SU1266990A1 - Hydraulic monitor unit for wells - Google Patents

Description

The invention relates to mining 'and can be used for testing and developing minerals.

The purpose of the invention is to improve the conditions for raising the pulp due to additional crushing of the mineral and reducing its losses.

In FIG. 1 shows the end of the unit, a General view; figure 2 - 10 section aa in fig. 1; in FIG. 3 unit, side view.

The downhole hydraulic monitor unit consists of a pressure column 1 with a hydraulic elevator 2 and a hydraulic monitor 15 nozzle, a discharged column 4, a U-shaped pipe 5, a mixing chamber 6 with a confuser 7. A column 4 is installed concentrically with a pressure column 1. Hydroelevator for 20 cages 2 is installed at the end of the pressure column 1 coaxially with it and with the mixing chamber 6 with the nozzle down, while the connection of the elevator nozzle 2 with the pressure column 1 is located 25 outside the issued column 4, a U-shaped pipe 5 is attached to the end of the issued column 4 and communicates n her straight sections. A mixing chamber 6 is located between said direct rectilinear portions ₃₀ and communicates with the nozzles 5. The confusor provided with holes 7, which are passed through said straight pipe sections 5, wherein the diameter of the outer edges of the converging tube is issued diameter column 4,

Hydromonitor unit operates as follows.

After placing the unit in a well drilled to the productive horizon, a gas-liquid working agent is fed under pressure column 1 under pressure. By rotating the unit using the gas-liquid jet formed in the nozzle 3 of the jet 3, the chamber is washed out in a flooded face, while the shank of the unit with a hydraulic elevator is located in the overhead. The pulp at размы ₅₀ размы enters the indicated overhead at the confuser 7 and is sucked into the mixing chamber 6 by the gas-liquid jet formed in the hydraulic elevator nozzle 2. Due to the fact that the confuser 7 overlaps the cross section of the well, and the suction is located in the center, the pulp evenly from all sides enters the mixing chamber, which improves the suction conditions and significantly reduces the loss of the useful component in the overhead. Coincidence of the directions of the pulp flows coming in. downhole, with the direction of absorption also favorably affects the absorption capacity.

After the passage of the mixing chamber 6, the high-speed pulp stream hits the wall of the pipe 5 and enters into straight sections of the pipe. Upon impact, there is an effective disintegration of the coarse fraction that has passed through the mixing chamber 6, leading to a decrease in the hydraulic particle size of the particles, which in straight sections of the nozzle 5 go into the issued column 4. This allows to reduce the diameter of the cross section of the specified column 4 and to reduce the energy cost of lifting, which in this design, it is carried out not only due to the backwater created by the hydraulic elevator, but also to a greater extent due to the effect of airlift due to the presence of air in the pu ice.

Claims (1)

The invention relates to mining and can be used to test and develop useful minerals. The purpose of the invention is to improve the conditions for raising the pulp due to the additional crushing of the mineral and reducing its loss. FIG. Figure 1 shows the end part of the unit, look around; in FIG. 2, section A-A in FIG. one; in fig. 3 unit, side view. The downhole jetting unit consists of a pressure column 1 with a hydraulic elevator 2 and a hydraulic monitor 3 nozzles, a dispensing column 4, a U-shaped branch pipe 5, a mixing chamber 6 with a confuser 7. The column 10 is mounted concentric with the pressure gauge 1. The hydraulic elevator cage 2 is mounted on the end the pressure column 1 coaxially with it and with the mixing chamber 6 with the nozzle down, while the connection of the hydraulic elevator nozzle 2 with the pressure column 1 is located outside the dispensing column 4. The U-shaped pipe 5 is attached to the end of the dispensing column 4 and communicated with her straight sections. The chamber 6 is located between the said straight line sections and communicated with the nozzles 5. In the confuser 7, there are holes through which the said straight lines of the cartridge 5 are passed, while the diameter of the outer edge of the confuser is equal to the diameter of the dispensing column 4. The jetting unit works as follows . After the unit is placed in a well drilled to the productive horizon, a gas-liquid working agent is supplied under pressure to pressure column 1. By rotating the unit with the help of a gas-liquid jet formed in the jet nozzle 3, a circular erosion of the chamber in the submerged bottom is carried out, while the assembly shank with the hydraulic elevator is placed in the overburden. The pulp, when washed, enters the indicated overburden on the confuser 7 and is gassed by the gas-liquid jet formed in the hydraulic elevator on cage 2 into the shift chamber 6. Due to the fact that the confuser 7 overlaps the cross-section of the well, and the suction is located in the center, the pulp flows uniformly from all sides into the mixing cave, which improves the suction conditions and significantly reduces the loss of the useful component in the breakout. The coincidence of the flow directions of the ulpas entering into the well, with suction level, also has a positive effect on the suction capacity. After passage of the displacement chamber 6, the high-speed pulp flow hits the wall of the nozzle 5 and goes into the straight sections of the specified nozzle. . Upon impact, there is effective disintegration of the lumpy fraction that has passed the mixing chamber 6, resulting in a decrease in the hydraulic particle size, which along the straight sections of the pipe 5 into the dispensing column 4. This reduces the cross-sectional diameter of the specified column 4 and reduces energy the cost of lifting, which in this construction is carried out not only due to the sub-pressure created by the hydraulic elevator; but also to a greater extent due to the effect of air-lift due to the presence of air in Ulpia. Invention Formula A downhole jetting assembly containing pressure and pressure columns, a hydraulic elevator nozzle mounted on the end of the pressure column coaxially with the nozzle down, a mixing chamber with a confuser mounted under the nozzle and communicated with the pressure column and with a junction box, the pattern, which is attached, is attached to the confuser which is installed under the nozzle and communicated with the pressure column and the junction box, the pattern, which is applied, will have a simple pattern, and the pattern will be applied; in order to improve the conditions for raising the pulp due to additional crushing of the mineral and reducing its loss, the effervescent column is installed concentrically to the pressure one, and the mixing chamber is installed between the straight linear sections of the pipe, while the diameter of the confuser is equal to the diameter of the well. FIG. 3