DE2758264A1 - Vacuum circuit breaker drive - has spring loaded pegs on moving contact carrier forced against locating surfaces in end positions - Google Patents

Abstract

The vacuum circuit breaker has a fixed contact (20) under a moving contact (16), the spindle (14) of the latter being attached to a block (34) above a sealing plate (28). This block is attached to a main block (36), trapping a contact breaking spring (42) between them. The contact making spring (50) is enclosed between the top (48)of the main block and two concentric cylinders (24, 56). The block (34) slides inside the fixed inner cylinder (24), and has two spring loaded locating pegs (64,66) inside, at right angles to the central axis. These pegs can pass through holes (80, 82) in the inner cylinder to come in contact with the sloping slides of a projection on the inside of the outer cylinder. This forms a location system for the engaged and disengaged positions of the contacts.

Description

"Drive device for an electrical switch"

The invention relates to a drive device for an electric Switches with a fixed contact and a movable contact pin, in particular for a vacuum switch, which acts on the movable contact pin.

Electrical switches, which are used, for example, as mast switches consist of a vacuum interrupter and a rotary disconnector, whereby the rotary disconnector is designed so that it can carry the rated current. at the rotary disconnector and then the vacuum switch are activated first opened to prevent free arcs in the Burning atmosphere.

Such switches can be used particularly favorably in a tunnel because an external arc does not burn.

The type of drive is essential for such a switch of the vacuum switch. In the event of a switching operation, the contacts of the Vacuum switch can be opened as quickly and abruptly as possible in order to obtain a favorable To achieve switching characteristics.

The object of the invention is therefore to provide a drive device to create the type mentioned at the beginning, with which the opening or

the closing of the contacts of the vacuum switch as abruptly as possible should expire.

According to the invention, this object is achieved in that in a stationary Sleeve arranged a slide firmly connected to the movable contact pin which is set in two opposite directions, aligned with the switch axis is acted upon by a l'inscha '; - and a switch-off spring, and that latching means are provided which the slide cweils in the on position and off position hold and release the slider to switch on and off, so that under the influence of the switch-on spring or switch-off spring, the or switch-off position goes.

The sleeve is of a relative to the sleeve of a drive encompassed displaceable cylinder, which ijittel to unlatch the locking means auf4rjist, in such a way that to initiate the switch-on the slide is in switch-off position holding latching means and to initiate the switch-off action that the slide in Switch-on position holding latching means is unlatched from the means for unlatching.

The opening spring is preferably between the cover plate of the vacuum switch and the slide and the closing spring between the opposite to the opening spring lying surface of the slide and one formed on the cylinder The cylinder cover is pushed forward so that the closing spring is activated during the opening operation is relieved and loaded during the switch-on operation.

So that the drive device also work in a sufficient manner can, the closing spring is advantageously based on the opening spring sized that their spring force the spring force during switch-on the opening spring overcomes. On the other hand3 the closing spring is dimensioned so that their spring force from the point in time when the slide is in the on position holding Rastmittcl is released until the switch-off position is finally reached is always smaller than that of the opening spring.

In a preferred embodiment, two spaced apart latching means can be used each other in the slide transversely to the slide axis, resiliently over the outer surface of the slide pressed: -ce pins are provided, which in recesses of the sleeve intervene to lock in place. In order to unlatch these Itastmittel, can advantageously a projection may be provided on the cylinder, which when the cylinder is moved pushes a pin into the interior of the slide during a switching operation, see above that in each case one of the locking means is released.

Further advantageous refinements and improvements are the rest Refer to subclaims.

The operation of the drive device is as follows: The cylinder, which is cup-shaped with its lid and which the sleeve and the slide encompasses, is connected to a drive and is relative from this drive moved back and forth to the sleeve. If the scraper is to be turned off, then the cylinder is moved in relation to the slide in the disengaging direction, where the closing spring is relieved. The fact that the locking means, which the Holding the slide in the on position, is still locked, the switch-on spring is activated relieved while the opening spring is still under full tension. Likewise the locking means for holding the slide in the switch-off position is unlocked. The switch-on spring is relieved during the switch-off movement to such an extent that its spring force frQ is already relatively smaller than the spring force of the opening spring. As soon the Latching means, which hold the slide in the on position, is released, the opening spring is released. Because the spring force exerted by it on the slide is greater than the spring force that acts on the slide from the closing spring, the slide becomes together with the movable contact pin connected to it pressed quickly to the off position.

In this position, the locking means for holding the slide engages in the switched-off position in a recess on the sleeve, so that in this way the slide and the movable contact piece or the movable contact pin be held in this position. The reverse process is as follows: The cylinder is moved by the drive in the switch-on direction, whereby he the The closing spring compresses because the slide is still held by the locking means will. The opening spring is only slightly, preferably only approx.

20 5S relieved.

