DE10222011C1 - Circuit breakers for high currents and low voltage - Google Patents

Abstract

The invention relates to a circuit breaker for high currents and low voltage, which has a lower part (2) with partitions (5), an actuating mechanism (30) mounted in side panels (28) with a toggle lever system (34) and a plurality of contact units (9 ... 11 ) having. The contact units (9 ... 11) contain several movable contact fingers (18) which are pivotally mounted in a U-shaped contact holder (24) against the action of contact pressure springs (26). A connecting web (38) made of insulating molded material is connected in one piece to the contact holders (24) and runs above the contact pressure springs (26). A holding plate (42) rigidly connected to the central contact unit (10) is articulated to the toggle lever system (34) and is pivotably mounted in the side panels (28). Flexible connecting conductors (17) connected to the contact fingers (18) are guided to associated busbars (13) in alignment with the pivot axis (51) of the holding plate (42).

Description

The invention relates to a circuit breaker for high currents and low voltage according to the preamble of claim 1.

Such a circuit breaker is known from the document EP 0 206 882 B1. A housing made of insulating molding material consists of a lower part and a on this upper part to be screwed on and is made by parallel inner twos partition walls divided into several adjacent polar spaces. An actuator supply mechanism, one corresponding to the number of poles of the circuit breaker and actuated by the actuating mechanism number of contact units, supplied appropriate arc extinguishing units, incoming and outgoing connection means and tripping set means for automatic opening of the contact units when exceeded limit conditions due to the currents flowing through the contact units stored in the lower part and partially fastened there. Each polar space has one fixed contact connected to the bottom part and several arranged in parallel movable contact fingers. The movable contact fingers are against the effect limited by contact pressure springs in a U-shaped metallic contact holder stored. The contact holders are in the opposite direction from the contact pressure springs ver all poles with a connecting web extending across the pole spaces screwed. The connecting bridge consists of a stan overmolded with plastic gen-like steel core and is rotatably mounted between the lower part and the upper part. To corresponding bearing points are formed in the partition walls. At the ver Shielding segments are integrally formed, which engage in deep grooves in an insulating manner, the recesses provided for the connecting web in the intermediate connect walls. The contact holder of the middle pole is articulated with lower ones Toggle levers of a toggle lever system belonging to the actuating mechanism connected. The actuation mechanism has in addition to the toggle lever system an operating lever, an energy accumulator, a support lever that can be locked and unlocked and a latching mechanism that is operatively connected to the triggering means on. The actuation mechanism is mounted between two side panels, which are in turn fastened in the lower part. Take using the actuation mechanism the contact fingers compared to the fixed contacts an open or ge  closed position. The contact fingers are in the opposite direction from the Fixed contacts and beyond their bearing axis in the contact holders with one fle xiblen connecting conductor connected, which runs below the connecting web and is connected at the other end to a fixed busbar.

A disadvantage of this solution is that in the interaction of the metallic Contact holder with the metallic actuation mechanism and the connection there is a not inconsiderable risk of electrical voltage spreading between the pole spaces or the contact units. Furthermore, as a result the type of coupling of the contact units with the actuating mechanism and in follow only a moderate axis of rotation defined by the connecting web Compromise between the opening angle of the contact units, the force transfer gung from the operating mechanism to the contact holder and the opening and the closing speed of the contact units can be obtained. The flexible ver Binding conductors are determined by their arrangement and length during switching operations significantly compressed or stretched, so that the connecting conductor is not one are exposed to negligible wear as well as considerable forces on the Exercise contact fingers and thus adversely affect their dynamics during switching operations influences.

The invention is therefore based on the object of several contact units existing contact system with regard to its isolating, kinematic and dyna mix properties to improve.

Starting from a circuit breaker of the type mentioned in the beginning be solved according to the invention by the features of the independent claim, wäh rend the dependent claims advantageous developments of the invention ent are take.

