DE19628758A1 - Multi-phase electric switching device based on vacuum switch-tubes e.g. for switchgear switch-bay - Google Patents

Abstract

The multi-phase electric switchgear has several vacuum switching tubes (1-3), with each vacuum switching tube having two contact fingers (19-24), which are electrically contactable with slide contacts (25-33) arranged at the inner wall of the cylinder housing. Each vacuum switching tube has a circuit-breaker unit (34) for ON-OFF switching under voltage. The circuit-breaker (34) has a fixed contact (35) and a moving contact (37). A drive unit (15) is provided, which effects the switching positions between the contact fingers and the slide contacts across a first drive (17). Also across a second drive (18) coupled with the first drive, operates the circuit breaker.

Description

The invention relates to a multi-phase electrical switching device with vacuum interrupter ren.

From DE 44 45 172 A1 a switch panel for a switchgear is known, with an in Insulated housing in which a vacuum switch is accommodated, wherein the insulating housing is cup-shaped and with its free edge on the Attached to the inside of the front wall of the panel and by means of a cover on the Outside of the front wall is closed. The length of the insulating housing is so be measure that the vacuum switch inside the insulator housing from a first Position can be moved into a second position. To do this are in the area of Pot bottom a first connection point at which the fixed contact piece of the vacuum switch can be connected, in the middle of the insulating housing a second on closing point with the movable contact stem in an electrically conductive connection is available, and in the area of the free edge of the insulating housing a third closure point, which can be connected to the movable contact stem, wherein the third connection point is at a distance from the second which is the distance of the the first of the second connection point is the same.

The invention has for its object a one-piece, multi-phase Specify electrical switching device in which several vacuum interrupters are used will.

This object is achieved by a multi-phase electrical switching device with several arranged in a row in a common cylinder housing Vacuum interrupters released, each vacuum interrupter on two contact fingers has which with arranged on the inner wall of the cylinder housing Gleitkon clocks are electrically contactable, each vacuum interrupter a power Switching device for switching on / off under voltage with a fixed contact piece and has a movable contact piece and wherein a drive device in front is seen, the switching positions between the contact via a first drive fingers and the sliding contacts and a second, with the first coupled drive operated the power switching device.

The advantages that can be achieved with the invention are, in particular, that a very simple and extremely compact construction of panels for switchgear un ter use of the multi-phase switching devices according to the invention results. It can even complicated panels using only a few, each in one piece formed multi-phase switching devices can be realized.

A common drive device is advantageously sufficient for all phases Setting the different switch positions as well as for operating the Lei switching devices.

Advantageous embodiments of the invention are characterized in the subclaims net.

The invention is described below with reference to the embodiment shown in the drawing Examples explained.  

Show it:

Fig. 1 a multiphase electrical switching device, in lateral section,

Fig. 2 is a section AA through the switching device,

Fig. 3 to 5 different switching positions of the electrical switching device.

In Fig. 1, a multi-phase electrical switching device is shown in a lateral section. The switching device 4 has three vacuum interrupters 1 , 2 , 3 , which are arranged one above the other in a cylinder housing 5 . The cylinder housing 5 consists of a tubular rod 6 with a metallic outer encapsulation and an electrically insulating inner jacket, a housing cover 7 and a housing base 8 .

The vacuum interrupters 1 , 2 , 3 are connected to one another via three holding rods 9, 10, 11 (see also FIG. 2). This attached to the housing of the vacuum interrupters th holding rods 9 to 11 are used to adjust the switching positions of the multi-phase electrical switching device 4 and are connected via sealed bushings in the housing base 8 with a first drive 17 of a drive device 15 . This drive device 15 is mounted on a rigid outer drive housing 16 on the cylinder housing 5 .

For actuation of power switching devices 34 of the three vacuum interrupters 1 , 2 , 3 serve three push rods 12 , 13 , 14 (see also Fig. 2), which on the one hand are attached to the power switching devices themselves and, on the other hand, have sealed bushings in the housing base with a second drive 18 the drive device 15 are connected. To set the switching positions, each vacuum interrupter 1 or 2 or 3 has a first contact finger 19 or 21 or 23 and a second contact finger 20 or 22 or 24 . The respective first contact fingers 19 , 21 , 23 are electrically connected to fixed switching contact pieces 35 via fixed contact bars 36 and the respective second contact fingers 20 , 22 , 24 are connected to movable switching contact pieces 37 of movable switching contact pieces 37 of the power switching device 34 via movable contact bars 38 .

