SU619669A1 - Flexible shield - Google Patents

Description

The invention relates to a means of protecting the working space in the mechanized development of steep and inclined seams with pillars in the fall. Known shield units for the development of layers in the fall. These units move along the fall after removing the thrust between the soil and the roof and are designed to develop thin layers with long pillars on dip 1. However, for developing medium-sized and powerful layers, these units are inapplicable due to the complexity of the lining design and the need for complete dismantling after designing the pole, The closest in technical essence and the achieved result to the proposed invention is a flexible shield, including a longitudinal strip, cable ties, connected to them by bolted joints. end frames, transverse beams, hydraulic racks, telescopic support with brackets on the soil of the reservoir, and a thrust beam mounted on the brackets Q2J. The disadvantages of a mechanized shield are its unsatisfactory conditions of mechanized excavation, due to the need for a wave-like movement of the shield, the need to maintain the supporting pillar of the soil of the formation and the inability of the shield to the side rocks. The purpose of the invention is to improve the adaptability of the shield to the BJJM rocks. This is achieved by the fact that in the proposed shield the thrust beam is made telescopic, and the mountings of the supports and hydroresistances to the strips and the telescopic beam to hydroresistances are made using double hinges with. mutually perpendicular axes. Moreover, the supports are made with brackets, and the support beam is with guides. FIG. 1 shows the proposed flexible shield, a general view; 2, the same top view; in fig. 3 - a shield at the time of sliding sliding supports; in fig. 4 - shield at the time of lowering the support beam; in fig. 5 - shield at the moment of pushing the overlap; in fig. 6 is a section along A-A in FIG. four; in fig. 7 —shield until the supports are extended;

in fig. 8 - schut after the extension of the supports.

The flexible shield consists of end metal frames 1, longitudinal metal strips 2, longitudinal cable ties 3, attached to the strips by a bolted joint 4. Beams 5, connected by clamps 6, have aprons 7 attached to the shield perimeter and a grid 8 is laid on top.

At the reservoir, sliding supports consisting of bodies 10 and rods 11 are attached to a flexible shield with double hinges 9. Hydraulic jacks with rods 12 and housings 13 are used to extend the rods 11.

The rods 12 of the hydraulic jacks with the rods 11 of the supports and the buildings 13 of the hydraulic jacks with the buildings of the supports are connected respectively by hinges 14 and 15.

The rods of the sliding supports 11 are provided with brackets 16 on which a telescopic beam 17 is laid. By double hinges 18, the housings 19 of inclined hydraulic stands are attached to the beams 5, and the rods 20 of the latter are double hinges 21 attached to the support beam 17. The stop beam is made of segments connected by hinges 22

The extreme sliding bearing housings on the O0-OR in the articulated joints of the beam sections are provided with brackets 23, and the support beam in the appropriate place is connected by hinges 22 to the guides 24. The second and last sliding bearing supports and the support beam in this place are fixed by a fixed device 25. The metal frame 1 at the end of the shield is made in the form of a cantilever 26 with beveled corners for the convenience of mechanized excavation at dead ends,

The excavation of coal under a flexible shield begins with a mechanized sinking of the ditch along the bottom for convenient placement of the delivery means, leaving the supporting pillar under the supports of the soil of the formation.

Then, with the mechanized dredging of the supporting pillar, against the ground, with the stationary position of the support beam 17, the rods 1 1 of the sliding supports move forward. At the same time, the rods 15 of the intermediate supports move in a fall, keeping them from turning into a working one. the space of the support beam 17 to the supports behind the swivel 22.

Thereafter, the support beam is lowered on the first support, then the following supports are advanced to the support for the next hinge 22 and the support beam is lowered to the hinge, etc. After all the supports are extended and the stop beam is lowered, a shield is placed on the roof of the reservoir while simultaneously supporting the ceiling on the supports, and

supports from the lifting beam is fixed on the second support. In follow-up, the board is landing on the second pillar, etc.

The excavation cycle ends by planting the opposite end from the top to the bottom of the formation.

 Compared with a baseless shield, a flexible shield provides savings

means by re-using gliding supports, completing the extraction of coal from the soil of the reservoir, reducing the thickness of the panel cover due to its smooth lowering during the Mechanized excavation.

Claims (2)

1. Flexible shield, including longitudinal strips, cable ties, connected to them by bolting, end frames, transverse beams, inclined hydraulic legs, telescopic supports with brackets on the soil of the reservoir and a thrust beam mounted on the brackets, characterized in that, in order to improve the shield's adaptability to the lateral rocks, the thrust beam is made telescopic, and the mountings of the supports and hydro-supports to the strips and the telescopic beam are made by means of double supports hinges with mutually perpendicular axes. 2, the shield according to claim 1, characterized in that the supports are made with clamps, and the support beam - with guides. 50 Sources of information taken into account in the examination: 1. Author's certificate of the USSR 210787, cl. E 21 D 27/32, 1966. 2. USSR author's certificate 55 368405, cl. E21 D 19/02, 1970.  ff ipui.3 iPue. 41 2f A-4 22 f7