DE1640206A1 - Switching device with a vacuum disconnector, in particular immersed in a liquid - Google Patents

Description

797 //
Docket 11 D-2662
USSer.No. 532.697
US piling date: March 8; 1966

General Electric Company, Schenectady, N.Y.

V.St.A.

Switching device with a vacuum disconnector, in particular immersed in a liquid

The invention relates to a switching device with a vacuum disconnector, in particular immersed in a liquid with an evacuated piston and two contact pieces arranged therein, movable relative to one another, which can be separated or brought together by an actuating device and an arc between them during separation can be drawn. In particular, it is a device intended to prevent such submerged Circuit breakers can be damaged in the event of a relatively large loss of vacuum.

Vacuum disconnectors with high separating capacity are used in all electrical switching and current interruption devices

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Art and are already available for such high nominal voltages and currents that they also generate a power flow Interrupt at voltages such as those found in commercial and industrial distribution and transmission systems. In most cases of application, the vacuum breaker will be surrounded by air, so that even a large leak will be evacuated The piston does nothing more than fill the piston with ambient pressure air or gas. Under these circumstances It can happen that the switch no longer interrupts a current, but the air or gas that has penetrated will probably do hardly develop so much pressure that the piston breaks. In special cases, vacuum disconnectors are also used in a Isoller liquid operated. It can happen that a leak of a corresponding size over time in the switch piston so large a quantity of liquid enters that when heated by an electric arc, a pressure occurs which leads to the Rupture of the piston leads.

A special application in which it is desirable to place a vacuum circuit breaker in a surrounding liquid is a device for changing the load tap on a power transformer. Such transformers will be usually with a dielectric liquid such as oil or Askarel filled, with the tap changing device in the liquid is immersed. This changing device contains

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now usually an arc current disconnector, which is placed in a separate, liquid-filled room has »a contamination of the main part of the transformer oil as a result of an electric arc at the switch. To facilitate the mechanical connections of the arc switch to the transmission contacts and other switches of a It is customary to place this entire changing device in the separate fluid-filled space accommodate. It is necessary that all tap or tap lines of the transformer winding lead out from the main part of the transformer to the tap changing area will. In high-voltage systems, this is an expensive process, both in terms of labor and material costs.

It would be desirable if possible to arrange the entire tap changing device for high-voltage power transformers directly in the main tank of the transformer and un-

dl indirectly into the actual transformer oil or the "\ elektri immersed in the liquid. Such an economically favorable arrangement in which the tap lines do not come off the boiler must be led out and no separate tap swechselraum is required, is possible if you as Arc disconnector uses a vacuum bit. A Vacuum disconnector in a device for changing the load

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Providing tapping is an advantage even if it comes from others Reasons a separate room is available, as this would result in contamination or contamination of the oil in this room and the resulting frequent repair work can be avoided. On the other hand, in one such in the dielectric Liquid of an associated electrical device located vacuum circuit breaker no leak occurs, which is so large is that liquid enters the switch piston. Even if there is no other damage, one would Breakage of the circuit breaker contaminates the dielectric fluid in such a way that costly and time-consuming repairs are required would be required.

The aim of the invention is therefore to provide a protective device for a vacuum circuit breaker that is immersed in particular in a liquid indicate which is effective in the event of a leak and prevents a switch due to the leak there is excessive pressure.

The invention also aims to provide a liquid-immersed vacuum arc disconnector for a transformer tap changing device to provide a means for preventing breakage of the switch due to a leak.

A particular object of the invention is that the leak warning device for the vacuum circuit breaker is an integral

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Part of this switch and no additional openings or seals in the glass or ceramic bulb of the switch is required.

In a preferred embodiment of the invention, a normally closed vacuum circuit breaker is with an evacuated piston immersed in a dielectric liquid and with contact pieces that are movable relative to one another and separable in the interior of the piston. The one contact piece is stationary, has one extending through a piston wall Shank and contains a bore or passage through which the piston can be evacuated. Outside of of the piston is on the shaft of the stationary contact piece communicating with the passage through the shaft, expandable Bellows or another deformable closure space attached under a seal, so is in vacuum-tight connection with the piston. If the vacuum deteriorates significantly, it expands, which is attached to the shaft of the stationary contact piece Bellows and actuates a suitable alarm or control device. This is essential when immersed in liquid Vacuum devices a deterioration in the vacuum or a corresponding increase in pressure certainly if this is so it is big that the cause could be a penetration of liquid into the device. But also a smaller increase in pressure can already be seen as essential. Preferably is

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a control device actuated by the deformable bellows or the like coupled to the actuating device for the movable contact piece in such a way that the actuating device blocked or made ineffective when the switch is closed. In the case of a cyclically operated, normally closed Isolating switch, as it is used, for example, in a tap changing device, this blocking device is designed so that it can be switched off during a switching cycle is ineffective, but prevents a subsequent further cycle.

