SU705554A1 - Re-use switching device - Google Patents

Description

(54) MULTIPLE ACTION SWITCH

Claims (1)

The invention relates to a technique of 6on pulsed currents and is intended for switching in inductive energy storage devices. Known switch}, containing a multi-contact system, placed in a liquid dielectric, the basis of the design of which is based on the principle of multiple breaks in oil. A contact switch system consists of a group of movable Hbix contacts (knives) mounted on a pivot bar and a group of fixed contacts mounted on a fixed frame. However, this switch has a relatively low eutrostatteyo (the total speed of contact divergence is 45 m / s). In addition, this switch off the spruce has a relatively large size. The aim of the invention is to increase the speed of the multiple action multiple switch used in switching systems for inductive energy storage. The delivered pell is achieved by performing in the known switch of the contact system as a set of profiled hollow disk membranes insulated from each other, alternating with wedge-shaped all-metal disk contacts. Matrices that have the same profile as the membrane contacts in the open state are placed inside the membrane contacts. The switch actuator consists of an inductor in the form of a cylindrical coil, coaxial with the contact system of the switch and an elastic metal piston in the form of a thin-walled cylinder, corrugated along a generatrix. The drive is separated from the liquid dielectric, in which the contact system of the switch is placed by a rubber cylinder. This mouth (X) is schematically represented in the drawing. The switch contact system consists of a set of hollow disk disks of 1 membrane type alternating. With wedge-shaped all-metal DISK-BUTS contacts 2. All disk contacts are insulated from each other by insulating spacers 3. Inside the disk contacts 1 of membrane type there are matrices 4 having the same profile as membrane contacts 1 in the open state. The dies 4 have grooves or slots for the passage of air from the internal contact system to the membrane contacts 1. The membrane contacts 1 are made of sheet, well-conducting metal (for example, copper sheet). To reduce the contact resistance, the contact surfaces of contacts 1 and 2 can be coated with silver. . In order to seal the internal volume of the contact system, the contact system is contracted with the help of the supporting insulator 5 and the current leads 6, 7, the Lower current supply 7 and the supporting insulator 5 have openings for supplying compressed air to the internal volume of the ontact system. The disk contacts 1 and 2, the insulating plates 3 and the dies 4 are provided with a central hole, the diameter of which exceeds the diameter of the support insulator 5. The switch system is housed in a sealed enclosure consisting of an insulating cylinder 8 and insulating flanges 9 , The internal volume of the housing is filled with a liquid dielectric 10 with good insulating properties (for example, capacitor oil). On the inner surface of the insulating G1 lindra 8 there is an induttor 11 switch drive. The inductor 11 is made as a multiturn cylindrical roller made of a flat copper bus. A cylindrical piston 12, made of highly conductive sheet metal (for example, copper sheet), is located in the immediate vicinity of inductor 11. To ensure the elastic deformation of the piston 12, it is provided with corrugations along the generatrix of the cylinder. The cylindrical piston 12 is separated from the liquid dielectric 10 by a sealing rubber cylinder 13. To ensure mechanical strength of the switch and seal its internal volume, the switch is fitted with insulating flanges 14 The pressure of the compressed air supplied to the contact system is selected from the condition of ensuring reliable contact between disk contacts. The switch can work with any drive. creating a pulse pressure in a liquid dielectric. The device works as follows. Compressed air is supplied to the switch contact system, which elastically deforms the membrane contacts 1, and the contact system closes. A capacitor battery is charged, which serves as the energy source for the electrodynamic driving of the switch. The switch is ready to go. The opening of the contact system of the switch occurs at the time of the pause of the current created by the special circuit of the inductive storage switching system when the current in the switch is several orders of magnitude less than the current of the inductive storage. At the moment the current is paused, a capacitor battery is discharged to inductor 11. The inductor's magnetic field compresses the cylindrical piston 12, which creates a pulse pressure in the liquid dielectric 1Q. The liquid dielectric collapses the membrane contacts 1, extinguishes the arc that arises when the contacts are opened and, filling in the gaps between the contacts, provides the required electrical strength of the switch. The virtually arc-less opening of the contacts of the switch allows us to avoid multiple switching without replacing a liquid dielectric or any structural elements in the switch. In order to replace the liquid dielectric during the operation of the switch, the latter can be equipped with a system for circulating or regenerating the liquid dielectric. The proposed switch has a high speed, which makes it possible to significantly reduce the switching system of inductive energy storage devices for high-power electrical installations. Claims 1. A multiple-action switch comprising a multi-contact system placed in a volume and drive filled with a liquid dielectric, due to the fact that, in order to increase the speed of the switch, the switch contact system is made as a set of isolated ones. from the other profiled hollow disk membranes, which alternate with all-metal disk contacts