EP1310970A1 - Hybrid circuit breaker with drive - Google Patents

Abstract

A common drive mechanism uses a gearing mechanism (29) connected in series to two discharge chambers coupled in series to operate the discharge charge chambers. Designed to plug together, the gearing mechanism has two gearing components, a connecting link plate (12) on a rotatable bearing and a roller (8) engaged with it. First and second components link firmly with first and second discharge chambers respectively.

Description

TECHNICAL AREA

The invention is based on a hybrid circuit breaker a transmission according to the preamble of claim 1.

STATE OF THE ART

A hybrid circuit breaker is known from the document EP 0 847 586 B1, which can be used in an electrical high-voltage network. This hybrid circuit breaker has two quenching chambers connected in series, a first of which is filled with SF ₆ gas as the quenching and insulating medium, and a second is designed as a vacuum interrupter. The second quenching chamber is surrounded by SF ₆ gas. The main contacts of the two quenching chambers are operated simultaneously by a common drive via a simple lever mechanism. Both quenching chambers have a power current path, in each of which the main contacts that are resistant to erosion, and a nominal current path parallel to this, this nominal current path having only a single point of interruption. When switching off, the rated current path is always interrupted first, whereupon the current to be switched off commutates to the power current path. The power current path then continues the current until it is definitely switched off.

Such simple lever gears can be compared difficult to achieve with hybrid circuit breakers Adjust movement patterns. In addition, the storage points mechanically very stressed, which is a complex and expensive design of the bearings has the consequence, which the Hybrid circuit breaker is expensive. Will on this The design of the bearing points is dispensed with Time required for the revisions that are often necessary Availability of the hybrid circuit breaker disadvantageous limited. In addition, the effort for the assembly of the Lever gear inside the hybrid circuit breaker because of the limited accessibility in this area comparatively large.

PRESENTATION OF THE INVENTION

The invention as set out in the independent claims is marked, solves the task one To create hybrid circuit breakers with a gearbox which is simple inside the hybrid circuit breaker can be put together.

The hybrid circuit breaker has at least two in series switched, operated by a common drive Extinguishing chambers. These quenching chambers have one thing in common Gearbox upstream. This gearbox has at least two Gear parts, which are designed to be pluggable, wherein the first gear part with the at least one first Extinguishing chamber and the second gear part with the least a second arcing chamber is firmly connected. The gear has means that allow the movements of at least coordinating two quenching chambers in a technically sensible manner and with respect to the time sequence and switching speed of the same optimize. It proves to be particularly advantageous that the gearbox both in the on position and in the Switch-off position is self-locking, because with it additional locking devices or latches are not necessary are. In addition, the drive needs in the two end positions no special holding forces to apply, so here a simple and particularly inexpensive drive used can be. The gearbox is comparatively simple mountable, thereby reducing the time required for assembly work Revisions are advantageously reduced. This simplified Assembly takes a comparatively small amount of time, so that the operational availability of the Hybrid circuit breaker is advantageously increased.

The longitudinal axes of the two quenching chambers are one preferred embodiment of the hybrid circuit breaker in one plane and are inclined towards each other at an angle α, the angle α being less than 90 °, it is preferably in the range between 68 ° and 80 °. This Arrangement of the quenching chambers allows one To create hybrid circuit breakers, which is a comparative has little extension in the axial direction, so that the Space requirement for this hybrid circuit breaker is particularly small is.

The further refinements of the invention are the subject of dependent claims.

The invention, its further development and the achievable with it Advantages are shown below using the drawing, which represents only one possible way of execution, closer explained.

BRIEF DESCRIPTION OF THE DRAWING

Fig. 1 zeigt einen Schnitt durch eine erste Ausführungsform eines stark vereinfacht und schematisch dargestellten Getriebes im eingeschalteten Zustand des Hybridleistungsschalters,

Fig. 2 diese erste schematisch dargestellte Ausführungsform des Getriebes im ausgeschalteten Zustand,

Fig. 3 zeigt einen Schnitt durch eine zweite Ausführungsform eines stark vereinfacht und schematisch dargestellten Getriebes im eingeschalteten Zustand des Hybridleistungsschalters, und

Fig. 4 diese zweite schematisch dargestellte Ausführungsform des Getriebes im ausgeschalteten Zustand.

