of the cavity on the housing 9, there are risks located along the entire length every 10 mm. To prevent gas from accumulating in a borehole or a borehole, when measuring the size of the cavity, the guide head 4 has a streamlined shape and a smaller diameter compared to the body 9. When transporting the cavern, lever-hinge mechanism 1 is squeezed by a ring 18 located on the body 9. 1 The caliper works as follows . The cavern guide head 4 is inserted into the well, the ring 18 is shifted, and with the help of the handles 15 the caliper is slowly advanced into the well, following the movement of the measuring cup and the racks. While the cavern is moving along the borehole, the rollers 2 of the lever-hinge mechanism 1 by the springs 11 are pressed tightly against the walls. With the appearance of a cavern in the well, the levers of the hinge mechanism

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using the springs 11, the guide head 4 is dispensed to the sides and fed back along with the rods 7 and 8 and the cup 12, and measuring scales with divisions of the chamber height are plotted. Moving forward and rotating the caliper on 360, visually measure the dimensions of the cavity in the well,

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In order to continuously measure the dimensions of the cavity, a flexible cable is connected to the recording unit to the rod 16 and the fitting 17.

5 This technical solution makes it possible to accurately measure the linear and volumetric dimensions of the caverns of the development workings of coal mines.

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Claims (3)

1. CAVERNOMER, comprising a housing, a head mounted movably in the axial direction, a spring-loaded lever system, one ends of which are pivotally mounted on the housing, others on the head, transmission and measuring elements, located inside the housing, _d - X 'recording unit, o The reason is that, in order to increase the accuracy of measurements by regulating the efforts of pressing the lever system to the walls of the wells drilled from the mine workings, the measuring element is made in the form of a glass mounted on the housing, while axial holes are made in the lid of the glass, and the transmission element is made in the form of a set of rods connected · to each other, the free ends of which are fixed respectively in the glass lid and the head. 2. Caliper number 1, characterized in that the measuring scales are placed evenly around the circumference of the body and from the side of the connection of the latter with the glass. 2. The caliper according to claim 1, characterized in that the handles are rigidly fixed on the body and on the glass. 4. The caliper according to claim 1, which is characterized in that it is provided with a rod mounted on the housing from the side of the connection of the latter with the glass. SU .1145126