DE19817444C1 - MV load breaker switch for MV switchgear - Google Patents

Abstract

The MV load breaker switch has an arc extinction chamber, a movable switch blade (11), a pressure chamber and an expansion chamber with an opening which can be at least partially closed, the closable opening area providing an auxiliary opening (9) in the form of a slit, for passage of the switch blade shaft.

Description

The invention relates to a switch, in particular Medium voltage switch disconnector for voltages between 6 and 36 kV.

To avoid arcing when opening the contacts of a load break switch to extinguish as quickly as possible, it is known to use quenching chambers in a bypass assign in the short term, immediately after opening of the main contact current over a temporary in Delay contact located in the switch-on position flows. A movable contact arranged in the arcing chamber or switch pin or knife interrupts the secondary circuit. The resulting arc is in the Arcing chamber deleted.

The knife or pin-shaped contact or switching pin is placed between bodies that gas when heated deliver (hard gas principle). Be the pen or knife moves between these bodies when switching on and off through. Under the influence of heat from the arises when switching off arises, builds on the one hand by heating the in the quenching chamber existing air, on the other hand through the gas development a pressure that creates a gas flow that cool and should extinguish the arc as quickly as possible.  

The requirements for medium-voltage switchgear are increasing constantly. While previously switching devices that as "Service life" Overcoming 20 load cut-offs, customary in the market were now 100 load disconnections at voltages of 12 and 24 kV and a current of 630 A. Around being able to switch off more and more power more often, it is necessary to erase larger and more pressure-resistant to build people that are dimensioned so that for the Extinguishing the shutdown arc required quenching gas is provided in the required amount and it withstood the pressure resulting from the shutdown hold. Because the space in medium voltage switchgear ever but is very limited and the plant dimensions measured can largely be determined by the size of the switch the dimensions of the switchgear despite the increased to requirements for the breaking capacity not worth mentioning be enlarged.

Therefore, it is currently common, for space reasons, for everyone the voltage series (10, 20, 30 kV) different Fire chambers to build the switches of each To be able to build the voltage series as small as possible.

There are switches from, for example DE 195 40 552 A1 or from DE 195 22 852 A1 known, which also under the aspect of the smallest possible space requirement were developed.  

So DE 195 40 552 A1 discloses an extinguishing chamber integrated in a post insulator, the between each of the pole insulators finds. The switching pin in the extinguishing chamber turns off along a straight path of motion pulled out of the arcing chamber. This straightforward movement takes up a lot of space because at least the length, around which the switch pin is pulled out of the chamber, au outside the quenching chamber in extension of this for the Switching movements must be kept clear.

To reduce this space requirement, the DE 195 22 852 A1 a tubular extinguishing chamber with a switch pin in front, both of which are egg-shaped own a circular segment. The switch pin is over Connections at a pivot point so deflected that it performs a movement based on its shape and the circular path specified for the extinguishing chamber lies. Around the switch pin from its contact position from the Pulling out the extinguishing chamber is becoming significant takes up less space than the one previously described extinguishing chamber.

Against this background, the invention is the problem based on a switch with the required breaking capacity  holding, pressure-resistant quenching chamber to build the most possible takes up little space and is as universal as possible is settable.

To solve this problem, a switch with the Proposed features proposed in the main claim. Advantageous embodiments are the subclaims refer to.

The device according to the invention makes it possible Switch switch in the quenching chamber so that the Extinguishing chamber to meet the increased performance requirements could be designed without being bigger that the space requirement for switching knives plus arcing chamber has increased overall, so that despite performance increases the existing grid dimensions of the switch cells can be held. Existing medium voltage switch devices can thus easily with the invention Devices can be retrofitted.

In addition, the switch with arcing chamber according to the invention is like this designed that its arcing chamber for different voltages, at for example for 12 and 24 kV, can be used. The fact that an extinguishing chamber for several tension series hen can be used, there is a considerable Ko most advantage.

Inside the arcing chamber are known per se Wise body made of gas-emitting material when heated intended. These can have plate shape and themselves  when switched on against the switching pin or press the knife contact tip. Any further shape This body is conceivable.

In the following the invention based on the in the drawing tion illustrated embodiments explained in more detail. Show it:

Figure 1a is a cross section through a quenching chamber, in the off state.

FIG. 1b shows a section through a quenching chamber according to Figure 1a along the line AA.

2a shows a cross section through a quenching chamber according to Fig 1a, the switch blade is located in a center position in between on and off switch system state..;

FIG. 2b shows a section through a quenching chamber according to Figure 2a along the line AA.

