CS202030B2 - Reinforcement unit for the deep mine operation with multiple filling screening case - Google Patents

Abstract

1418432 Mine roof supports BECORIT GRUBENAUSBAU GmbH 30 Jan 1974 [27 Feb 1973] 04233/74 Heading E1P In a mine roof support comprising a goafside screening shield consisting of two sections hinged to-gether, the shield is movable laterally relative to the remainder of the support by being connected thereto by hinge pins 8. The shield sections are interconnected by pivotal links 10 and the upper section is connected to the roof bar by a chain 9.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an underground mining operation reinforcement with a multi-part base shielding housing, the portions of which are connected to each other by joints arranged in the longitudinal direction of the face wall. part of the joist structure has at least one joint, the axis of which is arranged transversely to the longitudinal direction of the face wall.

Such a link is known from German Offenlegungsschrift No. 1,533,736. In the known reinforcement link, there is an articulation between the upper part of the shading box and the joist structure, the joint having an axis arranged transversely to the longitudinal direction of the face wall. In this way, it is to be achieved that the upper part of the base shielding box is freely movable so that it can adapt to all circumstances. However, due to the construction, this adaptation can only occur between the upper part of the base-shading box and the joist structure. As a result of the articulation with the lower part of the base shielding box, the upper part is prevented from adjusting movements. These are in particular the adjusting movements which are desirable when displacing between the ceiling and the platform in the longitudinal direction of the face wall parallel to the footbridge, in which the ceiling structure deflects laterally from a position corresponding to the footbridge above the base plate. The same difficulties arise when the motherboard is affected by unevenness. first leans sideways. As a result of this imperfect adaptability, large peaks of load are generated in the joints of the base shading box, which can destroy these joints. Deformations of the base shielding box also occur. In addition, when the uprights are inclined in the longitudinal direction of the face wall, the struts of the reinforcement member strike against the side portions of the base shielding box, so that deformation and jamming may occur on these portions as well.

SUMMARY OF THE INVENTION It is therefore an object of the invention to improve a reinforcement member of the type mentioned above so as to provide a base portion. shielding cabinets, and in particular its hinges arranged in the longitudinal direction of the face wall, have been protected from excessive loads and deformations that may occur when the base plate tilts laterally due to unevenness at the front or when equilibrium displacements arise between the ceiling and the face with footbridge.

SUMMARY OF THE INVENTION The connection between the lower part of the base shielding box and the base plate of the reinforcement member is made by a joint whose axis extends parallel to the axle and transversely to the longitudinal direction of the face wall. reinforcement article.

As a result of the articulation between the foundation shield box and the reinforcement member base plate, no transverse forces can occur in the joint system of the foundation shield box at an inclined position of the base plate or at displacements parallel to the footbridge between the ceiling and the platform. caused by these forces. Since the base shield box can be positioned obliquely with respect to the supported uprights at displacements parallel to the footbridge in the longitudinal direction of the face wall, it is also not possible for the uprights to strike against the side of the base shield box.

In order to be able to align the base shield box with the reinforcement member again to the normal position relative to the lower part of the reinforcement member after the inclination, compensation devices are provided between the supports of the reinforcement member and between the base plate or parts connected to the base plate. enclosures around the hinge between the base plate and the bottom of the base shielding box. These compensating devices preferably have resilient return elements. The balancing devices may also have pressurized medium cylinders which serve to exert balancing forces.

The accompanying drawing shows an exemplary embodiment of the invention in front view and partially in longitudinal section.

The reinforcement member shown in the drawing has a base plate 1 on which a plurality of uprights 2 are arranged which together support the joist structure 3. The placement of the uprights 2 on the base plate 1 and on the joist structure 3 is accomplished by means of joints. To align the uprights 2, a compensating device 4 is provided on the base plate 1 to align the uprights 2 with respect to the base plate 1. In addition, the base plate 1 is provided with a return cylinder 5 whose movable piston rod engages the face conveyor 6.

On the foundation side of the reinforcement member there is a foundation shield box, which is marked as a whole with the mark 7. The foundation shield box 7 consists of two box elements which are open towards the coal pillar and surround them with their side walls

Claims (2)

1. An underground mining operation reinforcement with a multi-part base shading box, the parts of which are connected to each other by joints arranged in the longitudinal direction of the face wall and whose upper and lower parts are connected to the joist structure supported by the uprights and the base plate of the reinforcement member. with the upper part of the joist structure has at least one joint, the rear uprights 2 of the reinforcement member. The lower part 7a of the base shading box 7 is connected to the base plate by hinges 8. The hinges 8 lie on a common axis which runs parallel to the origin and transversely to the longitudinal direction of the face wall and is located in the center of the reinforcement member. The upper part 7b of the base shading box 7 is connected by a chain 9 or similar fastener in a pivotable manner in all directions to the joist structure 3. In addition, the box parts 7a, 7b are interconnected by guides 10 which are articulated to the side wall of the lower box part 7a а. to the rear wall of the upper box portion 7b. The axes of the joints running through the guide pins 10 lie in the longitudinal direction of the face wall. As can be seen from the drawings, the base shielding box 7 is movable relative to the reinforcement member in a plane that is perpendicular to the origin and lies in the longitudinal direction of the face wall. As a result, the base shielding box 7 does not limit the inclination of the base plate 1 in the longitudinal direction of the sidewall by its hinges arranged in the longitudinal direction of the face wall. Even in parallel displacements with the footbridge between the ceiling and the counter in the longitudinal direction of the face wall, the base shading box 7 can be adjusted properly at an angle without subjecting its joints to excessive stress or without the risk of impacting the uprights 2 against the side walls of the box elements 7a, 7b. Instead of the joints 8 used in the illustrated embodiment of the invention, other connecting means between the lower housing part 7a and the base plate 1 may also be used which allow movements of the base shielding box relative to the base plate 1 in a plane perpendicular to the front and in the longitudinal direction of the face. For this purpose, for example, it would be possible to use pins with longitudinal holes which are located on both sides on the base plate 1. It would also be possible to use articulated quadrilaterals or the like. as joint means, the joint axes of which are arranged parallel to the origin and transverse to the longitudinal direction of the face wall. Similar connecting means may also be provided between the upper box part 7b and the joist 3. YNALEZU whose axis is arranged transversely to the longitudinal direction of the face wall, characterized in that the connection between the lower part (7a) of the base shading box (7) and the base plate (1) of the reinforcement element is made by a joint (8) whose axis runs parallel to and transversely to the longitudinal direction of the face wall, wherein viewed in the longitudinal direction along the back face, this joint (8) is located in the center of the reinforcement member. 2. Reinforcement element according to claim 1, characterized in that between the base plate (1) or parts connected to the base plate (1) and between the supports [2] of the reinforcement element there are compensating devices (4) for rotating the base shielding box (7). around a hinge (8) between the base plate (1) and the bottom portion (7a) of the base shield box (7).