SU1606656A1 - Hydraulic power device - Google Patents

Abstract

The invention is intended for the extraction of blocks of natural stone, the destruction of concrete and reinforced concrete massifs and the breaking of rock during excavations. The purpose of the invention is to expand the functionality by providing the possibility of sequential collection of devices in the field. The device is made in the form of sliding cheeks (RS) 1 with bevels on the inner surfaces with which the inserts interact, and end locking flanges 4 with nozzles 5 for supplying the working fluid to the tubular elastic chamber 8 located between the RC 1.1 and the inserts from The needle on the device flange 4 is designed as a coaxial tubular sleeve (TV) 12. A chamber 8 passes through the holes in the TV 12 into the next device. The ends of the chamber 8 are sealed through the conical bores 6 and 15 into the flange 4. In the middle part, the TVs 12 can be equipped with spherical hinges, allowing to place the bush in a curved well. Under the reciprocal grooves 13 PSC 1 of neighboring TB 12 devices, there are opposed annular protrusions 14. After the bead is placed in the well, the working fluid is fed into chamber 8. At the same time, PSC 1 moves apart, destroying the rock. The presence of TV 12 provides close contact of the RS 1 along the entire length with the walls of the well. 1 hp f-ly, 3 ill.

Description

(TV) 12. (The camera 8 passes the hole in TV 12 into the bleeding device. The ends of chamber 8 are sealed through conical bores 6 and 15 into the flange 4. In the middle part of the TV 12 they can be equipped with spherical nifnirmi that allow to place the needle in a twisted well. Under reciprocal grooves 13 RSH, 1

The TV 1 devices adjacent to the wire have opposed annular protrusions 14. After the wire is placed into the well, the working fluid is supplied to the chamber 8. At the same time, the PS1 are moved apart, destroying the rock. The presence of TV 12 provides close contact of the RS 1 along the entire length with the walls of the well. 1 3. p. F-crystals, 3 ill.

The invention relates to the destruction of massifs and can be used in the extraction of blocks of natural stone, the destruction of concrete and reinforced concrete structures, as well as in mine, road and hydraulic engineering during excavations of rock and high-strength fragile rocks.

The aim of the invention is to extend the functionality by providing the possibility of sequential collection of devices in the field.

FIG. 1 shows the device arm, longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 - the variant of execution of the connecting sleeve with spherical P1 hinge.

(The silo device consists of sliding cheeks 1 with bevels 2 on the inner surfaces, trapezoidal inserts 3, end locking flanges 4 with fittings 5 for supplying working fluid, Koppschic front boring 6 and annular projections 7, tubular elastic chamber 8, gaskets 9 and 10 of elastic material, washers 11, connecting tubular sleeves 12. Grooves 13 are made on the inner surfaces of the sliding cheeks 1. Tubular sleeves 12 are zanormp (r.ischamp facing each other end devices of the wire. opposing annular protrusions 14, one under p |) c) points 13 of the first device, add half. under the grooves 13 of the next device. The sleeves 12 have a conical end bore. Camera 8 is skipped through the sleeve 12 into the next device. Gaskets 9 and 10 of elastic material pshiba 11 are installed on the tubular elastic chamber 8 and placed in the copy end bores 6 and 15 of the front locking flanges 4 and sleeves 12. The sleeves 12 can be provided in the middle part with spherical joints 16. Sliding cheeks 1 on the outer surface may have grooves 17, in which ko are placed. shts 18 of elastic material.

The device works as follows. When applied under pressure of the working fluid into the tubular elastic chamber 8, it increases in diameter and interacts with the sliding jaws 1, inserts 3 and gaskets 9 and 10 of elastic material. The elastic pads 9 and 10 are deformed and the washers 11 are pressed against the ends of the sliding cheeks 1 and the inserts 3, which ensures the operation of the tubular elastic chamber 8 in a continuously closed volume. When the working fluid is further supplied to the tubular chamber 8, the sliding cheeks 1 and the inserts 3 receive a radial stroke, which, when placed in the well drilled in the massif, ensures its directional destruction. The presence in the device of the sleeves 12 provides a close contact of the sliding cheeks 1 along their entire length with the walls of the well. This eliminates the deformation of the sliding cheeks 1 above the allowable, and accordingly ensures the contact of the inset 3 with the bevels 2. The device works satisfactorily in wells with longitudinal curvature. The implementation of the sleeves 12 with spherical hinges 16 ensures the normal operation of the device in highly curved wells.

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Claims (2)

1. Hydraulic power device, including sliding cheeks with bevels on inner surfaces, trapezoidal inserts installed between sliding cheeks and adjacent oblique faces to beveling cheeks, end locking flanges with annular projections and with fluid inlet fitting and conical face boring on one of them, mounted between the ends of the sliding cheeks, facing inward with tapered bores and entering by reciprocal grooves on the inner surfaces with annular projections sliding cheeks, a tubular elastic chamber, longitudinally installed between the sliding cheeks and inserts, embedded with the ends into the locking flanges through conical bores and communicated with the liquid supply fittings, gaskets made of elastic material, mounted on the tubular elastic chamber and entering the conical borings of the end locks flanges, characterized in that, in order to extend the functionality by providing sequential collection of devices in the bush, the face locking flange on the side of the subsequent device in the barrel of the device is designed as a coaxial tubular bushing with an opposed annular protrusion entering the grooves of this device, an additional annular protrusion under the proA-A is covered FIG. 2 points of the next device, while the elastic chamber is passed through the tubular sleeve into the next device. 2. A device according to claim 1, characterized in that the tubular bushing is provided with a spherical joint for connecting its parts with opposing annular projections. Have