CS226840B1 - Protective timber bulkhead - Google Patents

Description

The invention solves a protective coating in the pits of underground mines while performing deepening operations.

Until now, rock units or split protective ovals have been used to protect workers and equipment while deepening the underground mines. The construction of these slings is often buckling. It is also used claddings constructed using steel armor, filled with fast-setting building material. The existing structures have a high construction height, technical difficulty, time demands, and are also laborious and low safety. In addition, it is necessary to temporarily stop mining in the pit during the construction and dismantling of protective coatings.

These disadvantages are minimized by a protective pit in the pit for deepening work as a whole, which consists in the fact that it is formed by the upper surface of the claddings, under which the upper cushioning layer is located, above the spreading cladding. deposited layers of beams lying on the damping intermediate layer, which is provided on a catching block extending into the surrounding rock by means of a baffle built on the lower base of the cladding, the ventilation duct and at least one technological duct, which is adapted for mining the overflow.

The advantage of the protective coatings according to the invention is a substantial reduction of the construction height of the coatings, an increase of the static safety and simplification of the construction of the whole coatings. The time for interruption of mining in the pit and interruption of deepening of both vertical and 1 inclined pits will be considerably shortened. The construction is also suitable for split protective ovals.

In the accompanying drawings, an exemplary embodiment of a protective coating as a whole is shown schematically, wherein Fig. 1 represents a vertical section through a pit with a protective coating and a method of mining in a deepening; Fig. 2 represents a vertical section through a protective coating;

The protective coating in the form of a cellar filling the entire profile of the pit 1 is located above the level of the deepening tray 6, preventing the objects from falling through the pit 1 from the level of the mining tray 2 or from the level higher to the bottom 2 of the deepened pit. At the level of the depressive tray 4, a depressive depressive door 2 is located, which is guided over the guide discs 6 by a conventional rope 6 to the drawing vessel 8. The main part of the protective structure in the form of a whole is a blocking block 22. . A damping layer 17 made of loose material such as gravel, cinder, fly ash and the like is provided above the catching block 22.

In the damping layer 17, a spreading layer is formed, which consists of two layers of beams 18, 19 loosely cross-supported on the damping intermediate layer 20 of the same material as the damping layer 17. Above the damping layer 17 is an upper protective plate 14, e.g. The catching block 22 is located on the bottom base 23 of the beam, which is formed by beams. The passage of the wind currents 27 is made possible by the ventilation duct 16, which is located in the protective coating and overlaps the upper and lower limits of the coating. The process piping 15 is also located in the protective coating.

In the distribution cladding, the dynamic force is absorbed from a possible fall of the load, its distribution across the area of the distribution cladding, the transfer of the load to the damping intermediate layer 20 and the catch block 22, which is thus loaded evenly. This breaks the cushioning layer 20 to protect the blocking block 22 from agitation from the sharp edges of the deflecting beams 18, 19. The construction of the protective coating with the spreading coating according to the invention makes it possible to reduce the construction height of the protective coating by up to half that of the existing ones, thus reducing costs and labor while increasing static safety. The blocking block 22 is half-height due to the uniform stress from the possible dynamic force, and also the interceptions 21 are lower.

Claims (2)

SUBJECT OF THE INVENTION Protective cladding in a pit at deepening sills as a whole, characterized in that it melts from the upper surface of the cladding (14) below which the upper cushioning layer (17) is located above the distribution cladding, which is formed by two deposited layers of beams (18, 19) lying on a damping intermediate layer (20), which is provided on a catching block (22) extending into the surrounding rock by a plug (21) built on the bottom base (23) of the slurry; (16) and at least one process pipe (15). Protective cladding in a pit during deepening operations as a whole according to claim 1, characterized in that the technological piping (15) is adapted for mining the sink.