SU883489A1 - Device for securing mine face against caving-in - Google Patents

Description

(54) DEVICE FOR RETAINING A BORROWING FROM CUTTING

FIELD OF THE INVENTION The invention relates to mining, in particular, to fixing the bottom in a mine. A device for securing a pile of paws, comprising a telescopic yoke with a movable element and a hinge with a reinforced two-arm lever, a clamping and push-down shield, a pull, a power jack IJ, is known. The disadvantage of this design is that there may be a deformation of the cross member, the shaft of the power jack and the moving element with increasing effort from the side of the machine. The closest technical solution to the invention is a device for keeping the bottom from collapsing, which includes a shield connected to the cylinder of the hydraulic cylinder, mounted on the overlap of the mechanized support section and supported by a slider having trunnions {2J. The disadvantage of this design is that, under the effect of increasing force on the side of the shield, connected to the cylinder rod, the rod is bent because the cylinder supported by the slider does not possess the necessary flexibility, durability and reliability of operation. The purpose of the invention is to increase the reliability and durability of the device. The goal is achieved by the fact that the slider is connected with the levers by means of elastic elements with the possibility of its vertical movement. In addition, the levers can be composed of links, between which resilient elements are placed. Moreover, the constituent parts of each lever are provided with cups installed one in the other, inside which elastic elements are placed. The levers can be made with grooves in which the pins of the slider are placed, and the elastic elements are connected at one end to the levers, and at the other end are connected to the pins. FIG. I depicts a device with integral arms and elastic elements; in fig. 2 - a device with a lever provided with glasses, inside of which resilient elements are placed; in fig. 3 - device with levers, having grooves with slider trunnions located in them, and elastic elements; in fig. 4 - the same, with equipped brackets, on which

Zykrepleny elastic elements; in fig. 5 - the proposed device in a non-working (folded) position.

The device for keeping the fence from breaking includes a shield 1 connected to the rod of the hydraulic cylinder 2 mounted on the ceiling 3 of the mechanized support section. The housing of the hydraulic cylinder 2 is supported by the slider 4 suspended on the levers 5, provided with elastic elements 6. The slider 4 is connected to the shield I holding the face 8 by means of telescopic ribs 7.

Shield I is designed to forcibly keep the walls of the slab 8 from being crushed, without the use of an additional attachment. Hydrocylinder 2 is designed to create a thrust force on the shield 1. Overlap 3 sections mechanized lining is designed to keep the roof of the slab from the hoop. The slider 4 is a structural element of the device for restraining the collapse, which supports the hydraulic cylinder 2 in its working (extended) and non-working (folded) positions. Levers 5 can be made composite. Adjacent ends of the component links of the levers 5 are interconnected by elastic elements 6, and with the pins 9, the sliders 4 of the levers 5 are connected pivotally. The levers 5 may be provided with cups 10, each other having open ends II, inside of which resilient elements b are placed, for example a set of rubber rings. With pins 9 crawlers. 4 levers 5 are connected pivotally. Levers 5 can be made integral. Solid levers 5 have in their front part longitudinal grooves 12; in which the trunnions 9 of the slider 4 are arranged with the possibility of longitudinal movement along the arms 5. The trunnions 9 of the slider 4 are connected to the levers 5 by elastic elements 6. The integral levers 6, having in their end part grooves 12, can be equipped with brackets 13 with elastic elements fixed on them 6, on which the trunnion 9 of the slider 4 rests. The elastic elements 6 are designed to provide a free radial displacement of the hydraulic cylinder 2 with increasing pressure of the held rock mass on the shield 1. The elastic elements 6 can be made in the form of a spring n compression or stretch, rubber rings, springs, etc. Telescopic rods 7 are designed to move the slide 4 along the hydraulic cylinder 2 when extending (working position) or retracting (folded position 1e) of the hydraulic cylinder cylinder 2. The device for holding the The collapse works as follows.

The device is installed on the ceiling 3 sections of the hydraulic support. For translation; device in the working position in the piston cavity of the hydraulic cylinder 2 is supplied working fluid. In this case, the device is driven down by its own weight. The hydraulic cylinder 2 slides along the slider 4, turns it and the levers 5 to a position where the levers 5 are mounted almost perpendicularly to the hydraulic cylinder 2. With the further expansion of the hydraulic cylinder 2, telescopic pulls 7 are extended, with simultaneous movement of worm 1 to face 8 to complete press down The loose wall of the slab 8 is prone to collapse by dumps, which have the appearance of a wedge and slide at an angle of repose 60-70 °. When Sh. I is pressed down, the force P 15-20 tf acts on the side of the 8 on the weight of the held rock mass, which tends to bend the extended rod of the hydraulic cylinder 2. Under the influence of this reinforcement, the shield I together with the hydraulic cylinder 2 attached to it moves down the elements 6 are then elastically deformed, eliminating the bending stresses of the rod.

 In order to bring the stopping device to the non-working (folded) position, the working fluid is supplied to the pinhole of the hydrocyliide 2, which is reduced, the shield 1 at the same time departs from the hole 8,

J telescopic thrusts 7 are completely reduced and set the shield I parallel to the axis of the hydraulic cylinder 2. With the further reduction of the hydraulic cylinder, 2 tons 7 are deflected in the direction of overlapping 3 levers 5 with a slider 4, resulting in

0 lifting the holding device of the slab with pressing it to the lower surface of the overlap 3.

Thus, the proposed device for keeping the boulder from collapsing improves its reliability and durability by reducing the load on the hydraulic cylinder rod, preventing deformation of the hydraulic cylinder rod and increasing the reliability of operation and durability of the hydraulic cylinder by providing free radial displacement during the development of rock pressure side of the slab, which is achieved by the elastic support of the hydraulic cylinder.

Claims (4)

1. A device for keeping the fall from collapsing, including a shield, connected with a hydraulic cylinder rod fixed -in the overlap of a mechanized support section and supported by a slider, having trunnions that interact by means of overlapping levers, characterized in that, in order to increase reliability operation and durability of the device, the slider is connected with the levers by means of elastic elements with the possibility of its vertical movement. 2. The device according to claim 1, characterized in that the levers are made of separate links, between which elastic elements are placed. 3. The device according to paragraphs. I and 2, characterized in that the constituent parts of each lever are provided with cups mounted one inside the other, inside of which resilient elements are placed. 4. A device according to claim 1, characterized in that the levers are made with grooves in which the pins of the slider are placed, and the elastic elements are connected at one end to the levers, and at the other end they are connected with the pins. Sources of information taken into account in the examination 1.-USSR Copyright Certificate № 428090, cl. E 21 D 23/06, 1973. 2. USSR author's certificate for application number 2708226 / 22-03, cl. E 21 D 23/06, 1979 (prototype). ..