DE4445172A1 - Panel for switching equipment - Google Patents

Abstract

An insulating housing (14) containing a vacuum switch (15) is arranged in the panel. The length of the housing is such that the vacuum switch can be moved from a first setting into a second.In the region of the base of a pot (23) a first connection site can be connected to the fixed contact (16) of the vacuum switch. In the middle of the housing is a second connection site which is electrically connected to the moving contact. A third contact at the free edge of the housing can be brought into connection with the moving contact.

Description

The invention relates to a Schaltan in a panel location, preferably a medium voltage switchgear res switching device according to the preamble of claim 1.

Such a panel is for example from the patent message P 44 12 785.5 become known, in which an insulating ge Housing is provided in which a vacuum switch is installed. With this arrangement, however, the vacuum switch remains unused arranged movably inside the housing and outside the Isoliergehäuses is a circuit breaker, which by means of egg ner own actuator must be operated.

The object of the invention is to provide a panel of the ge named way of creating the grounding is simplified.

This object is achieved by the characterizing nenden features of claim 1.

According to the invention, the vacuum switch is inside the housing ses slidably arranged such that it consists of a first Position in which he is in the course of a current path in  a second position is displaceable, in which the current path un broken and an earthing position is reached. The isolation The housing in which the vacuum switch is located is dimensioned in this way sen that such displaceability is possible; preferred the insulating housing is about twice as long as the vacuum switch.

The vacuum switch must be locked in these two positions or set to actuate the contact pieces of the vacuum to make switch. For this purpose, according to characterizing features of claim 2 of the vacuum switch externally operable holding elements attached to the Fix the vacuum switch in the first and second position. As Holding element is preferably in accordance with claim 3 concentric to the central axis of the vacuum switch Cylinder pot provided that protrudes outwards and by means of a drive is displaceable. The cylinder pot is made of iso material. Its open side is on the Front wall attached and its interior is open and forward is in flow with the interior of the insulating housing Connection.

An advantageous embodiment of the invention can be the best hen that the individual connection points sliding contact arrangements are so that the vacuum switch can be opened without the insulating housing NEN, moved from the first to the second position and back can be.

Further advantageous refinements and improvements of the Er can be found in the further subclaims.

Based on the drawing, in the two embodiments of the Er are shown invention, the invention and others advantageous refinements and improvements of the invention are explained and described in more detail.  

Show it:

Fig. 1 a horizontal section through a panel with a vacuum switch in a first position,

Fig. 2, the panel of FIG. 1 in the same Schnittan view with the vacuum switch in a second position, and

Fig. 3 is a sectional view similar to that of Fig. 1 with guide rods.

Within a control panel 10 there are several electrical components, of which only one busbar 11 and a switchgear designated as a whole by 12 are shown. The control panel 10 is closed at the front by means of a front wall 13 . On the inside of the front wall 13 , an elongated, cylindrical, pot-shaped insulating housing 14 is attached with its free edge, within which a vacuum interrupter 15 is arranged. The vacuum interrupter 15 , which is constructed in a manner known per se, has a fixed contact piece 16 which is fastened to a fixed contact stem 17 . The protruding from the vacuum tube 15 fixed contact gel is connected to a contact carrier 18 which has a umlau fende groove 19 in the bearing projections 20 of contact fingers 21 which are designed as double contact fingers. The arm 24 facing the pot bottom 23 of the contact fingers 21 serves as contacting, whereas the other arm 25 of all contact fingers is comprised by a helical spring 26 which press these arms 25 radially inwards, so that the arms 24 are pressed radially outwards. In the region of the pot base 23 , the insulating housing has a sliding contact cylinder 27 which is in an electrically conductive connection with a connecting conductor 28 which is led out through the base 23 with the interposition of a seal 29 as an extension piece 30 . The extension piece 30 is connected to the busbar.

Within the vacuum tube 15 is a movable con tact piece 32 , which is fastened to a movable contact stem 33 , which protrudes in a known manner with the interposition of a bellows (not shown) from the vacuum tube 15 and is connected to a contact carrier 34 , which is constructed in the same way as the contact carrier 18 . Approximately in the middle of the insulating housing there is a second sliding contact 31 which corresponds to the sliding contact 27 in its function and has an axial extent D which corresponds to the distance of the contact pieces 16 , 32 . The Kontaktträ ger 34 has a groove 35 in the bearing pin 20 (here the same reference numerals are used as in the contact carrier 18 ) engage, which are integrally formed on the contact fingers 21 . The contact between the contact fingers 21 and the Gleitkon clock 31 is effected in the same way as with the contact fingers 21 , which are in connection with the sliding contact 27 .

The sliding contact 31 is brought out to the outside by means of an extension piece 36 and connects to a connecting piece 37 which leads to a current supply connection unit 38 or current discharge connection unit 38 .

In operation, that is to say in the position shown in FIG. 1, when the two contact pieces 16 and 32 touch, current flows from the supply connection 38 via the connecting piece 37 , the sliding contact 31 and the vacuum tube 15 to the busbar 11 . In this position, short-circuit shutdowns can be made, for example.

In the area of the free edge, the insulating housing 14 is also provided with an internal sliding contact 39 , which is connected to an extension piece 41 with earth 42 .

At the protruding from the contact carrier 34 end of the contact stem 33 , a drive rod 43 is connected in a conventional manner. This drive rod 43 is actuatable for actuating the movable contact piece 32 in the double arrow direction A.

