SU910939A1 - Main water draining installation for mine - Google Patents

Description

(5) MINE MAIN WATER ROOM INSTALLATION

Claims (2)

The invention relates to the removal of groundwater from underground water, in particular, to drainage plants for underground operations and the development of mineral resources. A mine mine drainage installation is known, including a vertical and inclined accidental water collector connected to it, a chamber with pumping units connected to a vertical water collector, pipelines flj control system. The closest to the technical essence of the invention is a mine water pumping installation, including a pumping chamber with pumping units, a vertical regulated and adjacent inclined emergency water collectors, pipelines and shut-off valves} The disadvantages of these installations are accelerated wear of the units contained in the water hard inclusions, silting their water-intake elements and silting up an emergency catchment basin in emergency situations, which increases the cost of maintenance installation life, and also reduces its reliability. The purpose of the invention is to reduce operating costs. This goal is achieved in that the installation includes a pumping chamber with pumping units, a vertical adjusting and inclined emergency water collector connecting to it, piping and shut-off valves, the adjusting water collecting basin is provided with a wall separating it into the slurry and settling compartments with protected bores. overflow pipes, the ends of which are located in the settling compartment, the ends of which are located in the receiving nozzles of pumping units, and an emergency water collector with The overflow pipe with a valve installed at the top of the connecting it with the settling compartment, the holes in the dividing wall are inclined with the axes of the settling compartment. The drawing shows the installation, general view. The installation has a pumping chamber installed in it submersible pumping units 2, placed in the slurry compartment 3, which, together with the settling compartment k, form a vertical adjustment water collector 5, an inclined emergency catchment unit 6, communicated with the settling compartment k in the lower part by a tube 7 with a valve 8 , and in the upper part at the height of the emergency water level (AU) of the regulating water sump 5, the overflow pipe 9 with the valve 10, the production 11 with the groove passing into the inlet pipe 12 is sealed into the wall 13 of the pump chamber 1 and abrasive valve 1, overflow pipes 15, connecting the bottoms of compartments 3 and 4 of the adjusting water collector 5, divided by the wall 16 with inclined holes 17. closed safety nets 18 and located below the upper level (WU) of the adjusting water collector 5. The overflow pipes 15 are made so that the edges 19 of their ends are located under the receiving nozzles 20 of the pump 2 above the edges 21 of their suction holes. Overflow pipes 15 have a slope from the bottom 22 towards the slurry compartment 3 and are located under the bottom 23 of the slurry compartment 3, while their upper walls 2k repeat the configuration of the bottom of the slurry compartment 3, the latter provides a symmetrical non-intrusive structure of the stream drawn in from the slurry compartment 3. The inner walls of the receiving nozzles 20, together with the outer walls of the inlet pipe 15, form annular channels of 25 pumping units 2. The installation works as follows. After pumping water to the lower level (LL) of the adjusting water sump 5, the pump units 2 are automatically switched off. Its ocher filling to the WU mark occurs, while all the water flow through the production 11 and the flow pipe 12 enters the sludge compartment 3. Since the water velocity, due to the large cross-sectional area of the compartment 3, decreases, solid inclusions occur around the receiving elements 20 of the pumps 2 Simultaneously, the flow of the inflow passing through the annular channels 25 and overflow pipes 15 into the settling compartment k is lightened mainly due to the fact that the outlet openings 19 of the overflow pipes 15 are closed from above and laterally by the receiving nozzle 20 2, which eliminates the direct ingress of precipitating solid inclusions into these holes, as well as by selecting the edges 19 above the edges 21, in which the flow rate of water from compartment 3 to the compartment inside the annular channels 25 is lower than the capture rate of solid inclusions. water of the water level is automatically turned on by one of the pumping units 2, which feeds unclarified water to the surface from the compartments 3 and the adjusting water collector 5, during which time in, time solids content coming with the water pump 2, which is carried out as follows. If the content of solids in the water rises, then the resistance in the annular channel 25 increases, which leads to an increase in the flow of clarified water through the overflow pipe 15. With a decrease in the content of inclusions, the resistance in the annular channel 25 decreases, which causes a decrease in the flow of clarified water through the overflow pipes 15 At the same time, through the pipes 15, the clarified water flows from compartment 4 to compartment 3, preventing the blocking of receiving elements 20 of idle standby pumps. Both Processes are carried out in concert without the use of automation and the intervention of service personnel. Due to the fact that the emergency sump 6 is filled with clarified water through the overflow pipe 9, when the water reaches the AU mark in an emergency situation, the probability of silting decreases to a minimum. This significantly reduces the operating costs of the installation. After the emergency situation is eliminated, the valve 8 opens and the emergency water collector 6 is naturally drained by raising its bottom above the bottoms 22 and 23 of compartments i and 3 of the adjusting water collector 5 When the water level reaches the level of the well, the valve 8 closes. To seal the pump chamber 1, valves 10 and T are used. To monitor the status of valve 8, the position of the oil well is taken at the level of the bottom 22 of the compartment or slightly below it. The level of installation of the overflow pipe 9 corresponds to the mercury mark AU and the level of installation of the inclined holes 17 is taken below the mark of the low-voltage installation. The holes 17 are designed to reduce the flow through the overflow pipes 15 with a sharp increase in water flow. Due to the location of the axis of the holes 17c with a slope to the bottom of compartment 3 and the presence of safety grids 18, solid inclusions in compartment k are eliminated. The introduction of the proposed installation can significantly reduce operating costs and increase the reliability of its operation, providing an economic effect of over 2 million rubles. Formula of the Invention Mine main pumping installation, including a pumping chamber with pumping units, a vertical adjustment and an inclined emergency adjoining it, water collection tanks, pipelines and shut-off valves, which, in order to reduce operating costs, the adjusting water catchment basin is equipped with a separating its slurry and settling compartments with a wall with holes protected by safety nets and connecting the bottom of the compartments with overflow pipes that go to the settling outlet: the ends of which They are located in the receiving nozzles of pumping units, and the emergency catchment basin is equipped with an overflow pipe with a valve installed at the top of the connecting it with the settling compartment, and the holes in the separation wall are axially inclined to the bottom of the cleaning compartment. Sources of information taken into account in the examination of T. Author's certificate of the USSR tr 621901, cl. E 21 F 17/00, 1976. 2. USSR author's certificate in application number-293 238 / 29-33, cl. E 02 D 19/10, 05.29.80.