EP2595168A1 - Installation switching device with ante-chamber and guidance fins - Google Patents

Abstract

The device (1) has an antechamber space (20) comprising a set of managing guidance ribs (30, 30', 30'') elongating from a region of a contact arrangement in a direction of travel of a switching arc into a region of an arc extinguisher chamber (19). The antechamber space has a managing bar (31) comprising an annular closed peripheral contour arranged between one guidance rib adjacent to a fixed contact piece (24) and an arc guide rail (21), so that a gas circulation flowing around a bar (31) is formed between the guidance rib and the arc guide rail.

Description

The invention relates to a service switching device, comprising a housing, a contact arrangement in a pre-chamber space, wherein the contact arrangement comprises a fixed and a movable contact piece, with an arc extinguishing chamber, with a first and a second arc guide, which in a switching action on the contact arrangement resulting switching arc in guiding the arc extinguishing chamber, wherein the first arc guide rail is associated with the fixed contact, wherein the pre-chamber space on at least a partial surface of the housing inner side has a plurality of projecting guide ribs, which are arranged extending from the region of the contact arrangement approximately in the direction of the switching arc to the arc extinguishing chamber extending elongated according to the preamble of claim 1.

More particularly, the invention relates to an electrical installation device having an arc prechamber space, without prechamber plates and with a current limiting arc quenching device. The invention can be used for example in circuit breakers or motor protection switches.

Circuit breakers or motor protection switches are used in the event of a malfunction to disconnect electrical lines that are loaded with high-current overcurrents from the mains supply. For this purpose, usually a fixed and a movable contact piece are provided in an arc Vorkammerraum, which are connected to the respective terminals. When opening the switching contact, that is, when lifting the movable contact piece from the fixed contact piece, a switching arc, which is deleted in a designated extinguishing device. The drawn arc commutes from the opened contact pieces on arc guide rails, runs with its feet along the arc guide rails in the direction of the arc quenching chamber, then there in an arc splitter stack, often formed in the form of a so-called Deion-quenching chamber in a Subdivide series of partial arcs. There, a high arc voltage for current limiting is generated due to the division into series-connected partial arcs, so that the arc extinguished.

In the DE 39 08 102 A1 an installation switching device is shown in which in the antechamber on the chamber walls a plurality of prismatically projecting, directed to the opening plane of the contact pieces webs are formed, which are arranged from the region of the contact parts in the running direction of the switching arc between arc running rails through to the arc extinguishing area. The running of the contact point switching arc is doing closely guided between the projecting upper sides of the narrow webs and additionally driven, while the gas pressure arising in front of the arc column can compensate in flow channels around them. In particular, the gas pressure arising in front of the traveling arc can relax in the flow channels between the webs. As a result of this flow of the gases, a pressure difference which inhibits the arc migration is effectively compensated in the regions in front of and behind the arc. In addition, the pressure equalization ensures good deionization of the re-ignition-prone area at the contact point behind the arc.

It is the object of the present invention to develop an installation switching device with guide ribs in the pre-chamber space so that the gases produced by the arc can get even faster towards the arc splitter stack.

The object is achieved by an installation switching device with the characterizing features of claim 1.

Thus, according to the invention, the pre-chamber space has at least a partial surface of the housing inner side in the area of the fixed contact piece a projecting web with an annularly closed circumferential contour, which is arranged between the guide rib adjacent to the fixed contact piece and the first arc guide rail, so that there is between the guide rib adjacent to the fixed contact piece and the first Arc guide rail can form a gas circulating around the web gas circulation. The inventively designed web thus comes in the area of the fixed contact piece to the arrangement. Its design with an annularly closed peripheral contour allows gas circulation of the arc extinguishing gases around the bridge. This will be a partially backflow of the arc extinguishing gases generated behind the arc quenching device on the switching arc, and this backflow further reduces the pressure difference between the arc front and back and further drives the arc. Thus, the arc is driven even faster into the arc splitter stack.

