SU1686073A1 - Mine water discharge unit with negative water suction height - Google Patents

Abstract

The invention relates to water lowering, in particular to drainage installations in the construction and mining industries for collecting and pumping groundwater from mines and is aimed at reducing capital and operating costs. This is achieved by the fact that a water intake trench with suction wells is located along the production of the near-barrel yard, and those connected to the pump chamber of the sump collection are connected to the water intake trench through the supply wells. 3 il.

Description

The invention relates to water lowering, in particular to drainage installations in the building and mining industries for collecting and pumping groundwater from mines.

The purpose of the invention is to reduce capital and operating costs.

Figure 1 shows a submerged pumping chamber, a top view; figure 2 - section aa in figure 1; on fig.Z-section bb in figure 1.

The dewatering installation has a buried pump chamber 1 with pumping units 2 placed in it, suction 3 and discharge 4 pipelines, suction wells 5, waterproof jumpers 6, inlet wells 7, walkables: 8 to the substation, 9 to deliver equipment and 10 to the sloping pipe walker into the barrel

The installation is equipped with a water intake trench 12, located in the mine workout 13 of the near-barrel yard and equipped with a lifting device 14, with hermetic doors 15 in walkways 8 and 9. In the water intake trench 12 a section well 16 with a shutter is placed. Each inlet well 7 has a pipeline hermetically sealed at the points of passage through the walls of the well, and the valve installed on it is driven into the pumping chamber 1, from which the water intake from the sump 11 and the inlets of the pumping units 2 are controlled. The closure in the sectional well 16 is kept noomally open and closes during the cleaning and repair of the water intake trench 12.

The installation works as follows.

In the pumping mode of the normal flow, when the water reaches the lower level, the pumping units 2 are automatically turned off and the water intake trench 12 from the production sump 11 connected to it through the supply well 7 begins to fill

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with as an adjustment tank. After the water intake trench 12 is filled and the water collector 11 is developed with water up to the upper level, the pumping units 2 are turned on and it is dried. In this mode, the shutter of the second well 7 is closed, and the adjoining production serves as an emergency tank.

In an emergency situation - with a sudden sharp increase in the flow or prolonged shutdown of the pumping units 2, the emergency tank is filled both from the interface of the supply mine inflow of the near-barrel yard (not shown) with the workings of the sump 11, and through the open gate of the second intake well 7 and water intake trench 12.

Solid particles accumulating in the water intake trench 12 are discharged into the means of mine transport using a lifting device 14 (hoist, hydraulic jlev, etc.).

The use of the proposed mine drainage installation with a negative

Claims (1)

suction height eliminates the need to build a viewing workout, which reduces capital and operating costs. A mine drainage installation with a negative suction height that includes a recessed pump chamber with pumping units, a water intake trench with suction wells, inlet wells, watertight jumpers connected to the pump chamber of the water collector, the development of the near-barrel a yard and an automatic process control system with level sensors, characterized in that, in order to reduce capital and operating costs, a water intake trench with suction wells is placed along the shaft yard, and the water collectors connected to the pumping generation chamber are connected to the water intake trench through inlet wells . and a sixteen and fig L 13 r X t t / 2n A-A -Q. -jJa.- xi ; FIG. one ;; $ 5 o .j