SU812937A1 - Pneumatic bladder roof support - Google Patents

Description

{54} Pneumatic bolt

The invention relates to mining, namely to mechanized crepe m cleaning faces. Known pneumatic bolting, comprising two rows of individual cylinders, stacked one on top of the other and connected by a shifting mechanism. 11 The disadvantage of this bolting is that its sections are rather complicated and unreliable in operation due to their many elements. The closest technical solution to the invention is a pneumatic support that includes a base with a flat guide j which is elastically hinged to the locking side of the locking element, carrying the elastic element and the feed chamber 2.. The disadvantage of this support is the need to remove the thrust from the bearing elements during its movement, which reduces the reliability of its operation. The purpose of the invention is to increase the reliability of the support by stabilizing the forces of the backwater. The goal is achieved by the fact that the base is made in the form of vertically doubled flat guides KhaiK). The feed chamber and the stopper element are connected to the meiad by themselves by means of an expandable shell, the inner surface of which is coated with an anti-friction coating skalzyvani lining towards the dam, the extendible sheath is attached to the downhole end of the flat guide means of clamping strips and covers interference fit with the supply chamber and the stopper member. Bearing elastic element can be made in the form of an elastomer plate, and the locking element in the form of an elastic arch of elastomer. Another embodiment of the carrier elastic element can be a continuous, non-expandable flexible sheath and an inner stretchable sheath to hold it between the guides, while the locking element is made in the form of a cheek and a wedge installed between them and connected to the feed chamber through the internal stretchable sheath shell.

FIG. 1 shows a schematic view of a support in lava, a general view; in fig. 2, node 1 in FIG. 1} in FIG. 3-5 is a section A-A in Fig. 2, embodiments of the support; in fig. 6 - node And on fig.Z; in fig. 7 shows the node ij in FIG. 4 and 5; FIG. 8 shows a node W in FIG. 4 and 5

Layer 1 is processed by lava 2 with a smooth lowering of the roof 3. In preparatory workings 4 there is a conveyor 5, a compressor station 6 and a support control unit 7

The support consists of two flat guides 8, on which a scraper bridge with cutters 9 and scrapers 10 are hung. Between the guides there is a supporting elastic element 11, and between the zavalnye ends and the locking element 12 there is a feeding chamber 13. In this case, the supporting elastic element can be made in the form of an elastomer plate (Fig. 3), or a continuous non-expandable flexible shell of Fig. (4 and

and 5).

The feeding chamber is not directly attached to the guides, but is pressed against them by the stretching sheath 14, which covers the guides, the locking element, the feeding chamber and is attached to the guides at the ends using clamping strips 15 and bolts. The stretch sheath is attached with tension so that it presses the feed chamber to give it an elongated ellipse shape. The stretch casing externally has a microrelief with protrusions 16, which prevent sliding of the support in the direction of the dam during feeding. To give flexibility in the plane of the bottom, the guides have sharrs 17.

In one embodiment, the feed chamber and the carrying elastic element can be separately covered by an additional internal stretchable shell 18.

The locking element can be made in the form of an elastic arch of elastomer (Fig. 3) or in the form of jaws 19 and a wedge 20 installed between them and connected to the feed chamber 13 by means of an internal extensible shell 18.

Before excavating the coal from the mounting chamber, the lining is pressed into the formation, for which the elastic support element 11 and the locking element 12 are compressed, which are then spread out and the guides 8 are spreading between the roof and the ground with thrust forces.

During coal extraction, compressed air is supplied to feed chamber 13, which expands and feeds the 8-cutter guides from 9 and scrapers 10 to the bottom, while feeding chamber 13 abuts its blocking element 12, which transfers this force to the roof. the soil and the pro cess spread between them, which is facilitated by the presence of microprotrusions 16 on the stretchable shell. The microprotrusions of the shell do not interfere with the movement to the bottom of the guides 8 and at the same time prevent the locking element 12 from sliding towards the obstruction. When the guides 8 are supplied to the bottom, the shell 14 is expanded. After the end of the supply, the pressure in the supply chamber 13 is relieved, the shell 14 is compressed and tightens the locking element to the direction of expansion. Then the cycle is repeated.

This support allows effective excavation of seams under protected objects and low power seams occurring in unstable, strong lateral rocks and unpreserved hypsometry.

Claims (4)

1. Pneumatic support, including a base with a flat guide, which is elastically pivotally connected to the locking side of the locking element, carrying the elastic element and the feed chamber, characterized in that, in order to increase the reliability of its work by stabilizing the backpressure force, the base is made in the form of flat guides doubled vertically, between which an elastic carrier element is installed, the supply chamber is made in the form of a continuous flexible non-expandable shell and is installed between the sealing ends of the flat guides and stoppers The element, and the flat guides, the supply chamber and the stopping element are connected by means of an expandable shell, the inner surface of which has an anti-friction coating, and the outer one - microprotrusions to prevent the support from slipping towards the dam, while the expandable shell is attached to the dead the ends of the planar guides by means of clamping strips and covers with tension the supply chamber and the locking element. 2. The fastener according to Claim 1, except that the supporting elastic element is made in the form of an elastomer plate, and the stopper element in the form of an elastic arch is made of elastomer. 3. A support according to Claim 1, characterized in that the supporting elastic element is made of a continuous, non-expandable flexible shell and an internal stretchable shell to hold it between the guides. 4. Support pop. 3, characterized in that the locking element is made in the form of cheeks and a wedge installed between them and connected with feed chamber through the internal stretchable shell enclosing it. Sources of information taken into account in the examination USSR certificate 21 23/00, 1974. USSR certificate 21 1 23/00, 1975 (about 12 / J ts / I T-X- l R // 20 F ( FIG. b