HU184230B - Mine supporting frame - Google Patents

Abstract

1. Mine roof supporting structure, in which the rear cap (1) is supported by means of props (2) on a floor frame (3) and in which a shield (5) is pivotally linked to the rear cap and is maintained in its pivotal position by means of struts, for use in thick seams, in which the roof coal above the mine roof supporting structure is excavated and fed via the shield to a movable conveyor (11) arranged at the site of the old excavation, characterized in that the shield (5) is supported in its pivotal position against the flor-frame (3) by means of struts (6) pivotally linked to the shield (5) as well as to the floor frame (3), and in that at least one slide member (9) is guided within the shield (5) for being protruded in the direction of the shield, said slide allowing to vary the effective length of the shield (5) for guiding the roof coal.

Description

(57) EXTRAS

BACKGROUND OF THE INVENTION The present invention relates to a mining safety rack which is hingedly mounted on a rear main body glass when the cover coal is removed and the cover carbon is guided through this shield to a conveyor arranged on the bottom side.

It is an object of the invention that the shield is supported on the sole frame by means of articulated support brackets and a sliding blade is guided therein to control the introduction of carbon to the bottom side conveyor.

The structure according to the invention is characterized by high stability, which enables it to be transported safely without overloading the conveyor.

-1184 230

BACKGROUND OF THE INVENTION The present invention relates to a mining safety rack in which the rear main glass is supported by foot supports and pivotally attached to this rear main glass by a hinged shield which, in the course of augmentation processes, includes in his position.

During the operation of a particular plant using mining safety frames, a conveyor is arranged on the front side of the mining safety frames, in which the carbon lost by a slit is removed on the front side of the mining safety frames. If the height of the plant exceeds the height of the commonly used mine shields, then another layer of coal, called top coal, remains above the mine shields, which must be produced despite its elevation. For this purpose, a conveyor is also provided from the side of the cladding side and a hinged hinged shield is mounted on the rear main glass to guide the embossed topcoat to the conveyor arranged on the cladding side.

Covered carbon, which either collapses or has to be loosened by blasting, can be cut off in very large quantities, so the conveyor must be protected from direct carbon fall, otherwise the conveyor may be damaged or overloaded with too much carbon. Therefore, the shield must capture the falling carbon and retain a significant amount of carbon.

In a known mine safety frame of this kind, the shield hinged to the rear main glass is hinged on the rear main glass by a hydraulic ram piston assembly and can be adjusted by said said assembly. While the shield can be properly positioned so that the carbon can be properly guided and the conveyor mechanism protects it from the direct fall of carbon, the full load and stress of the shield must be borne by the support pillars. In this way, however, the strength of the props cannot be fully utilized as a support for the main stake.

SUMMARY OF THE INVENTION The object of the present invention is to provide a mining safety rack for said growth mode, which is characterized by its high stability, which enables it to be transported safely without overloading the conveyor.

SUMMARY OF THE INVENTION The object of the present invention is to provide the shield in a tilted position supported by struts on the sole frame, wherein the struts are hingedly connected to both the shield and the base frame, and at least one slider movable in the longitudinal direction of the shield. , which allows the effective length of the shield to guide the shield carbon. The support rods direct the forces exerted on the shield directly into the base frame of the mine safety rack, thus extending the strength of the support pillars to support the head and relieve most of the rear force on the shield. However, the struts also serve to provide stable support for the movable sliding blade. By adjusting the effective length of the shield by means of a movable sliding blade, the shield ejection end can be accurately adapted to the conveyor at all positions of the shield. The use of such a blade on known mine safety racks2, where the shield is pivotally mounted only on the master glass, would pose a significant risk to stability and only a stable and reliable construction would be achieved with the support bars supporting the shield.

According to a preferred embodiment of the invention, the props supporting the shield on the sole frame are rigidly formed. This provides a high degree of rigidity in the support of the shield, enabling it to withstand the very high loads and stresses of the collapsing coal. However, due to the rigid design of the props, the tilted position of the shield is different at different heights of the props, so that the end of the shield is not always properly positioned relative to the conveyor. While the rigid design of the support rods allows the weight of the mine shack to be reduced while maintaining the same stability, just as in such constructions the shield is tilted over the conveyor to varying degrees when tilted, the arrangement of an extensible cap is also an important measure for stability. on the shield.

According to the invention, it is advantageous to have an inclined support rod pivotally connected to the sole frame hinge point of one of the shield support bars, the other end of which is hinged to the shield hinge point of the other support bar supporting the shield. This further enhances the solid support and stability of the shield against lateral forces. According to the invention, the sliding blade can be extended and retracted by means of at least one hydraulic cylinder piston assembly.

In accordance with the present invention, the pivot points of the struts on the shield and sole frame are selected such that, when lowering the safety rack, the shield cannot collide with or cause injury to the underlying conveyor. The collision avoidance in the embodiment of the invention is ensured by the precise deflection of the shield by the rigid support bars. Because of the sliding blade, the shield may end up relatively far from the transport structure, so that the shield is not dangerously close to the transport structure even when the mine shack is fully lowered.

