RU2078938C1 - Unit of powered support - Google Patents

Abstract

FIELD: support of breakage faces. SUBSTANCE: unit of powered support has base made of two beams installed for vertical motion interconnected in the front part of base with the help of cross-member. Ram is connected with the last turning support and its other end is connected with guide skid. Hydraulic props are installed on each beam. Guard is connected with base by means of front and rear levers. Base beams in zone of location of front levers are additionally interconnected by coupling whose one side is connected with one of beams by vertical hinge, and the other side is connected with the other beam by horizontal hinge. Ram is installed at angle to horizon and located under the coupling. EFFECT: higher efficiency. 5 dwg

Description

 The invention relates to the extraction of minerals by an underground method, namely, to fastening treatment faces by mechanized supports.

Known mechanized support support and protection type, consisting of two hydroracks, a base made in the form of longitudinal beams and transverse traverses interacting with the upper surface of the wedge-shaped ski conveyor, the upper with a visor and an inclined fence [1]
The well-known mechanized lining does not sufficiently adapt to the hypsometry of the bottom of the excavation, it is prone to indenting the toe of the base in weak rocks of the soil and the loss of longitudinal and lateral stability.

 The closest to the claimed technical essence and the achieved result is a section of mechanized roof support, including a base made of two beams installed with the possibility of vertical movement, pivotally connected to each other in front of the base using a cross member to which a hydraulic jack of movement is connected via a rotary support, the other end of which is connected with the ski guide, hydraulic stands installed on each beam, and a guard connected to the base with front and rear leverage [2] is taken as a prototype.

 The well-known section of powered roof supports is practically unconnected in the dam part of the base beam, which leads to deformation and breakdown of the base and the associated levers and fences, disconnection of the connection of the travel jack with the ski guide in the dam part of the roof support section, especially with weak soil and podshybovke hydraulic jack movement. Deformation of the base of the section and their high accident rate reduces the load on the treatment faces and limits the scope of the section of the powered roof support.

 The essence of the invention lies in the fact that the base beams are additionally connected by a screed in the area of front levers, one side of the screed is connected to the beam by a vertical hinge, and the other side of the screed is connected to the opposite beam by a horizontal hinge, and the hydraulic jack is installed at an angle to the horizontal and placed under the screed .

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

 To increase the strength and flexibility of the base while maintaining the possibility of relative movement of the beams relative to each other in the vertical plane and in the direction of movement of the lining section, the base beams in the front arm placement area are additionally connected by a tie, one side of which is connected to one of the beams by a vertical hinge, and the other side of the tie connected to the opposite beam by a horizontal hinge. Due to a similar connection of the base beams with a screed and an increase in the strength and flexibility of the base of the beam, the beams stopped moving apart from the longitudinal axis of the section, and deformations and breakdowns of the levers were eliminated. To reduce the plugging of the guide beam, the base beams and the movement jack and to prevent its separation from the ski guide, the movement jack is installed at an angle to the horizon, so that it is located under the screed connecting the base beams and thus they do not interfere with each other.

 The technical result of the proposed solution is expressed in increasing the strength and flexibility of the base, better adaptability of the base of the support section to unevenness of the soil and curvature of the front of the working face and base of the support, increasing the longitudinal and lateral stability of the support section, reducing the influence of the punching of the support section on the movement force, reducing deformations and breakdowns base beams and levers of the support section. In addition, the possibility of trimming the hydraulic jack of movement and the possibility of its spontaneous disconnection with the guide ski when moving the section due to the slope of the horizon more rational placement of the hydraulic jack is reduced. As a result, the load on the working face increased, the field of application on formations with weaker soils and complex formation hypsometry expanded. The complexity of repair and overhaul maintenance of the mechanized roof support section has decreased.

 In FIG. 1 shows a lining section, general view: in FIG. 2, view AA in FIG. one; in FIG. 3 view of the lining section located on the surface of the stope; in FIG. 4 is a view of BB in FIG. 3; in FIG. 5, view B in FIG. 3.

 The mechanized roof support section consists of a top frame 1 with an articulated visor 2, a hydraulic cartridge 3, a guard 4, front levers 5 and rear levers 6, a control hydraulic cylinder 7, a hydraulic strut 8, a hydraulic jack 9 and a base 10.

