EP1292959A1 - Vacuum interrupter with two contact systems - Google Patents

Abstract

The invention relates to a novel vacuum interrupter. The aim of the invention is for said interrupter to perform the functions switching , disconnection and earthing and to be economically producible. Said aim is achieved by means of a first contact system (22) produced with radial- or axial-magnetic field contacts (21, 23), the movable contact of which (21) is connected to the movable contact (26, 27) of a second contact system (25), comprising annular discs (16, 27). The stationary contact (13) of the second contact system forms an annular part of the housing (10) to which two tubular insulators (11, 12) are connected. One (11) of the insulators encloses both contact systems (22, 25) and is protected by a screen (31) fixed to the movable contact piece (21, 26), which separates the plasma physics of the both contact systems.

Description

description

Vacuum holding tube with two contact systems

The invention is in the field of electrical switches and is applicable to the design of a vacuum interrupter in which the housing contains three contacts to perform the functions "switching", "disconnecting" and "grounding" and has a grounding connection which acts as a me - Tallenes area of the housing is formed.

In a known vacuum interrupter of this type, the metal part of the housing consists of a cylinder, in which end-plate-shaped insulators are inserted. Both insulators are axially penetrated by a current supply pin of a first contact system arranged concentrically to the axis of the housing, the current supply pin of the fixed contact of the first contact system being soldered vacuum-tight to the one insulator. The Stro feed pin of the movable contact of the first contact system is movably guided through a hole in the other insulator. The rear part of the movable contact of the first contact system also forms the movable contact of a second contact system arranged coaxially to the first contact system, the fixed contact of which is designed in the form of an annular disk and is connected in the edge region to the metal part of the housing. A grounding contact is arranged at one end of this housing. - The first contact system is still assigned a shield, which consists of a cylinder, which is over an annular

Support the insulating piece on the metal cylinder (DE 20 37 234 AI). For medium-voltage switchgear, a load break switch is also known, in which at least two contact pairs are arranged in a common vacuum vessel and in which the contact pairs are separated from one another in terms of plasma physics by special shields. For this purpose, two coaxial shielding cylinders can be used for each contact pair, the cylinder walls of which overlap in the axial direction. The shielding cylinders are each electrically conductively connected to one of the contacts of the associated contact pair. - Each contact pair can also be assigned a ground contact to which the movable switch contact can be switched. The movable switch contact can be fixed in three switch positions (DE 33 04 803 AI).

Starting from a vacuum interrupter with the characteristics of

The preamble of claim 1 (DE 20 37 234) is the object of the invention to provide a constructive configuration which meets practical needs such as simple construction and inexpensive manufacture.

To achieve this object, it is initially provided according to the invention that the first contact system has radial or axial magnetic field contact pieces and the second contact system each has ring-shaped contact pieces arranged by means of a contact carrier, the contact carrier of the one ring-shaped contact piece on the bottom side of the movable radial or axial magnetic field contact is arranged and the contact carrier of the other annular disk-shaped contact piece forms the ground connection; Furthermore, the two insulators are tubular and are connected to one another at the end with the interposition of the ground connection, one insulator being the first contact system and essentially also the movable contact of the second contact. clock system surrounds; Finally, for the purpose of plasma-physical separation of the first contact system from the second contact system, the shielding is designed as a labyrinth-like shield system which consists of a tube surrounding the first contact system, which forms a cap with the contact carrier of the ring-shaped contact arranged on the movable contact.

With such a configuration of the vacuum holding tube, mostly customary components as well as usual manufacturing measures can be used for the construction and manufacture of the switching tube, so that the vacuum holding tube can be manufactured economically. The use of magnetic field contact pieces and the intended design of the shield ensure the electrical performance of the switching tube.

The use of tubular insulators, in particular ceramic insulators, is common for vacuum interrupters, as is the configuration of the contact pieces as radial or axial magnetic field contacts (EP 0 155 376 Cl, DE 25 27 319 AI).

Since the second contact system must only be designed for the required switch-on strength, a simple plate or washer geometry is sufficient for the corresponding contact pieces; A material based on copper / chromium is preferably used as the contact-proof contact material. - If necessary - for further constructional simplification - the contact carrier of the movable contact piece can be formed in one piece with the tube surrounding the first contact system. There is also the possibility that the contact carrier - with the appropriate shape - also forms the movable, ring-shaped contact piece.

In order to emphasize the labyrinthine character of the shield, it is advisable to choose the distance of the tube from the insulator surrounding the contact system to be smaller than the distance of the tube from the first contact system.

Two embodiments of the new vacuum interrupter are shown in Figures 1 and 2. It shows

Figure 1 shows a vacuum holding tube with two pieces

Shielding and Figure 2 is a vacuum interrupter with one-piece shielding.

FIG. 1 shows a vacuum interrupter, which essentially has a housing 10, a first contact system 22, a second contact system 25 and a shield 30.

The housing 10 consists of insulating and metal parts. Two tubular ceramic insulators 11 and 12 are arranged coaxially to one another and connected to one another with the interposition of a metal part 13. The metal part 13 forms the ground contact of the vacuum interrupter and is designed for this purpose as a short, thick-walled pipe section 14 arranged concentrically with the axis A of the housing and having a radially extending connecting flange 15. The pipe section 14 forms an annular contact carrier for an annular disk-shaped contact piece 16. Ring-shaped angle pieces, which are not specified in more detail on both sides, are soldered to the connecting flange 15 and serve as connecting parts for connecting the metal part 13 to the ceramic insulators 11 and 12 by means of a cutting solution , The housing 10 also has a metal upper cover plate 17 and a metal lower cover plate 18, each of which is soldered to the ceramic insulator 11 or the ceramic insulator 12 by means of cutting edge soldering. One end of a bellows 19 is soldered to the lower cover plate 18 and is soldered at its other end to a power supply pin 20.

