DE102009010900A1 - Actuator for electrical switching arrangement, has flow path arranged in Bowden cable, where two switching contacts are separated, when current flowing through switching contacts has exceeded certain threshold - Google Patents

Abstract

The actuator (10) has a flow path (4) arranged in Bowden cable. Two switching contacts (2,3) are separated, when a current flowing through the switching contacts has exceeded a certain threshold. A movable section of a wall of a blow-out channel is provided as movable element, which changes the length of the blow-out channel by its movement.

Description

The The invention relates to a trigger for an electrical Switching arrangement which is arranged in the course of a first current path and having at least two switch contacts which are disconnected when the current flowing through the switch contacts a has exceeded a certain threshold. The switch contact arrangement includes an actuator responsive to pressure in the separation zone of the switching contacts by a at electrodynamic Recoil of the switching contacts pulled arc is generated, and the one the automatic interruption the current path causing shutdown mechanism actuated. The actuator has a movable element, on the one hand by the pressure and on the other by a restraint device With adapted spring force is applied so that it at a pressure that is used to actuate the shut-off mechanism lead, performs a predetermined control movement.

The The invention further relates to an electrical circuit arrangement with such a trigger.

The The invention relates in particular to current-limiting switching arrangements in the low voltage range, that is up to voltages of about 1000 volts. Such current limiting switching arrangements are in particular for the interruption of current paths in a short circuit or formed in an overcurrent case. Furthermore, such current-limiting switching arrangements unipolar or multipolar, in particular three-pole, be executed. You can ever switch pole have one or more switching contact pairs. In particular, these are electrical switching arrangements for switching off currents of more than 100 A, in particular of several kA.

So are, for example, when using current-limiting switching devices, in particular current-limiting circuit breaker ter example in the form of MCCBs (Molded Case Circuit Breaker) in widely branched power distribution networks, selective graduations with a minimum nominal current distance of the switching devices involved usual. Each branching level can depend on the Connected consumers with a correspondingly dimensioned Switching device against occurring overloads and short circuits to be protected. In this case, for example, a switching device, that is closest to a consumer and that often as consumer-oriented or downstream switching device is designated for the lowest rated current. Now flows a short-circuit current both by the consumer Switching device as well as by a switching device, the in the hierarchy of the power distribution network over the consumer Switching device arranged and often as consumer distant or upstream switching device is called, so shall only switch off the consumer-oriented switchgear. With others Words should in the event of a fault (short circuit) only the switching device, closest to the event, interrupting the flow of current. The switching contact pairs of the consumer and consumer away Switching device draws an arc when opened, wherein the opening width of the switching contact pairs and also the arc energy at the consumer-oriented switching device due to the lower moment of inertia of its mobile Current path including the switching contacts are higher. This under certain circumstances only unipolar opening must be one all-pole disconnection of the consumer-oriented switching device consequences. The consumer remote switching device must not switch off, not to disconnect other consumers from the distribution grid. The consumer remote switching device may be supportive act, so for example by limiting the current to shutdown contribute to the near-consumer switching device.

Switchgear, which behave staggered in power distribution networks act behave selective. To achieve this selectivity is it is necessary that the closest to the accident Switchgear the current paths of all switching poles faster as the parent switching devices interrupt.

Generic triggers and switching arrangements with such triggers, which are suitable for such a rapid interruption of current paths are, for example, from the German translation DE 691 10 540 T2 the European patent specification EP 0 455 564 B1 and from the german translation DE 692 17 441 T2 the European patent specification EP 0 538 149 B1 known.

The cited documents DE 691 10 540 T2 and DE 692 17 441 T2 each show in particular an electrical circuit arrangement in the form of a circuit breaker with insulating material, which includes two switching contacts per switching pole two in the closed position of the circuit breaker resiliently pressed against each other. The switching contacts can be separated by the action of electrodynamic recoil forces when the current flowing through the switching contacts exceeds a certain threshold, so as to effect a limitation of said current. The circuit breaker comprises an overload and / or short-circuit detection member for acting on a switch-off mechanism in the event of a fault, the automatic shutdown of the circuit breaker. Furthermore, the circuit breaker comprises an actuator which responds to an overpressure generated in the separation zone of said switch contacts by an electric arc drawn in electrodynamic recoil of the switch contacts to the Abschaltme operation of the circuit breaker. The actuator is a gas-tight unit, which is connected exclusively to the separation zone of the switching contacts and a movable element such. B. comprises a piston or a membrane with a limited control stroke. The movable element is acted upon on the one hand with the said overpressure and on the other hand by a return device with adapted effective force. The displacement of the movable element causes the triggering mechanism of the circuit breaker to be triggered, whereby said adapted action force return device is dimensioned to prevent unwanted tripping on a single overload or a response of a downstream current limiting circuit breaker.