Show it:

1 shows a section through a first embodiment of a greatly simplified and schematically illustrated transmission in the switched-on state of the hybrid circuit breaker,

2 this first schematically illustrated embodiment of the transmission in the switched-off state,

Fig. 3 shows a section through a second embodiment of a greatly simplified and schematically illustrated transmission in the switched-on state of the hybrid circuit breaker, and

Fig. 4 shows this second schematically illustrated embodiment of the transmission in the switched-off state.

In all figures, elements with the same effect are the same Provide reference numerals. All for immediate understanding Elements not required by the invention are not shown or not described. To get a better one To achieve clarity of the figures is the most of the visible edges are not shown.

WAYS OF CARRYING OUT THE INVENTION

Figure 1 shows schematically a section through a first Embodiment of a highly simplified Transmission 29 in the switched-on state Hybrid circuit breaker. This hybrid circuit breaker has two not shown connected in series Extinguishing chambers on here, for example, against each other are angled. The one arcing chamber for example, a quenching chamber filled with insulating gas extends along a first longitudinal axis 1 and concentrically arranged to this, the other arcing chamber, for example a vacuum interrupter, is along a second longitudinal axis 2 extends and arranged concentrically to this. Here the two longitudinal axes intersect at an angle α, this angle α preferably in the range between 68 ° and 80 °. The two longitudinal axes are usually in one Plane, however, it is entirely possible to use these longitudinal axes to provide two levels arranged parallel to each other or in two levels, which are under a constructively meaningful Cut angle.

The hybrid circuit breaker is not one shown drive, which is usually at ground potential via a drive linkage 3, which is partly made of electricity insulating material, driven. The Drive linkage 3 is by means of a bolt 4 with a Direction of the first longitudinal axis 1 movable, tubular trained contact rod 5 connected. The contact rod 5 actuated, depending on the design of the filled with insulating gas Extinguishing chamber or contacts of the same. This arcing chamber is not shown here, as already explained. The Contact rod 5 is concentric with the first longitudinal axis 1 arranged and is in a fixed housing 6 in shown guide parts axially slidably. The Contact rod 5 has a slot 7 which is parallel to Drawing plane runs. In this slot 7 there is a roller 8 rotatable on a bolt 9 connected to the contact rod 5 stored, the axis of rotation 10 perpendicular to the first Longitudinal axis 1 runs and this usually intersects.

The roller 8 protrudes upwards out of the slot 7 and presses here a flat surface 11 of a rotatably mounted Setting disc 12 upwards. In the shown When switched on, this surface 11 runs parallel to first longitudinal axis 1. A pin 13 carries the link plate 12. The bolt 13 is rigid in one with the housing 6 connected guide housing 14 held. The guide housing 14 has an axial slot 15 in which the Link plate 12 based on the first longitudinal axis 1 in radial direction can move. The axis of rotation 16 of the Link plate 12 runs parallel to the axis of rotation 10 of FIG Roll 8. The bearings of the Roll 8 and the backdrop disc 12 are not provided insulating parts, which prevent during operation, stray currents flow through these bearings and can damage them. The guide housing 14 goes on the drive side in a schematically illustrated insulating housing 17 over. The housing 6 goes into a schematic on the drive side Insulated housing 18 shown. This insulating housing 17th and 18 carry the active parts of the hybrid circuit breaker. The surrounding the active parts of the hybrid circuit breaker Housing, which also the gas spaces of the Completing the hybrid circuit breaker externally not shown here.