As soon as the projection on the cylinder the locking means to hold the Unlatched the slide in the switch-off position, the switch-on spring is released and their spring force overcomes the spring force of the opening spring, so that the switch suddenly switched to the on position.

The advantage of this arrangement is in particular that with simple Means a sudden and sudden input or. Disconnection for an electrical one Switch, especially for a vacuum switch, can be achieved.

An exemplary embodiment of the invention is to be described in greater detail on the basis of the drawing explained.

FIG. 1 shows a section through a drive device according to the invention with a part of a vacuum stopper in the switched-on position and FIG. 2 shows the drive device according to FIG. 1 in the switch-off position.

An electrical switch, designed as a vacuum switch in Figure 1, is designated in its entirety with the reference number 10. The switch owns in this case an outer housing 12, within which a movable contact pin 14 is located with a movable contact piece 16 and a fixed contact pin 18 with a fixed one Contact piece 20 is located. The housing 12 has a back at one end internally extending flange 22, behind which an integrally formed on a sleeve 24 Flange 26 engages. At this point, the sleeve 24 and the housing 12 are together Connected via connecting means not shown in detail. The face of the sleeve 24, which points into the interior of the switch housing 12, is interposed with a plate 28 a seal 30 covered, the plate 28 being a not shown Opening for the movable contact pin 14 auAreist. This namely sits down through the plate 28 into the sleeve 24 and engages there in a blind hole 32 of a socket 34, which is located with a / inside of the sleeve 24 slide 36 is firmly bound. The connection between the movable contact pin 14 and the bushing 34 as well as the bushing 34 and the slide 36 takes place by means of one in each case Split pins 38 and 40, respectively. Between the slide 36 and the plate 28 there is one Cut-out spring 42, which consists of two helical springs 44 and 46 connected in parallel is constructed. This opening spring acts on the slide 36 in the opening direction, Direction of arrow A.

The slide 36 is on its opposite end face with a projection 48 is provided, which serves to guide a closing spring 50, which also consist of two coil springs 52 and 54 is constructed.

The sleeve 24 and the slide 36 located therein are of one Surrounding cylinder 56, which is closed to the outside with a cover 58. the Closing spring 50 is now supported with its free end against the surface of the cover away. On the outer surface of the cover 58 means are provided on which a not further illustrated drive can attack. These funds are in the drawing represented by a screw head 59.

Within the slide 36 there are two transverse bores 60 and 62, which each receive a pin 64 and 66.

The transverse bores 60 and 62 are at one end by means of a plate 68 and 70, which can also be referred to as sealing plugs 68 and 70, are closed. Between the pin 64 or 66 and the stopper 68 and 70 is located One compression spring 72 and 74 each, which the pins each transversely to the longitudinal axis of the Actuate slide 36 in the direction of arrow B in such a way that the springs tend to to push the pins 64 and 66 beyond the outer surface of the slide 36.

In the sleeve 24 there are recesses 80 and 82 into which the Pin 64 and 66 can each engage to the slide 36 and thus the movable Contact pin 14 in the input or

To clamp or hold the switch-off position. In the figure 1 engages the pin 64 straight into the recess 80 and holds in this way Slide 36 and the contact pin 14 fixed in the switched-on position. The pin 66 is pressed completely into the interior of the slide 36 and slides on the inner surface of the Sleeve 24. In the figure 2, the switch-off position is drawn, in which the pin 66 engages in the recess 82, while the pin 64 on the inner surface of the Sleeve 24 slides.

An insert 34 is attached to the cylinder, on which two inclined surfaces 86 and 88 are provided (see Figure 2), which are at an obtuse angle running towards each other and such one protruding into the interior of the cylinder Form projection 90.

This projection is narrower in its width transversely to the side plane than the diameter of the pin and engages a slot 92 in the sleeve 24, with the innermost end of protrusion 90 straight with the inner surface the sleeve or with the outer surface of the slide is aligned.

The projection 90 is formed on the insert 84 as above mentioned, which is attached to the cylinder 56 by means of two screws 102 and 104 is. So that the cylinder does not relate to the sleeve in the on position can rotate, a guide pin 106 is provided in the cylinder, which is in a guide recess or guide slot 108 engages in the sleeve. In the drawing is the guide pin 106 drawn lying in the plane of the pin; in a final execution It seems cheaper if the guide pin and the guide slot are around 900 are arranged offset.

The function of the switch described above is now as follows: From the position according to FIG. 1, which shows the switched-on position, the switch should be brought into the switch-off position according to FIG. To this end, will the cylinder 56 is displaced by the drive in the direction of arrow A (with the closing spring 50 causes or supports the movement of the cylinder. Usually enough it when the cylinder is released from the drive, so that only the Spring 50 the opening movement of the cylinder 56 begins). When moving the cylinder The projection 90 runs in the slot 92 in the direction of the arrow A. The closing spring is thereby activated 50 relieved.