FIG. 3a shows a cross section through a quenching chamber according to Figure 1a, in the on mode.

FIG. 3b is a view of a switching chamber according to Figure 3a from the direction A.

FIG. 4a is a cross-section through a further example exporting approximately a quenching chamber, in turned scarf tetem state; and

FIG. 4b is a view of an extinguishing chamber according to Fig. 4a from the direction A.

In Fig. 1a an extinguishing chamber 1 is shown, which consists of a housing 2 , which is divided into a pressure chamber 3 and an expansion chamber 4 , which are separated by a wall 5 with an opening 6 . In the pressure chamber 3 there is a fixed contact 7 on the side facing away from the expansion chamber 4 .

The expansion chamber 4 has an opening 8 on its side opposite the wall 5 , which also extends into the lower region of the expansion chamber 4 and forms an additional opening 9 there, so to speak.

The openings 8 and 6 serve the passage of the contact tip of a movable switching knife 11 of the secondary flow path through the pressure 3 and the expansion chamber 4 to the contact 7 ; the switching knife is held in the switched position by a nose 12 which hooks it behind. The switching knife 11 is only partially in Fig. 1a, namely with its contact tip 11 a Darge, which is connected via a correspondingly curved shaft part 11 b to the pivot point B, so that the knife moves along a circular path when switching on and off.

In the pressure chamber 3 are extinguishing plates 10 made of He gas-emitting material arranged, which are acted upon with Fe 21 , so that they are pressed against each other GE. The switch blade 11 moves between them during switching on and off and touches them in the process.

The switching or separating knife 11 is, as the plan views show th, flat. So that the quenching chamber can withstand the requirements regarding the number of shutdowns at the specified power levels (voltages and currents), it was necessary to increase the quenching chamber volume, which is surprisingly simple with the invention while maintaining the switch dimensions and maintaining the cell grid is achieved in that not only the contact tip 11 a dips into the arcing chamber, but at least partially also the switching or separating knife shaft 11 b.

This is made possible by part 9 of opening 8 , that is to say the additional opening according to the invention. During a shift, so if the switching blade 11 is moved towards the fixed contact 7, the first holding member 13 and then the contact tip 11 enters a of the switch blade 11 by the rearward-facing part of the opening. 8 Once the switch blade, however, has 11 reaches the position shown in Fig. 2a, b, occurs also be stem 11 b in the chamber area, namely the Zusatzöff drying, a 9 of the opening 8, and so on, depending wei ter it approaches the fixed Contact 7 is approaching.

So that the quenching chamber reliably fulfills its task despite the additional opening 9 in the expansion chamber 4 , namely to bring the arc which arises when switching off to extinguish, the area 9 of the opening 8 , that is to say the additional opening in FIGS . 1a, b, is Darge turned off state by two flaps 14 , which consist for example of insulating material, closed ver. As can be seen in FIG. 1b, the flaps 14 are movably attached to the underside of the arcing chamber 1 , specifically at points C. They each have the shape of a segment of a circle and overlap the area of the additional opening 9 in the switched-off state. In a preferred embodiment, they are spring-loaded so that they assume the state shown in FIG. 1b without any external force acting on them. The extinguishing plates 10 lie one on top of the other in the switched-off state.

As soon as the switch is closed by the switching knife 11 ge, thus moving to the point B to the fixed contact 7 and it enters the expansion chamber as previously described, his shaft 11 b hits at some point, as in Fig. 2a , b shown, on the flaps 14 and then presses them apart against the spring force acting on them, so that little by little the initially closed additional opening 9 opens and thus the switching knife 11 in the switched on position is only through the additional opening 9 from the Extinguishing chamber protrudes.

This state is shown in FIGS . 3a, b. The flaps 14 are now fully open so that they release the opening 9 to. They are held by the Schaltmes serschaft 11 a in this position while the switch blade contact tip 11 a the extinguishing plates 10 from each other pushes.

When switching off, that is, when the switch blade 11 is separated from the contact 12 and thus from the fixed contact 7 , the switch blade 11 and flaps 14 perform the reversed sequence of movements. The further the Schaltmes water 11 moves out of the extinguishing chamber 1 , that is to say executes a counterclockwise rotation around point B, the more it retracts from the additional opening 9 so that the flaps 14 by the spring force acting on them gradually take the starting position shown in FIGS. 1a, b and close the opening part 9 again.

The additional opening allows for the crescent-shaped switching knife 11 that its trajectory is largely in the quenching chamber 1 , so that with the same space requirement for the quenching chamber 1 according to the invention, a considerably large res chamber volume is achieved compared to known quenching chambers.