As an exemplary embodiment of the invention, the drawing shows, schematically, a device for switching the load tap a transformer with a vacuum arc disconnector according to the invention.

The drawing shows a high-voltage autotransformer immersed in liquid, the tank or housing 10 of which is largely filled with insulating oil or another dielectric liquid 11 and contains a winding 12. The winding 12 is grounded on its low-voltage side, for example by connection to the housing 10, and connected at its other end to a high-voltage line 13 which is led out of the boiler through a bushing insulator Ik. On its high-voltage side, the winding 12 of the autotransformer is provided with several selectable voltage tapping points 15,

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of which the selected over a total of 16 designated load tap changing device is connected to a secondary network conductor 17 arranged in a bushing insulator 18. The changing device 16 contains two movable selector contact pieces 20,21, associated current limiting chokes 22,2 ^ * two selector switches 24,25, a vacuum isolating switch 26 and a motor-operated cycle clock generator, designated as a whole with 28, for controlling the actuation of said switches.

The circuit of the changing device 16 itself is known. Between a selected tap point 15 and the secondary Conductor Vf there are two parallel current paths which each contain, in series connection, a changeover contact piece 20 or 21, one of the chokes 22, 23 and one of the selector switches 24, 25. The vacuum disconnector 26 provided with arc contact pieces is connected between the parallel current paths, these contact pieces being bridged directly by the series connection of the two selector switches 24, 25.

The cycle clock generator 28 can select the contact pieces 20,21 optionally in any direction in successive steps gradually over the various tapping points 15 des Move the transformer. It is driven in the desired direction by a motor 30 which is driven by a reversing bracket 31 is fed by a suitable control voltage source 32, which is shown as a tertiary winding of the transformer.

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If it is switched on with a work command, the clock starts with a normal rest position and leads in each case a complete work cycle, which causes a single movement step of both selection contact pieces 20, 21. Of the The circuit feeding the motor contains a normally open start switch 33 * which, for the sake of simplicity, is manually operated is shown and connected in series with a normally closed ^ circuit breaker to be explained in more detail is. The clock generator has a limit switch 35 which keeps the motor switched on for a certain period of time and which in parallel to the switches 33 * 34 and the motor at the end of a one can switch off a work cycle in any direction.

The cycle clock 28 also includes two cams 40, 41, which open the selector switches 24 and 25 one after the other in the respective working direction, as well as one to open the Further cam 43 x two from the timer serving circuit breaker 26 at two separate intervals during a cycle driven Geneva wheels 44, 45 actuate the changeover contact pieces one after the other at suitable times during a working cycle 21 or 20 in the desired direction. A typical single duty cycle of the tap changer described above proceeds as follows:

If the start switch 33 is briefly closed and the motor 30 is switched on, the clock starts in

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a desired direction determined by means of the reversing switch 31 (here, for example, clockwise). Immediately after the start of the operation, the hold and limit switch 35 is closed and holds the motor during switched on for an entire cycle. During this working cycle, the cam disk 40 first opens the selector switch 24, where in its place in the circuit of the selector contact piece 20 and the choke 22, the contact pieces of the circuit breaker 26 are set. After opening the selector switch 24 are means of the cam disk 43, the contact pieces of the disconnector separated in order to interrupt the current flowing through the selection contact piece 20. Thereafter, the Geneva wheel 45 moves the selector contact piece 20 in the selected direction to the next tap point 15, and by means of the cam disk 40, the selector switch 24 closed again. Following this process, the cam disk 43 also closes the contact pieces of the again Isolating switch 26. Now the cam disk 41 opens the selector switch 25. Thereafter, the cam disk 43 is again the Isolating switch 26 is opened and now the current flowing through the selective contact piece 21 and the throttle 23 is interrupted. While this selective contact piece 21 is de-energized, it is from the Geneva wheel 44 moves to the next pick-up point 15, where the other selector contact piece 20 actuated first is already located. Thereupon the separating-

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switch 26 and by means of the cam 41, the selector switch 25 is closed. A single working cycle is thus completed and the limit switch 35 then switches off the motor 30. Obviously, a duty cycle in the opposite direction proceeds accordingly.

