RU2052125C1 - Unitized aggrregated powered support for inclined beds - Google Patents

Abstract

FIELD: mining. SUBSTANCE: unitized aggregated powered support for inclined beds consists of units having bases, roofings, protective guards, guide girders located between units and connected with their one ends to conveyer, and with their other ends, to bases of neighbouring units by means of advancing rams located in guide girder. Each girder has projection on rear end located relative to conveyer longitudinal axis on the side of acute angle formed by longitudinal axes of guide girder and conveyer. Each base has symmetrical bevels in its front part on the side of dip and rise of bed relative to longitudinal axis of unit base. Bevels are located at angle similar to angle formed by longitudinal axes of guide girder and conveyer. Face canopy of each roofing may be made with same bevels. Each guide girder rear part may have side barrier guard located between support units from beginning of girder with varying in plan cross-section to protective guard of support unit. In space beyond girder projection, barrier guard is made with gap between it and bed floor. EFFECT: higher efficiency. 3 cl, 4 dwg

Description

 The invention relates to the mining industry. The object of the invention is a complete-aggregate mechanized lining for inclined seams in a system of complex-mechanized and automated treatment faces during underground mining of stratified mineral deposits of predominantly coal.

Known aggregate mechanized lining, including sections having overlappings with bottom-hole consoles, guide beams located between sections, the front ends of which are pivotally connected to the intermediate beams of the conveyor, and the rear using hydraulic jacks for moving located in the guide beams, with the bases of the sections located along both sides of the guide beams, while the intermediate beams in a horizontal plane are located at an angle to the longitudinal axes of the guide beams and support sections that are arranged in steps, the hinges of the connection of the guide beams with the intermediate beams are vertical, and each guide beam is made with a protrusion at the rear end, which relative to the longitudinal axis of the intermediate beam is located on the side of an acute angle formed by the longitudinal axes of the guide beam and the intermediate beam of the conveyor [1]
In the complete aggregate mechanized lining, the lining sections have an overlap with twin elements of the presser and bottomhole console, which are made equal in length and with the same distance to the bottom along the axis of the elements and parallel to the base part of the overlap or the bottom of the formation.

 The disadvantage of this complete aggregate mechanized lining is that if the conveyor, its intermediate beams, guide beams and overlapping sections of the mechanized lining with bottom-hole elements have technical solutions to increase the efficiency of the lining on inclined formations with a diagonal arrangement of the face at an angle γ relative to the direction of incidence formation, then the bases of the sections of the mechanized lining do not have technical solutions that increase the efficiency of interaction of the bases with the soil of the formation in the space between them and the conveyor. In addition, the implementation of the bottom-hole cantilever of the overlapping section of the mechanized lining with twin different-sized elements increases the complexity of the lining, makes it impossible to use them in another face (right, instead of the left, as shown in Fig. 1 and Fig. 3), and also reduces the effectiveness of the interaction of the bottom-hole console overlapping with an unstable roof, when it is necessary to carry out fastening of the bottom-hole roof relative to the bottom of the formation.

 The aim of the invention is to increase the efficiency of the support on inclined formations by improving the interaction of the base of the sections with the soil of the formation in the space between them and the conveyor and improving the interaction of bottom-hole consoles of ceilings with an unstable roof with fastening of the bottom-hole roof.

 The proposed device of the aggregate-mechanized lining is most industrially effective on inclined formations with unstable lateral rocks in a system of complex-mechanized and automated working faces with a diagonal arrangement of the working face relative to the direction of formation fall.

 The industrial applicability of the proposed device aggregate mechanized lining for inclined formations is implemented by a set of features in which each base of the lining section in the front part is made in plan with bevels from the side of the dip and rise of the formation, and the bevel from the side of the dip of the formation is located at a similar angle formed by longitudinal the axes of the guide beam and the conveyor, and the bevel on the side of the uprising of the formation is symmetrical to the bevel on the side of the fall of the formation relative to the longitudinal axis of the base with ktsii. The bottom-hole cantilever of each overlap of the lining section on the bottom side is made with bevels on the side of the dip and rise of the formation, the bevel on the side of the dip of the formation is located at a similar angle formed by the longitudinal axes of the guide beam and the conveyor, and the bevel on the side of the uprising of the formation is symmetrical to the bevel on the side of the dip of the formation relative to the longitudinal axis of the section overlap.

 In FIG. 1 shows a complete aggregate mechanized support for inclined formations, a general view; in FIG. 2 guide beam, top view; in FIG. 3 is a view along arrow A in FIG. 2; in FIG. 4 is a view along arrow B in FIG. 2, rotated.

In FIG. 1 shows the direction of movement of the face along the strike α _pr ; formation fall direction α _pad ; the angle of the diagonal location of the face γ relative to the dip angle α _pad .

Complete-aggregate mechanized support for inclined formations with a diagonal bottom face location includes sections of the same type having a base 1, a hydraulic stand 2, a ceiling 3 with a bottom bracket 4, a protective fence 5 associated with the ceiling 3 and a base 1, guide beams 6 located between the sections, front the ends of which are pivotally 7 connected to the conveyor 8, and the rear, with the help of hydraulic jacks, the slides 9 located in the guide beams 6, with the bases 1 of the sections located on both sides of the guide beams 6, in which the conveyor 8 in a horizontal plane is located at an angle to the longitudinal axes OO and О ₁ -О _{1 of the} stepwise arranged sections of the support and the guide beams 6, each of which is made with a protrusion 10 at the rear end, located relative to the longitudinal axis O ₂ -O _{2 of the} conveyor from the side acute angle β formed by the longitudinal axes O ₁ -O _{1 of the} guide beam 6 and O ₂ -O _{2 of the} conveyor 8.

