RU2134792C1 - Section of powered support - Google Patents

Abstract

FIELD: mining industry, supporting of breakage faces. SUBSTANCE: section of powered support includes base, ceiling, hydraulic props, hydraulic movement jack, guiding beam coupled to conveyer having brackets and safe-guard in the form of telescopic column with hydraulic cylinder and shield composed of immobile and mobile parts. Conveyer bracket is fitted with common plate made fast to it and trough of cable layer and telescopic column placed in sequence on common plate in direction from face to rock burst. Immobile part of column is made as one unit with mobile part of shield. Face side of trough is manufactured in the form of guarding flap. Opposite side of trough is limited by immobile part of telescopic column made fast to common plate. Immobile part of telescopic column can be made in the form of guarding flap with vertical grooves and hydraulic cylinder hinged to common plate mounted on common plate. Mobile part of telescopic column is made in he form of shield composed of sheets located in vertical grooves and is provided with U-shaped enclosure coupling rigidly both sheets and lid fixed to upper butts of sheets and enclosure. Mobile part of hydraulic cylinder is linked to lid. EFFECT: protection of operating personnel against lumps of coal and rock from face and roof. 1 cl, 5 dwg

Description

 The invention relates to mining, and in particular to structures of mechanized supports for mines operating on medium-inclined formations with combine harvesting, conveyor delivery and mining of underground minerals.

 A fencing device of a mechanized roof support section is known, including a telescopically sliding fencing shield, consisting of separate grids, movably connected by an axis with a clamp rigidly mounted on a hydraulic stand, which is equipped with a hinge made in the form of two gear half-couplings, one of which is rigidly fixed on the clamp and the other rigidly mounted on the enclosing shield, and equipped with a drive made in the form of an eccentric handle (AS USSR N 1756576, CL. E 21 D 23/00, 1990).

 In existing mechanized roof supports, hydraulic stands are usually located in the middle of the width of the roof support section along its longitudinal axis. At the same time, the known enclosing device can protect only half the width of the section, and the persons in the inter-rack space are forced to hide from pieces of coal and rock behind the enclosing devices. At the same time, the support management works behind the continuously moving excavating machine require constant movement of working people from one support section to another section, that is, they are at risk of injury when moving. In addition, people who constantly do not work in the face, but who are forced to pass along the lava on duty, are moving along the inter-rack space: locksmiths, repair workers, mining supervision, etc., who are also forced to constantly beware of pieces of coal and breed. Of particular danger when using the known devices is the maintenance personnel being thrown in case of the operation of the lava on inclined formations, where there may be cases of ricocheting of falling pieces from the equipment of the lining section, and it is practically impossible to foresee a possible flight path of coal and rock particles. In addition, the enclosing shield in the form of gratings cannot completely protect the inter-rack space, since small particles of inclusions in coal or rock that have a high speed and bulk weight, for example, pieces of sulfur pyrite, which are most common in practice, can be thrown through the grate. In addition, the drive, made in the form of an eccentric handle, and the wedge, fixing the position of one of the gratings, require the use of manual operations, which increases the complexity of setting up and controlling the enclosing device itself and is unacceptable in modern high-mining mining equipment designed for cleaning operations.

 The closest to the proposed technical essence and the achieved result is a section of mechanized roof support, including a base, a ceiling, hydraulic stands, a hydraulic jack, a guide beam connected to a conveyor having brackets, and a protective device mounted on the bottom side of the section in the form of a telescopic column with a hydraulic cylinder and a shield consisting of fixed and moving parts (AS USSR N 994757. Cl. E 21 D 23/00, 1981) - taken as a prototype.

 In the considered section of the powered roof support, the protective device is designed, in particular, to dampen the speed of falling pieces of coal, rock, solid inclusions in the form of boulders and other objects falling or sliding along the conveyor, and does not exclude the possibility of trauma to maintenance personnel located in the inter-rack space, even when installing the device in a position parallel to the face. As in the previous section of the lining, the causes of injury to people behind the front row of hydraulic stands may be pieces of coal or rock falling into the inter-rack space, rolling down the conveyor belt and ricocheting off the elements of the lining section or protective device, casting pieces of coal from a working combine , falling lumps of coal from the face or the roof of the seam during the operation of the lava in the uprising. It is most simply possible to protect service personnel by maximizing the protection of the building space from the penetration of pieces of coal and other objects forming during the operation of the excavating machine, conveyor, wringing out, roof collapse in the downhole support area.