The arrangement of the steel core directly above the contact pressure springs means that Deformation of the connecting web is very low, since it is only due to bending and not subjected to twisting as with a torsion shaft with long lever arms is, the pivot axis in a simple manner by the in the side panels of the actuating mechanism mounted retaining plate is determined. This will despite the advantageous one-piece design of contact holders and connecting web the transmission of high contact forces with a low permissible deformation of the  Movable parts of the contact units improved. By storing the stop sheet and thus the moving parts of the contact system in the side panels the actuating mechanism does not exist across the housing Bearing axis for these moving parts. This can be advantageously done actuation mechanism free of electrical voltage with the contact system combine a compact design, an electrical voltage ver dragging via the metallic actuation mechanism is avoided. In order to the largest possible air and creepage distances between the individual poles clear and between these and those connected to the actuating mechanism NEN controls realize what is particularly advantageous at the top Low voltage limit, d. H. at 1000 V, affects. The geometrical position of the The pivot axis of the contact holder can be set independently of the current paths. Experience through their optimal guidance in extension to the mentioned pivot axis the flexible connecting conductors - i. Gen. Stranded wire - during switching operations only a small relative movement and can be made significantly shorter, with a large opening distance between the fixed contacts and the contact fingers can be realized. The significantly reduced relative Movement of the connecting conductors reduces their compression or expansion. That has on the one hand less wear of the connecting conductors and on the other hand a ge result in less force being applied to the contact fingers by the connecting conductors, which leads to improved switching dynamics of the contact fingers. The convenient location the mentioned pivot axis and the compact design of the connecting web allow a quasi direct power transmission from the support lever of the actuation mecha nism, d. H. over the short distance from the one with one end in the support lever and connected at the other end to the holding plate and almost stretched Toggle lever system, on the moving parts of the contact system. Rela tivly short opening times of the contact system when the circuit breaker trips can be achieved. The side panels can be designed in the usual way as sheets his. The partition walls can also serve as side panels.

A further development of the invention consists in the advantageous design of the stop sheet. The bracket has a sufficient U-shaped design Rigidity. The direct connection of the retaining plate to the connecting bridge works has a positive effect on the torsional rigidity of the moving parts of the contact units out. For a favorable torque transmission from the toggle lever system of the actuation Mechanism on the contact units are lower toggle levers approximately in the middle between  the attachment to the connecting web and the storage in the sides blind articulated. In a further development of the invention, the bearings len realized by rivet joints to save space.

The forces to be absorbed by simple side support brackets increase the bending stiffness of the moving parts of the contact units. This advantage has an effect especially for circuit breakers with more than three poles. The moving parts the contact system are in this way additional at the two lateral ends intercepted to give the construction the greatest possible stability. The support brackets also do not need a continuous swivel, in Lower part of the swivel axis. The pivotable mounting of the support straps preferably follows via space-saving rivet joints, which are fixed in the lower part Support angles are connected.

Further details and advantages of the invention will become apparent from the following hand of figures illustrated embodiment. Show it

Figure 1 shows a three-pole circuit breaker according to the invention in abgenomme Nem upper part of the housing and remote actuating mechanism in a perspective, essentially seen from the front view.

FIG. 2 shows a partial perspective view of the circuit breaker according to the invention, as seen from the bottom left compared to the illustration of FIG.

Fig. 3 shows a further partial perspective view of the power switch according to the invention, compared to the illustration of FIG. 1 from the top left hen.

The three-pole low-voltage circuit breaker designed for high currents is surrounded by a molded housing, of which only the lower part 2 is shown in FIG. 1. The lateral outer walls 4 and the two partitions 5 serve for the lateral limitation of three parallel pole spaces 6 to 8 . Contact units 9 , 10 and 11 are assigned to pole spaces 6 to 8 . Each contact unit 9 , 10 , 11 consists of a fixed contact 16 fixed in the lower part 2 , a plurality of parallel movable contact fingers 18 and an arc extinguishing unit 20th The contact fingers 18 belonging to a contact unit 9 , 10 or 11 are pivotally supported in a U-shaped contact holder 24 to a limited extent by means of a pivot axis 22 and are supported in a known manner against contact pressure springs 26 . The fixed contacts 16 are connected to first connection terminals 14 via first busbars 12 . The contact fingers 18 are connected via flexible connec tion conductor 17 to second busbars 13 , to which not shown Darge connect second terminals.