It should now be the one between the parallel tapping switches lying vacuum circuit breaker 26 will be described in more detail. It has an evacuated piston 50 inside there are two relatively movable contact pieces 51, 52. As shown in the drawing, the contact piece 51 is stationary and has a conductive rod or shaft 53 provided which contains an axial bore or passage 5 ^, whereby the piston 50 can be evacuated. The shaft 53 extends through a wall of the piston 50 and is fixed in place built-in, a vacuum-tight seal is provided in between. Located at the outer end of the attached shaft 53 a seal 5 ^ a, with which the passage 5 ^ is closed is. The other, movable contact piece of the circuit breaker is seated on a shaft that is slidably mounted in a bearing 56 55. For a vacuum tight seal between the moving Contact piece and the piston 50 is a flexible metal bellows 57 on the one hand on the piston and on the other hand on the shaft 55 of the movable * Chen contact piece 52 attached.

Outside the piston 50, the shaft 53 of the local

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fixed contact piece 51 divided into two axially spaced parts, between which a deformable metallic Bellows 60 is inserted through the passage 54 together is evacuated with the inside of the flask. At the outer end of the shaft 55 there is a projection 61 or something else Connecting part with which the circuit breaker 34 is frictionally engaged is connected, for example via a toggle lever pivotably mounted at 62. As can be seen, the bellows becomes 60 pushed together in the shaft 53 by the external atmospheric pressure, when he's evacuated. If there is a loss of vacuum or a pressure increase in the interior of the piston 50 and the bellows 60, there will be however, expand the bellows and lengthen the stem 53 noticeably. A spring 6la can also be provided to support the expansion of the bellows. The movable contact arm of the circuit breaker 3 * normally touches a switch contact according to the illustration and is arranged in such a way that it is actuated by the stretching movement of the bellows 60 lifts off the contact 63 and abuts a normally open contact 64, causing an alarm bell or the like. To the control voltage source 32 is connected.

From what has been said above, it can be seen that in normal operation of the illustrated tap changing device, the vacuum disconnector is closed in the idle state and the cycle clock generator 28 normally in its illustrated idle position so-

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stays there for a long time until a change of tap is desired. When in this rest position of the device in the piston 50 of the circuit breaker there is such a great loss of vacuum that the bellows 60 expands, the starting circuit of the motor 30 is interrupted at the switch contact 63, so that when the Start switch 33, the engine can not be switched on. If the contact 63 of the circuit breaker 3 ^ but during the Operation of the cycle clock 28 is enabled, so will regardless of whether the vacuum circuit breaker 26 is open or is closed via the hold and limit switch 35 the started cycle will be completed »but as soon as the cycle clock generator assumes its rest position, so the limit switch 35 is open and the contact pieces 51,52 of the vacuum circuit breaker are closed, the open contact 63 prevents a restart of the motor 30. The cam disk 4-3 for actuation of the vacuum circuit breaker 26 is consequently rendered ineffective in its position in which the contact pieces are kept closed or blocked, so that a separation of the contact pieces 51 * 52 and the creation of an arc is no longer possible.

From what has been said above, it can be seen that the pressure-sensitive leak warning device containing the bellows 60 and the switch contact 63 the actuating device for the vacuum disconnector cannot block or render ineffective if the contacts of the circuit breaker are open, i.e. during a

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Working cycle of the tap change. The one causing the ineffectiveness Blocking device only occurs at the end of a started Cycle in effect when the disconnect holder contacts are at their have assumed normal closed position. When the bullet holder contact 63, on the other hand, is open when the cycle clock generator is idle the blocking takes effect immediately and prevents the start of a cycle and the opening of the circuit breaker contacts. This ensures that the tap wheel device does not remains in a position in which the contact pieces 51 * 52 the disconnector separated sinjluisd an arc between them burns.