The shutdown mechanism of the circuit breaker shown is thus triggered both by the overload and / or short-circuit detection member as well as by the independently acting pressure-dependent actuator. The tripping criterion used is the overpressure created when the arc is pulled, which is directly related to the arc energy. In other words, the higher the arc energy, the more the pressure increases. By evaluating the overpressure, an energy-selective shutdown of said circuit breaker is thus possible, the energy selectivity representing a selectivity type used in particular in low-voltage networks for disconnecting in the event of a short circuit, as in the case of Publication "Energetic Selectivity in Low Voltage Networks", Schneider Electric, Technical Issue No. 167, May 1994 issue is described.

Other generic triggers and generic switching arrangements are from the publications US 3,631,369 A and EP 1 266 387 B1 known. These comprise, for actuating a shut-off mechanism, in each case an actuating member, in the form of a lever, which forms a storage surface in a gas outlet channel. In this case, the actuating member is deflected by a gas flow, which flows as a result of an overpressure generated by the arc in the gas outlet channel.

outgoing from this prior art it is an object of the invention specify an alternative trigger.

The The object of the invention is achieved by a trigger with the Characteristics of claim 1 solved. Advantageous embodiments are indicated in the dependent claims.

According to the invention as a movable element, a movable section of a wall of a blow-out duct provided by its movement the length of the blow-out changed.

One such trigger and one with such a trigger provided switching arrangement allow a free outflow the resulting due to the arc switching gases to the outside. One Outlet of switching gases from the exhaust duct into the interior of the electrical Switching arrangement is safely excluded, so it's not too Isolation problems can come after short circuits.

The individual switching poles of the electrical switching arrangement can in particular with regard to the length of the blow-out channel and the embodiment of its movable portion substantially identical triggers are assigned, so that independent in which of the switching poles the switching contacts due to a Short circuit are separated, the respective trigger equal respond quickly to actuate the shut-off mechanism.

Transverse to the switching poles running pressure lines, as they are from the publications DE 691 10 540 T2 or DE 692 17 441 T2 are known are then avoided.

One particularly fast response of the invention Trigger can be ensured by the fact that the Blow-out channel near the separation zone of the contacts - so for example in an arc splitter receiving portion of a the switching contacts surrounding switching room - opens.

To a preferred embodiment of the invention is the movable section in the manner of a trombone train as a U-shaped curved tube formed, the two parallel extending, frontally open ends of the exhaust duct over.

To Another preferred embodiment is the movable one Section in the manner of a T as a closed end tube piece is formed, the two parallel frontally open Ends of the exhaust duct overlaps.

Advantageous it is when the movable section is an actuating flag comprising the shutdown mechanism directly or indirectly via at least an intermediate member actuated.

Of the Blow-out channel having the movable portion may be preferred form a bypass (sub-channel) to a Hauptblbanalanal, because then the free outflow of the switching gases through the Hauptblastkanal not by a storage area or a cross-sectional constriction is hampered.

The invention and advantageous Ausführun Gen of the invention will be described below with reference to the following figures. Show it:

1 a schematic representation of an electrical circuit arrangement with a trigger according to the invention as a pressure sensing element and

2 a first embodiment of the trigger according to the invention with a movable element, which is formed by a trombone-like movable portion of a blow-out,

3 a section through the movable portion according to the 2 .

4 a second embodiments of the trigger according to the invention with a movable element, which is formed by a pot-like movable portion of a Ausblaskanals, and

5 a section through the movable portion according to the 4 ,

The 1 schematically shows an electrical circuit arrangement 1 in the form of a single electrical switching device (for example, a low-voltage circuit breaker) with two switching contacts 2 . 3 to interrupt a first current path 4 a first switching pole. A movable 2 of the switching contacts is of a rigid contact member 5 carried. The electrical switching device has a through a housing 6 limited first control room 7 for receiving the switching contacts 2 . 3 the first current on. A drive mechanism 8th of the electrical switching device is used to open and close the switch contacts. Furthermore, the electrical switching device has a shutdown mechanism 9 in the form of one in the course of the drive mechanism 8th arranged switching mechanism and a trigger 10 in the form of a pressure sensing element. In the first switch room 7 is due to an electrodynamic recoil of the switch contacts 2 . 3 drawn arc LB generates a pressure p, under the action of which trigger 10 (the pressure sensing element) triggering the shutdown mechanism 9 - So a release of the latching of the switch lock - causes the drive mechanism 8th for opening the switch contacts 2 . 3 to get started. The pressure sensing element forms an energy selective trigger (selective trigger) since the generated pressure p is substantially proportional to the energy of the drawn arc LB.

