DE2707205A1 - Encapsulated HV system with earthed metal casing - has insulating gas blown on casing walls which are part of heat exchanger with flowing cooling medium - Google Patents

Abstract

The system has at least one conductor at HV potential, which is insulated from the casing by insulators and surrounded by a gaseous insulating medium. There is a driving system which circulates insulating gas inside the casing. The conductor at the HV potential (4) is hollow and acts as a channel for the insulating gas. It has holes (5, 8, 9) at several points for the gas which flows out from the conductor in a directed gas stream against parts of the casing (1, 10) whose walls are parts of a heat exchanger (16) with flowing cooling medium.

Description

High voltage device

The invention relates to a high-voltage device with a metallic, earthed enclosure and with at least one at high voltage potential Conductor, which is supported opposite the encapsulation by insulating material and from surrounded by a gaseous insulating medium, and with the insulating medium inside the encapsulation moving conveyor.

From the documents of the German utility model 72 35 381 is a Such a high-voltage device is known in which to increase the current-carrying capacity with otherwise unchanged favorable spatial dimensions of the high-voltage device the conductor on high voltage potential is at least partially a large-area one Forms heat exchanger. A cooling fan is used against this heat exchanger Directed flow of gaseous insulating agent, with the fan blades of the KUhigebläses are arranged in a field-weakened space within the enclosure. The heat of the high-voltage conductor, which is strongly heated with higher currents, is thus replaced by a Forced flow dissipated to parts of the enclosure.

From BT-PS 914 404 a high-voltage device is known in which to increase the current-carrying capacity while maintaining the same device dimensions Circulation of the isolating agent is made.

The known high-voltage device is a low-liquid one Circuit breaker in which a pump transfers the switching fluid when the Switch turns.

Furthermore, the ST-OS 20 51 151 is a low-liquid circuit breaker known, in which the circulation circuit of a pump arranged in the switch at switched on switch on the interior of the lower pole half and the Pole associated drive housing extends.

The invention is based on the object of a high-voltage switching device of the type mentioned at the beginning, with which the effectiveness of the intended for cooling Funding facility is increased.

In the context of the invention, high-voltage circuit breakers are used as high-voltage devices, Disconnectors, busbars or transmission lines meant.

According to the invention, the object is achieved in that the conductor on high voltage potential for guiding the insulating material is hollow formed and with passage openings at several points for the insulating means is provided and that the emerging from the conductor insulating means in a directional Gas flow is guided against parts of the enclosure, the walls of which are part of one of A coolant flow can be acted upon by a drum exchanger.

By applying the invention, the leader is not only special Places, but in the course of its entire length the one that arises under high current loads Heat dissipated. The heated gas is concentrated against some places in the enclosure Rårmetauscher directed, which in turn are acted upon by a Kühimittelatrom can. It is thus possible to use larger, elongated high-voltage switching devices to cool effectively.

In a preferred exemplary embodiment of the invention, the opens Ladder in a conical space formed by a funnel. The funnel, whose outer edge of the opening is borne by the encapsulation of the high-voltage device can be, leads the gas flow extracted from the inside of the conductor to the funnel tube, which penetrates the end face of a metallic cylinder belonging to the encapsulation. A pump device can be connected to the funnel tube. be sen which sucks the gaseous insulating agent out of the funnel and via a pipeline leads back into the interior of the enclosure. The pipeline preferably opens into the space formed between the funnel and the encapsulation cylinder, which is connected to the interior the rest of the encapsulation is in connection. In a particularly simple way, the Encapsulation cylinder can be equipped with heat exchanger fins on the outside against which a can be directed cooling air flow generated by a fan.

Based on the drawing is an embodiment according to the invention described and the mode of operation explained.

The figure shows a schematic longitudinal section of a high-voltage device, in which the parts of simplicity not necessary for understanding the invention are omitted for the sake of The high-voltage device has a metallic, grounded Encapsulation 1, in the interior 2 as a gaseous Isollermittel sulfur hexafluoride is filled under a pressure of, for example, 4 bar. The encapsulation carries Uber conical post insulators 3 have a tubular, high-voltage potential Head 4, which is provided with passage openings 5 for the gaseous insulating medium is and carries a hollow shielding cap 7 at its free end 6. Through the cavity 8 of the conductor and the opening 9 of the shield 7 can move the insulating means will. The encapsulation 1 is followed by a metallic cylinder 10, the one has closed end face 11 and is thus designed like a cap. Inside the Encapsulation cylinder 10, a funnel 12 is provided, the funnel tube 12a the End face 11 of the encapsulation cylinder 10 penetrates. To the funnel tube 12a is a pump device 13 is connected, which the gas heated by the conductor 4 in sucks the funnel space within the funnel 12 and presses it into a pipeline 14. The pipe 14 opens into a space 15 between the funnel 12 and the Encapsulation cylinder 10 is formed. This is against parts of the encapsulation of the enrarmed Directed gas flow. The outer surface of the encapsulation cylinder 10 is with Fins 16 equipped, which generate a flow of cooling air generated by a fan 17 can be exposed. The space 15 stands above passage openings 18 in the Post insulator 3 with the interior 2 of the rest of the encapsulation 1 in connection.

The outer surface of the cylinder 10 leads to the heat of the gas flow outside, so that cooled insulating agent flows into the interior 2 and to the further Cooling of the high voltage conductor 4 is available.

1 Figure 7 AnspHiche

Claims (7)

Patent claims high-voltage device with a metallic, grounded Encapsulation and with at least one conductor at high voltage potential, which is supported against the encapsulation by insulating material and by a gaseous one Is surrounded by insulating means, as well as with the insulating means within the encapsulation moving conveyor, characterized in that the at high voltage potential Horizontal conductors (4) for guiding the insulating means are hollow and have passage openings (5, 3, 9) is provided in several places for the insulating agent and that it is off the conductor (4) escaping insulation in a directed gas flow against parts the enclosure (1, 10) is guided, the walls of which are part of a coolant flow actable heat exchanger (16) are formed. 2. High-voltage device according to claim 1, characterized in that the conductor (4) opens into a conical space formed by a funnel (12). 3. High-voltage device according to claim 2, characterized in that the funnel (12) from a metallic cylinder (10) belonging to the encapsulation is surrounded, one end face (11) of which is penetrated by the funnel tube (12a). 4. High-voltage device according to claim 3, characterized in that a Pumpeinrichtur.g (13) is connected to the funnel tube (12a), which consists of the funnel (12) sucks the insulating agent and via a pipe (14) into the Encapsulation interior (15, 2) leads back. 5. High-voltage device according to claim 4, characterized in that the pipeline (14) in between the funnel (12) and the encapsulation cylinder (10) formed space (15) opens with the interior (2) of the rest of the encapsulation (1) communicates. 6. High-voltage device according to one of claims 1 to 5, characterized in that that the encapsulation cylinder (10) is equipped on the outside with heat exchanger ribs (16) is. 7. High-voltage device according to claim 6, characterized by a a fan (17) generating a stream of cooling belts, the pressure side of which is on the heat exchanger fins (16) is directed.