SU1115140A1 - Current chopper for electrolyte pipelines - Google Patents

Abstract

CURRENT CONTROLLER FOR ELECTROLYTIC PIPELINES, containing rae: a trunk line branched to two lines, shut-off valves in the form of three-way valves made of electrically insulating material and installed at branch points of the main line, the vessel divided into two electrically insulated from one another, one of which has a side wall made of elastic corrugated material and an end wall mechanically connected with three-way valves, and each part of the vessel is connected to one of the lines of the ma on line, characterized in that, in order to increase reliability of the vessel having a lateral wall of the corrugated elastic material, placed inside the second portion of the vessel side wall which is rigid. SL NP

Description

This invention relates to electrical industry and can be used in chemical circulating electrolyte current sources to prevent current leaks through the electrolyte flowing through pipelines. A current interrupter for electrolyte pipelines is known, comprising two shut-off valves, a propellant between them, and an actuator for switching the valves and operating the propellant. During operation of the current gate, the valves open alternately. When electrolyte is sucked into the cavity, the inlet valve is open and the outlet valve is closed. With the release of electrolyte from the cavity of the displacer, the vent valve is open and the inlet valve is closed. This prevents leakage of current through the electrolyte ij. However, when the tokoprevatel electrolyte is operated, the electrolyte is supplied to the units in a periodic manner, which leads to an unstable operation of the chemical source. ka In addition, the disadvantage of this current pickup is the complexity of the drive. The closest to the invention in technical essence and the achieved result is a current interrupter for electrolytic pipelines, containing a trunk line branched into two lines, a stop valve in the form of three-way valves made of electrically insulating material and installed in places. branching, a vessel divided into two electrically insulated one from another part, one of which has a side wall made of elastic corrugated material, and an end stank mechanically connected to three-way vents, and each part of the vessel is connected to one of trunk lines. A current interrupter provides a continuous supply of electrolyte to a chemical current source 2. However, the side corrugated stacks, continuously in operation, are subject to compression and stretching from the bend. This leads to their exit from the system, for example, due to the rupture of the rim and to a decrease in the reliability of the work of the current interrupter. The aim of the invention is to increase availability. In order to achieve this goal in a current interrupter for electrolyte pipelines containing a branch line into two lines, for porous armature in the form of three-way valves made of electrical insulating material and installed at the branch points of the main line. a vessel divided into two electrically insulated one from another part, one of which has a side wall made of elastic corrugated material, and an end wall mechanically connected to three-way valves, and each part of the vessel is connected to one of the main lines, part The vessel, having a side wall of elastic corrugated material, is placed inside the second part of the vessel, the side wall of which is made rigid. The drawing shows the proposed choke. The current interrupter contains line 1, branched into two lines 2 and 3, three-way gate valves 4 and 5 installed at the branch points of line 1, vessel b, separated by a rigid partition 7 into two electrically insulated one from another part 8 and 9, connected respectively to the line m 2 and 3. Line 1, both lines 2 and 3, valves 4 and 5, and vessel b with a rigid partition 7 are made of electrically insulating material. The side wall 10 of part 9 of the vessel b is made of elastic corrugated material. The side wall of part 11 of vessel 8 is rigid. Part 9 of the vessel b is located inside part 8 of the vessel b. Valves 4 and 5 have two fixed positions, which are provided, for example, by means of permanent magnets. To switch the valves from one fixed position to another, there is a movable frame of 12 tons of gates 13, and control rods 14 and 15, which are separated from the cavities of parts 8 and 9 of the vessel b by the diaphragm 16 for sealing purposes. enters from line 1, for example, through valve 4 through line 2 to part 8 of vessel b. In this case, the supply of electrolyte to part 9 of vessel b is stopped, as valve 4 blocks the access of fluid to line 3.. At that, valve 5 closes line 2 and opens line 3. Under pressure: the incoming electrolyte to part 8 of the vessel beats the strength of the corrugated properties The side wall 10. Part 9 of the vessel b begins to contract and the electrolyte flows out of it along line 3 through valve 5 to line 1. When the end wall 17 approaches the extreme position, it touches the control rod 14 of the moving frame 12, which as a result of this interaction and using the control rod 15 simultaneously switches the valves 4 and 5. In this case, the electrolyte feed is performed -

It goes into part 9 of vessel 6, which leads to its expansion. Part 9 of vessel 6, expanding, gradually fills the volume of part 8 of vessel b, squeezing the electrolyte into line 2 and through valve 5 into master 1. When the other extreme position of the end wall of part 9 of vessel 6 is reached, it contacts with the controller the rod 15 of the mobile unit 12, which causes the switching of the valves 4 and 5, thus providing an open circuit with a continuous flow of electrolyte in the line 1, and the switching of the valves takes place due to the hydraulic pressure in the line.

The invention allows, at the same electrolyte consumption, to reduce twice the corrugated surface of the vessel in comparison with the known one, which increases the reliability of this vessel, and, consequently, the current chopper as a whole. In addition, the rigid side wall of one part

the vessel protects the side elastic corrugated wall of the other part of the vessel from external mechanical airways, which also results in an increase in the reliability of the current interrupter.

Claims (1)

SURFACE BREAKER FOR ELECTROLYTIC PIPELINES, containing a trunk branched into two lines, shutoff valves in the form of three-way valves made of electrical insulation material and installed at the branch junctions, a vessel divided into two electrically isolated from one another part, one of which has a side wall made of elastic corrugated material, and an end wall mechanically connected with three-way valves, and each part of the vessel is connected to one of the lines of the line, tlichayuschiysya in that, in order to increase reliability of the vessel having a side wall made of corrugated elastic material, placed inside the second portion of the container, the side wall which is rigid. . _β <B