The inclined surface 86 reaches the pin after a certain path 64 and presses it against the force of the spring 72 into the interior of the slide Direction of arrow B. As well as the pin 64 completely inside the slide 36 is located, the spring 42 is released and, since the closing spring 50 less is loaded than the opening spring 42, i.e. with less force on the slide 36 acts, the spring force of the spring 42 overcomes the spring force of the spring 50 and pushes the slide 36 in the switch-off position in the direction of arrow A.

The slide moves depending on the dimensioning of the two springs 36 very quickly. In doing so, the pin 66 reaches the area in which the recess is located 82 is located; and the axes of the pin 66 and the recess 82 are aligned the pin 68 pressed by the spring 74 into the recess 82, so that the slide 36 and the movable contact pin 14 are locked in this position.

A switch-on action takes place as follows: No further from that the drive shown, the cylinder is pressed in the direction of arrow C (see Figure 2), the cover 58 compressing the spring 50 in the process. The protrusion 90 slides also in the direction of arrow C, after covering a certain distance the Inclined surface e8 runs onto the pin 66 and this into the interior of the slide 36 presses. As soon as the pin is completely wound up inside the slide, the force of the spring 50 is released, and since its spring force is greater than that Spring force of the opening spring 42, it overcomes the latter and pushes the slide and the associated movable contact pin 14 in the switched-on position return.

This, too, takes place very quickly, since the two springs 42 and 50 correspond accordingly are coordinated. During the switch-on movement, the pin 66 slides open the inner surface of the sleeve 24, and as soon as the pin 64 reaches the recess 80 has, in such a way that the axes of both are aligned, the pin is under the Pressure of the spring 72 is pressed into the recess 80, so that the pin pushes the slide 36 and thus the movable contact pin 14 tightly in the switched-on position.

The clamping is effected by the conical chamfering of the pin 64. This conical bevel also compensates for the erosion of the contact pieces 16 and 20.

The invention has been described using an example; this does not mean any limitation of the scope of protection. It goes without saying that it is a number of modifications and changes are there, all of which are still within the scope of the Invention lie.

Claims (11)

Actuator device for an electrical switch with a fixed contact and a movable contact pin, especially for one Vacuum switch, which acts on the movable contact pin, characterized in that, that in a stationary sleeve (24) with the movable contact pin (14) fixed connected slide (36) is arranged in two opposite, with the Switch axis aligned directions of a closing spring (50) and opening spring (42) is acted upon, and that latching means are provided which each slide the slide Hold in on and off position and to switch on and off 3 each time release the slide, so that it 3 each time under the influence of the closing spring or switch-off spring goes into on or off position. 2. Drive device according to claim 1, characterized in that the sleeve (24) by a cylinder which can be displaced relative to the sleeve by a drive (56) is encompassed, which has means for unlocking the locking means, such that to initiate the switch-on holding the slide in the switch-off position Latching means and to initiate the disconnection that the slide in the on position holding latching means is unlatched from the means for unlatching. 3. Drive device according to claim 1, characterized in that as latching means two at a distance from one another in the slide (36) transversely to the slide axis running, resiliently pressed pins (64,66) over the outer surface of the slide are provided, which in recesses (80, 82) of the sleeve (24) for the respective latching intervention. 4. Drive device according to claim 3, characterized in that a projection (90) is provided on the cylinder (56) which, when the cylinder is moved each presses a pin (64 or 66) into the interior of the slide (36). 5. Drive device according to one of the preceding claims, characterized in that that the opening spring (42) between the cover plate (28) of the vacuum switch and the slide (36) is arranged. 6. Drive device according to one of the preceding claims, characterized gckennseiclmet, that the closing spring (50) between the opposite to the opening spring (42) lying surface of the slide (36) and a cylinder cover attached to the cylinder (56) (58) is provided so that the closing spring is relieved during the opening operation and is loaded during the switch-on operation. 7. Drive device according to one of claims 5 and 6, characterized in that that both the switch-on and the switch-off spring (50, 42) from each afei parallel switched coil springs (44,46; 52,54) exist. 8. Drive device according to one of the preceding claims, characterized in that that the closing spring (50) is dimensioned in relation to the opening spring (42), that their spring force while switching on the spring force of the opening spring overcomes. 9. Drive device according to one of the preceding claims, characterized in that that the closing spring (50) is dimensioned so that its spring force from the point in time at which the locking means holding the slide (36) in the switched-on position is released is, until the final reaching of the Ausochaltstellung is always smaller than that of the opening spring (42). 10. Drive device according to einom of the preceding claims, characterized marked, that the projection (90) on the cylinder of two at an obtuse angle to each other tapered inclined surfaces (86,88) is formed. 11. Drive device according to claim 10, characterized in that that the inclined surfaces (86, 88) on an insert part fastened to the cylinder (56) (84) are provided.