SU1023102A1 - Power roof support - Google Patents

Abstract

1. MECHANIZED STRIP, sections of which include bases, overlaps and hydroresistances installed between them and associated hydraulic jacks with a protective shield, which means that, in order to increase the efficiency of its work in the mine working during hydraulic folding, the sections are equipped with downhill skis with longitudinal directions. pivotally connected to the barrier shield and sliders mounted in the longitudinal guides and articulated by means of the links with the bases, and the shield Shit is made with through holes and s an filter elements. 2. The fastener according to claim 1, characterized by the fact that the protective shield is equipped with connected K1dvi / L shields, which are installed with the possibility of interaction with the side walls of the mine workings. ISD 00 N3

Description

. The invention relates to mining, specifically to mechanized fasteners operating with a hydroelectric installation, and can be used in the preparation of a mine workout to transfer it to a cleaning mechanized complex.

A known method of preparing a mine workout is to move it to a purification mechanized complex, in which jumpers are erected with a certain interval in the mine workings and the space between the webs is filled with material using flashing equipment fl}.

The disadvantages of this method are considerable labor-intensive works; low speed of preparation of production, due to the lack of mechanized fastening.

Closest to the invention by its technical essence and the achievement of the Municipal result is mechanized lining, sections of which include bases, floors and hydroresistances installed between them and connected by hydraulic jacks with a protective shield 1.2,

The disadvantage of this mechanized support is inefficiency

its use when gidrozakladka.

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The purpose of the invention is to increase the efficiency of mechanized lining in mine workings during hydraulic folding.

This goal is achieved by the fact that in the mechanized support, the sections of which include the bases, overlap. These hydraulically mounted towers installed between them are connected with hydraulic jacks with a protective shield, the sections are equipped with bottom skis with longitudinal guides, articulated. with a protective shield and sliders installed in longitudinal guides and articulated by means of tubes with bases, and the protective shield is made with through holes and has filter elements.

Moreover, the protective shield is provided with retractable plates 50 connected to it, which are installed with the possibility of interaction with the side walls of the mine workings.

Fig. 1 shows the arrangement of mechanized roof supports in the mountain range. ke, front view; in fig. 2 - the same, side view; in fig. 3 - the same, top view; in fig. 4 - construction of a protective shield, front view; in fig. 5 shows section A-A in FIG. four; figure 60, 6 - ski construction, side view | FIG. 7 is the same, top view; in fig. 8 - arrangement of mechanized supports in the mine workings, side view, before moving the supports; on 65

FIG. 9 - the same, after moving the sections, the supports.

Sections 1, 2, and 3 of mechanized support are similar in construction and consist of a base 4, a support 5 rigidly fixed on it, a hydrorack 6, pivotally mounted between the support 5 and the overlap 7. The overlap 7 by means of the levers 8 and 9 is hinged respectively with the support 5 and a base 4. On the overlap, the visor 10 is hinged, provided with an elongated zavalny console 11, to the eyes 12 and 13, made respectively on the ceiling and the console, pivotally attached hydraulic cartridge 14 one-way action. The bases 4 of sections 1 and 3 are made with lugs 15 to which the jacks 16 of the advances are hingedly attached. The second side of the ID motor is connected to a beam 17 rigidly attached to the base 18 of section 2. On the overlaps 7 of sections 1 and 3 there are lugs 19 to which the hydraulic cylinders 20 are attached, which connect the hinge to the barrier 21, the overlaps of 7 sections 1 and 3 have windows 22, through which the hydraulic cylinders 23 are passed, connecting the shield 21 with the lugs 24 of the openings. On the bases of 4 sections 1 and 3, there are pinholes 25, to which, by means of fingers 26, are attached hinges 27, fitted at opposite ends with sliders 28. The latter are arranged in longitudinal guides (lines) 29 beams 30 of skis 31, Beams 30 Skis 31 are rigidly interconnected by a sheet 32 and have holes 33; Shield 21 by lugs 34 in the lower part is connected by means of fingers 35 mounted in apertures 33 to beams 30.