Moreover, each base 1 of the lining section in the front part is made (in plan) with bevels 11 and 12 from the side of the dip and rise of the formation, and the bevel 11 from the side of the fall of the formation is located at a similar angle formed by the longitudinal axes O ₁ -O ₁ and O ₂ -O _{2 of the} guide beam 6 and conveyor 8, and the bevel 12 from the side of the formation uprising is symmetrical to the bevel 11 from the falling side of the formation relative to the longitudinal axis OO of the base of the section.

In a complete aggregate mechanized lining for inclined formations, the bottom-hole console 4 of each overlap 3 lining sections on the bottom side are made with bevels 13 and 14 on the side of the dip and rise of the formation, and the bevel 13 on the dip side of the formation is located at a similar angle β. formed by the longitudinal axes O ₁ -O ₁ and O ₂ -O _{2 of the} guide beam 6 and the conveyor 8, and the bevel 14 from the side of the formation uprising is symmetrical to the bevel 13 from the falling side of the formation relative to the longitudinal axis O ₃ -O ₃ of the section overlap.

 In the complete aggregate mechanized lining, each guide beam 6 in the rear part is equipped with a lateral barrier fence 15 located between the sections, from the beginning of the beam of variable (in plan) section 16 to the protective fence 5 of the lining section, and in the space behind the protrusion of the beam 10, the barrier fence 15 made with a gap 17 between it and the soil of the reservoir 18. The hinges 7 of the connection of the guide beams 6 with the conveyor 8 can be vertical or otherwise.

 Complete-aggregate mechanized lining for inclined formations operates as follows.

 In the initial static position, the sections of the powered roof support are spread between the roof and the soil of the formation and the sediment from the conveyor 8 by the step size of the movement. The lining sections are interconnected and with the conveyor 8 according to the complete aggregate principle through hydraulic jacks of movement placed in the guide beams 6 according to the complete feature and through the guide beams 6 connected to the conveyor 8 according to the aggregate feature.

 A mining machine, for example, a combine, moving along the conveyor 8, mainly from the bottom up, removes the next strip of reservoir minerals, such as coal.

In this case, due to the diagonal location of the face at an angle γ relative to the direction of formation fall, α _pad, beaten and submerged coal is transported by a conveyor along the face to its bottom. In the case of squeezing the bottom of the formation or its collapse, as well as the possible rolling of pieces of coal or rock along the conveyor, the latter, moving along the fall of the formation, roll down and are pressed to the bottom of the formation, sharply reducing the speed of movement, which ensures the safety of the bottomhole space when excavating fossil on inclined formations .

 As the harvester moves, the sections of the powered roof support are unloaded sequentially, moved to the bottom of the formation and burst between the roof and the soil of the formation. As all sections are moved, the conveyor frontally extends to the face along the entire length of the lava.

 The proposed device of a complete aggregate mechanized lining for inclined formations provides an increase in the efficiency of complex mechanized and automated treatment faces with a diagonal face position in inclined formations with unstable lateral rocks.

 The implementation of the bases of the sections of powered roof supports with bevels from the side of the dip and the uprising of the formation in the space between the bases and the conveyor improves the interaction of the bases of the sections with the soil of the formation by reducing exposures, their better direction and stability when moving in combination with the possibility of using them in the left and right treatment slaughter.

 The implementation of bottom-hole consoles for overlapping sections of powered roof supports with bevels from the side of the dip and uprising of the formation in the bottom-hole zone improve the interaction of bottom-hole consoles of overlapping sections with unstable roofing with fastening by reducing outcrops, introducing pointed and overlapping plan into loose roofs, including with chipping the upper pack of the reservoir and the possibility of their use in the left and right face.

 The supply of the guide beams with lateral barrier fencing provides an improvement in the interaction of the mechanized lining sections with the collapsed rocks of the massif and provides the possibility of a bi-directional scheme for excavating the inclined formation and attaching the roof with a stepwise arrangement of the lining sections.

Claims (3)

 1. COMPLEX-MECHANIZED MECHANIZED FASTENERS FOR TILTED LAYERS, including sections of the same type, having a base, water pillars, a slab with a bottom bracket, a protective fence associated with a slab and a base, guide beams located between the sections, the front ends of which are pivotally connected to the conveyor with the help of hydraulic lifting jacks located in the guide beams, with the bases of the sections located on both sides of the guide beams, in which the conveyor is located in the horizontal plane angled to the longitudinal axes of the stepwise arranged support sections and guide beams, each of which is made with a protrusion at the rear end located relative to the longitudinal axis of the conveyor from the acute angle formed by the longitudinal axes of the guide beam and conveyor, characterized in that each base of the support section the front part is made in plan with bevels on the side of the dip and the uprising of the formation, and the bevel on the side of the dip of the formation is located at a similar angle formed by the longitudinal axes of the guide th beam and conveyor, and the bevel on the side of the formation uprising is symmetrical to the bevel on the side of the dip of the formation relative to the longitudinal axis of the base of the section.  2. The lining according to claim 1, characterized in that the bottom-hole cantilever of each overlap of the lining section from the bottom is made with bevels from the side of the dip and rise of the formation, and the bevel from the side of the dip of the formation is located at a similar angle formed by the longitudinal axes of the guide beam and conveyor, and the bevel on the side of the uprising of the formation is symmetrical to the bevel on the side of the fall of the formation relative to the longitudinal axis of the section overlap.  3. The support according to claim 1, characterized in that each guide beam in the rear part is provided with a side barrier fence located between the sections, from the beginning of the beam of variable cross-sectional plan to the protective fence of the support section, and in the space behind the protrusion of the beam, the barrier fence is made with the gap between it and the formation soil.

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