In the electrical switching device 1 are next to the trigger 10 (as pressure sensing element) also a thermal release 11 (as an overload detection element), an electromagnetic release 12 (as a short-circuit detector) and a manual trigger 13 provided by means of which the switching mechanism can be released to open the switch contacts. It can also be an electronic trigger 14 (As overload and / or short-circuit detection member) - So an ETU (for electronic trip unit) are provided.

The electrical switching device has parallel to that in the 1 shown switching room 7 more switching rooms, in which switching contacts further switching poles are arranged.

Like the ones in the 2 and 4 illustrated embodiments 210 and 410 of the trigger according to the invention, the trigger comprises a whole 215 ; 415 designated actuator which is responsive to the pressure p in the separation zone of the switch contacts 202 . 203 ; 402 . 403 is generated by the drawn in electrodynamic recoil of the switch contacts arc LB. The actuator has a movable element 216 ; 416 with a limited control track, which is acted upon by the pressure p and whose change in position in a given control movement, for example in the form of a predetermined linear Steuerhubes, the triggering of said shut-off mechanism by operating a collecting shaft 217 ; 417 causes, which are assigned to the moving elements of the remaining switching poles. A moving element 216 ; 416 with an adapted spring force acting restraint 218 ; 418 is also shown. The effect of this restraint device 218 ; 418 is dimensioned so that both an unintentional triggering of the shutdown mechanism in case of simple overload and a response of a downstream current limiting switching device is prevented.

According to the invention is as a movable element 216 ; 416 a movable section of a wall of a blow-out duct 219 ; 419 provided, which changed by its movement, the length of the blow-out. The blow-out channel forms 219 ; 419 a bypass (secondary channel) to a main exhaust duct 220 ; 420 , Thus, there is a tapping off of a gas-pressure-dependent triggering limit value by detecting the pressure increase in the blow-out channel, which is designed as a bypass (secondary channel) to the main blow-out channel, so that the outflow of switching gases from the main blow-out channel is not hindered.

In the in the 2 and 4 shown switching arrangements 201 ; 401 are unlike in the 1 shown switching arrangement 1 instead of a simply interrupting contact member 5 double interrupting contact members 205 ; 405 provided, each two of the moving contacts 202 ; 402 wear. The exhaust duct opens into an area of the control room 207 ; 407 in the arc-quenching plates 221 ; 421 are arranged and therefore also referred to in the art as arc quenching chamber.

With electrodynamic contact opening, the contact member rotates 205 ; 405 from a closed position where the switch contacts 202 ; 402 at the switch contacts 203 ; 403 abut, to a certain opening angle. Up to a predetermined value of this opening angle, the contact member experiences in a known manner not shown here, a restoring force of contact springs. Only when the predetermined value of the opening angle reaches the contact element 205 ; 405 locked in a known, also not described here way. The predetermined value of the opening angle is, for example, 20 ° -25 °. Remains the contact member 205 ; 405 in the case of an electrodynamic opening below this value of the opening angle, no triggering of the cut-off mechanism should take place and the contact element should close the switching contacts 202 . 203 ; 402 . 403 fall back into its closed position. If the opening angle reaches the predetermined value of the opening angle during opening, an instantaneous release should take place.

In electrodynamic opening, an arc column LB is generated whose length and energy are proportional to the size of the opening angle. The resulting gas pressure is on reaching the predetermined value of the opening angle of the contact member up to the level of the blow-out 219 ; 419 and led into this. The triggering criterion is via the movable section 216 ; 416 the wall of the blow-out channel 219 ; 419 in other words, generated via the displaceable part of the secondary channel, by means of the resilient restraint device 218 ; 418 at a stop 222 ; 422 is applied. The triggering criterion can thus be determined by the characteristic of the resilient restraint device 218 ; 418 but also constructive by the position of the blow-out and its mouth to the switch room and by the cross-section of the blow-out 219 ; 419 to be adjusted.

In the illustrated embodiments 210 and 410 of the trigger, the movable member (the movable portion of the exhaust passage) has an actuating lug which directly or indirectly connects the shut-off mechanism via at least one intermediate member 423 actuated.

When in the 2 shown embodiment 210 the trigger according to the invention, the movable portion is formed in the manner of a trombone train as a U-shaped bent piece, the two parallel, frontally open ends 224 . 225 of the blow-out channel overlaps.

The restraint device 218 that is the moving element 216 acted upon by adapted spring force, here is a spring, on the one hand on an inner side 226 the switching arrangement 201 and on the other hand supported on an outer side of the movable portion.

