SU968344A1 - Deep-well agent-metering device - Google Patents

Description

The invention relates to the mining industry, in particular to installations for metering chemical reagents into a well.

A borehole reagent dispenser is known, which includes a container for recoveryHTia, a filter of porous material, a piston and a cylinder rigidly connected to the upper part, a piston and forming an annular cavity with the container in which the cargo is placed.

During the operation of the metering unit, the loads from the annular cavity fall on the piston, increase its weight and, thus, reduce the feed irregularity coefficient I.

The disadvantage of this dispenser is the complexity of the design and the small volume for placing the reagent.

The closest technical solution to the invention is a downhole reagent dispenser, comprising a reagent container, a main piston located in the lower part of the container, and at least one additional piston dividing the container into chambers and made with a through axial bore with a filter. Additional piston can be fixed relatively

container and release when interacting with the main piston 2.

The disadvantage of the known dispenser is that it only slightly decreases the volume occupied by the filter, and thus the volume for placing the reagent also increases slightly. This is due to the fact that the liquid passes through the filter.

10 in the additional piston only during its fixation in the container.

The aim of the invention is to increase the volume for placement of the reagent.

The goal is achieved by

15 that the reagent dispenser is equipped with a chamber installed above the PREVENT and a flexible tube which is made in the form of a spiral and hydraulically connects the chamber above the piston with the annular space of the well.

FIG. 1 shows a dispenser seeded with a reagent, general view; in fig. 2 - dispenser after using the reagent, general view.

25

The reagent dispenser consists of a reagent container 1 made of pipes 2 connected by sleeves 3 and 4 and attached to the shoe with the help of the upper coupling 4 of the reagent container

Claims (2)

30 tubing at the fountain and, compressor mode of operation, or to the rivie part of the pump when pumping the method of well operation. Inside the reagent container 1 is a piston 5 equipped with a seal (with a Carrier 6. Inside the piston there is a filter 7 of porous material. A chamber 8 with a flexible Tpy6KjOfi 9 attached to it is attached to the piston at the bottom of the bahmak of the dispenser 10 To equalize the pressure between the annulus of the well and the upper cavity of the container 1 of the dispenser above the chamber. A window A is cut out in pipe 2. The reagent dispenser works as follows: The dispenser is connected with the tubing shoe with the coupling 4 and with the lower part of the pump and lowered into the well to a predetermined depth.The piston 5 with the filter 7 and the chamber 8 above it are located in the upper part of the container 1 filled with the reagent. A flexible pipe 9 connecting the chamber 8 with the dispenser 10 In operation, the piston 5 with the chamber 8 moves downward, and the reagent, having passed through the porous material, enters this chamber, from where it passes through the flexible pipe 9 and the channel of the metering shoe 10 from the metering unit and mixes with the production of the well. As the piston is lowered with the chamber, the folding tube is flexible. is (wound together) inside the reagent container 1. The increase in volume for placing the reagent in the proposed dispenser compared to the known is 25%. Consequently, one dispenser can work without recharging with other conditions being equal to 1/4 times more. Claims of Invention A downhole reagent dispenser containing a container and a filter piston, characterized in that, in order to provide the possibility of increasing the volume for placing the reagent, it is equipped with a chamber mounted above the piston and a flexible tube which is spiral-shaped and hydraulically connects the chamber above a piston with the annular space of the well. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2686032 / 22-03, cl. G 01 F 11/00, 1979. 2. USSR author's certificate for application number 2752953 / 22-03, cl. E 21 B 43/00, 1980 (prototype).