 The essence of the invention lies in the fact that the bracket of the conveyor is equipped with a common plate rigidly connected to the bracket and sequentially located on the common plate in the direction from the bottom to the bottom of the cable stacker and telescopic column, the fixed part of which is made with a movable shield, and the bottom side of the gutter is made in the form of a protective side, and the opposite side of the gutter is limited by the fixed part of the telescopic column, rigidly mounted on a common plate.

 In addition, the fixed part of the telescopic column is made in the form of a protective board rigidly mounted on a common plate with vertical grooves and a hydraulic cylinder pivotally mounted on a common plate, and the movable part of the telescopic column is made in the form of a shield consisting of sheets arranged in vertical grooves and equipped A U-shaped casing rigidly connecting both sheets and a lid fixed to the upper ends of the sheets and the casing, the movable side of the hydraulic cylinder being connected to the lid.

 The causal relationship between the set of essential features of the claimed invention and the achieved technical result is as follows.

 Modern mechanized roof supports of mining complexes are aggregated with a main conveyor, which is usually equipped with a cable layer trough, which, in turn, is connected to the conveyor via brackets. Therefore, it is most rational, both from the point of view of the possibilities of placing a protective device already laid down in the construction of the lining section, and from the point of view of functional capabilities to protect service personnel from injury by falling or rolling and ricocheting pieces of coal and rock, to place this protective device together with the cable laying chute on a common plate connected to conveyor brackets. Moreover, it is necessary to place the cable layer trough closer to the face, to the combine working from the conveyor, and place the protective device next, in the direction of the blockage, closer to the front row of hydraulic racks, behind which there is an inter-rack space, which serves to shelter maintenance personnel and the passage of people in the lining. In addition, the protection of service personnel located in the inter-rack space will be most effective if the protective device is equipped with a retractable part with a shield that can be installed in height depending on the extension of the lining, bringing it as close to the upper as possible, to create a minimum gap between the last and upper in order to more reliably protect people from penetrating into the inter-rack space lining pieces of coal and rock. In this case, protective devices should not be located in all sections of the lining, but with the creation of free exits to the conveyor road, in the bottom hole, for which these protective devices are arranged in a row in 7-8 sections of the lining, that is, at a distance of 10 m along the front of the lava, and then in the next section leave a free exit, then repeat, protective devices are installed on 10 m of lava, then on 1 section leave an exit to the conveyor road and so on along the entire front of the lava. Moreover, if the angle of incidence of the formation along the front of the lava is more than 12-16 degrees and rolls of pieces of coal or rock are rolled along the conveyor, then to slow down and prevent the acceleration of these pieces, you can apply a well-known technique, that is, to the tops of each H-section ( fifth, seventh, tenth, etc.) to hang on ropes, chains, cables, loads or pieces of conveyor belt to prevent this phenomenon. Protection of maintenance personnel in the inter-rack space is the most relevant for any inclination of the reservoir and is most effectively and simply solved by the proposed technical solution.

 The technical result of the proposed solution is expressed in increasing the efficiency of protecting service personnel and people passing through the lava from falling, rolling and ricocheting pieces of coal or rock by maximally enclosing the inter-rack space with a protective device with a retractable shield, providing a minimum gap between it and the top when changing the removable power. In addition, the proposed technical solution most structurally fits into the existing supports of mechanized complexes, is installed on the brackets used to install the cable ducts, and is reliable in operation.

 In FIG. 1 shows a section of powered roof supports, general view; in FIG. 2 - protective device, view from the side of the lining sections; in FIG. 3 is a view AA in FIG. 2; in FIG. 4 is the same as in FIG. 2, plan view; in FIG. 5 - a protective device in an expanded form, a view from the side of the lining section.