Shield 21 box-shaped design consists of rigidly interconnected sheets of 36 and 37 profiles (beams). 38. On both sides, the shield 21 has prominent flaps 39 of box-like construction consisting of sheets 40 rigidly interconnected. Sheets 36 and 37 have through holes 41 and openings closed with flaps 42 fixed with the possibility of their movement using staples 43 into guides 44 rigidly mounted on the sheet 37. The shutters 42 have holes similar to the holes in the sheets 36 and. The shield 21 is connected to the extendable flaps 39 by means of two identical in design cylindrical guides 45 and hydraulic jacks 46. The cylindrical guides 46 consist of mutually inserted ones. displacement of cylinders 47 and 48. Cylinders 47 and 48 are connected by hubs 49, 50 with hinges to lugs 51 and 52 rigidly fixed to beam 38 of the shield 21 and sheet 40 of the sliding plates 39. GiDrodshkrat 46 is connected with beam 38 of the shield 21 and sheet 40 of the sliding shield 39, similarly to their connection with the cylinders 47 and 48 of the guides 45. To the shield 21 to the sliding guards 39 on the side of the excavation contour are rigidly attached by angles 53 and bolts 54 strips 55 reinforced on the outside by porous material 56. B shield 21 between sheets 36 and 37 are laid filtering element nty 57, is made from a porous material, for example, foam rubber. The shield 21 has openings 58 for passing the pipeline 59 through it, which is used to feed the filling material. The working fluid is fed by hygroscopic b, hydraulic jacks of the shifter 16, hydraulic chucks 14, hydraulic cylinders 20 and 23, hydraulic jacks 46 of sliding plates 39 are carried out along Flexible and rigid pipelines connecting them to the distribution point located on the drift (not drawn). The distribution point receives power from the pumping station of the complex operating in the lava or from a portable pumping station located in the mine working (not shown). Ventilation of the power generation prepared for the transfer is carried out with a partial ventilation fan through the ventilation hoses (not shown). t on the surface or in the mine by a mixture of fine fractions of coal with water. The material feed for the bookmarks is carried out by pipeline 59. The feed speed of the filling material 60 is controlled by the distributor 61. The production is prepared for the transition fixed with drip frames consisting of upper 62 and racks 63. Delayed bridge consists of trees buried into the soil and roof of the roof These racks are 64 sheathed on both sides by boards 65. Mechanized roof bars are mounted in the mine workings prepared for the transition by a cleaning mechanized complex. At the interface of the mine workings (coupling) with the excavation drift, from where its foundation is planned, a blind jumper was erected. To do this, on both sides of the excavation, wooden racks 64, which are buried in the roof and soil, are installed, which sheathe the boards 65. The space between the boards can be filled with concrete or other waterproof material. Further, at the place of installation of the shield 21, elements of the lintel are removed, a shield 21 and skis 31 with rigs 27 are delivered, a shield 21 is installed on skis 31 and connected to each other with their fingers .35. They remove the elements of roof support at the place of installation of the sections of the mechanized support. Alternately, the lining sections 1 and 3 are installed, installed in place and with the help of a mobile pressure station (or a main line from the station operating in the lava of the mechanized complex). Before installing the lining section 2 they pass into the space between sections 1 and 3 and The hydraulic cylinders 20 and 23 overlap 7 sections 1 and 3 with a shield 21, and the bases 4 of the same sections are with rods 27. After that, the support section 2 is brought in, installed and retracted, and beam 18 is rigidly connected to the base 18 of this section. Dies hydraulic jacks 16 sections 1 and 3 with They are connected to the beam 17. Hydrocommunications are laid and the distribution equipment is installed, a partial ventilation fan and ventilation hoses are installed, lighting is provided. After making a pipeline 59 is laid to feed the filling material 60, a distributor 61 is installed. The pipeline 59 from the distributor 61 for the shield 21 passes between the peaks 10 sections of the lining 1 and 2 or 2 and 3 into the opening 68 of the shield 21. Mechanized lining works as follows ohm Using the hydraulic cylinders 20 and 32, the shield 21 is pushed against the support sections 1,2 and 3 and is installed with a tilt angle, which ensures reliable contact with the roof of the working, after which the hydraulic cylinders 20 and 23 are locked. Hydrodiacratic 46 push the retractable flaps 39 to spread them in the sides of production, after which the hydraulic jacks 46 are locked. The distributor 61 is opened and the space behind the shield is filled with filling material 60 until it is no longer received. . At the same time, the elements of the lintel 62 and 63 are removed by a step of shifting the section. The distributor 61 is closed. Hydraulic post 6 is shortened and strut is removed from the hydraulic unit 14 of the lining section 2. Hydraulic jacks 16 of sections 1 and 3 turn on the shear, they push forward the beam 17 and the rigidly connected base 18 of section 2, while section 2 is pushed forward. After the section 2 advances, the hydraulic jacks 16 sections 1 and 3 are locked. Extend the hydraulic post 6 and the hydraulic cartridge 14 of the section 2 of the support. Reduce hydrorack 6 and remove the strut from hydropatron