Another pin 19 is rotatable in the link plate 12 stored, to which one end of a double lever 20 is articulated is the other end rotatably connected with a bolt 21 is. The bolt 21 is in a movable contact Actuating vacuum interrupter, not shown Contact rod 22 held. The contact rod 22 extends here concentric to the second longitudinal axis 2. With the housing 6 a flange 23 is firmly connected, which is not shown vacuum switching chamber carries and the contact rod 22nd leads. A stop part 24 is fixed in the flange 23 inserted which concentrically surrounds the contact rod 22. The contact rod 22 has a collar 25 on which one Disc spring package 26 supports. The plate spring package 26 is centrally by a cylindrical shoulder 27 of the Contact rod 22 out. On the federal 25th opposite side, the plate spring assembly 26 is supported against a first shoulder 24a of the stop part 24. The Disc spring package 26 is here in the switched-on position preloaded and ensures that the contacts of the switched on vacuum interrupter always with the necessary Contact force are pressed against each other.

A first arrow 28 indicates in which direction, here right, the drive, not shown, the drive linkage 3 and over this the contact rod 5, which the Switch-on movement of the quenching chamber filled with insulating gas caused, moved. The gear 29 sets this axial Movement of the contact rod 5 in a movement of the Contact rod 22 in one direction by a second Arrow 30 is indicated, this is diagonally upwards in Direction of the second longitudinal axis 2. Act in the gear 29 the following parts: the contact rod 5 with the stored roller 8, the link plate 12, the bolt 13 and 19, the double lever 20, the bolt 21 and the Contact rod 22, the gear 29 is actuated by the Drive linkage 3. The gear 29 links the movements of the two quenching chambers together and agrees Movements are technically meaningful. The Gear 29 is designed so that it is in the ON position acts self-locking, d. H. the hybrid circuit breaker will even in the event of vibrations without additional locking and in this position without force from the drive held.

Figure 2 shows a schematically illustrated section greatly simplified by the first embodiment of the shown gear 29 in the off state of Hybrid circuit breaker. An arrow 31 indicates the direction of the Switch-off movement on, here to the left, in which not shown drive the drive linkage 3 and this the contact rod 5, which with the switch-off movement Insulation gas filled extinguishing chamber causes, has moved. The Gear 29 converts this axial movement of the contact rod 5 in a movement of the contact rod 22 in one direction is indicated by a second arrow 32, here it is obliquely downwards in the direction of the second longitudinal axis 2. The Switch-off movement is ended when the federal government 25 of the Contact rod 22 on the shoulder 24 b of the stop part 24 strikes, the plate spring package 26 is then almost relaxed.

At the beginning of the switch-off movement, the roller 8 moves along the flat surface 11 of the link plate 12, wherein the preloaded plate spring assembly 26 the link plate 12 presses against the roller 8. Closes on the flat surface 11 tangent to a curved surface 33 with a Radius of curvature R. The radius of curvature R is slight larger than the radius of the roller 8, so that the roller 8, if it reaches this area, cannot jam. As soon as the roller 8 reaches the curved surface 33, presses with the force of the drive against this curved surface 33 and the setting disc 12 begins to rotate clockwise to rotate the axis of rotation 16, this rotation will supported by the stored in the disc spring package 26 Energy. The rotational movement of the link plate 12 is on the predetermined stroke of the vacuum interrupter. Immediately before the off position is reached Vacuum interrupter goes the curved surface 33 of the Link plate 12 in a tangential to the roller 8th running flat surface 34. The roller 8 stops when reached the switch-off position the vacuum interrupter by means of the Setting disc 12 and the other connected to it Items in their open position. The gear 29 is like this designed that it is self-locking even in the off position works, d. H. the hybrid circuit breaker is also used at Shocks without additional locking and without from Power to be applied drive held in this position.

By means of the outer shape of the link plate 12 Movement sequence of the vacuum interrupter optimally to that of the The quenching chamber filled with insulating gas was adapted. In addition, through this backdrop disc 12 the timing of the movement of the Vacuum interrupter based on the movement of the insulating gas filled extinguishing chamber controlled, for example temporal modifications in the movement sequence very easily Moving the roller 8 in the direction of the first longitudinal axis 1 be achieved.