On the bottom 3 of the lower part 2 , two side panels 28 are fastened in parallel at a distance, which encompass the contact unit 12 of the central pole and between which an actuating mechanism 30 is movably mounted. The operating mechanism 30 includes an operating lever 32 , via which the circuit breaker can be operated from the outside. The actuating mechanism 30 furthermore has a toggle lever system 34 and can be triggered by triggering means, not shown. The construction and the mode of operation of such a conventional actuating mechanism 30 can be seen from the aforementioned EP 0 206 882 B1. The toggle lever mechanism 34 is connected to a spring force accumulator and has an upper toggle lever and two lower toggle levers 36 connected to it via a toggle lever axis.

The contact holders 24 of all contact units 9 to 11 are connected to one another via a transverse connecting web 38 . The contact holder 24 and the connec tion web 38 have been made in one piece from insulating molding material, a likewise transverse rod-like steel core 40 being extrusion-coated. The steel core 40 running above the contact pressure springs 26 gives the movable system consisting of the three contact holders 24 and the connecting web 38 sufficient rigidity both against bending and against twisting. A U-shaped holding plate 42 surrounds with its middle leg 44 and its two outer legs 46 the contact holder 24 of the middle contact unit 10 and is screwed immovably to the connecting web 38 via two bends 48 at its end facing the arc extinguishing unit 20 . At the other end of the holding plate 42 , the outer legs 46 are each pivotably mounted in the side panels 28 via a bearing point 50 designed as a rivet joint. The pivot axis 51 of the holding plate 42 runs through the bearing points 50 . In order to be able to transfer the contact units 9 to 11 from an open position to a closed position or vice versa, the holding plate 42 is connected in its central region with its outer legs 46 via likewise rivet-shaped joints 52 to the lower toggle levers 36 .

The connecting conductors 17 run approximately in a plane which includes the connecting points of the connecting conductors 17 with the contact fingers 18 and the pivot axis 51 , so that the connecting points of the connecting conductors 17 with the second busbars 13 are also approximately in this plane. The connec tion ladder 17 have a relatively small length, are subjected to only small upsetting and stretching movements and thus low internal friction conditions when switching operations and exert relatively low forces and torques on the contact finger 18 .

In order to enable the switching movements, elongated cutouts 54 for the connecting web 38 are provided in the intermediate walls 5 . The formed from the contact holder 24 and the connecting web 38 further contains four shielding segments 56 and 57 , each of which runs in pairs and at a close distance from the sides of the intermediate walls 5 . In this way, despite the existing savings 54 in the area of arcing, shielding between adjacent pole spaces 6 , 7 and 7 , 8 is effected. This protective measure against transverse short-circuits and carry-over of voltage as a result of arcing gases when external short-circuits occur is further improved considerably by inserting inserts 58 made of gassing material on both sides into the arc extinguishing units 20 , which extend to just before the connecting web 38 in the region of the cutouts 54 .

To bending of the connecting web and 9 to face 38 a non-uniform switching of the contact units to 11 under high mechanical loads even better, 24 support tabs 60 are secured in sheet-metal blank movably on the outer sides of the units to the two outer contact 9 and 11 belonging to the contact holder, which are pivotally mounted in the lower part 2, running at a short distance from the outer walls 4 . Each an articulated rivet connection 62 ver binds one of the support tabs 60 , each with a support bracket 64 . The support brackets 64 are fastened in the lower part 2 in such a way that when the second busbars 13 are screwed into the lower part 3, they are fixed in a non-positive and positive manner between a step 66 formed in the associated busbar 3 and the base 3 .

