RU2454542C2 - Method of cupola attachment in roof of mine workings - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: attachment of mine workings cupola is performed by means of backfilling of its space using pneumatic bottles. At that pass to cupola is formed in roof and bearing floor is made at level of roof beam of mine workings support. Pneumatic bottles are arranged above support through pass opening at cupola outlet, and then they are filled with compressed air. When cupola space is filled in sequence with pressurised pneumatic bottles, pass opening is closed.

EFFECT: simplifying technology of mine workings cupola backfilling and increasing safety level.

1 dwg

Description

The invention relates to mining and can be used when attaching mine workings.

There is a method of backing up the fixed space of the mine workings by placing pressure cylinders between the roof and the roof support (see USSR author's certificate No. 607993, IPC E21D 15/48.

There is a method of installing pneumatic lining in a mine, which can also be used to mount domes of mining (see copyright certificate No. 1640432, IPC E21D 15/00). The method consists in installing several racks of pneumocylinders. The racks are curved in the middle part and are supported on each other, which gives the bonfire of pneumocylinders greater stability.

The disadvantages of the method include the great complexity of installing a bonfire of pneumocylinders and the need to install a bonfire in a dome in an unprotected lining space.

Closest to the proposed method of fixing the dome in the roof of a mine is the method of fixing the dome by filling it with a spherical bonfire from intersecting elastic cylinders (see copyright certificate No. 658287, IPC E21D 15/48). The spherical bonfire should completely fill the dome space above the mine support. This excludes the presence of miners when filling with a spherical pneumatic bonfire. The disadvantages of this method include the extreme complexity of the fire, the large weight, as well as the need to match the volume of the fire under operating pressure to the volume of the dome space.

The technical result of the proposed method of fastening the dome is to simplify the technology of clogging it with elastic cylinders under pressure at a high level of safety.

In the proposed method of fastening the dome in the roof of a mine, including the formation of a passage into the dome, erecting from it a bearing floor above the permanent support of the excavation, fixing the dome above the floor and installing a permanent support under it, the technical result is achieved due to the fact that the outlet to the dome form an opening 2-3 times smaller in area with pneumatic cylinders under working pressure, place an empty pneumatic cylinder in the dome behind the opening, pressurized air into it to the working pressure, fill the dome with pneumatic cylinders, and ATEM cover the opening.

Fig. 1 shows a dome filled with spherical pneumocylinders from the passage to the dome in the form of a fault above the permanent support.

The exit to the dome of the roof of a mine can be formed in various places, in various ways, for example, between the section of the permanent support in front of the dome and the collapsed rock.

After the formation of rock overburden during excavation of mine 1 and the development of dome 2, for example, above the permanent support 3 form a passage 4 into the dome in the form of a fault through which fasteners (beams, flights) are delivered for the bearing floor 5. Then at the exit to the dome form aperture 6, smaller in area of the pneumocylinder 7 under operating pressure. Filling the dome with air balloons is carried out sequentially. First, an empty pneumatic balloon is placed behind the opening 6, into which compressed air is pumped up to the working pressure set for the particular design of the pneumatic balloon 7, which should have an opening for supplying compressed air (nipple) into it, a check valve (not shown in the drawing).

After filling the dome 2 with air balloons 7 through the opening 6, the latter is closed, for example, by puffs.

Since when the dome is clogged with 2 air cylinders 7, it is not possible to fill the entire space of the dome, then its partial, insignificant development occurs until the pressure of the exfoliated rocks is perceived by the supporting flooring 5, and then by the permanent support 3, which will be erected under the flooring 5 after the dome backing pneumocylinders.

Claims (1)

The method of fixing the dome in the roof of the mine, including the formation of a passage into the dome, the erection of the bearing floor at the level of the upper lining of the mine and fixing the dome over the floor, the construction of a permanent lining under the floor, characterized in that at the exit to the dome they form an opening, in 2-3 times smaller in area of a pneumatic balloon under operating pressure, place an empty pneumatic balloon in the dome, inject compressed air into it to the operating pressure, sequentially also completely fill the dome with pneumatic cylinders, and then close the opening.

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