The flaps 14 , which move as a function of the position of the switching knife 11 , make the extinguishing process of an arc which arises when switching off considerably more efficient. At the time of the arc, that is, when the switching knife 11 just starts to separate from its closed position (see FIG. 3a, b) from the contact 7 , the flaps 14 are opened so that a relatively large amount of oxygen enters the quenching chamber 1 , in particular can penetrate into the pressure chamber 3 . This has come at the beginning of the extinguishing process because it requires the arc to emerge as quickly as possible from the small initial flame, so that the evaporation process caused by the arc can begin very quickly on the extinguishing plates and the resulting gases can now quickly and effectively the arc Clear. The further the switching knife 11 moves out of the quenching chamber, the more the flaps 13 close and thus prevent further supply of oxygen and, on the other hand, escape of the gases from the quenching chamber downwards, which leads to ionization of the areas between the phases as well as to earth and thus lead to arcing (short circuit). Due to the slot opening 8 adapted to the extinguishing process, the extinguishing gases are controlled in such a way that ionization of the insulating section is excluded.

In addition, the initially relatively large and then gradually closing additional opening 9 has an accelerating effect on the extinguishing gases that arise in the pressure chamber 3 , which in particular in the low-flow initial phase by swirling causes more efficient cooling and thus a more reliable extinguishing of the arc. The closing speed of the additional opening 9 can be varied by the shape of the flaps 14 and specially adjusted.

The measures according to the invention thus also increase the Extinguishing chamber efficiency considerably.

In Figs. 4a, b, another embodiment is shown of an extinguishing chamber according to the invention in which the embodiment are designated according to the Fig. 1 to 3 ent speaking parts having the same reference numerals. The embodiment according to FIG. 4a, b differs from the previously described embodiment, for example, by a different locking mechanism for the additional opening 9 .

Instead of the flaps 14 , a plate or a strip 15 made of insulating material is used here. This or the water is BEFE at 16 at the contact end of the arcing chamber 1 and closes the complete additional opening 9 when the switch is switched off. When the switching knife 11 is closed, its shaft presses the plate or the strip 15 against the action of a spring 17 into the housing 2 in the direction of the fastening point 16 , as a result of which the additional opening 9 is opened. The operation of this embodiment is the same as that previously described. According to the position of the switching knife 11 , the additional opening area 9 is opened or closed by the plate or the strip 15 . In the pressure chamber 3 are according to extinguishing plates 10 seen when heating gas-emitting material before.

Claims (14)

1. Switch with arcing chamber ( 1 ), in particular medium-voltage switch-disconnector for voltages between 6 and 36 kV, with

• 1. a movable switching knife ( 11 ),
• 2. a pressure chamber ( 3 ),
• 3. an expansion chamber ( 4 ), and
• 4. an at least partially closable opening ( 8 ) in the expansion chamber ( 4 ).

2. Switch according to claim 1, characterized in that the closable part of the opening ( 8 ) represents a set opening ( 9 ) which serves the passage of the cutting knife shaft ( 11 ). 3. Switch according to claim 1 or 2, characterized shows that the additional opening has a slot shape. 4. Switch according to one of claims 1 to 3, since by in that the width of the opening (8/9) corresponds to the thickness of the separating knife (11). 5. Switch according to one of claims 1 to 4, characterized in that the additional opening ( 9 ) is closed by at least one flap ( 14 ). 6. Switch according to one of claims 1 to 5, characterized by two overlapping flaps when closing flaps ( 14 ). 7. Switch according to claim 1, characterized in that the additional opening ( 9 ) is closed by a plate or egg nen strips ( 15 ). 8. Switch according to one of claims 5 to 7, characterized in that the flaps ( 14 ) and the plate or strip ( 15 ) are made of insulating material. 9. Switch according to one of claims 1 to 8, characterized in that the flaps ( 14 ) and the plate or the strip ( 15 ) are spring-loaded. 10. Switch according to one of claims 1 to 9, characterized in that the additional opening ( 9 ) is open when switched on. 11. Switch according to one of claims 1 to 10, characterized in that the additional opening ( 9 ) is closed in the switched-off state. 12. Switch according to one of claims 1 to 11, characterized in that the flaps ( 14 ) and the plate or strip ( 15 ) are actuated by the switching knife ( 11 ). 13. Switch according to one of claims 1 to 12, characterized by a moving be on a circular path switching knife ( 11 ). 14. Switch according to one of claims 1 to 13, characterized by spring-loaded extinguishing plates ( 10 ) in the pressure chamber ( 3 ).