RU208539U1 - Water emitter - Google Patents

Abstract

The utility model relates to the technique and technology of drilling oil and gas wells, in particular to increasing the strength and tightness of well walls in permeable rock intervals. The hydraulic emitter consists of a housing with a central axial channel and blades, in which there are two nozzles for forming liquid jets, connected to the central axial channel through the supply channels, while protective bushings made of tungsten carbide are installed in the supply channels, and their inputs from the side of the inner cavity are reinforced hard metal electrode. This configuration of the hydro emitter makes it possible to protect the parts of the device most susceptible to erosive wear, which will significantly increase the technical and economic performance of the equipment used. 1 fig.

Description

The utility model relates to the technique and technology of drilling oil and gas wells, in particular, to increase the strength and tightness of the walls of wells in the intervals of permeable rocks.

A device for construction of wells is known, which is a prototype of a utility model, containing a housing with a central channel, a centralizer with blades, two nozzles of the same diameter, located in the centering blades in the same plane perpendicular to the axis of the central channel, and having a hydraulic connection with it, the axes of the nozzles intersect under an angle of 90 °. In the centering blades of the body, along their outer diameter at the level of the location of the nozzles relative to the longitudinal axis of the body, there are annular grooves, the point of intersection of the axes of the nozzles is located inside a circle equal to the diameter of the bit, at a distance of 2 d _n from it, and the distance from the end of the nozzles to the point of intersection of the axes of the nozzles is equal to 4-5d _n (RF Patent No. 2303687, publ. 27.07.2007).

The disadvantage of this invention is the low resource of the device body due to erosive wear of the internal channels leading to the nozzles.

The task of the utility model is to protect the supply channels of the nozzles for clogging the borehole walls from erosive wear in order to increase the resource of the device body due to its durability and wear resistance.

The problem is solved with the help of a hydroelectric emitter, which includes a housing with a central axial channel and blades, in which there are two nozzles for the formation of liquid jets, connected to the central axial channel through the supply channels, according to the utility model, protective sleeves made of wear-resistant material are installed in the supply channels, and their entrances from the side of the inner cavity are reinforced with a carbide electrode.

The proposed utility model is a housing 1 with spiral or straight blades 2, a central axial channel 3, two nozzles 4 for the formation of liquid jets located at an angle α = 70-100 °. The nozzles 4 are connected to the central axial channel 3 through the supply channels 5. Moreover, the protective sleeves 6 made of wear-resistant material, for example, tungsten carbide, are installed in the supply channels 5, and their inputs from the side of the inner cavity are reinforced with a hard-alloy electrode 7.

FIG. 1 shows a general view of the hydroelectric emitter.

The device works as follows:

the hydro-emitter is included in the bottom hole assembly in any method of drilling with a jet bit and is lowered into the well to a predetermined depth. By selecting the cross-sectional area of the nozzles of the jetting bit 8 and the nozzles of the hydro-emitter 4, a predetermined pressure drop across the nozzles is set at a certain flow rate of the mud pump. In this case, part of the flow of highly abrasive drilling fluid from the central axial channel 3 through the inlets reinforced with a hard-alloy electrode 7, through the supply channels 5, through the bushings made of wear-resistant material 6 and nozzles 4 installed in them, affects the walls of the well, aimed at increasing the tightness and strength permeable rocks. The rest of the flow of drilling fluid through the nozzles of the jetting bit 8 goes to cleaning the bit and the bottom of the well.

The use of protective sleeves made of wear-resistant material and the reinforcement of the inlet openings of the supply channels will allow protecting the parts of the hydro-radiator most susceptible to erosion wear, which will significantly increase the technical and economic indicators of the equipment used.

Claims (1)

Hydraulic emitter, including a housing with a central axial channel and blades, in which there are two nozzles for the formation of liquid jets, connected to the central axial channel through the supply channels, characterized in that protective sleeves made of tungsten carbide are installed in the supply channels, and their inputs are from the inner side the cavities are reinforced with a carbide electrode.

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