LIST OF REFERENCE NUMBERS

2

lower part

3

ground

4

exterior walls

5

partitions

6

,. , ,

8th

Polräume

9

, , ,

11

Contact units

12

;

13

busbars

14

terminals

16

fixed contacts

17

connecting conductors

18

contact fingers

20

Arc extinguishing units

22

swivel axis

24

contact holder

26

Contact springs

28

side panels

30

actuating mechanism

32

actuating lever

34

Toggle system

36

lower toggle

38

connecting web

40

steel core

42

Halteblech

44

middle leg

46

outer leg

48

angulation

50

bearings

51

swivel axis

52

joints

54

recesses

56

;

57

shield segments

58

Calls

60

support tabs

62

rivet

64

support bracket

66

gradation

Claims (7)

1. Circuit breaker for high currents and low voltage containing
a Formge housing composed of a lower part ( 2 ) and an upper part with pole spaces formed by parallel partition walls ( 5 ) ( 6 ... 8 ),
an actuating mechanism ( 30 ) which has a toggle lever system ( 34 ) and is mounted in fixed side panels ( 28 ),
release means interacting with the actuating mechanism ( 30 ),
(.. 6. 8) to the number of Polräume corresponding number of contact units (9... 11), each having an output connected to the lower part (2) fixed contact (16) and a plurality of parallel movable contact fingers (18) in a U-shaped contact holder ( 24 ) against the effect of contact pressure springs ( 26 ) to a limited extent, and are connected via flexible connecting conductors ( 17 ) to fixed busbars ( 13 ), as well as an arc extinguisher unit ( 20 ), the one middle pole space ( 7 ) belonging contact unit ( 10 ) is articulated to the toggle lever system ( 34 ),
a transverse, the contact holder (24) of all the (... 9 11) contact units connecting the connecting web (38) that includes a molded with insulating mold material rod-like steel core (40),
characterized in that
the contact holders ( 24 ) consist of insulating molded material and are connected in one piece to the connecting web ( 38 ), the steel core ( 40 ) running above the contact pressure springs ( 26 ),
a holding plate ( 42 ) is rigidly connected to the connecting web ( 38 ) in a central pole space ( 7 ), is articulated to the actuating mechanism ( 30 ) and is pivotably mounted in the side panels ( 28 ) and
the flexible connecting conductors ( 17 ) are guided in alignment with the pivot axis ( 51 ) of the holding plate ( 42 ) on the associated busbars ( 13 ). 2. Circuit breaker according to the preceding claim, characterized in that the holding plate ( 42 ) is U-shaped, with its outer legs ( 46 ) laterally engages around the contact holder ( 24 ) of the central contact unit ( 10 ) and is mounted in the side panels ( 28 ) , 3. The circuit breaker according to the preceding claim, characterized in that the retaining plate (42) having a threaded end is at least is at its center leg (44) bend (48) formed on the connecting web (38). 4. Circuit breaker according to the preceding claim, characterized in that approximately in the middle between the at least one bend ( 58 ) and the bearings ( 50 ) of the outer legs ( 46 ) in the side panels ( 28 ) lower toggle lever ( 36 ) of the toggle lever system ( 34 ) are articulated on the outer legs ( 46 ). 5. Circuit breaker according to one of the preceding claims, characterized in that the bearing points ( 50 ) of the retaining plate ( 42 ) in the side panels ( 28 ) are designed as rivet joints. 6. Circuit breaker according to one of the preceding claims, characterized in that in each case a support tab ( 60 ) on the one hand immovably with the contact holder ( 24 ) of the two outer contact units ( 9 , 11 ) and on the other hand articulated in the lower part ( 2 ) , 7. Circuit breaker according to the preceding claim, characterized in that in each case a support tab ( 60 ) is connected via an articulated rivet connection ( 62 ) to a support bracket ( 64 ) which in turn is between the fixed busbar ( 13 ) of the respective contact unit ( 9 , 11 ) and the bottom ( 3 ) of the lower part ( 2 ) is fixed.