These contact fingers 19 to 24 can be electrically contacted with sliding contacts 25 to 33 , which are mounted on the cylinder housing 5 in an electrically insulated manner and have external mounting connections to which busbar connections, earth connections or cable connections can be attached. Each vacuum interrupter is assigned to three sliding contacts, namely the vacuum interrupter 1, a first sliding contact 25 , a second sliding contact 26 and a third sliding contact 27 , the vacuum switching tube 2, a first sliding contact 28 , a second sliding contact 29 and a third sliding contact 30 and the Vacuum interrupter 3, a first sliding contact 31 , a second sliding contact 32 and a third sliding contact 33 .

In each case the second sliding contacts 26 , 29 , 32 preferably serve as an earth connection.

As can already be seen from the above description, the Antriebseinrich device 15 serves both for setting the switching positions via the holding rods 9 to 11 and for actuating the power switching devices 34 of the vacuum interrupters 1 to 3 , ie for switching the vacuum interrupters on / off under voltage via the push rods 12 until 14 . To set the switch positions, the inner drive housing 16 movable inside the drive housing 16 of the first drive 17 is moved into the desired position. The arrow directions A and B indicate the shift options for setting the different switching positions. In each switching position, each contact finger of each vacuum interrupter is connected to one of the sliding contacts. Three different positions can be set, as described below in FIGS. 3, 4, 5. The power switching devices 34 are always open during the displacement of the first drive 17 .

After the desired switching position is set, the second drive 18 can be actuated, the movable contact stems 38 of the power switching devices 34 being driven via the push rods 12 to 14 , as a result of which the movable switching contact pieces 37 make electrical contact with the associated fixed switching contact pieces 35 . The arrow directions C and D indicate the adjustment options of the second drive 18 for actuating the power switching devices 34 . When the drive is actuated in the direction C, the switch contact pieces 35 , 37 of the power switching devices 34 are opened and closed in the direction D.

In Fig. 2 is a section AA is shown by the switching device. The section plane AA is designated in FIG. 1. It is the vacuum interrupter 2 with contact finger 21, the tubular bar 6 with sliding contact 27, the three holding rods 9,10,11, the three push rods 12, 13,14 and the drive means 15 can be seen.

In FIGS. 3 to 5, the different switching positions of the electrical switching device is presented. If it is assumed that the first sliding contacts 25 , 28 , 31 for connecting a busbar of a switchgear, the second sliding contacts 26 , 29 , 32 for earth connection and the third sliding contacts 27 , 30 , 33 for connecting a cable ( Serve cable outlet), Fig. 3 shows the switch position "operating position" with an electrically conductive connection between Sam melschiene and cable, Fig. 4 shows the switch position "busbar earth" with connec tion of the busbar to earth and Fig. 5 shows the switch position "disconnecting position / starting earth electrode with connection of the cable to earth.

The electrically conductive connections are shown in all three FIGS. 3 to 5 as continuous thick lines.

In the operating position according to FIG. 3, the first drive 17 is in the middle position. This results in an electrically conductive connection from the sliding contact 25 via the contact finger 19 , the contacted switching contact pieces 35 , 37 with contact stems 36 , 39 of the power switching device 34 of the vacuum interrupter 1 and the contact finger 20 to the sliding contact 27 . Likewise, there is a connection from the sliding contact 28 via the contact fingers 21 , 22 to the sliding contact 30 and a connec tion from the sliding contact 31 via the contact fingers 23 , 24 to the sliding contact 33 .

