RU2728007C2 - Light-hydraulic ram and method of its operation - Google Patents

Abstract

FIELD: hydraulic machines.

SUBSTANCE: group of inventions relates to hydraulics. Light-hydraulic ram comprises pipeline 1, chamber 2 filled with translucent liquid 3, with two straight valves 6B, air cap 5 with check valve 6A, sensor 7 installed inside chamber 2, translucent tube 9 with light-absorbing target 8 located inside chamber 2, and with electrodes 10 connected to high-voltage discharge capacitor 12 and high-voltage source 13. Chamber 2 is equipped with additional tube 9 with its target 8. Targets 8 are installed at equal distance from valve 6A and are made in the form of cones facing with wide bases towards it and towards each other. Electrodes 10 of both tubes 9 are connected to same capacitor 12 and same source 13.

EFFECT: group of inventions is aimed at creation of opposite shock waves, which provide higher efficiency of light-hydraulic effect.

2 cl, 4 dwg

Description

The invention relates to the field of light hydraulics and can be used to create special-purpose chemical pulse reactors.

Known light-hydraulic ram (see SU 1751445 A, 30.07.1992). However, it does not fully reveal the possibilities of light-hydraulic effects.

A light-hydraulic ram was chosen as a prototype, containing a pipeline, a chamber filled with a translucent liquid, with two direct valves, an air cap with a check valve, a sensor installed inside the chamber, a translucent tube with a light-absorbing target located inside the chamber, and with electrodes connected to a high-voltage with a discharge capacitor and a high-voltage source and the method of operation of a light-hydraulic ram, which consists in filling the chamber with a translucent liquid, a translucent tube with a light-absorbing target and electrodes are installed inside the chamber, which are connected to a high-voltage discharge capacitor and a high-voltage source, create shock waves towards the check valve (see RU 2663372 C2, 03.08.2018, second option). However, in the specified light-hydraulic ram and the method of its operation, counter-shock waves are not created, which reduces the efficiency of the light-hydraulic effect.

Thus, the group of inventions is aimed at creating counter-shock waves, which increases the efficiency of the light-hydraulic effect.

The specified efficiency is achieved in a light-hydraulic ram containing a pipeline, a chamber filled with a translucent liquid, with two straight valves, an air cap with a check valve, a sensor installed inside the chamber, a translucent tube with a light-absorbing target located inside the chamber, and with electrodes connected to a high-voltage discharge capacitor and high-voltage source. According to the invention, the camera is equipped with an additional translucent tube with its own light-absorbing target, while the light-absorbing targets are installed at an equal distance from the check valve and are made in the form of cones facing wide bases towards it and towards each other, and the electrodes of both translucent tubes are connected to one and the same high-voltage discharge capacitor and the same high-voltage source.

This efficiency is also achieved in the method of operation of a light-hydraulic ram, which consists in filling the chamber with a translucent liquid, a translucent tube with a light-absorbing target and electrodes are installed inside the chamber, which are connected to a high-voltage discharge capacitor and a high-voltage source, create shock waves towards the check valve. According to the invention, the camera is provided with an additional translucent tube with its own light-absorbing target, while the light-absorbing targets are installed at an equal distance from the check valve and are made in the form of cones, which are turned with wide bases towards it and towards each other, and the electrodes of both translucent tubes are connected to one and with the same high-voltage discharge capacitor and with the same high-voltage source, counter-shock waves are created.

FIG. 1 shows a light-hydraulic ram.

FIG. 2 shows a light-hydraulic ram with light-absorbing cone-shaped targets.

FIG. 3 shows the method of operation of the light-hydraulic ram

FIG. 4 shows shock waves towards the check valve

FIG. 1 schematically shows the proposed light-hydraulic ram, containing pipeline 1, chamber 2 filled with a translucent liquid 3, with two straight valves 6B, an air cap 5 with a check valve 6A, a sensor 7 installed inside chamber 2, a translucent tube 9 filled with an inert gas 11 with a light-absorbing target 8, located inside chamber 2, and with electrodes 10 connected to a high-voltage discharge capacitor 12 and a high-voltage source 13.

FIG. 2 shows the camera 2 is equipped with an additional translucent tube 9 with its own light-absorbing target 8. Light-absorbing targets 8 are installed at an equal distance from the check valves 6B and are made in the form of cones facing wide bases towards it and towards each other. The electrodes 10 of both translucent tubes 9 are connected to the same high-voltage discharge capacitor 12 and the same high-voltage source. 13.

FIG. 3, a method of operation of a light-hydraulic ram is described, which consists in the fact that the chamber 2 is filled with a translucent liquid 3, a translucent tube 9 with a light-absorbing target 8 and with electrodes 10 are installed inside the chamber 2, which are connected to a high-voltage discharge capacitor 12 and a high-voltage source 13, create shock waves along towards the check valve 6A.

FIG. 4 shows the shock waves towards the check valve 6A. The camera 2 is equipped with an additional translucent tube 9 with its own light-absorbing target 8. The light-absorbing targets 8 are installed at an equal distance from the check valve 6A and are made in the form of cones, which are turned with wide bases towards it and towards each other. The electrodes 10 of both translucent tubes are connected to the same high-voltage discharge capacitor 12 and to the same high-voltage source 13, creating counter-shock waves.

When implementing the regime of counter shock waves, the pressure behind the check valve 6A increases 5-8 times higher at the same discharge energies than the prototype.

Claims (2)

1. A light-hydraulic ram containing a pipeline, a chamber filled with a translucent liquid, with two straight valves, an air cap with a check valve, a sensor installed inside the chamber, a translucent tube with a light-absorbing target located inside the chamber, and with electrodes connected to a high-voltage discharge capacitor and a high-voltage source, characterized in that the camera is equipped with an additional translucent tube with its own light-absorbing target, while the light-absorbing targets are installed at an equal distance from the check valve and are made in the form of cones facing wide bases towards it and towards each other, and the electrodes of both translucent tubes are connected to the same high-voltage discharge capacitor and the same high-voltage source. 2. The method of operation of a light-hydraulic ram, consisting in the fact that the chamber is filled with a translucent liquid, a translucent tube with a light-absorbing target is installed inside the chamber and with electrodes that are connected to a high-voltage discharge capacitor and a high-voltage source, create shock waves towards the check valve, characterized by that the camera is equipped with an additional translucent tube with its own light-absorbing target, while the light-absorbing targets are installed at an equal distance from the check valve and are made in the form of cones, which are turned with wide bases towards it and towards each other, and the electrodes of both translucent tubes are connected to one and with the same high-voltage discharge capacitor and with the same high-voltage source, counter-shock waves are created.

Images