SU457804A1 - Device to prevent rock from escaping - Google Patents

Description

one

The invention relates to the mining industry, in particular, to safety devices used when conducting mining in outburst-hazardous rocks.

A device is known for preventing the spread of rock during ejection, which includes the bottomhole and supporting arches, each of which is made of two hinges connected to the semi-arc with a spreading mechanism.

However, in such a device, there are no shock loading elements.

The proposed device is characterized in that the arches are connected by means of buffer dampers, and the bottom arch is provided with lattice shutters connected to it by means of torsions, and the supporting arch is arranged by a thrust mechanism made in the form of two three-joints, each of which consists of a semi-arch skis, a rod connected to the semi-arch, hinged, and a telescopic shock absorber with a support point.

FIG. 1 shows the proposed device, side view; in fig. 2 is a view along arrow A in FIG. one; in fig. 3 is a view along arrow B in FIG. one; in fig. 4 shows a section along BB in FIG. 2; in fig. 5 is a section along G ‑ Y in FIG. four.

The device consists of a frame that includes bottomhole 1 and support 2 arches, lattice sashes 3 and a spacer core system 4. Lattice sashes are connected to the bottomhole arch through torsions 5. The bottomhole arch consists of half-joints 6 and 7, connected by a joint 8. Supporting arch consists of half-joints 9 and 10, connected by a hinge 11. Buffer shock absorbers 12 are installed to absorb the shock loads between the bottomhole and supporting arches. The vanishing ends of the leaflets are blocked by a protective cap 13 suspended from the facehole arch on the chain 14. The torsion is made in the form of a square rod, the ends of which are rigidly connected to the flap.

The stop 15 is rigidly connected with the middle part of the torsion. The torsions with the bottomhole arch are connected through hinged supports 16. The ends of the bottomhole arch are equipped with skis 17, and the ends of the supporting arch are skis 18. In addition, skis 19 are installed on the lateral surface of the supporting arch.

The thrust mechanism is made in the form of two three three-linkagees paired with a common joint, each of which consists of a semi-archway with skis, a rod 21 and a telescopic shock absorber 22 with a base plate 23. The rods with semi-joints are connected through hinges 24.

The device works as follows.

In the off position, the flaps 3 are rotated and secured so that the opening of the arches 1 and 2 is fully open. The bell 13 is retracted to the side and secured in this position,

the rods 21 are disconnected in the hinge 20 and diluted with the shock absorbers 22 prior to contact with the production walls. In this position, rock loading and drilling mechanisms can be brought to the face through the device.

After charging the device using special hydraulic jacks or shock absorbers 22, they move to the bottom and turn the flaps 3 into the working position (see Fig. 2), while the stops 15 come into contact with the semi-ales 6 and 7. In the middle part of the shield the ends of the flaps for leveling the loads on them, they are covered with a cap 13. Then the ends of the rods 21 are brought together and connected to the central hinge 20, and the support plates 23 of the telescopic shock absorbers 22 are fixed in the cut walls of the excavation.

When the explosion is repulsed, the rock encounters lattice sashes 3 on its way, which prevent its further expansion, thus twisting the ends of torsions 5 relative to the stop 15. Shock loads, perceived by lattice sashes 3, are extinguished using a system of damping devices, which include torsions 5, buffer shock absorbers 12 and telescopic shock absorbers 22.

The breed, repelled by the explosion, displaces the bottomhole 1 and supporting 2 arches along the working, while the rods 21 burst out semi-archs 9

and 10. Between the walls of the excavation and the skis 18 and 19, considerable friction forces arise that prevent the device from moving and also partially absorb shock loads.

After the explosion and airing, the telescopic shock absorbers 22 are unloaded, the rods 21 are pulled out of the thrust, and the device is pulled from the bottom by means of a winch or hydraulic jacks. The device is then transferred to the inoperative position and proceed to harvesting the broken rock.

Subject invention

A device for preventing the scattering of rock during outburst, including the bottomhole and supporting arches, each of which is made of two hinged semi-fuzzes and a spreading mechanism, characterized in that, in order to dampen impact loads and skip rock loading and drilling mechanisms, the arches are connected using buffer shock absorbers , and the bottom arch is provided with lattice doors connected to it with the help of torsions, and the supporting arch is equipped with a spreading mechanism, made in the form of two three-linkagees paired with a common joint, each of which consists of a semi-arch with skis, a rod pivotally connected to the semi-arch, and a telescopic shock absorber with a supporting fifth.

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