SU919222A1 - Multiple use electrical explosion cartridge - Google Patents

Abstract

ELECTRIC EXPOSURE CARTRIDGE, containing a sleeve housed in a housing with a wire passing through it and a free end protruding behind its free end / movably mounted along the POLOG6 axis of the electrode, having through the ends between its ends and the sleeves, DL of the passage through them of the outflow and shock waves, and the source of pulsed energy, characterized in that, with the aim of increasing efficiency by expanding the power range, the cartridge body is made in the form of a metal cylinder enclosed by an S elastic sheath and connected to a source of impulse energy for carrying out a current lead, and the electrode body in the area between the ends of its and sleeve is tapered with through holes of different diameters.

Description

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UU77 / 7777 / I № 1УУ Х О & У

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77 TV. The invention relates to the field of metal forming and mo. to be used in devices for pulsed processing, in particular for electroexplosive expansion of pipes. A device is known for supplying an initiating wire to an interelectronic gap comprising a sleeve disposed with an S body with a wire passing through it and a free end protruding beyond its end, movingly mounted along the axis of the hollow body of one of the electrodes / having it in the area between its ends and bushes are through holes coming into the body of the cartridge for the passage of hydraulic current and shock waves through it, and the source of pulsed energy si ..: The disadvantage of this device is the unreliability of electrical contact with the pipe, which RTS is reversed and current lead for use slozhrost nemetalliaeskih pipes. Purpose I of the invention is to increase efficiency by expanding the power range. The goal is achieved by the fact that in an electrically-operated multiple-action cartridge, the cartridge case is made in the form of a liquid-metal cylinder enclosed in an elastic shell and connected to a source of pulsed energy to perform a current lead, and the electrode body in the area between its ends and bushings is conical, having through holes diameter. Diagram of the device shown in the drawing. The electroexplosive cartridge contains hollow electrodes 1 and 2, a return conductor 3, an elastic isolate with a bolt 4. Electrode-1 contains a sleeve 5 with wire b passing through it, wound on a cassette 7 connected to a drive 8 equipped with a rod 9. Restriction of the movement of the rod in the sleeve is achieved, for example, due to the fact that a groove (10 and an incoming pin 11. is inserted into it. The end of the hollow electrode 1 .. is tapered. On the tapered surface there are radial holes 12.- The electrode 1 is equipped with a drive. 13 longitudinal movement of it. In the electrode 2 there is a piston 14 with a spring 15 . The ends of the electrodes 1 and 2 are made with pilot holes. 16, The device is located in the tube 17, for example, for flaring. The device operates as follows: In the initial position, the device is located in the tube 17, and the free end of the wire extends beyond the end of the sleeve and is bent behind it, for example, as shown in the figure by the dotted line. the drive 8, the rod 9 moves in the direction of the sleeve 5. The end face is in contact with the wire passed through nai3 10 and transmits the force to the sleeve through it. The wire is clamped between the end of the stem and the sleeve. Under the action of the actuator, the sleeve 5 together with the conductor located in it moves in the direction of the second electrode 2. When the sleeve passes the openings 16 in electrodes 1 and 2, the free end of the conductor bends back more reliably along the surface of the sleeve. Having overcome the resistance of the spring 15, the bushing presses the piston 14. When the free end of the wire enters the cavity of the second electrode, due to elastic deformations it slightly moves away from the surface of the bushing. Therefore, when the sleeve 5 moves back with the help of a pin 11 in the groove 10, the free end of the wire engages the electrode 2 and is pressed against it by the piston 14 (in the drawing, the piston is shown in the exhausted position). Thus, the end of the wire; the sleeve returns to its original position. In this position, both electrodes are connected by a wire, ensuring minimum breakdown voltage. When a current pulse passes from a power source, an electrical explosion occurs through the conductor in a conductor in a fluid, filling the internal cavity of an elastic shell. Under the action of a pressure pulse in a liquid, as well as a pressure pulse, during the electrodynamic interaction of the current in the reverse current-discharge current in the discharge channel, the reverse conductor is deformed and transmits the pressure to the flared tube 17. made of elastic, for example, in the form of stranded cable braid and is connected with elastic, for example, rubber sheath. Therefore, after the end of the explosion process, before the action of the elastic forces of the shell, it returns to its original position, i.e. does not get stuck in the pipe 17. in the process of an electric explosion, both electrodes flow around the hydropoto. lump of fluid and reflected shock waves that penetrate through

radial holes 12 in the cavity of the electrodj 1 and deform the free end of the conductor for the end of the sleeve. The wire is bent approximately as shown in the figure by a dotted line. The device is ready for the next flaring process.

If the length of the initiating conductor is changed, then with Moinbra of the drive 13, the electrode 1 is moved in an elastic sheath, as a result of which the distance between the electrodes 1 and 2 is changed.

Reverse conductors can be made elastic in the area between the electrodes, and in a larger area.

The free end of the electrode with the sleeve is tapered, and radial holes are located on the tapered surface, which allows their effect to be used when placing the elastic shell on the cylindrical surface of this electrode.

Under the conditions of the symmetric space of the discharge cavity, they are made of different diameters. This creates an asymmetry of the action of the hydrostream, penetrating into the internal p. - {electrode pitch on the free end of the wire and the possibility of more reliably bending it over the end of the sleeve.

  . . .... .

Thus, the proposed solution has greater reliability, efficiency and operational capabilities.

Claims (1)

ELECTRIC EXPLOSIVE CARTRIDGE OF REPEATED ACTION, containing a sleeve located in the housing with a wire passing through it and protruding beyond its end with a free end / movably mounted along the axis of the hollow housing of one of the electrodes, which has through holes in the section between the ends of it and the sleeve through / leaving the cartridge housing for passage according to them, hydroflow and shock waves, and a pulse energy source, characterized in that, t in order to increase efficiency by expanding the power range, the cartridge case is made in the form of a liquid metal matic cylinder enclosed in an elastic membrane and connected to a pulse power source for current supply and the electrode body in the area between the ends of the sleeve and .ego made conical, ymekadim through holes of different diameters. SU, 919222 (-) (+)