14 sections of the lining 2, hydraulic jacks 16 sections of the lining 1 and 3 turn on the spacing, they push forward the beam 17 and rigidly connected with it the base 18 of section 2, while section 2 moves forward. After advancement of section 2, the hydraulic jacks 16 of sections 1 and 3 are locked. Hydrate strut 6 and hydropatron 14 section 2 lining. Hydraulic post 6 is reduced and the strut is removed from hydropum 14 of section 1, hydraulic cylinders 20 and 23 connecting section 1 with shield 21 are turned on. drain, then hydraulic jack 16 of this section include a reduction. When section 1 is pushed forward, hydraulic cylinders 20 and 23 are pushed off, after which the hygrodrive GB is locked and thrust out to the hydraulic post b and to the hydraulic chuck 14 of section 1.

Similarly, moving forward the sections 3 ,. after which its hydraulic jack 16 is locked, and the hydraulics b and hydraulic chuck 14 of section 13 are pulled apart. When the sections 1 and 3 are advanced, their bases 4 move forward, in the same Direction they move the links with them 27 sec.

the sliders 28, the latter move in the guides 29 of the beams 30 of the skis 31. After advancing and spreading the sections 2.1 and 3, the shield 21 moves towards the support sections. To do this, first reduce the hydraulic jacks 46, pushing the sliding plates 39 away from the sides of the excavation. Then so. I shrink the hydraulic cylinder I 1 23 and 20, providing a shifting of the shield 21 with skis 31 to the support section. In this case, the beams 3 occupy an extreme front position with respect to tam 27 and sliders 28. Hydraulic cylinders 20 and 23 are locked, and hydraulic jacks 46 are pushed forward to the outflow of sliding plates 39. The pipe 59 is shortened by the step of shifting lining. After that, the distributor 61 is opened and filled with a backfill material space formed between the previously laid material and the moved shield 21. During the filling of this space, the elements 62 and 63 of the drift fitting on the slide of the sections are removed. After filling the space with the backfill material, the distributor 61 is closed and again proceed to the Sliding of the lining sections. This sequence of operations is repeated until the end of the production laying, after which the mechanized support is dismantled.

The filter elements consisting of the porous material 57 can be filled. In order to do this, in flap 21, in addition to the staples 43, the flaps 42 are opened, the porous material 57 is removed and replaced or washed and reused. The water passing through the shield from the backfill material to the mine workings is drained through the overflow or drainage ditch into a settling tank, from where it is pumped out with a pump for reuse.

The material supply for the bookmark can be realized by a conveyor, pneumatic conveying, etc., and an erg seal can be achieved by force-feeding the sheath to the side of the laid space at the end of each bookmark cycle before the movable support section by pushing the shield 21 from the open sections with hydraulic cylinders 20 and 23.

This support allows to reduce the laboriousness of work on laying the mine workings and increase their safety.

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Claims (2)

1. MECHANIZED FASTENERS, sections of which include bases, ceilings, and water stands installed between them and are connected by hydraulic jacks to a protective shield, characterized in that, in order to increase the efficiency of its work in a mine working with hydraulic filling, the sections are equipped with lower skis with longitudinal guides, pivotally connected to the shield, and sliders installed in the longitudinal guides and pivotally connected via rods to the bases, and the shield is made with through holes and has Filtering elements. 2. Hold on π. 1, characterized in that the guard shield is provided with prominent shields connected to it, installed with the possibility of interaction with the side walls of the mine working. 1023 102 A Φι »Ι