Figure 3 shows a section through a second Embodiment of a highly simplified and schematic shown gear 29 in the switched-on state of the Hybrid circuit breaker. The one filled with insulating gas Extinguishing chamber, extends along a first longitudinal axis 1 and arranged concentrically to this, the other extinguishing chamber, for example, a vacuum interrupter is along one extends second longitudinal axis 2 and concentric to this arranged. Here the two longitudinal axes intersect an angle α. The two longitudinal axes are usually in one plane, however, it is entirely possible to use these longitudinal axes to be provided in two planes arranged parallel to each other or in two levels that are constructive under one cut meaningful angle. The one filled with insulating gas The extinguishing chamber is actuated by a contact rod 5. Of the remaining active parts of this quenching chamber is only here a metallic guide tube 35 is shown, which upwards has an axially extending slot 36, and which is rigidly connected to the arcing chamber. In this Guide tube 35 is a collar 37 of the contact rod 5 sliding guided.

On the drive side of this collar 37 is a cylindrical trained link part 38 added, which towards the top in the area of the slot 36 also an axially extended Has slot 39. The backdrop part 38 is both on the Front as well as on the back with a congruent trained guide slot 40 provided. In both Guide slots 40 becomes a cylindrically shaped bolt 41 led, the middle between the two Guide slots 40 carries the contact rod 22, which the Vacuum interrupter actuated. The contact rod 22 is in the Area of slots 36 and 39 flattened so that this Slots 36 and 39 are comparatively narrow can so that they the load capacity of the guide tube 35 and weaken the setting part 38 only insignificantly. The axis the bolt 41 is perpendicular to the plane of the drawing, the bolt 41 can shift when switching along a dashed line Line of action 42, which is also the center line of the Guide slots 40 is move. The dashed Line of action 42 initially runs parallel to the first Longitudinal axis 1, a section 42a of the dashed line Line of action 42 then slopes at an angle β of first longitudinal axis 1 and then goes back into a parallel section 42b extending to the first longitudinal axis 1. ever the larger the angle β is formed, the higher the Switch-off speed and also the switch-on speed the vacuum interrupter. The transition is dashed Line of action 42 from the parallel to the inclined section 42a axially shifted, so the switching times of the two Extinguishing chambers can be coordinated.

On the drive side, the two guide slots 40 are open, so that when installing the gear 29 of the bolt 41 of this side in the two guide slots 40 of the Set part 38 can be introduced. It is also possible, the guide slots 40 on the drive side somewhat funnel-shaped expand to facilitate insertion of pin 41. After inserting the bolt 41 is from the drive side ago introduced the drive linkage 3, at the Link part 38 facing the end of the bolt 4 and its Bracket 43 are rotatably mounted. The bracket 43 will centered by the link part 38 and by one with the Link part 38 screwed union nut 44 non-positively pressed against it and held in position. The Union nut 44 is tightened from the drive side and secured. The assembly of the gear 29 is in this way very easily possible. There are none inside the transmission 29 elaborate assembly and adjustment work necessary, what a advantageous rapid assembly allowed.

This second embodiment of the transmission 29 is also both in the on position and in the Switch-off position self-locking. They are not complex additional interlocks or to be applied by the drive additional holding forces are required, which is the hybrid circuit breaker advantageously cheaper.

