SU909181A1 - Pillar excavation method - Google Patents

Description

(54) METHOD OF EXPLOSION OF A WHOLE

one

The invention relates to the mining industry and can be used in the excavation of the pillars in the chambers of the hardened mixture.

There is a method of excavation pillar, including the laying of the goaf around it hardening material, podsek pillar when mining the underlying layer, drilling it and collapse on the specified hooking 1.

The disadvantages of this method are the large losses and dilution of the ore, due to the sticking of pieces of the broken pillar to the tab and the breaking of part of the filling mass together with the whole; reducing the stability of the backfill array by the seismic impact of an explosion on it, when the pillar is blasted and, therefore, the danger of work under the damaged roof is increased.

The pillar excavation method, which includes covering the lateral surface of the columnar pillar with insulating material, before laying the worked-out space around it with hardening material, drilling the pillar from the bottom-up drilling of the ascending wells into the backfill material and collapsing the rear pillar into the bottom-hole production 2.

The disadvantage of this method is the relatively large losses and dilution of ore, the high cost of its production and low safety of work.

The purpose of the invention is to reduce losses and dilution of ore, the cost of its production and increased safety of work.

The goal set is achieved by supporting a shaft under the sill before its excavation, and then the sill is squeezed out of the hardening tab by creating a static spread force between the end of the well and the whole.

15 A static thrust force is created by injecting pressurized fluid into the well.

In this case, fluids can report vibratory perturbations by mechanically influencing the stem of the jack being installed in the well on the hardening tab.

FIG. 1 shows the rear sight in section with a device for its extraction; in fig. 2 shows section A-A in FIG. one; in fig. 3 - pillar

in a section with a hydraulic jack installed in its well.

The method is carried out as follows.

In the rear sight 1, whose surface is covered with an insulating layer 2, isolating the rear sight from the hardening tab 3, one or several wells 4 are drilled by contact of the upper rear sight plane with the covering tab 3. A high-pressure hose 5 is inserted into the well 4, provided with a locking device 6 and inject fluid 7. Liquid 7 breaks the contact between the upper plane of the rear sight 1 and the hardening tab 3, increasing the area of the liquid on the end of the rear sight. In order to increase the efficiency of fluid penetration into the near-contacting pillar layer with hardening fluid, 7 vibrating disturbances are transmitted by means of a vibrator 8 placed in the well 4 before filling it with fluid 7. To prevent the high-pressure hose 5 from escaping from the well, the locking device 6 is used. can be communicated by leading the vibrator to the bottom plane of the rear sight. Under the influence of a high liquid pressure, the rear sight is squeezed out from the hardening bookmark 3 into the cutting opening 9, on the basis of which a rigid support 10 is installed eccentrically relative to the rear pole, on which the rear section collapses and hangs. In this position, the locking device 6 with the vibrator 8 is removed from the well 4 of the pillar I and the crushing of the pillar is performed by means of a charge explosion placed in the well freed from the locking device.

The expansion force between the end face of the well 4 and the whole 1 can be created by the mechanical action of the hydraulic cylinder 11 shaft 12 on the end of the well when rigidly fixing its housing of the bearing area under the hydraulic cylinder shaft; On the soil of chamber 13, before filling with a bookmark, it is possible to place support plates in the center of the future rear sight pane, which is formed when working on the underlying layer.

The proposed method allows to reduce the loss and dilution of ore, the cost of its production and to increase the safety of excavation work.

Claims (4)

1. The method of excavation of the pillar, including the coating of the side surface of the columnar pillar with insulating material before laying the worked-out space around it with hardening material, drilling in the pillar from the bottom of less than one upstream well with a hole in the backfill material and collapse of the pillar in the undercut production, characterized in that, in order to reduce losses and dilute the ore, the cost of its production and increase the safety of work, under the pillar, before its excavation, its axis eccentrically establishes a support, whereupon the pillar is squeezed out of the hardening tab by creating a static thrust force between the end of the well and the whole. 2. A method according to claim 1, characterized in that the static thrust force is created by injecting fluid into the well. 3. A method according to claim 2, characterized in that the liquids impart vibratory disturbances. 4. A method according to claim 1, characterized in that the static expansion forces are created by mechanical action of the rod of the jack installed in the well on the hardening tab. SOURCES of information taken into account in the examination 1. USSR author's certificate No. 605969, cl. E 21 C 41/06, 1976. 2. USSR author's certificate for application number 2907710 / 22-03, cl. E 21.C 41/06, 07.04.80 (prototype). (Rig.2