The base 10 is made of two beams 11 and 12, pivotally connected to each other in front of the hydraulic struts 8 by the cross member 13 with the help of hinges 14 of the same design. The hinges 14 are made in such a way that they allow the beams 11 and 12 of the base 10 to be ahead of each other in the horizontal plane in the direction of movement at a distance l equal to 30-50 mm. The cross member 13 is rigidly connected to the pivot bearing 15, to which the movement jack 9 is connected on one side. The cylinder 16 for lifting the base 10 is rigidly placed on the cross member 13. The other side of the movement jack 9 is pivotally connected to the ski guide 17. The guide ski 17, in turn, is connected with a base support, for example, a face conveyor (not shown in the drawings). The beams 11 and 12 of the base 10 in the area of front levers 5 are additionally connected by a screed 18, one side of which is connected to one of the beams, for example 11, by a vertical hinge 19, which is made in such a way that allows the screed to be rotated through an angle α equal to 5-7 ^o in the horizontal plane. The other side of the tie 18 is connected to the beam 12 by a horizontal hinge 20. A hydraulic jack 9 is installed between the pivot bearing 15 and the ski guide 17 at an angle to the horizontal and placed under the tie 18.

 Section powered roof supports as follows.

When applying pressure to reduce the hydraulic jack of movement 9, the lining base together with the guide ski 17 moves towards the bottom, and the hydraulic jack of movement transmits force through the rotary support 15 and the cross member 13 to the base 10 of the lining section. By placing the hydraulic jack 9 at an angle to the horizontal when extending the lining base, the guide ski 17 rises above the surface of the excavation soil and reduces the resistance of the coarse rock, which is invariably present in the face and prevents the ski guide from moving. When applying pressure to the sliding hydraulic jack of movement 9, the force from it is transmitted through the rotary support 16 and the cross member 13 to the base 10, so that the lining section begins to move the lining in the direction of the bottom including the lifting cylinder 16 of the base 10, which, when moving apart, interacts with the ski guide 17, thereby raising the cross member 13 and the associated beams 11 and 12 of the base 10 above the soil surface. When moving the lining section due to the presence of horizontal backlash in the hinges 14 connecting the pivot bearing 15 with the beams 11 and 12 of the base 10, the base beams can not only move relative to each other in the vertical plane due to uneven soil, but also be ahead of each other by 30 -50 mm, which increases the flexibility of the base while maintaining strength and the flexibility of the support section to uneven soil and curvature of the front face and base support. The presence of the screed 18 provides additional connection of the beams 11 and 12 in the rear of the base 10, in the area of the front levers 5, prevents them from moving away or vice versa from traveling away from the longitudinal axis of the section. Moreover, in connection with the screed 18 made in the joints with the beams 11 and 12 of the base 10 of the vertical 19 and horizontal 20 hinges, the screed can rotate in the horizontal plane within the angle a5-7 ^o and does not interfere with the movement of the beams in the vertical and horizontal planes, which also preserves the adaptability of the support section to unevenness of the soil and the curvature of the front of the working face and the support base. Placing the hydraulic jack 9 at an angle to the horizontal when moving the lining section contributes to a certain rise of the base above the surface of the soil of the working face, which reduces the effect of punching or pushing the base into the soil, and hence the movement force. At the end of the movement of the lining section to the bottom, the hydraulic jack of movement 10 is locked, the control cylinder 7 sets the rational angle between the top 1 and the guard 4, after which it is locked and bursted by the hydraulic pillars 8 and the hydraulic cartridge 3 of the visor 2.

Claims (1)

 Mechanized roof support section, including a base made of two beams installed with the possibility of vertical movement, pivotally connected to each other in the front of the base using a cross member, to which a movement jack is connected by means of a rotary support, the other end of which is connected to the guide ski, hydro stands installed on each beam, and the fence associated with the base with front and rear levers, characterized in that the base beams in the area of placement of the front levers are tightly connected by a screed, one side of the screed is connected to the beam by a vertical hinge, and the other side of the screed is connected to the opposite beam by a horizontal hinge, and the hydraulic jack is installed at an angle to the horizontal and placed under the screed.

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