RU186667U1 - GAS ISOLATION SWITCH - Google Patents

Abstract

The utility model relates to electrical engineering, namely to gas-insulated switches (e.g., gas-insulated). The essence of the utility model lies in the fact that in the well-known gas-insulated circuit breaker containing a drive, arcing devices with detachable and one-piece current-carrying housings and movable contacts placed in sealed gas-filled vessels and driven by a drive using electrical insulating rods, while the detachable current-carrying parts contain main contacts and arcing contact rods with flanges, these rods are fixed in the aforementioned split housings with insulating x insertions, actuators and leaving the vessel outwardly through gaskets operating shafts, whereby said flanges are provided with conductive elements in contact with the rods. Said drive mechanisms may be located inside or outside of the sealed vessels. In this case, the drive mechanisms can be made in the form of screw pairs. When the circuit breaker is made in accordance with the utility model, it is possible to restore its required parameters by adjusting the position of the arcing rod relative to the main contacts without depressurization of gas-filled vessels and without the use of sophisticated pumping and gas filling technology. This indicates a solution to the problem. The inventive utility model has already been implemented at ZETO CJSC (Velikiye Luki) as applied to the VGT-110, VTB-110, VGT-220, VGT-330, and VGT-500 circuit breakers that have successfully passed the corresponding tests.

Description

The utility model relates to electrical engineering, namely to gas-insulated switches (e.g., gas-insulated).

Known gas-insulated switches (hereinafter - switches), containing, drive, arcing devices with detachable and one-piece current-carrying housings and movable contacts placed in sealed gas-filled vessels and driven by a drive using electrical insulating rods, while the detachable current-carrying parts contain the main contacts and interrupter contact rods with flanges (for example, High-voltage circuit breaker with gas insulation: RF patent for utility model 153651. Published: July 27, 2015, yul. №21). However, in these switches during operation, for example, as a result of wear or burnout of these rods, the factory-set distance between the arcing rods and the main contacts changes. At the same time, the rated (tuned) parameters of the switch are changed, which affect its performance, reliability and service life.

The objective of this utility model is to create a circuit breaker with an increased service life by restoring its required parameters by adjusting the position of the arcing rods at the facility without depressurization of gas-filled vessels and, therefore, without the use of sophisticated pumping and gas filling equipment.

The solution to this problem is achieved by the fact that in well-known gas-insulated circuit breakers containing a drive, arcing devices with detachable and one-piece current-carrying housings and movable contacts placed in sealed gas-filled vessels and driven by a drive using electric insulating rods, while the detachable current-carrying parts contain main contacts and arcing contact rods with flanges, the specified rods are fixed in the aforementioned split housings with insulation inserts, drive mechanisms and outward from the vessels through the hermetic seals of the operational shafts, while the said flanges are equipped with electrically conductive elements in contact with the rods.

The switch may be configured such that the drive mechanisms are located inside the sealed vessels.

The switch may be configured such that said drive mechanisms are located outside the sealed vessels.

Mentioned drive mechanisms can be made in the form of screw pairs.

In FIG. 1 shows a fragment of the switch corresponding to paragraphs. 1, 2 and 4 formulas of a utility model.

A fragment of the switch contains a drive 1, an arcing device 2 with detachable 3 and one-piece 4 current-carrying housings and movable contacts 5, a sealed gas-filled vessel 6, an electrical insulating rod 7, main contacts 8 and an arcing contact rod 9, flange 10, conductive elements 11, insulating insert 12 , an operative shaft 13, a tight seal 14 and a drive mechanism 15 in the form of a screw pair.

The switch operates in the usual way, i.e. when the drive is triggered, the main contacts 8 open first, and then after a strictly defined period of time, the contact of the arrester rod 9 opens. In this case, the insulating insert 12 serves to exclude the possibility of passing short-circuit currents through the operating shaft 13 and the drive mechanism 15. The mentioned contact time affects the arc burning time, heating of the arcing contact during its closed state with a movable contact, and also on the wear of the main contacts. So, if the time interval is too short, the arc can also occur at the main contacts, which will lead to their damage, and with a long time interval, the arcing contact can overheat and melt. The specified interval is set on special devices in the factory. During operation, for example, as a result of wear or burning of the arcing rod 9, the contact time interval changes. This is detected by examining the circuit breaker when scheduled maintenance is performed. If the contact time is outside the permissible limits, then it can be restored without depressurization by changing the position of the arcing rod relative to the main contacts, moving it using the drive mechanism 15 over the operating shaft 13, which goes out through the seal 14.

Thus, when performing the circuit breaker in accordance with the formula of the utility model, it is possible to restore its required parameters by adjusting the position of the arcing rod relative to the main contacts without depressurization of gas-filled vessels and without the use of sophisticated equipment for pumping and filling with gas. This indicates a solution to the problem.

The inventive utility model has already been implemented at ZETO CJSC (Velikiye Luki) as applied to the VGT-110, VTB-110, VGT-220, VGT-330, and VGT-500 circuit breakers that have successfully passed the corresponding tests.

Claims (4)

1. A gas-insulated switch containing a drive, arcing devices with detachable and one-piece current-carrying housings and movable contacts placed in sealed gas-filled vessels and driven by a drive using electrical insulating rods, while the detachable current-carrying parts contain main contacts and arcing contact rods with flanges, characterized in that said rods are fixed in said detachable cases by means of insulating inserts, drive mechanisms and you going from the vessels outward through the hermetic seals of the operational shafts, while the said flanges are equipped with electrically conductive elements in contact with the rods. 2. The switch according to claim 1, characterized in that said drive mechanisms are located inside sealed vessels. 3. The switch according to claim 1, characterized in that the said drive mechanisms are located outside the sealed vessels. 4. The switch according to any one of paragraphs. 1-3, characterized in that the said drive mechanisms are made in the form of screw pairs.

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