According to an advantageous embodiment of the invention, the first arc guide on an elongated portion, one end of which is a solid contact bearing, arcuate Festkontakthorn is connected, and the web with the annular closed peripheral contour is arranged in the fixed contact horn, so that between the guide rib adjacent to the fixed contact horn and the elongated section of the first arc guide rail can form a gas circulation flowing around the web. The free end of the Festkontakthorns points to the beginning of the elongated portion of the first arc guide rail. The first arc guide is also referred to as Festkontaktleitschiene. By Festkontakthorn the base of the switching arc is already brought close to the elongated portion of the Festkontaktleitschiene on its first portion of the way to the arc extinguishing chamber, so that the commutation of the Lichtbogenfußpunktes on the elongated part of the guide rail is then facilitated. According to the invention, the web which generates the circulating gas flow with the effect of increasing the running speed of the arc is mounted in this initial region of the arc movement. Here, the running speed-accelerating effect is particularly large.

According to an advantageous embodiment of the invention, the web has an arcuate web portion, and the peripheral contour of the arcuate web portion is adapted to the peripheral contour of Festkontakthorns. Thus, a konturmä-βige coverage of the arc of Festkontakthorns is achieved with the elbow of the web. The bow of Festkontakthorns and the arc section of the web aligned in a sense with each other, viewed in the direction perpendicular to the broad side of the service switching device. The gases of the switching arc so to speak see a wall in front, formed from the bow of Festkontakthorns and the arcuate portion of the web, and they are thus forced to this wall and to circumnavigate it around the jetty, because the direct path straight to the arc quenching chamber is blocked by this wall.

According to an advantageous embodiment of the invention, the housing is composed of two housing half-shells, wherein the guide ribs and the web are mounted on a partial surface of the housing inner side of a housing half-shell. The height of the guide ribs and the web perpendicular to the inner wall of the housing half shell can be designed so that when composite housing halves the guide ribs and the web fill the entire width between the two opposite inner sides of the housing half shells. As a result, the arc gases are forced into the flow channels formed between the guide ribs or between the web and the guide rib adjacent the web, they can not laterally, the inner wall along, dodge.

According to a further advantageous embodiment of the invention, the housing is composed of two housing halves, wherein on opposite faces of the housing inner sides of each housing half shell part - guide ribs and a partial web are integrally formed, which complement each other when assembling the housing half shells complementary to the guide ribs and the web.

Reference to the drawings, in which an embodiment of the invention is shown, the invention and further advantageous refinements and improvements of the invention will be explained and described in detail.

Figur 1

eine Aufsicht auf eine geöffnete Gehäusehalbschale eines erfindungsgemäßen Installationsschaltgerätes, mit teilweise entfernten Baugruppen,

Figur 2

eine schematische Aufsicht auf den Vorkammerbereich eines erfindungsgemäßen Installationsschaltgerätes, mit Pfeilen zur Veranschaulichung der Gasströmung, sowie

Figur 3

eine Aufsicht auf eine geöffnete Gehäusehalbschale eines erfindungsgemäßen Installationsschaltgerätes, wobei alle Baugruppen entfernt wurden.

Show it:

FIG. 1

a plan view of an open housing half shell of a service switching device according to the invention, with partially removed modules,

FIG. 2

a schematic plan view of the prechamber region of a service switching device according to the invention, with arrows to illustrate the gas flow, and

FIG. 3

a plan view of an open housing half shell of a service switching device according to the invention, wherein all modules have been removed.

In the figures, identical or equivalent components or elements are designated by the same reference numerals. The described embodiments are exemplary of the subject invention and have no limiting effect.

FIG. 1 Thus, the top view of an open housing half shell 2 of an inventive installation switching device 1, here a circuit breaker. The installation switching device 1 corresponds in its internal structure, its function as well as the arrangement and design of the other modules or elements that are mounted for its intended function within the housing 2, largely the one as in the DE 10 2008 006 863 A1 is described. This document is therefore included in the disclosure of the present invention with respect to the further structure and operation of the service switching device and its components and components. The object of the present invention is in particular the design of the pre-chamber space of such a service switching device.

The housing of the service switching device according to FIG. 1 has a front front 3, rear front 4, 4 ', narrow sides 5, 5' and a mounting side 6. On the mounting side 6 is a recess 7 with two protruding therein mounting lugs 8, 8 ', with which the housing attached to a standard profile support rail can be. In the FIG. 1 are not all assemblies and components that are required for the intended function of a circuit breaker shown. In particular, those assemblies and elements are shown that are more closely related to the present invention.