FIG. 4 shows a schematically represented section greatly simplified by the second embodiment of the shown gear 29 in the off state of Hybrid circuit breaker. The arrow 31 indicates the direction of the Switch-off movement on, here to the left, in which not shown drive the drive linkage 3 and this the contact rod 5, which with the switch-off movement Insulation gas filled extinguishing chamber causes, has moved. The Gear 29 converts this axial movement of the contact rod 5 in a movement of the contact rod 22 in one direction is indicated by a second arrow 32, here it is obliquely downwards in the direction of the second longitudinal axis 2. Am At the beginning of the opening movement, the bolt 41 slides along the dashed lines of action 42 to the right. Since the dashed lines of action 42 initially parallel to the first Longitudinal axis 1, the pressure of the prestressed Disc spring package 26 initially no movement of the Effect contact rod 22 in the direction of arrow 32. As soon as the bolt 41 reaches the inclined portion 42a starts the movement of the vacuum interrupter in the switch-off direction. The Switch-off movement of the vacuum interrupter chamber is ended when the Bund 25 of the contact rod 22 on the shoulder 24b of the Stop part 24 hits, the plate spring assembly 26 is then almost relaxed. The bolt 41 then has the section 42b of the dashed line of action 42 reached. The Vacuum interrupter is then through the contact rod 22 in the Off position held.

Due to the easily mountable gear 29, the time required advantageously reduced for assembly work during overhauls Assembly is greatly simplified and the operational Availability of the hybrid circuit breaker becomes advantageous increased. The two shown embodiments of the Gear 29 are both in the on position and in the switch-off position self-locking. So there are none complex additional interlocks or from the drive additional holding forces to be applied, which the Hybrid circuit breakers are cheaper.

NAME LIST

1

first longitudinal axis

2

second longitudinal axis

3

drive linkage

4

bolt

5

contact rod

6

casing

7

slot

8th

role

9

bolt

10

axis of rotation

11

surface

12

link disk

13

bolt

14

guide housing

15

slot

16

axis of rotation

17.18

insulating

19

bolt

20

double lever

21

bolt

22

drive rod

23

flange

24

stop part

24a, 24b

shoulder

25

Federation

26

Belleville spring assembly

27

paragraph

28

arrow

29

transmission

30,31,32

arrow

33

curved surface

34

flat surface

35

guide tube

36

slot

37

Federation

38

link part

39

slot

40

guide slot

41

bolt

42

dashed line of action

42a, 42b

section

43

bracket

44

Nut

α

angle

β

angle

R

radius of curvature

Claims (7)

Hybrid circuit breaker with at least two quenching chambers connected in series and actuated by a common drive via a transmission (29) connected upstream thereof and each extending along a longitudinal axis (1, 2), characterized in that that the transmission (29) is designed to be pluggable from at least two transmission parts, a first transmission part being firmly connected to the at least one first arcing chamber and a second transmission part being connected to the at least one second arcing chamber, and that the transmission (29) has means which allow the movements of the at least two quenching chambers to be coordinated with one another in a technically meaningful manner and to be optimized with respect to the time sequence and the switching speed thereof. Hybrid circuit breaker according to claim 1, characterized in that the transmission (29) is designed to be self-locking both in the switched-on position and in the switched-off position. Hybrid circuit breaker according to claim 1 or 2, characterized in that that the two longitudinal axes (1,2) lie in one plane and intersect at an angle α, and that the angle α is less than 90 °. Hybrid circuit breaker according to one of claims 1 to 3, characterized in that that a first embodiment of the transmission (29) has a rotatably mounted link plate (12) and a roller (8) which engages with it, the roller (8) with the at least one first arcing chamber and the link plate (12) with the at least one a second arcing chamber is firmly connected, and that an axis of rotation (16) of the link plate (12) and an axis of rotation (10) of the roller (8) run parallel to one another. Hybrid circuit breaker according to one of claims 1 to 3, characterized in that that a second embodiment of the transmission (29) has a link part (38) with at least one guide slot (40) and a pin (41) engaging in the at least one guide slot (40), the link part (38) with the at least one first arcing chamber and the bolt (41) is firmly connected to the at least one second arcing chamber. Hybrid circuit breaker according to claim 5, characterized in that at least one securing element is provided which prevents the bolt (41) engaging in the at least one guide slot (40) from sliding out. Hybrid circuit breaker according to claim 6, characterized in that the securing element is designed as a union nut (44).

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