The blow-off channel, which is designed as a secondary channel to the main outlet channel, directs a portion of the gas pressure produced in the arc chamber into a stationary first tube section of the blow-out channel, which is a first 224 forms the frontally open ends. This first fixed tube piece is arranged parallel to a second fixed tube piece, which is the second 225 forms the ends of the open Ausblaskanals open and this opens into the Hauptblast channel. The pipe sections, both ends open at the front 224 . 225 form the blow-out channel are formed of insulating material. On the two pieces of pipe slidably seated on the U-shaped piece of pipe, which is the channel sections of the two ends 224 . 225 connects (see also 3 ) and that on the formed as a spring retainer 218 resilient against the inside 226 the switching arrangement is mounted, wherein the readout threshold of the trigger is preferably determined via the spring characteristic of the spring and the cross sections of the channel sections of the blow-off channel. About an actuating flag 227 becomes the linear movement of the U-shaped pipe section on the collecting shaft 217 rotatably transmitted, the triggers 210 each of the switching poles via a lever arm 228 connects with the shutdown mechanism and so the triggering of the switching arrangement 201 caused.

When in the 4 shown embodiment 410 the trigger according to the invention, the movable portion is designed in the manner of a pot as a closed end tube piece, the two parallel ends open at the ends 424 . 425 the blow-out, which are formed here as an integral part of the housing of the switching arrangement, but which may also be formed as a separate, half-round pipe sections.

Two ends open at the ends 424 . 425 forming fixed pipe sections form here a two-chamber pipe, which forms a full circle in its outer contour. The pipe sections, the two frontally open ends 424 . 425 of the blow-out channel 419 form are also formed here of insulating material. On the outer diameter, slidably mounted as a pot-shaped piston movable portion which sits the channel sections of the two ends 424 . 425 connects (see also 3 ). This piston is resiliently mounted against the inside of the switching arrangement, wherein the triggering threshold of the trigger 410 here too on the spring characteristic and the cross sections of the channel sections of the blow-out 419 is determined. About the formed as a deflection intermediate member, the linear movement of the piston on the 417 The collecting shaft is rotating, which transmits the triggers 410 each of the switching poles via a lever arm 428 with the down switching mechanism 409 connects and so the triggering of the switching arrangement 401 causes.

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 69110540 T2 [0006, 0007, 0015]
• EP 0455564 B1 [0006]
• - DE 69217441 T2 [0006, 0007, 0015]
• - EP 0538149 B1 [0006]
• - US 3631369 A [0009]
• - EP 1266387 B1 [0009]

Cited non-patent literature

• - Publication "Energetic Selectivity in Low Voltage Networks", Schneider Electric, Technical Issue No. 167, May 1994 Edition [0008]

Claims (6)

Trigger ( 10 ; 210 ; 410 ) for an electrical switching arrangement ( 1 ; 201 ; 401 ), which in the course of a first flow path ( 4 ; 204 ; 404 ) is arranged and the at least two switching contacts ( 2 . 3 ; 202 . 203 ; 402 . 403 ), which are separated when the current flowing through the switch contacts has exceeded a certain threshold, with an actuator ( 17 ; 215 ; 415 ) which is responsive to a pressure (p) generated in the separation zone of the switch contacts by an arc (LB) drawn in electrodynamic recoil of the switch contacts, and which has a shut-off mechanism causing the current path to be automatically interrupted ( 9 ; 209 ; 409 ), wherein the actuating member is a movable element ( 216 ; 416 ), on the one hand by the pressure (p) and on the other hand by a retaining device ( 218 ; 418 ) is acted upon by adapted spring force such that it is at a pressure (p), which for actuating the shut-off mechanism ( 9 ; 209 ; 409 ) performs a predetermined control movement, characterized in that as a movable element ( 216 ; 416 ) a movable section of a wall of a blow-out channel ( 219 ; 419 ) is provided, which changes the length of the Ausblaskanals by its movement. Trigger ( 210 ) according to claim 1, characterized in that the movable portion is formed in the manner of a trombone train as a U-shaped bent piece, the two parallel, frontally open ends ( 224 . 225 ) of the blow-off channel ( 219 ) overlaps. Trigger ( 410 ) according to claim 1, characterized in that the movable portion is formed in the manner of a pot as a closed end tube piece, the two pa rallel extending frontally open ends ( 424 . 425 ) of the blow-off channel ( 419 ) overlaps. Trigger according to one of claims 1 to 3, characterized in that the movable portion an actuating flag ( 227 . 427 ) having the shut-off mechanism directly or indirectly via at least one intermediate member ( 423 ). Trigger according to one of claims 1 to 4, characterized in that the blow-out channel ( 219 ; 419 ) a bypass to a main exhaust duct ( 220 ; 420 ). Electrical switching arrangement ( 1 ; 201 ; 401 ) with at least two switching contacts ( 2 . 3 ; 202 . 203 ; 402 . 403 ), which in the course of a first flow path ( 4 ; 204 ; 404 ) are arranged and which can be separated when the current flowing through the switch contacts has exceeded a certain threshold, and with a trigger ( 10 ; 210 ; 410 ) for interrupting the first flow path, characterized in that the trigger ( 10 ; 210 ; 410 ) is designed according to one of claims 1 to 5.