CS228696B1 - Underground stopping structure - Google Patents

Description

(54) Mining dam object

The invention relates to mine dike structures, which are to be understood as wind dams and dike doors, used in coal mines with a risk of explosion of coal and gases to prevent unwanted wind passage and to mutually explosion-proof insulation of various sections of mine wind networks.

Improvement of resistance to mountain pressures solves these dam structures.

In prior art mine dike structures, the masonry body of the dike object is wound around the perimeter into a notch in the surrounding rock so that the masonry is in direct contact with the surrounding rock. During the lifetime, due to the static and dynamic forces in the rock massif, the masonry of the dam object is crushed and its failure eventually leads to a loss of the insulating ability of the dam object. In the case of the dam doors, the door frames are deformed, the door wings are deflected from the correct position, the rails are lifted and other defects are jeopardizing the correct functioning of the door and thus 1 fluency and safety of operation. In case of damage of the dam object that interferes with the function of the dam object, it is necessary to create a new dam object. This always requires an increase in financial costs, usually causing difficulties due to construction during operation, and often makes it difficult to overcome or overcome difficulties due to the lack of space to accommodate a new dam structure.

The present invention overcomes these drawbacks. It is based on the fact that the masonry body of the dam is built on a pliable embankment and on the periphery it is provided with a flexible liner that fills the area of masonry walls and surrounding solid rock. The yielding embankment and the yielding liner of appropriate thickness, depending on the value of the expected mountain mass pressures, form a deformation zone. It is an advantageous embodiment of the invention that on the front sides of the masonry body as well as on the front sides of the flexible embankment and the flexible inserts, the supporting wedges are supported against the surrounding rock. These supporting wedges are divided by separating inserts. Preferably, the flexible liner is bagged sand.

The advantage of this solution is the limitation of the influence of deformation forces on the masonry body of the dam object, in addition, the dam deformation at the dam door is zebraed. This will lead to a significant prolongation of the lifetime of the barrier structure and a reduction in the risk of impairment of its function.

FIG. 1 is a plan view of a double barrier door including an adjacent part of a mine passage; FIG. 2 is a section along the plane AA of FIG. 1; and FIG. 3 is a section along the plane BB of FIG. 2.

A masonry body 8 of a dam wall made of concrete masonry is provided on a pliable embankment £ from Štěrkopísek, which is embedded in an undercut below the beginning of the mine and covered with an insulating insert.

For the passage and passage of the vehicles on the rails, in the masonry body 8 of the dam structure from both ends of the door frame 8 are pairs of door leaves 8. A flexible sand liner 6 is formed between the masonry body 8 and the surrounding rock 6 in polyethylene bags. Both the flexible embankment 2 and the flexible liner 6 form a deformation zone which eliminates the point action of the pressure of the surrounding rocks 6 on the masonry. This avoids in most cases the failure of the masonry body 6 and deformation of the other elements of the dam structure. On the front sides of the masonry body 4, the flexible embankment 2 and the flexible liners 4, concrete support wedges 4 are provided as side support elements divided by the separating inserts 11 towards the surrounding rock 6 as far as the reinforcement 10 of the mine corridor. In the event of increased pressure of the mountain mass at the site of the dam structure, the flexible liner 4 and the flexible embankment 2 are partially deformed. The supporting wedges 4 are partially crushed, partially extended into the mine. works.

The invention can be used in mining, especially in deep coal mines.

Claims (2)

SUBJECT OF THE INVENTION A mine dam object characterized in that it comprises a masonry body (1) of a dam structure, which is supported on a yielding embankment (2) and is provided with a yielding liner (3) circumferentially abutting the surrounding rock (6) and forming deformation zone under pressure of the mountain massif, where on the front sides of the masonry body (1), the flexible embankment (2) and the flexible inserts (3), supporting wedges (5) divided by dividing inserts (11) are formed towards the surrounding rock (6). A mine dam object according to claim 1, characterized in that the flexible liner (3) consists of a layer of sand embedded in waterproof bags.