SU1567770A1 - Device for direction breaking solid structures - Google Patents

Abstract

The invention relates to mining and is intended to destroy fragile materials in quarries and during mining operations. The goal is to increase the efficiency of directional destruction due to the transfer to the monolithic object of the shear force along the outer surfaces of the sliding cheeks / RSch / 2. The inside surfaces of the PS2 2 lie on the outside of the walls of the spacer chamber / RC / 1 in the form of an elastic tube, are mirrored opposite and parallel with respect to axis 11 of symmetry RK 1. The outer surfaces of the RS2 2 are mirrored opposite and parallel to axis 12 of symmetry, inclined to axis 11 of symmetry RK 1. When the working fluid is fed through w Tocers 5 and 6, under pressure in PK 1, they increase the outer diameter and at the same time shift the PS2 to the block separation direction. In this case, the PS2 2 are simultaneously shifted relative to each other along the longitudinal axis of the device. This allows the block to be broken in mutually perpendicular planes. 3 il.

Description

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They also increase the outer diameter n at the same time in PK I and at the same time shift the PS2 to the side of block separation. In this case, RP 2 is simultaneously shifted one relative to another along the longitudinal axis of the device. This allows the block to be broken in mutually perpendicular planes. 3 il.

The invention relates to the means for the destruction of fragile materials and can be used in mining in the extraction of stone blocks, the destruction of concrete massifs and non-dimensions in quarries, the conduct of mine workings, as well as in hydraulic engineering and road construction in tunneling rock formations.

The purpose of the invention is to increase the efficiency of directional destruction by transferring a component of the thrust force to the monolithic object along the outer surfaces of the sliding cheeks.

Figure 1 shows the device, a longitudinal section; figure 2 - section aa in figure 1; fig.Z - technology extraction of stone blocks of the correct form using this design.

The device consists of a spacer chamber 1, sliding cheeks 2 and seals 3. The expansion chamber 1 can be made in the form of an elastic tube 4 with fittings 5 and 6 supplying the working fluid under pressure at its ends. Fittings 5 and 6 have a central opening for gripping the elastic tube 4 and clamping elements 7 with a central opening 8 for feeding the working fluid inside the device. The ends of fittings 5 and 6 on the side of the elastic tube 4 adjoining them are flanges 9. The cheeks 2 surround the spacer chamber 1 along its outer surfaces, while grooves 10 are made on their inner surfaces, which include fittings 5 and 6 s. flanges 9.

Around the flanges 9, nozzles 5 and 6 along the elastic tube 4 are installed seals 3, which interact with their working surfaces with the surfaces of the cheeks 2. The inner surfaces of the cheeks 2 adjacent to the walls of the spacer chamber are mirror opposite and parallel to the axis 11 of symmetry of the spacer chamber. Outdoor surfaces

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These sliding cheeks are mirrored opposite and parallel to the axis of symmetry 12, inclined to the axis of symmetry 11 of the spacer chamber.

The device works as follows.

The pedigree block, which is to be separated from the massif, is filled with holes, into which the devices of the proposed construction are placed. In this case, the devices in the bore-holes are oriented in such a way that the radial forces arising in their elastic tubes 4 when the working fluid is supplied to them are directed in the direction favorable to the separation of the block from the array.

When the working fluid is supplied to the elastic tubes 4, they increase the outer size (diameter) and simultaneously move the cheeks 2 and the seals 3. The cheeks 2 are shifted towards the separation of the block due to the presence of flanges 9 on the unions 5 and 6 and the corresponding location of the chamber 1. Cheeks 2 not only moving away from each other, but simultaneously shifting one relative to another along the longitudinal axis of the device. This feature in the movement of the plungers installed in the same plane of the drill hole allows the block to be torn off not only in this plane, but to undermine the block in a plane perpendicular to it and the longitudinal axis of the first plane of the axles. Cranking the device around their longitudinal axes allows simultaneous blasting of the block in two planes.

The installation of such devices in all three planes of the block separation, taking into account the effect described above, achieved due to the design features of the devices, allows separating the block in the optimal mode, i.e. with its simultaneous release from all planes of exposure.

Claims (1)

Invention Formula A device for the directional disintegration of monolithic objects, including a spacer chamber with a fitting for supplying the working fluid under pressure, sliding cheeks, the inner surfaces of which, adjacent to the walls of the spacer chamber, are mirrored opposite and parallel to the axis of symmetry of the spacer chamber, that, in order to upgrade the pump neither the effective number of the directional p,) is rusened by the transfer of the clock of monozch; - and the object constituting the spacer us.shg.o. along the external surfaces of the RCS, external surfaces; ... the cheeks are mirrored opposite and parallel to the axis of symmetry, inclined to the axis of symmetry of the expansion chamber. FIG. I