CS217210B1 - Chamber Sealing Tube - Google Patents

Abstract

The invention relates to a chamber sealing tube, which can be used to effectively break up heavy ceilings in the overburden of mined faces. The chamber sealing tube is formed by two automatic sealing tubes and its essence lies in the fact that the cones with the nozzle are replaced by nuts firmly connected to each other by a seamless tube equipped with a nozzle, while one inlet opening is equipped with a cap.

Description

The invention relates to a chamber sealing tube by means of which heavy ceilings in the lining of the mined faces can be effectively broken.

Heavy ceilings in the lining of the lining are manifested by mining shocks, which threaten not only the reinforcement and machinery of the lining and adjacent corridors, but also the lives of workers. At present, efforts are being made to prevent mine shocks by relieving wells in the coal seam, irrigating the coal seams, shattering firing in the overburden of the coal seam, and also irrigating the overburdened thick layers of sandstones and limestones that form so-called heavy ceilings. The purpose of all these works is to disrupt solid overlying rocks so that they break on the cave side in smaller pieces, thereby avoiding the breaking of the heavy ceiling in the whole power. Up to now, the strength of the overlying layers has been reduced by water being forced into the overhead well. The borehole was sealed with an automatic sealing tube not far from the borehole. The pressurized water often escaped either through cracks in the immediate overburden or through one of the least rigid points along the well.

The above-mentioned drawbacks are overcome by the chamber sealing tube according to the invention, which consists of two automatic sealing tubes, characterized in that their nozzle cones are replaced by nuts which face each other at one end of a seamless nozzle tube with an inlet opening One piston part is provided with a cap.

In the method of working with the chamber irrigation tube, sandstone sedimentation areas are searched for at the boundary, which corresponds to the length of the seamless tube provided with a nozzle between two automatic irrigation tubes. By shifting this chamber and sealing tube from the borehole face to its mouth, depending on the size of the pressure and its sharp drop, the overlying sandstone breaks down its sedimentation areas, thereby weakening its strength.

In the cave-in part, it is easily broken off and thus reduces the risk of mining shocks.

The accompanying drawings show an example of a particular embodiment of a chamber seal tube according to the invention, wherein FIG. 1 is a view of an automatic seal tube, FIG. 2 shows a chamber seal tube formed of two automatic seal tubes, and FIG. breaking down heavy ceilings with a chamber seal tube device.

FIG. 1 is a cross-sectional view of an automatic sealing tube consisting of a body and a sealing tube, a piston portion 2 of a tube, rubber clamping rollers and a cone 6 with a nozzle 2 which provides the seal function in the borehole.

The chamber sealing tube in FIG. 2 is formed by two automatic sealing tubes 2, 10, so that their cones with the nozzles 2 are replaced by nuts 6, which are firmly connected to the thick-walled seamless tube 7), which is provided with the nozzle 8. Automatic sealing the tubes 9, 10 are facing faces and the inlet opening of one of them is provided with a lid 11. When water is forced from the inlet side 12 of the set, depending on the nozzle 8 in the thick-walled tube 2 ^, only part of the borehole ^is sealed with rubber rollers.

The method of breaking up heavy ceilings is apparent from FIG. 3. The length of the chamber 13 depends on the length of the thick-walled seamless tube 7.

The rupture begins at the end of the well 14, where the chamber sealing tube is inserted on the fixed and tight extension rod i5. The pressure required to break down the fixed ceilings is exerted by a high-pressure pump 16 connected to the rod 15 by a pipe 19. An effective pressure of about 30 MPa to 40 MPa must be considered. By shifting the chamber irrigation tube, we are looking for weaker sedimentation areas 17. 18. If high water pressure passes through the sedimentation area into the rock, this will result in a rapid loss of water pressure. Further injection of water is irrelevant and it is necessary to move the chamber sealing tube below and repeat the described process again.

Claims (1)

A chamber sealing tube comprising two automatic sealing tubes, each consisting of a body with a piston part, rubber clamping rollers and a cone with a nozzle, characterized in that the cones (4) with the nozzle (5) are replaced by nuts (6) which are faces connected to each other at one end of a seamless tube (7) provided with a nozzle (8), the inlet opening of one piston portion (2) being provided with a cap (11).