SU711358A1 - String altitude mark - Google Patents

Description

one

The invention relates to the field of geodetic instrumentation and, in particular, to devices for measuring micro displacements of rocks.

A device is known that allows measuring layer-by-layer displacements of rocks in one well, comprising a body, a casing, a plumb, measles, strings, and reading devices C. The disadvantage of this device is that with a more complex design, only high-altitude displacements are received.

The aim of the invention is to expand the functionality.

This goal is achieved by the fact that the casing is made in the form of pipe sections connected by bellows, on the inner walls of which sensors of plumb and clamps of various lengths are installed to secure the strings, and on the external walls at the junction of pipes with bellows there are reinforcements with overlapping rings ensuring well bore .

FIG. 1 shows a general view of the proposed mark; in fig. 2 - a general view of the upper part of the sign; Fig. 3 bellows joints of pipe sections.

sign; in fig. 4 shows a view of photoelectric sensors for string positioning; in FIGS. 5 and b, the latches, respectively, in plan and in section.

The mark consists of pipe sections 1 connected by flexible bellows 2 and connected to the studied layers of rocks using concrete cores 3. Inside each pipe section with

With the help of special clamps 4, the invar strings 5 are fixed, intended for observing altitude shifts of rocks. The strings are under tension with knife

5 devices 6. The tops of the strings are equipped with scales 7.

A sleeve 9 is mounted in the flange 8. A direct plumb is suspended on the bushing along the axis of the pipes 10. To absorb the oscillations of the plumb, the weight of the plumb 11 is immersed in a damping fluid 12.

Clamps have a variable length and are offset from the center of the pipe, which ensures free passage of the invar strings 5 from each subsequent horizon to the reading mechanism and does not disturb the position of the straight plumb line coinciding with the axis of the sign. The photoelectric sensor 13 of the pole of the string consists of two pairs of photo-

The diodes located on the steel pipe sections in two mutually perpendicular positions, and two corresponding each of these pairs of photoresistors. The sensor operates in the mode of fixing the flow of light from each LED in a pair.

The fastening of each sign pipe to the bellows is carried out by rolling or by means of a flange with a gasket.

The laying of the mark is carried out in the assembled state by successive concreting of the pipe sections inside the well.

To hold the pipe with bellows in the vertical position and the middle position for the bellows, when using concrete, a removable inner rod 14 is used, which fixes the design position of the pipe sections with the help of disk stops 15.

The concreting of the sections of sign pipes in the well is carried out as follows. Using a rod 14, a mounted sign is lowered into the borehole, which is provided on the outside at the junction of pipes with bellows with disk stops 15 with variable diameters, decreasing upwards. Concrete bottom section of the pipe, the bay concrete through a special sleeve. Then on the stop 15, the ring 16 is lowered with a hole diameter smaller than the outer diameter of the stop 15, which ensures that the well overlaps when the next overlying pipe segment is concreted. During concreting, subsequent 1D1x pipe sections use a set of rings with holes

variable diameters corresponding to the diameters of the stops.

After the concreting of the mark is completed, the rod 14 is removed from the pipe by a rotational movement. . The device works as follows.

The pipe sections associated with the studied rock layers using concrete cores reflect all planned and high-altitude micro-displacements of rocks. At the same time, the planned mixing of pipes is measured by sensors 13 of the position of the strings relative to the straight plumb, and the height displacements are measured by leveling the cases of 7 invar strings.

Claims (1)

1. USSR author's certificate 160836, cl. G 01 C 15/04, 1963 (prototype).