According to the invention, it is advantageous that, in the various height positions of the mining rack, the inclined position of the support rods relative to the water level towards the foot frame lies between about 30 ° downward and the horizontal position. The advantage of this arrangement of the struts is that there is only a relatively small difference in the protrusion of the shield into the different height positions of the mine shield, and that this kinematic structure requires only minor adjustments, the smallest possible change is in the derivation of the forces to be supported. This relatively small change makes it possible to use a relatively short and therefore securely supported sliding blade. At the same time, forces that are much more difficult to control at the fully extended sliding blade can be safely discharged into the struts or picked up by the struts.

Shield support struts that are hinged to the foot frame and shield can also be designed as hydraulically operated telescopic poles. The latter is advantageous when the beaker is of a wide height range

184 230 must be adjusted, since the hydraulically actuated struts combined with the retractable and retractable sliding blade can adjust the shield drop end in all height positions relative to the conveyor, and the most advantageous shield inclination 5 can be selected.

In accordance with the present invention, it is expedient to provide a hydraulic cylinder piston assembly in the sole frame which is connected by a towing member, such as a chain, to a conveyor arranged on the bulkhead side, so that the mining racks The conveyor arranged from the side can be pulled hydraulically.

The invention will now be described in more detail with reference to the drawing, which schematically illustrates an exemplary embodiment of a mining shack according to the invention. In the drawing it is

Fig. 1 is a side view of a mine safety rack according to the invention; the

Figure 2 is a plan view of the mining safety stand 20 shown in Figure 1.

In the figures, the rear cage glass 1 of the mine safety rack according to the invention is supported by four support columns 2 on the base frame 3. A pivotable shield 5 is hinged about a pivot point 5 at the rear end of the cap. Rigid support bars 6, hinged at points 7 and 8, are hingedly attached to the base frame 3 to ensure that the shield 5 is held in its tilted position. The shield 5 is slidably slidable 9 in its longitudinal direction, whereby the length of the shield 30 can be varied. The discharge end of the slide blade 9 is denoted by reference numeral 10. Below it is a conveyor 11 arranged from the side of the blank 12. This conveyor 11 is protected by the shield 5 and the slider 9 to such an extent that the collapsing carbon 35 cannot directly contact the conveyor and thus damage it. This also avoids that the conveyor load on the all conveyor is too high to cause the machine to jam. The dashed lines indicate the deepest 5 'position of the shield when the slide 40 is in the 9' position and the struts are in the 6 'position. Reference numeral 7 'indicates the modified pivot point and reference numeral 4' denotes the articulation position of the shield 5 at its deepest position.

The cylinder 5 is pivotally connected to the shield 5 at point 13, the piston of which is pivotally connected to the slider 9, so that the position of the slider 9 can be changed hydraulically. Reference numeral 50 denotes an oblique support bar, one end of which is connected to one of the two support bars 6 with the sole frame hinge point 8 and the other end is connected to the other support bar 6 hinge side hinge point 7. In this way, a transverse freeze 55 is achieved, which ensures accurate guiding of the shield even at high awakening forces.

Also shown in the drawing is a conveyor 17, which is usually arranged on the front side of a mine securing rack, which is connected to the foot frame 3 through a piston-cylinder unit 18, 19. The conveyor 11 is connected via a chain 20 to a cylindrical piston assembly 21, 22 which is hinged to the base frame 3, whereby the conveyor can be retracted through the chain 20.

Ref.

In addition, Figure 2 shows one side of an adjacent mine shack.

Claims (6)

PATENT CLAIMS 1. A mine safety rack with the rear main glass supported by support pillars on a base frame and hingedly hinged to the rear main glass by means of hinges, which are also removed by means of an overhang, characterized in that the shield (5) is supported by pivoting rods (6) on the sole frame (3) which are hingedly connected to both the shield (5) and the base frame (3), and their hinges (7, 8) on the shield (5) and on the base frame (13) are arranged so as to prevent collision of the shield (5) with the conveyor (11), whereby the support bars (6) are disposed horizontally at different height positions relative to the foot frame (3) by about 30 ° between the incline position and the horizontal position, the shield (5) having at least one slider (9) movable in the longitudinal direction of the shield (5). Embodiment of a mine safety rack according to claim 1, characterized in that the support rods (6) supporting the shield (5) on the sole frame (3) are rigid. An mine safety rack according to claim 2, characterized in that a support bar (24) is pivotally connected to the sole-pivot point (4) of one of the support rods (6) supporting the shield (5), the other end of which is shielded (5). ) to the shield-side pivot of the other support bar (6) 45 (7) is hinged. 4. The mine shack according to any one of claims 1 to 4, characterized in that the pusher (9) is provided with at least one hydraulic cylinder piston unit (14, 15) which can be moved in and out. An embodiment of a mine safety rack according to claim 1, characterized in that the shield support rods hingedly connected to the sole frame (3) are formed as hydraulically adjustable telescopic bars. 6. A mine safety rack according to any one of claims 1 to 4, characterized in that the base frame (3) is provided with a hydraulic cylinder piston assembly (21, 22) connected to a conveyor (11) arranged on the side of the base through a towing element such as a chain (2). (2 pieces of figure)