PL189673B1 - Method of sealing rock masses - Google Patents

Abstract

The method of rock mass packing consists in preparing injection openings in the rock mass, surrounding a heading. A packing and reinforcing liquid - preferably with expanding properties, is injected under pressure into the openings, where it solidifies after a period. It is characterised in that the spatial distribution of the openings (1), the distance between them, their length and the parameters of the centre are determined on the basis of the investigation of rock-mass fissuring. Once the packing substance is injected, a breakout for a brattice is prepared and the brattice is erected.

Description

The subject of the invention is a method of sealing the rock mass in the vicinity of the corridor excavation in the place of the planned construction of a water dam, securing the excavation against gas and liquid migration.

So far, during the construction of the body of a water dam, a breach for the dam has been made without prior testing of the fracture of the rock mass and the proper sealing and strengthening of the rock mass. The known prevention of the outflow of water from the rock mass in the vicinity of a water dam consists in leaving pipes in the body of the dam during its construction for cementing the contact points between concrete and rock, and after the dam is constructed, injection of cement milk or a chemical agent is carried out through the pipes left behind. The outflow of water through the rock mass along the dam structure is also prevented by covering the outline of the excavation with an insulating agent in the vicinity of the dam.

A method for producing a sealing barrier between intersecting mining headings is known from the Polish patent specification No. 4Ί 982, which consists in making a grid of injection holes from the working heading towards the inactive, into which a liquid sealing agent is then forced under pressure, passing over time to solid state, preferably an agent with expansion properties. Injection holes are made of a length at which the recess in the filling or cave debris of the inactive excavation is at least 0.5 m, and the grid of holes measured along the axis of the active excavation has a length that covers the intersection area, increased by at least half the width of the active excavation on each side the outline of the inactive excavation on the vertical projection of the intersection.

Moreover, from the Polish patent application No. P. 306-05, there is a method of eliminating the water hazard in underground mining excavations, which consists in the fact that the inactive excavation is backfilled from the boundaries with a dry filling sealed with clays and chemicals selected depending on the mineral composition of the water and surrounding rocks. The section of the performed dry filling is closed with a conclusion. In front of the front wall of the enclosure, injection boreholes are made radially around the entire circumference of the excavation, which are filled with the expansion and sealing compound until they are completely filled and the adjacent gaps are filled. Perforated drainage pipes are laid on the floor prior to the back-up and final closing of the contract, which are removed after the contract is closed by completely filling them with a mixture, preferably cement.

The method of sealing the rock mass consisting in making injection holes in the rock mass surrounding the excavation, into which a liquid sealing-strengthening agent is then pressed under pressure, which becomes solid after a certain time, preferably an agent with expansion properties, characterized by the fact that the spatial arrangement of the holes and their the mutual distance and length as well as the parameters of the center are determined

189,673 based on previous studies of rock fracture. After the center is crowded, the breach for the dam is made and then its development.

The method according to the invention allows for filling the gaps and cracks located in different planes with the center, thus eliminating the possibility of leaving empty spaces in contact with the excavation. This results in the formation of a uniform sealing-strengthening mantle in the form of a ring around the water dam in the space of rocks surrounding the mine workings. Earlier testing of rock fracture allows for increased sealing efficiency while optimizing the use of resources and reducing the labor intensity of the works. The main effect of the solution according to the invention is the improvement of the operational safety of mining crews achieved by preventing the outflow of water or harmful or dangerous gases.

The invention is explained in more detail in the embodiment in the drawing which shows the cross-section of the excavation with the injection agent penetration space marked.

A water dam was designed in the given mining excavation 1. Before its construction, the rock fracture around the dam foundation was examined. For this purpose, 8 test holes with a diameter of 42 mm and a length of 5 m were drilled radially in the plane perpendicular to the excavation 1. Two of these holes were made vertically up and down, two horizontally in the middle of the excavation height, two at an angle of 45 ° up on both the sides of the excavation and two at an angle of 45 ° downward on both sides of the excavation. Then, the fracture tests were performed with an optical sight glass, and then, based on these tests, the spatial arrangement of the injection holes 2 was developed, taking into account the test holes, and their length was determined to be 3 m, with holes 1 arranged in a checkerboard pattern at the spacing a = R, where R is the radius of the cylinder the range of penetration of the agent into crevices in the rock mass. A liquid sealing-reinforcing agent with expansion properties based on mineral binding materials was pumped into all holes 1 under a pressure of 1 MPa. Then, the fracture testing was carried out again, drilling holes elsewhere in the excavation in order to assess the rock mass sealing. These tests confirmed the complete filling of all gaps and voids, and a uniform sealing-reinforcing mantle 3 in the form of a uniform ring was formed around the site of the planned foundation of the water dam. Then a breach was made for the dam and the dam was built.

189 673

Publishing Department of the UP RP. Circulation of 50 copies

Price PLN 2.00.

Claims (1)

Patent claim The method of sealing the rock mass, consisting in making injection holes in the rock mass surrounding the excavation, into which a liquid sealing-reinforcing agent is then pressed under pressure, which becomes solid after a certain time, preferably an agent with expansion properties, characterized in that the spatial arrangement of the holes (1 ) and their mutual distance and length as well as the parameters of the center are determined on the basis of previous tests of rock fracture, and then after the injection of the center, the excavation for the dam and its installation are started.