SU1070312A1 - Method of constructing a plugging pad - Google Patents

Abstract

A METHOD OF CREATING A HEATING PILLOW, including cutting the rock walls of the trunk to the dimensions of the pillow, creating a drainage layer of the backing pillow and installing drainage pipes, characterized in that, in order to reduce labor-intensive work and to prevent groundwater inflow into the well, the drainage layer is created below boreholeing through the formation of an artificial trash zone in aquifers, in, then a well is drilled in this zone into which drainage pipes are installed. from about 00 to

Description

The invention relates to mining, in particular to drifting trunks through watered fractured rocks with their prefabricated backfill from the bottom, and can be used in coal, mining and other public households in the construction of backfill cushions and the flow of water into the bottom of the trunk.

There is a known method for constructing a drainage layer of a grouting cushion of sheba and drainage pipes in the presence of water in the bottom of the barrel.

The disadvantages of the method are the high labor intensity and the duration of work on the construction of the drainage layer of the cementing pad.

The closest to the proposed technical essence is a method of creating a drainage layer of a concrete backfill cushion, including trunk penetration at the site of the drainage layer, installing wooden perforated boxes and drainage pipes, filling in of gaps and drainage layers, ebnem or gravel, waterproof installation Layer of toli and quick-hardening cement-sand mortar 2-.

The disadvantages of the method are the high labor intensity of the work, low labor productivity and the considerable duration of the construction of the drainage layer of the plugging pad.

The purpose of the invention is to reduce the labor intensity of the work and to ensure that the flow of groundwater into the wellbore is reduced.

The goal is achieved according to the method of creating a backfill cushion, including cutting the rock walls of the trunk to the size of the cushion, creating a drainage layer of the backfill cushion and installing drainage pipes in which the drainage layer is created below the bore of the trunk by creating artificial cracks in the aquifers, then drilling into the area of the well into which drainage pipes are installed.

FIG. Figure 1 is a diagram of the formation of a flat horizontal drainage layer of fractured rocks isolated from the bottom of the barrel using a camouflage blast; in fig. 2 is a diagram with a drainage layer in communication with the bottom of the trunk and made in the form of an inclined cylinder and the rocks crushed by camouflet blasting.

The method (according to the first scheme) is carried out as follows.

From the bottom of the trunk 1, prior to the construction of the concrete backfill cushion 2 into the aquifers 3, wells 4 are drilled to create artificial cracks. The wells 4 are charged with explosives, and a camouflet explosion is effected, thereby performing in the aquifers 3 below the bottom of the trunk 1 an isolated flat zone 5 of crushed rocks. Then, to the lower boundary of zone 5, a drainage well 6 is drilled, a drainage pipe 7 is installed therein, which is perforated at the location of the fractured aquifers. The mouth of the drainage well 6 is sealed by a conductor 8. Water is pumped through the drainage pipe 7 through pipes 9 during the construction of the concrete backfill cushion 2, which leads to a decrease in the static level of groundwater 10 and prevent their inflow into the well. 1.

The wells 4 are drilled to a depth determined from the camouflage conditions of the explosion and the creation of zone 5 with the necessary fracture of the rocks and the filtration coefficient. Wells 4 are located in the bottom hole, 1 in concentric circles so that the crushing zones from the individual explosive bits overlap each other. The final diameter of the drainage well 6 is determined by the amount of water inflow into the barrel 1.

According to the second scheme, in the bottom of the trunk 1, prior to the construction of the concrete grouting pad 2, layer 11 of the rocks destroyed during the penetration of the trunk 1 is left. Through the casing 12, layers 11 in the aquifers 3 drill a well 4 to form zone 5 of the rocks crushed by camouflet blasting. Moreover, zone 5 is carried out along well 4 in the form of an inclined cylinder, which communicates with a layer of rocks And that are not cleaned in the bottom of the trunk 1 when it is penetrated. In the lower part of zone 5, the well 6 is drilled and equipped with a drainage pipe 7 and a conductor 8. Water is pumped out during the erection of the backfill cushion 2 through pipes 9, which leads to a decrease in the groundwater level 10. At the same time, the water entering trunk I is filtered on destroyed rocks in layer 11 and further along artificially formed by the explosion zone 5 of crushed rocks to the drainage pipe 7.

To form a zone of crushed rocks in a bore with a diameter of 6 m, it is envisaged to drill nineteen wells to a depth of 6–7 m. One well is placed in the center of the bore and six and twelve in two concentric circles, respectively. The wells charge ammonium T-19 with a weight of 600 g and explode in one step. After the camouflet explosion, the drill hole is drained to a depth of 8-9 meters - and equipped with a drainage pipe with a filter in the place of crushed aquifers and a conductor at the wellhead.

The application of the proposed method allows to exclude operations on penetration of the trunk to the thickness of the drainage layer, installation of 55 wooden perforated boxes, delivery of rubble into the bottom of the trunk and backfilling of them and the drainage layer, installation of a waterproof layer of TOLI and quick-hardening cement-sand mortar, thereby reducing construction time of each cement pad and reduce its cost. In addition, a reduction in the construction time of the cement pods will cause a significant reduction in the duration of the penetration of the shaft, and therefore of the whole mine.

Claims (1)

METHOD FOR CREATING A GRINDING PILLOW, including cutting the rock walls of the barrel to the size of the pillow, creating a drainage layer of the grouting pillow and installing drainage pipes, characterized in that, in order to reduce the complexity of work and to prevent the flow of groundwater into the trunk, the drainage layer creates below the bottom of the trunk by the formation of zones of artificial cracks in the aquifers, and then boreholes are drilled in this zone into which drainage pipes are installed. Figure 1