CS215469B1 - Method of drilling relief wells - Google Patents

Abstract

The invention is a method of drilling relief wells for the purpose of preventing a blowout when mining a grade in a seam with a risk of blowout. The essence of this drilling method is that first a top borehole is drilled in the area of the grade face. Next in order, boreholes are drilled that open into the face and are directed obliquely to the expected course of the lower side of the grade and in the axis of the grade. Finally, a borehole is drilled that opens into the face and is directed to the expected course of the upper side of the grade.

Description

BACKGROUND OF THE INVENTION The present invention relates to a method of drilling relief wells for the purpose of anti-burst prevention in a bursting class.

So far, the relief boreholes have been drilled for the purpose of anti-burst prevention in the excavation of the class: seam with the risk of bursting, so that the relief bores are drilled in the slightly open fan in any order from the class face. These boreholes are drilled so as to relieve in the driving direction a zone of at least 15 m depth and a width extending to either side of at least 1.5 m from the sides ί of the class. Generally, three polishing boreholes are carried out from the coal seam face. one of which is directed along the class axis, one is oriented 5 to 15 ° to the right of the class axis and one is directed 5 to 15 ° to the left of the class axis, the inclination of all relief boreholes being determined according to the course of the seam with danger of bursting. Drilling relief holes in this way has some disadvantages. It is known that during the excavation of a class with a burst hazard, the gas pressure isolines are compressed in the corner area of the class face, with the greatest bursting risk occurring on the side of the class face adjacent to the upper side of the class. gas, but also the force of gravity acceleration. This has been confirmed by a series of rupture events, whether unexpectedly spontaneous or deliberate. In particular, a borehole drilling which is connected to the side of the class face adjacent to the class upper flank and directed obliquely to the anticipated further course of the class upper flank results in abrupt gas eruptions with coal ejection. These rupture symptoms are often so severe that rupture is not ruled out during the drilling of the relief wells. Such a rupture would directly endanger the lives of the drill and the technical supervision of the drill holes.

The described disadvantages are substantially eliminated in the borehole drilling method according to the invention. The essence of drilling consists in first drilling in the area of the face of the top relief bore perpendicular to the axis of the class and into the top side of the class, then drill holes in the relief bore to the face of the class and directed obliquely to the expected course of class and in the axis of the class, then the last ¹ in the sequence drilled relief hole in the face and directed to the expected course of the upper side of the class.

By performing the method of drilling of relief boreholes for the purpose of anti-burst prevention during driving of a class in a seam with a burst hazard, a gradual physical influence of the seam with a burst hazard in the forefront of the class face is ensured.

EXAMPLE drilling relief boreholes of the inventive method in order to prevent the excavation protiprůtržové classes in seam with outburst danger gee ¹ shown in the accompanying drawing in plan schematic.

j The delimited location 9 represents the site of the most common burst of gas pressure isolines after drilling; The relief borehole 1 and the start of the borehole 2 or 3 are represented by the line 10. The direction and inclination of the seam with the danger of bursting is indicated by the mark 11. First! a borehole 1 drilled into the top flank 7 of class 5 perpendicular to the class 5 axis. The whole borehole is drilled in the seam generally to a depth of 8-12 m. After the borehole 1 has been completed, borehole bores 2 and 3 are drilled from the 6 face. their mutual order is arbitrary. The relief borehole 2 is established in the right half of the face 6 adjacent to the lower side 8 of class 5 and is obliquely directed to the assumed course of the lower side 8 of the class 5. The relief bore 3 is established in the middle of the face 6 and directed along the axis of the expected course of class 5. Upon completion of the relief boreholes 2 and 3, which are drilled in a seam with a rupture risk of typically 15 to 30 m, the relief borehole 4, which is located in the left half of the face 6 adjacent to the upper side 7 of Class 5, is drilled last. is directed obliquely to the assumed course of the upper side 7 of class 5, which is also drilled generally to a depth of 15 to 30 m. The technical effect of the method of drilling relief boreholes to counter rupture prevention when driving a class in a seam with rupture hazard according to the invention is Due to the drilling of the relief boreholes 1, 2 and 3, the pressure isolines at the site span The most common occurrence of rupture 9 can be safely drilled by a relief borehole 4, set up in the middle of the face 6 adjacent to the upper side 7 of class 5 and directed to the assumed course of the upper side 7 of class 5.

Claims (1)

A method of drilling relief boreholes for the purpose of anti-burst prevention during driving of a class in a seam with a burst hazard, characterized by first drilling a top relief bore perpendicular to the axis of the class and facing the top flank of the class. you BACKGROUND OF THE INVENTION DRAINING BOLTS INTO A CLASS HEAD AND Slanted I to the assumed course of the lower S-class flank and the axis of the class, then the relief borehole is drilled in the face and directed to the assumed course of the class flank.