RU129552U1 - DRILL FILTER FILTER - Google Patents

Abstract

The utility model relates to the mining industry, namely to water supply and water reduction, and can be used when equipping water and drainage wells with filters.

In most cases, water sink and intake wells are equipped with tubular, frame-rods and casing filters. Tubular filters consist of perforated pipes, wire windings and metal rods. Frame-rod filters contain a wire winding, metal rods, support stiffness belts, couplings, upper and lower connecting pipes. Housing filters include a perforated pipe, sand and gravel, pins for attaching the mesh, and steel hoops for attaching the mesh.

The technical task of the utility model is to create a design for a filter that can be easily removed from a borehole, increase the life of the well, simplify operation, and therefore reduce capital costs.

The problem is solved in that the borehole filter consists of a support frame, which is a metal hole or slotted tube; a wire spiral or lining mesh with large cells superimposed on the stiffening rods, the support frame is a continuation of the lower part of the casing of the borehole, located on the outside of the filter mesh, between the supporting frame and the filter mesh, centering rings are located.

Description

The utility model relates to the mining industry, namely to water supply and water reduction, and can be used when equipping water and drainage wells with filters.

A known filter consisting of a perforated frame with support rods and a profiled wire of triangular or trapezoidal section wound on them, a profile along the length of the filter. The axis of symmetry of the slots is inclined at an acute angle to the axis of the filter. The angle of inclination of the slots gradually decreases from the lower to the upper slots of the filter. The filter is installed in the well (USSR Author's Certificate No. 1712591, RU, IPC ⁵ ЕВВ 43/08, 1992.).

A disadvantage of the known filter is the violation of arched structures with changes in the mode of operation of the well.

Known downhole filter containing a perforated frame, support rods and turns of a profiled wire with the formation of horizontal slots expanding inside the filter (Invention to the patent of the Russian Federation No. 2074313, EV 43/08, 02.27.97.).

A disadvantage of the known filter is the insecurity of the formation of arched stable structures around the filter during the operation of the well.

The closest analogue is the design of filters with a water-lifting surface from grids (Filters of boreholes [Text] / V. M. Gavrilko, BC Alekseev. 2nd ed., Revised and additional - M .: Nedra, 1976. - 342 s : ill., tab.). The working part of the strainer consists of the following elements: a supporting frame, which is a metal hole or slotted tube; a wire spiral or lining mesh with large cells superimposed on the support frame to provide more free access to filtered water to the through holes of the frame; filter mesh, which covers the frame and patch strips.

The disadvantages of the known filter are:

- when in contact with the formation rock during the filtration process, the particles of the productive formation wedge in the holes and are compacted, thereby creating increased hydraulic resistance, which reduces the productivity of the well;

- compaction of the soil around the filter leads to an increase in soil resistance when removing the filter, which makes it difficult, and often makes it impossible to dismantle the filter from the well if it is necessary to replace or repair it. The inability to repair and replace the filter leads to the need to plug the production well and drilling a new one, and consequently to an increase in capital costs.

The technical task of the utility model is to create a design for a filter that can be easily removed from a borehole, increase the life of the well, simplify operation, and therefore reduce capital costs.

The problem is solved in that the borehole filter consists of a support frame, which is a metal hole or slotted tube; a wire spiral or lining mesh with large cells superimposed on the stiffening rods, the support frame is a continuation of the lower part of the casing of the borehole, located on the outside of the filter mesh, between the supporting frame and the filter mesh, centering rings are located.

The filter design of the borehole is illustrated by the drawings of FIG. 1. and FIG. 2. In figure 1. presents a diagram of the filter device of the borehole and section aa, and figure 2. section BB is shown.

The drawings show that the filter of the borehole consists of a support frame 1, which is a metal hole or slotted tube; a wire spiral or lining mesh with large cells 5, superimposed on the stiffening rods 6, the support frame 1 is a continuation of the lower part of the casing of the borehole, located on the outside of the filter mesh 3, between the support frame 1 and the filter mesh 3, centering rings 4 are located.

The borehole filter works as follows: the support frame 1 is installed when the casing of the borehole is installed and is a continuation of their lower part. It is designed to hold gravel and borehole filter. Water from an aquifer passing through gravel sprinkling enters the borehole through holes 2 located in the support frame 1, then is filtered through a filter mesh 3, followed by pumping out by a submersible pump. The filter mesh 3 is fixed on a wire spiral or lining mesh with large cells 5, which are fixed by stiffening rods 6. Centering the filter of the borehole when lowering is carried out using centering rings 4 located between the support frame 1 and the filter mesh 3. Centering rings 4 also perform a sealing function between the support frame 1 and the filter mesh 3.

If it is necessary to repair or replace the filter, it is removed from the borehole. Since the filter mesh 3 does not come in contact with gravel sprinkling, but contacts the support frame 1 with the centering rings 4, with the smallest contact surface, the resistance forces when removing the filter are minimized and, as a result, the process of removing the filter is greatly simplified. The borehole of the borehole does not need to be cleaned (because when the filter is removed, collapse of the gravel spill is prevented by the support frame 1) and the borehole filter can be installed without additional work.

Application of the proposed design of the filter of the borehole allows you to:

- to extract the filter of the borehole with minimal cost;

- exclude from the operations when replacing the filter the work of cleaning the well;

- not to drill a new borehole, but to use repaired in further operation;

- reduce capital costs for the construction of boreholes;

- simplify the operation of boreholes.

Claims (1)

The borehole filter consists of a support frame, which is a metal hole or slotted pipe; a wire spiral or a lining mesh with large cells superimposed on the stiffening rods, characterized in that the support frame is a continuation of the lower part of the casing of the borehole, located on the outside of the filter mesh, centering rings are located between the support frame and the filter mesh.

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