The power supply pin 20, which is movable through the lower

Cover plate 18 is passed, carries at its upper end the movable contact piece 21 of the first contact system, which is provided for switching current and voltage. A stationary contact piece 23 is arranged coaxially with the movable contact piece 21 and is fastened to the upper cover plate 17 by means of a power supply bolt 24.

The power supply pin 20, which is passed through the metal part 13 forming the ground contact, also carries the movable contact of the second contact system 25.

For this purpose, a flat, pot-like, thick-walled contact carrier 26 is arranged on the back of the movable contact 21, which carries an annular disk-shaped contact disk 27. The arrangement of the contact carrier 26 makes it possible to assign a shield to the first contact system, which consists of a tube piece 31 connected to the contact carrier 26. A shield system is thereby formed, which covers the first contact system 22 in a cap-like manner. The distance S1 of the pipe section 31 from the ceramic insulator 11 surrounding the first contact system 22 and the second contact system 25 is selected to be greater than the distance S2 of the pipe 31 from the contact system 22, thereby forming a labyrinth-like screen system which physically separates the first contact system 22 from the second contact system 25.

In the first contact system 22, the contacts 21 and 23 are designed as axial magnetic field contacts; the contacts of the second contact system are designed as simple washers 16 and 27 and consist of a Cu-Cr material.

FIG. 2 shows a section of a vacuum holding tube, which is varied compared to FIG. 1 with regard to the design of the second contact system and the shielding. The fixed contact, which forms the grounding connection 34, of the second contact system is designed as an annular disk provided with a connecting flange 35, onto which an annular disk-shaped contact piece 36 is placed. - On the back of the movable contact piece 21 of the first contact system there is a cap 37 surrounding the first contact system, the bottom area 38 of which is shaped such that an annular shoulder 39 is formed. This shoulder can itself form the movable contact of the second contact system or can be provided with an annular contact piece in a manner similar to the ground contact 34. - In this embodiment, the bottom region 38 of the cap 37 also forms the contact carrier for the movable contact of the second contact system. The side wall 40 of the cap is cylindrical and together with the bottom area 38 forms the shield.

Claims

claims 1. Vacuum interrupter with three contacts arranged in a cylindrical housing for performing the "switching", "disconnecting" and "grounding" functions, the housing (10) having a metal region (13) designed as an earth connection and two made of insulators (11 , 12) has existing areas in which a movable (21) and a first fixed (23) contact have a first contact system (22) and the movable (21) and a second fixed contact connected to the grounding contact (14, 15) ( 16) form a second contact system (25), in which the two contact systems are arranged coaxially to one another and concentrically to the axis (A) of the housing (10) and in which the first contact system is surrounded by a shield, characterized in that the first contact system Radial or axial magnetic field contact pieces (21, 22) and the second contact system each have annular disk-shaped contact pieces (16, 27) arranged by means of a contact carrier (14, 26), w the contact carrier (26) of the one ring-shaped contact piece (27) is arranged on the back of the movable radial or axial magnetic field contact (21) and the contact carrier (14) of the other ring-shaped contact piece (16) forms the ground connection that the the two insulators (11, 12) are tubular and are connected to one another at the end with the interposition of the earth connection (13), the one insulator (11) the first (22) contact system and essentially also the movable contact (26, 27) of the second contact system (25) surrounds and that the shield for the purpose of plasma-physical separation of the first contact system (22) from the second contact system (25) is designed as a labyrinth-like shield system (30), which consists of a tube (31) surrounding the first contact system (22), which is connected to the Movable contact arranged contact carrier (26) of the annular disc-shaped contact piece (27) forms a cap. 2. Vacuum interrupter according to claim 1 that the contact carrier of the movable, ring-shaped contact piece (16) is designed as a flat, thick-walled pot (26). 3. Vacuum interrupter according to claim 1 that the contact carrier of the movable, ring-shaped contact piece is formed in one piece with the tube (31) surrounding the first contact system (22). 4. Vacuum interrupter according to claim 3 d a d u r c h g e k e n n z e i c h n e t that the contact carrier also forms the annular disc-shaped contact piece. 5. Vacuum interrupter according to one of claims 1 to 4 d a d u r c h g e k e n n z e i c h n e t that the distance (Sl) of the tube (31) from the insulator (11) is smaller than the distance (S2) of the tube (31) from the first (22) contact system. 6. Vacuum interrupter according to one of claims 1 to 5, characterized in that the contact carrier forming the earth connection (13) (14) of the second contact system is designed as a thick-walled tube piece with a radially extending flange (15). 7. Vacuum interrupter according to one of claims 1 to 5 d a d u r c h g e k e n n z e i c h n e t that the contact carrier forming the grounding connection (34) is designed as an annular disc. 8. Vacuum interrupter according to one of claims 1 to 7 d a d u r c h g e k e n n z e i c h n e t that the annular disc-shaped contact pieces (16, 27) of the second contact system (25) consist of a copper-chromium material.