SU1146432A1 - Device for measuring the profile of domal cavities - Google Patents

Abstract

A PROFILE CAPACITIVE CAVITY MEASURER containing a barbell, measuring levers, a flexible string, the upper end of which is connected with a registering mechanism, characterized in that, in order to expand the range and improve the accuracy of measurements, the measuring levers are made in the form of two pairs of short and long arms located at an angle of 90, with the short shoulders being weights-counterweights, with the lower end of the flexible string passing through the eye, made at the lower end of one long arm, and rigidly fixed to the lower It is the end of the other long arm.

Description

The invention relates to geophysical studies and can be used when measuring the diameters of wells and the profiles of sections of underground cavities. A device for measuring boiler voids, including elastic mite, which through a system of directional rollers located in the body of the device can be pulled out of the body with a cable to control the tape perpendicular to it, measuring the radius of the strips ™ 1, is known. The disadvantage of the device is low measurement accuracy due to the deflection of elastic tapes. . The closest to the present invention is a device: for measuring the profile of cavities, including a recording mechanism with a potentiometric sensor, connected with a flexible system with a system of measuring levers, to open which a load is connected in the well, connected through a flexible cable to the lower ends of strut measuring levers 2. The disadvantages of the known device are the small measurement range of the profiles of the cavities due to the dependent suspension of the measuring levers and the low accuracy in measuring the cross sections of cavities. The eccentric shape. In addition, the design features of the device do not allow measurements in the lower and upper parts of the cavity. The purpose of the invention is to expand the range and increase the measurement accuracy. The goal is achieved by the fact that the boiler profile meter; cavities, containing a shtaigu, measuring levers, a flexible string, the upper NII of the end of which is connected with a registering mechanism; the measuring levers are made in the form of two pairs of short and long arms, each located at an angle of 90, with The swollen shoulders were weights and counterweights, with the lower end of the flexible string passing through the ear, made at the lower end of one long arm, and rigidly mounted on the lower end of the other long arm. FIG. Figures 1 and 2 show two projections of the gauge. The profile of the boiler cavities. The boiler cavity profile gauge consists of a system of two shoulders, whose short shoulders are weights and counterweights located at an angle of 90 to the long ones. Short shoulders 1 are made of a material with a large specific mass, such as lead. Long. Shoulders 2 are made of light metal, such as duralumin. Rigidly connected, they can rotate on ball bearings 3 around axis 4 due to the difference in shoulder weights by an angle of about 90 from the position shown in FIG. 1 and 2. The long arms are connected to each other and to the registering mechanism 5 of the flexible string 6. The lower end of the string 6 is freely passed through the eyelet loop 7 fixed to one of the ends of the long arms 2 and fixed rigidly to the other (Fig. 1) . The upper end of the string 6 is passed through a hole in the axis 4, fixed on the rod 8, into the internal cavity of the latter and then spreads onto the graduated drum 9 of the recording mechanism 5, where it is also fixed. The starting point is set by the fixed arrow 10, and the return of the meter to the zero position is performed by rotating Graduated drum 9 by uchka 11. In the initial position, the string 6 is wound on a graduated drum 9 that is held by hand, the ends of the long levers converge, the zero is fixed by zero position. When lowering the device into the cavity to the required depth, the graduated drum-9. is released. Due to the difference in mass of the shoulders, the system of levers comes into rotation, the ends of the long levers at the same time are moved apart up to the stop in the wall of the cavity. The distance between the ends of the long arms is measured by the string and traced along the graduated drum 9. After the measurement is made by turning the knob 11, the ends: tails. 2 are reset, the device skips and the process repeats. To measure the profile of the upper part of the cavity, the measuring levers rotate 180 degrees around axis 4,

Claims (1)

BOILER PROFILE MEASURER, a flexible string, the upper end of which is connected to a recording mechanism, characterized in that, in order to expand the range and improve measurement accuracy, the measuring arms are made in the form of two pairs of short and long arms located at an angle of 90 ° at the short shoulders are counterweights, the lower end of the flexible string being passed through an eye made on the lower end of one long shoulder,! and firmly fixed to the lower end 4 * hU GO No. 1 146432