DE102008015810A1 - Installation switchgear, particularly selective protective switch for electric meter system, has housing comprising mounting side, front and rear face, and wide, front and rear narrow sides connecting mounting side and face - Google Patents

Abstract

The installation switchgear has a housing with a mounting side, a front and rear face. The wide, front and rear narrow sides connect the mounting side and the face. The main current path is extended between an input terminal and an output terminal. A current limiting resistor (1) is connected with a bus bar (2) at a contacting side (32). The current limiting resistor is arranged adjacent to a housing narrow side.

Description

The The invention relates to a service switching device with a a mounting side, front and back fronts and the fastening and the front connecting width and front and rear narrow sides enclosing housing, with a between an input and an output terminal extending main current path, the main contact point provided with an arc quenching chamber, a striker system, which is the main contact point in the open position and a main bimetallic strip containing can act on a switch lock with latching point opening, with a secondary current path, in which a current limiting resistor and also acting on the switch lock selective thermal bimetal and a release pad openable by the switch lock arranged are, according to the preamble of claim 1.

generic Installation switching devices are, for example, as selective Main circuit breaker or SH-switch known. Such devices For example, in an electricity meter system before Counter in the meter box of an electrical house installation used, and thus before the installation distributor of a Household wiring system. Its purpose is selective switching at Occurrence of a short circuit.

selective Switching means time-delayed shutdown. One SH switch is provided with a time delay, causing it at a short circuit current in one of the downstream circuits does not switch off immediately, but only after a certain delay time would turn off. Within this delay time has the circuit breaker of that subordinate circuit, in the short circuit occurred, the chance to short circuit automatically switch off and interrupt the circuit. In this case switches the SH switch not, and the supply of the rest, undisturbed circuits remain unaffected. Only if the short-circuit current always after the end of the delay time is still present, the SH-switch interrupts the power supply to the counter and thus to all downstream circuits.

you distinguishes voltage-independent and voltage-dependent SH switch.

at a voltage-independent SH-switch is the selectivity achieved in that the current when a short circuit occurs first through the opening of a so-called main contact point redirected from the main current path to a parallel subcurrent path and thereby by a so-called selective resistance, which a Current limiting resistor is limited. Between the and output terminals now flows a limited short-circuit current. In the tributary path is a time-delayed interrupt element, mostly a bimetallic bimetallic often called a selective bimetal. After the delay time, this bends so far from that a coupling with a trigger element of a switching mechanism is effected, thereby releasing a latch in the switch latch and thereby a so-called secondary contact point together with the main contact point permanently open, causing the current path between the input and output terminals is completely interrupted.

Besides The main bimetal is still in the main current path. This is a trigger with a long delay in known manner when occurring over a longer Time of applied overload current in the main current path itself so far deflected that also a coupling with the trigger element the switching mechanism is effected, whereby in the switch lock the Latch solved and thus also the secondary contact point permanently open together with the main contact point which then causes the current path between the input and output terminals is completely interrupted.

Generic installation switching devices are for example from the DE 195 26 592 C2 or the DE 10 2004 019 175 A1 known.

If the current limiting resistor after the commutation of the short circuit current of flows through it, it creates a considerable heat, the effective to avoid a component failure of the current limiting resistor must be dissipated. at previously known generic service switching devices the heat removal is done by the current limiting resistor by radiation and convention inside the case. If generic installation switching devices otherwise at least the same functionality smaller and be built more compact, so could in the Prior art hitherto known and only used type of heat dissipation of the current limiting resistor is no longer sufficient.

It is therefore the object of the present invention, a generic Installation switching device to create, even with small and compact external dimensions effective heat dissipation ensured by the current limiting resistor.

The Task is solved by a generic Installation switching device with the characterizing features of claim 1.

Thus, according to the invention, the current rate is tion resistance at a first contact side surface connected to a first bus bar. In particular, if the first busbar is designed as a solid component which has good heat and current conductivity, a very good heat dissipation by heat conduction from the current limiting resistor via the first busbar is made possible by the areal connection between the current limiting resistor and this busbar. For example, the first busbar could be advantageously formed in the form of a solid copper conductor.

The Heat dissipation by heat conduction can advantageously directed, so that specifically heat-sensitive areas in the inside of the unit not by the waste heat of the Current limiting resistor over charge in addition be charged. In addition, the heat dissipation by heat conduction more effective than heat dissipation, which relies only on convection and radiation, as in the art known.

According to one Particularly advantageous embodiment is the current limiting resistor in a first partition part comprising a first partition wall between a terminal and the arc extinguishing chamber arranged. This arrangement according to the invention offers several advantages. The current limiting resistor is due to the installation in the first housing part region, which by a first Dividing wall is separated from the arc quenching chamber, protected from the effects of the arc, so that a additional heating of the current limiting resistor due to an arc, which in case of a short circuit switching action arises, is prevented. Another advantage is that a spatial potential separation compared to the remaining interior of the device can be achieved in this way can.