The front wall 13 has a passage opening 44 which corresponds to the inner diameter of the insulating housing 14 . This passage opening 44 and thus the insulating housing 14 is closed by means of a cover 45 which is fastened to the front wall by means of a screw connection 46 , which at the same time also serves for fixing the connecting piece 41 and for the electrically conductive connection of the connecting piece 41 with the sliding contact 39 . Between the free edge of the insulating housing 14 and the front wall there is an annular seal 47 , as well as between the flange 48 of the cover 45, the ring seal 49th The drive rod 43 is passed through an opening 50 with the interposition of a seal 51 through the cover 45 .

Fig. 3 shows a further embodiment of the invention, wherein the essential parts that are present in the switch panel in Fig. 1, can also be found here. A certain difference is that instead of the contact finger 21 of FIG. 1, semi-moon-shaped sliding contact pieces 61 and 62 are provided, which interact with the inner surface of the sliding contacts 27 and 31 (also called sliding contact cylinder) or slide on it. The contact pieces 61 are mounted on a contact carrier 63 and are in electrically conductive connection with the latter. On stationary, with the ceramic cylinder of the vacuum interrupter 15 firmly connected cover elements 65 in the area of the contact stem 33 of the movable contact piece 32 are sliding contact carriers 64 which are penetrated by the contact stem 33 and to which a socket 66 is fastened, to which in turn a holding element or means 67 is attached, which, as shown in the drawing, has a cup-shaped structure and is attached to the socket 66 on the bottom of the pot. A section 33 a of the movable contact stem 33 extends through the bush 66 and the pot bottom of the holding element 67 , the latter with the interposition of a seal 68 . The holding element 67 can of course also be designed in the form of guide rods.

The holding element 67 is actuated by a drive so that the vacuum switch can be moved from the position shown in FIG. 3 to a position that speaks to that of FIG. 2 ent. The design of the holding element as a pot, which is open in the same direction as the insulating housing 14 , has the advantage that the interior of the insulating housing 14 is thereby sealed. Instead of a cup-shaped closure such as the cover 45 , a straight cover 69 can also be provided, which also includes the holding element 67 with the interposition of a seal 68 .

If then spent the vacuum tube 15 into a disconnected position who is the, the two contacts are initially 16 and 32 ge opens to the drive rod 43 and then the vacuum tube can examine drive rod 43 are placed ver into the position 15 in which the contact fingers 21 on the fixed contact stem and on the movable contact stem with the sliding contact pieces 31 and 39 come in connection, see Fig. 2. In this case, the current path connected to the supply connection 38 (in the form of a cable and the like) is grounded when the in the contact pieces 16 and 32 in the position shown in FIG. 2 are closed.

In the embodiment according to FIG. 3, the switch is moved through the cylinder cylinder 67 (holding means 67 ) from the switching position (according to that of FIG. 3) into the disconnected and earthed position, see FIG. 2.

Claims (10)

1. Control panel for a switchgear assembly, with an insulating housing used in the control panel, in which a vacuum switch is housed, the insulating housing being cup-shaped and attached with its free edge to the inside of the front wall of the control panel and by means of a cover on the outside of the front wall is closed, characterized in that the length of the insulating housing ( 14 ) is dimensioned such that the vacuum switch ( 15 ) within the insulating housing ( 14 ) can be moved from a first position to a second position such that in the region of the pot base ( 23 ) first connection point, at which the fixed contact piece ( 16 ) of the vacuum switch ( 15 ) can be connected, in the central region of the insulating housing ( 14 ) a second connection point, which is in electrically conductive connection with the movable contact stem ( 36 ), and in the region of free edge of the insulating housing a third connection point is provided, which with de m movable contact stem ( 36 ) can be connected, the third connection point being at a distance from the second which is equal to the distance of the first from the second connection point. 2. Control panel according to claim 1, characterized in that the vacuum switch ( 15 ) is attached to externally operable holding elements ( 67 ) which fix the vacuum switch ( 15 ) in the first and second positions. 3. Control panel, in which the vacuum switch by means of a drive rod that curses with the center axis of the insulating housing, is drivable, characterized in that elements are provided as holding elements, the cylinder is arranged concentrically with the drive rod and the bottom of the pot moves with Lichen contact stem ( 36 ) comprises gas-tight, and that the Zylin dertopf ( 67 ) from the cover ( 69 ) is also surrounded gas-tight. 4. Control panel according to one of claims 1 to 3, characterized in that the second connection point has a Gleitkontaktan arrangement ( 31 ), the axial length of which is dimensioned such that when the movable contact stem ( 36 ) moves during a switching operation in electrical connection with this stands. 5. Control panel according to claim 4, characterized in that the sliding contact arrangement ( 31 ) is led out and serves as a connection for a derivative ( 37 ). 6. Control panel according to claim 5, characterized in that the third connection point is a sliding contact arrangement ( 39 ) which is the same as the second connection point, and that this sliding contact arrangement ( 39 ) is connected to earth. 7. Control panel according to one of the preceding claims, characterized in that on the fixed and the movable contact stem ( 17 , 33 ) each has at least two contact fingers ( 21 ; 61 , 62 ) having contact is attached, which bear against the associated sliding contact arrangements Contact surfaces are permanently pressed radially outwards. 8. Control panel according to claim 7, characterized in that the contact fingers are ausgebil det as double-armed contact rockers ( 21 ), the bearing point of which is located on the associated contact stem ( 17 , 33 ), one arm resiliently pressed inwards and the other arm thereby pressed radially outwards are. 9. Control panel according to claim 8, characterized in that a circular spring is provided as the spring ( 26 ) which wraps around one arm from the outside. 10. Control panel according to claim 9, characterized in that the clear width of the sliding contact arrangements ( 27 , 31 ) is larger than the outer contour of the vacuum switch ( 15 ).