From the operating position shown in FIG. 3 can be switched by operating the first drive 17 in the direction of arrow A in the "busbar earth" position shown in FIG. 4 who. Before actuating the drive 17 , however, the second drive 18 must be activated, ie moved in the direction of arrow C, in order to separate the switch contact pieces 35 , 37 . At closing the first drive 17 is pushed in the direction of arrow A, whereby the vacuum switch tubes 1 , 2 , 3 are brought into the upper switching position. After the second drive 18 has closed the switching contact pieces of the power switching devices 34 again by actuation in the direction of arrow D via the push rods 12 to 14 , there are electrically conductive connections from the sliding contact 25 via the contact fingers 19 , 20 to the sliding contact 26 , from the sliding contact 28 via the contact fingers 21 , 22 for sliding contact 29 and from sliding contact 31 via contact fingers 23 , 24 for sliding contact 32 .

From the operating position shown in FIG. 3, the first drive 17 can be switched in the direction of arrow B to the "disconnected position / earth electrode" position shown in FIG. 5. Before actuation of the drive 17 , the drive 18 must be activated again to cause the switch contact pieces 35 , 37 to separate. Then the three vacuum interrupters 1 , 2 , 3 are moved into the lower switching position by means of the drive 17 . After the switching contact pieces are closed again via the drive 18 , there are electrically conductive connections from the sliding contact 26 via the contact fingers 19 , 20 to the sliding contact 27 , from the sliding contact 29 via the contact fingers 21 , 22 to the sliding contact 30 and from the sliding contact 32 via the contact fingers 23 , 24 for sliding contact 33 .

The switching positions outlined in FIGS . 3 to 5 show a special advantage of the switching device, which results from the arrangement of the earth contact in the central position. In comparison to conventional switching devices, there is advantageously no need for a previously customary contact point designed for the maximum short-circuit current.

It goes without saying that in the drawing only the basic function scheme is shown, d. H. the distances between the shown contact components ten must be dimensioned according to the applied voltages.

Claims (6)

1. Multi-phase electrical switching device with a plurality of vacuum interrupters ( 1 to 3 ) arranged in a row in a common cylinder housing ( 5 ), each vacuum interrupter having two contact fingers ( 19 to 24 ), which with sliding contacts arranged on the inner wall of the cylinder housing ( 25 to 33 ) are electrically contactable, each vacuum interrupter having a power switching device ( 34 ) for switching on / off under voltage with a fixed contact piece ( 35 ) and a movable contact piece ( 37 ) and wherein a drive device ( 15 ) is provided which is provided via a first Drive ( 17 ) effects the switching positions between the contact fingers ( 19 to 24 ) and the sliding contacts ( 25 to 33 ) and actuates the power switching device ( 34 ) via a second drive ( 18 ) coupled to the first drive. 2. Switching device according to claim 1, characterized in that the first drive ( 17 ) via at least one holding rod ( 9 to 11 ) each on the housing of the vacuum switching tubes ( 1 to 3 ) is attached. 3. Switching device according to claim 1 and / or 2, characterized in that the second drive ( 18 ) via at least one push rod ( 12 to 14 ) each with the Lei stungsschalterinrichtungen ( 34 ) of the vacuum interrupters ( 1 to 3 ) is connected. 4. Switching device according to one of claims 1 to 3, characterized in that the drive device ( 15 ) has a with the cylinder housing ( 5 ) connected to the outer drive housing ( 16 ) within which the first drive ( 17 ) can be displaced via its movable inner drive housing is arranged. 5. Switching device according to one of claims 1 to 4, characterized in that the second drive ( 18 ) is arranged movably within the drive housing of the first drive ( 17 ). 6. Switching device according to one of claims 1 to 5, characterized in that each vacuum interrupter ( 1 , 2 , 3 ) three sliding contacts ( 25 to 27 , 28 to 30 , 31 to 33 ) are assigned, the first sliding contacts in a first switching position ( 25 , 28 , 31 ) with the second sliding contacts ( 26 , 29 , 32 ), in a second switching position he most sliding contacts ( 25 , 28 , 31 ) with the third sliding contacts ( 27 , 30 , 33 ) and in a third switching position the second sliding contacts ( 26 , 29 , 32 ) with the third sliding contacts th ( 27 , 30 , 33 ) can each be connected via the contact fingers ( 19 to 24 ).