By the inventive arrangement of the current limiting resistor between a terminal and the arc extinguishing chamber can the current limiting resistor in a further particularly advantageous Embodiment near a narrow side of the housing, so near the edge of the Housing, be arranged. This can be particularly advantageous the heat of the current limiting resistor by radiation be discharged to the outside.

In Another very advantageous embodiment is the first busbar at its free end with the selective thermal bimetal connected. This has the beneficial effect of being by heat conduction from the current limiting resistor via the first bus bar derived heat is fed directly to the selective thermal bimetal.

For sees the further contacting of the current limiting resistor a further very advantageous embodiment of a switching device according to the invention in that the current limiting resistor at a second contacting side by a contact pressure spring from a second busbar ago is pressurized. This pressurization can be beneficial Embodiment by the force of a contact pressure spring be effected. The force of the contact pressure spring can then in a Another advantageous embodiment of a Contact plate on a second contacting side of the current limiting resistor be directed.

The Heat dissipation via the contact pressure spring on the second contacting side is less effective than the heat dissipation over the flat contact on the first contacting side. In this way, a preferred direction of the heat conduction caused Heat removal from the current limiting resistor reached out become. It may be favorable that the heat is preferred over The first busbar is derived so that they directly to the selective-bimetallic is supplied.

In a further advantageous embodiment of an inventive Installation switching device is the second busbar connected to the output terminal and the main bimetallic strip.

Especially advantageous is an embodiment of the invention, in the current limiting resistor designed as a ceramic resistor block is. In such a ceramic resistance block can the contact surfaces favorably so prepared be that a very good heat transfer over allows the surface contact with the first busbar becomes. Ceramic resistance blocks also allow the, Current limiting resistor very small and compact to build the Overall, the current limiting resistor according to the present invention between two busbars non-positively held. Due to the adhesion, both the mechanical Fixation as well as the electrical contact with the busbars.

As already mentioned, in addition to the heat dissipation by directed heat conduction, the heat dissipation out of the current limiting resistor also by convection inside the device and by radiation. An inventive Installation switching device thus allows a effective heat removal from the current limiting resistor through a targeted combination of heat conduction, heat radiation and convection, due to the invention Installation of the current limiting resistor cumulative effect complete.

Based of the drawings, in which an embodiment of the invention is shown, the invention and further advantageous embodiments and improvements of the invention explained in more detail and described.

It demonstrate:

1 the inventive holder of the current limiting resistor between two busbars, and

2 schematically an overall insight into an inventive installation switching device.

In the figures are the same or equivalent components or assemblies denoted by the same reference numerals.

It will be the first 2 considered. This shows a schematic representation of an insight into an inventive installation switching device 10 in which a housing half shell has been removed. The service switching device 10 includes an insulating material housing 18 which has a frontal front 14 , rear fronts 15 , a mounting side 12 , as well as front and back narrow sides 16 . 17 having. Between an input terminal 21 and an output terminal 20 the device carries a main current path. This runs, starting from the clamp 20 , via a busbar referred to here as a second busbar 6 , one at the free end of the busbar 6 attached main thermostatic bimetal 7 , farther from the free end of the main bimetallic strip 7 over a strand 40 to which the movable contact piece 44 the main contact point 22 bearing contact lever, from the fixed contact piece 46 the main contact point 22 over a power rail 47 to the impact anchor system 23 and continue to the terminal 21 ,

If due to a short-circuit current, the impact armature system 23 the main contact point 22 The current flow then commutates to a secondary current path which, starting from the terminal, shuts off and thus interrupts the main current path 20 and the clamping spring 8th , via a contact pressure spring 5 , the current limiting resistor 1 and one as the first busbar 2 designated busbar to a selective thermal bimetallic strip 3 runs, from the free end of the selective bimetallic strip 3 over a strand 48 to the fixed contact piece of the isolating contact point 25 , further from the movable contact piece of the isolating contact point 25 over a strand 49 to the fixed contact piece 46 the main contact point 22 , There the secondary road meets the main road.

The free end of the selective bimetallic strip 3 is with a slider 50 coupled when the selective bimetallic 3 far enough in its thermal release direction, in the representation of the 2 So, clockwise upwards, has bent, the release lever 51 of the switch lock 24 pressed, whereupon the Verklinkungsstelle in the switch lock 24 is unlatched and the switch lock 24 via the sub contact lever 52 the isolating contact point 25 opens. Now the current flowing through the device between the two terminals 20 . 21 completely interrupted. The general mode of operation of the switching device described here is already in the patent application DE 10 2007 020 114 to which reference is expressly made in this regard.

It will now be the 1 considered. The 1 shows a detail view of the current limiting resistor 1 and its mounting between the first busbar 2 and the second busbar 6 , The current limiting resistor 1 is designed as a thermal resistance block with parallel side surfaces. At his first contact page 32 he is in close area contact with the first busbar 2 , This contact can be further improved by using a thermal paste in view of a particularly good heat transfer from the current limiting resistor 1 towards the first busbar 2 be executed optimized. At the second contacting side 34 pushes a contact spring 5 a contact plate 4 against the current limiting resistor 1 , The contact pressure spring 5 supports with its other end while a projection of the second busbar 6 from. Thus, the current limiting resistor 1 by the clamping force effect of the contact pressure spring 5 between the first and the second busbar 2 . 6 clamped electrically conductive.