 The mechanized roof support section includes a base 1, a hydraulic stand 2, pivotally mounted between the base and the ceiling 3, front levers 4 and rear levers 5, pivotally connected to the base and the guard 6, which, in turn, is also pivotally connected to the ceiling. A hydraulic jack 7 is pivotally mounted between the base 1 and the guide beam 8, the bottom face of which is connected by a horizontal hinge 9 to the cross 10, which in turn is connected by a vertical hinge 11 to the conveyor 12. An arm 13 is rigidly connected to the conveyor 12, which is rigidly fixed with centering fingers 14 and bolts 15 connected by a common plate 16. On a common plate 16 in the direction from the bottom to the blockage there is a gutter 17 cable layer and a telescopic column 18. The bottom side of the gutter 17 is made in the form of a limiting side 19, and the opposite side of the chute 17 is limited by the fixed part of the telescopic column 18, made in the form of a protective side 20, rigidly mounted on a common plate 16. The protective side 20 has two pairs of vertical grooves 21, in which the movable part of the telescopic column 18, made in the form of a shield 22 consisting of sheets 23 and 24, located in vertical grooves, rigidly interconnected by a U-shaped casing 25, and a cover 26, rigidly fixed to the upper ends of the sheets and the U-shaped casing. Between the common plate 16 in the telescopic column 18 there is a hydraulic cylinder 27, one side of which is pivotally connected downwardly with the common plate 16, and the other side on top is connected with the cover 26.

 When mounting mechanized roof support sections in a mounting chamber, sections equipped with protective devices are placed in a row at about 10 meters of lava, then the roof support section is installed without a protective device to create an exit from the inter-rack space on the conveyor road, in the bottom hole working space, then again set to 10 m support the lava front with protective devices and again a section without a protective device for free exit from the inter-pillar space to the bottom hole, then similarly throughout lava front.

 Section powered roof supports as follows.

 As the excavating machine moves along the conveyor 12 along the front of the lava, the sections of the powered roof support are alternately moved. To do this, they upset before removing the spread of ceiling 3 in the roof of the water stand 2 sections together with the ceiling, turn on the hydraulic jack 7 and move the base of the section 1 with the entire section to the conveyor 12. Then cover the ceiling of 3 sections in the roof and install a protective device in height in accordance with removable reservoir power and section extension. In order to set the protective device to the required height, the working fluid is fed into the corresponding cavity of the hydraulic cylinder 17 of the telescopic column 18. Since one side of the hydraulic cylinder 27 is connected downward with a common plate 16 fixed to the bracket 13, the other side of the hydraulic cylinder when it is extended through the cover 26 raises (or lowers) the U-shaped casing 25 together with the sheets 23 and 24 associated with it, forming a shield 22. The sheets 23 and 24 are moved in the vertical grooves 21 of the protective side 20, and thus, the shield 2 is raised (or lowered ) In accordance with the installation height of 3 overlapping support frame. The shield 22 is installed in height so as to protect the service personnel located in the inter-rack space from possible penetration of falling, flying, ricocheting pieces of coal and rock, on the one hand, and leave a gap between the upper edge of the shield and the ceiling 3, necessary for monitoring and controlling the processes of coal mining, controlling the roof, the operation of machines and mechanisms, etc. If it is necessary for someone from the service personnel to leave the inter-construction space for a prize Above the lane, on the conveyor road, this exit is made through the lining section, not equipped with a protective device. In those cases when the working face is located on a shallow or slightly inclined formation, the extraction of coal from the face is small, the roof is stable and the coal of the formation does not have solid inclusions, it is possible to work in the lava without raising shield 22 close to overlap 3, leaving windows between the shield and overlap of about 0.5 m.

Claims (2)

 1. A section of powered roof support, including a base, a ceiling, hydraulic stands, a hydraulic jack, a guide beam connected to a conveyor having brackets, and a protective device mounted on the bottom side of the section in the form of a telescopic column consisting of a fixed part with grooves and a movable part, a hydraulic cylinder and a shield, characterized in that the conveyor bracket is provided with a common plate rigidly connected to the bracket, and sequentially located on a common plate in the direction from the bottom to the obstruction by the cable duct a sensor and a telescopic column, the fixed part of which is made with a movable shield, and the bottom face of the gutter is made in the form of a protective bead, and the opposite side of the gutter is limited by the fixed part of the telescopic column, rigidly mounted on a common plate.  2. The mechanized roof support section according to claim 1, characterized in that the fixed part of the telescopic column is filled in the form of a protective side rigidly mounted on a common plate with vertical grooves and a hydraulic cylinder pivotally mounted on a common plate, and the movable part of the telescopic column is made in the form of a shield, consisting of sheets arranged in vertical grooves and provided with a U-shaped casing rigidly connecting both sheets and a lid fixed to the upper ends of the sheets and casing, the movable side of the hydraulic cylinder being connected with a lid.

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