With the switching device shown or in other cases in which a submerged vacuum disconnect switch is normally closed and only open for short time intervals, the blocking effect can be postponed until the disconnector contacts close. An arc can burn for a short time, but not for a longer period of time, as is the case when the cycle clock generator is stopped while an arc is present.

It is not necessary that the leak warning device according to the invention to a relatively small, but an interruption of the arc preventing pressure increase in the piston 50 of the disconnector responds. With a switch of the type described, a high vacuum is usually on the order of magnitude

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ORIGINAL INSPECTED

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of about 10 torr is required for one interruption. Even though a very small leak can cause the internal pressure to rise several orders of magnitude above this value, it is unlikely that liquid will enter if the leak and thus the pressure rise are not significantly greater. The device according to the invention is primarily intended to indicate a pressure increase which is so great that it represents a criterion for a possible liquid entry into the piston.

For the person skilled in the art it will be clear that in the illustrated Abgriffswechselvorriehtung not from the vacuum circuit breaker 26 interrupted current at the changeover contact pieces 20,21 is interrupted. This is against this for some short work steps there is no objection to this, and such an erroneous process can also be identified, as is the case, for example, in the USA patent 3 206 569 is described. However, if the interruption failure is due to conditions in which there can be liquid in the disconnector 26, a repeated actuation can be prevented immediately, so that the liquid is not evaporated to the extent that the piston 50 ruptures can. While small changes in gas pressure cannot actuate the bellows 60, even a small amount of liquid will cause it in the piston 50 to a steep increase in pressure as soon as an arc occurs. Such an avalanche effect ensures an eye-catching

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Visual activation of the bellows and blocking of the circuit breaker contacts in their closed position at the end any cycle in which such a pressure rise occurs.

It can be seen that in order to protect a vacuum switch immersed in a liquid against loss of vacuum, which is so large that it indicates a liquid ingress into the switch, it is not necessary; a small, however, detect the interruption of the arc preventing pressure increase. It is only necessary if you are present of liquid to prevent an electric arc. For short time intervals, even such a device can cause excessive heating the liquid will not be able to tolerate a sufficient arc. By having such an arc for a short period of time is allowed, and through the use of a pressure sensitive Protective device, the invention ensures a reliable operation of the device when actually liquid has occurred or if there is so much gas that it responds to being heated by an arc.

It goes without saying that within the scope of the invention numerous modifications of the illustrated embodiment are possible.

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Claims (5)

Claims 1. Switching device with a vacuum disconnector, in particular immersed in a liquid, with an evacuated one Piston and two contact pieces arranged therein, movable relative to one another, which are controlled by an actuating device can be separated or merged and between which an arc can be drawn during separation, characterized in that with the piston (50) a pressure sensitive member (60) with a deformable V / and part is connected in a vacuum-tight manner, and that a device is provided by means of which, depending on a Deformation of the wall part as a result of a substantial increase in pressure in the piston, the actuating device (4j3) only when it is closed Isolating switch (26) is rendered ineffective or blocked. 2. Device according to claim 1 with a vacuum circuit breaker, in which a movable and one with a A stationary contact piece provided with a shaft extending sealingly through the walls of the piston, characterized in that that the stationary contact piece (51) and its shaft (53) attached to the piston (50) with a seal an inner passage (54) open to the interior of the piston 009 8 2 2/0749 and that an expandable pressure sensitive member (60) external to the piston and communicating with the passage is attached to the shaft. 3. Device according to claim 1, characterized in that that the actuating device (4 ^) normally holds the contact pieces (51 * 52) in their closed position, but in cyclical mode when an actuation command is given Intervals of short duration separates and closes again- * 4. In connection with a device for changing the Device according to Claim 1, used to tap the load of a transformer, characterized in that one containing the actuating device (4-3), step by step working cycle clock generator (28) is provided, in its normal rest position the actuating device the contact pieces (51 * 52) holds in its closed position and a blocking device is able to restart the clock to prevent. 5. Device according to claim 2, characterized in that between spaced-apart parts of the shaft (53) of the stationary contact piece (51) outside the piston (50) a tubular expandable member (6O) is interposed, and that the passage (5 ^) of the Fixed contact piece, through which the piston can be evacuated, is closed on the side of the tubular member facing away from the piston by means of a seal (5 ² ^ a). 009822/0749 ORfGINAL INSPECTED Blank page