The heat transfer between the first contacting side 32 and the first busbar 2 is very good, which is caused on the one hand by the large contact surface and on the other hand by a possible support by using a thermal grease. the heat transfer between the second contacting side 34 and the second busbar 6 however, it is worse. This is because he uses the contact pressure spring 5 is effected. This has a smaller cross section and thus represents a higher resistance for the heat conduction. Overall, therefore, by the inventive attachment of the current limiting resistor a preferred and thus directed heat transfer from the current limiting resistor 1 out over the first contact page 32 in the first busbar 2 into it.

This is advantageous because it makes the selective bimetallic bimetal 3 very intense at the out of the current limiting resistor 1 dissipated heat is coupled. The in the current limiting resistor 1 occurring heat is fast on the selective thermal bimetal 3 transfer, which can then turn off quickly.

It will be the again 2 considered. The space 27 between the main contact point 22 and the current limiting resistor 1 is intended for receiving an arc splitter device. This is not shown here, but it would be available in a fully assembled device. Usually used as an arc splitter plate means an arc splitter stack, in which the opening of the main contact point 22 There resulting switching arc over arc guide rails, of which in the illustration according to the 2 only the movable contact piece 44 assigned arc guide rail 42 is shown, led into it and extinguished.

The current limiting resistor 1 is in a separate housing part area 30 housed by the installation space 27 the arc splitter plate device by at least one partition wall 28 is separated. This is the current limiting resistor 1 from that at a switching operation at the main contact point 22 emerging arc effectively shielded. An additional heating of the current limiting resistor 1 For example, due to heat radiation, which would emanate from the switching arc can thus be avoided.

1

Current limiting resistor

2

first conductor rail

3

Selective thermostatic bimetal

4

contact plate

5

Contact pressure spring

6

second conductor rail

7

Main thermal

8th

compression spring the terminal

9

Housing interface

10

Selective circuit breaker

12

mounting side

14

front front

15

rear front

16

front narrow side

17

rear narrow side

18

casing

20

output terminal

21

input terminal

22

Main contact point

23

Impact armature system

24

switch lock

25

Isolating contact point

26

handle

27

Arc chute

28

first partition wall

30

first Housing section

32

first contacting side

34

second contacting side

40

braid

42

arc guide

44

portable contact piece

46

solid contact piece

47

conductor rail

48

braid

49

braid

50

pusher

51

sear

52

Besides contact lever

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 19526592 C2 [0007]
• DE 102004019175 A1 [0007]
• - DE 102007020114 [0028]

Claims (8)

Installation switching device, in particular selective circuit breaker ( 10 ), with a mounting side ( 12 ), a front and back front ( 14 . 15 ) and the attachment and the front connecting wide and front and rear narrow sides ( 16 . 17 ) comprehensive housing ( 18 ), one between an input terminal and an output terminal ( 20 . 21 ) running main current path, one with an arc extinguishing chamber ( 27 ) provided main contact point ( 22 ), an impact anchor system ( 23 ), which is the main contact point ( 22 ) and a main bimetallic strip ( 7 ), which is on a switch lock ( 24 ) with latching point can open, with a Nebenstrompfad, in which a current limiting resistor ( 1 ) and also on the switch lock ( 24 ) acting selective bimetallic ( 3 ) and one of the switch lock ( 24 ) Openable isolating contact point ( 21 ) are arranged, characterized in that the current limiting resistor ( 1 ) on a first contacting side ( 32 ) surface with a first busbar ( 2 ) connected is. Installation switching device according to claim 1, wherein the current limiting resistor ( 1 ) in a first partition wall ( 28 ) comprehensive first housing part area ( 30 ) between a terminal ( 20 . 21 ) and the arc quenching chamber ( 27 ) is arranged. Installation switching device according to claim 2, wherein the current limiting resistor ( 1 ) near a housing narrow side ( 17 ) is arranged. Installation switching device according to claim 1, wherein the first busbar ( 2 ) at its free end with the selective thermal bimetal ( 3 ) connected is. Installation switching device according to claim 4, wherein the current limiting resistor ( 1 ) on a second contacting side ( 34 ) by a contact pressure spring ( 5 ) from a second busbar ( 6 ) is pressurized. Service switching device according to claim 5, wherein the force of the contact pressure spring ( 5 ) via a contact plate ( 4 ) on a second contacting side ( 34 ) of the current limiting resistor ( 1 ). Installation switching device according to claim 5, wherein the second busbar ( 6 ) with the output terminal ( 20 ) and the main bimetallic strip ( 7 ) connected is. Installation switching device according to one of the preceding claims, characterized in that the current limiting resistor ( 1 ) is designed as a ceramic resistor block.