On the front front side 3 is a switch knob 9 for actuating a switching mechanism and the movable contact lever 16. The movable contact lever 16 carries the movable contact piece 29. The switch knob 9 is connected to the contact lever 16 via a link chain 10. The link chain 10 includes a bracket 11, an intermediate lever 12, a latch lever 13 and a release lever 14. The intermediate lever 12 and the latch lever 13 together form the Verklinkungsstelle the rear derailleur. With appropriate actuation of the release lever, this Verklinkungsstelle is unlatched, it is said that the release lever 14 is then in the trip position. If the Verklinkungsstelle unlatched, the movement of the contact lever 16 is in its open position towards released, and the contact lever 16 is pressed by a spring (not shown) in the open position. As long as the Verklinkungsstelle is not latched again, the contact lever can not be returned to its closed position, and the contact point remains open. A unlatching of the Verklinkungsstelle can also be triggered by a pivoting of the switch knob 9 from its switch-on in its switch-off, by this over the bracket 11 is coupled to this Schenk movement to the Verklinkungsstelle. To move the release lever in its release position, this is coupled with a hammer 15. The impact lever 15 in turn is coupled to a thermal release, here a bimetal strip 18, and to a magnetic impact anchor system 17. The coupling with the bimetallic strip 18 via a further bracket, which is not shown here. Both in continuous overcurrent, when the bimetallic strip 18 has bent correspondingly far, as well as at a high short-circuit current when the striking armature system 17 responds, the hammer 15 is pivoted, transmits its pivotal movement on the trigger lever 14 and thus causes a unlatching of the Verklinkungsstelle, what leads to a pivoting of the contact lever 16 and thus to a lifting of the movable contact piece 29 of the fixed contact piece 24. It forms between the movable and the fixed contact piece 29, 24, a switching arc (not shown) from.

The switching arc is guided by suitable devices for extinguishing in a quenching chamber 19. One recognizes in the FIGS. 1 to 3 in the region of the quenching chamber 19 parallel extending, protruding from the housing inner wall ribs 33. In the grooves 34 formed between these ribs arc quenching plates are held (not shown here). The arc is divided when entering the quenching chamber at the arc quenching plates in a series of electrically series-connected partial arcs, whereby an increased arc voltage is generated, which counteracts the voltage applied to the terminals mains voltage, limits the short-circuit current and leads to extinction of the arc.

The region of the housing in which the contact arrangement of the movable and the fixed contact piece is located, is referred to as pre-chamber 20. The switching arc is led out of the antechamber by means of a first and a second arc guide rail 21, 25 into the quenching chamber 19. The drawn arc commutes from the open contact pieces 24, 29 on the arc guide rails 21, 25, runs with its feet along the arc guide rails to the splitter stack in the quenching chamber 19th

The first guide rail 21 has an elongated portion 22, with which it delimits the quenching chamber in the direction of the front side 3 out. At the end of the elongated portion 22 facing the prechamber 20 is a vertically angled plate to which the striking anchor system 17 is attached. Further, an arcuate horn 23 is formed on the plate and thus at the free end of the elongated portion 22. The horn 23 has the convex arc side toward the attachment side 6, and it carries the fixed contact piece 24, therefore, it is also referred to as a fixed contact horn 23.

The second guide rail 25 also has an elongated portion with which it delimits the quenching chamber 19 in the direction of the attachment side 6 out. At the end of the elongate section facing the pre-chamber 20, a second section in the form of an oblique leg 26, which is to be pointed at an angle to the movable contact lever, is formed. Near the free end of the movable contact lever in its open position adjoins the oblique leg 26 is a bend 36, which points downwards, on the mounting side 6 and merges into a third section. The bend 36 and the third section are longitudinally slotted and form two parallel part-legs 35, 27. One of the part-leg 35 is bent back horizontally after a short vertical piece and is used for connection to the terminal. The second partial leg 27, also referred to as holding leg 27, extends vertically downwards, and carries at its lower free end the bimetallic fixing point 28 to which the bimetal 18 is welded or otherwise fastened. In the open position, the free end of the contact lever 16 is close to the bend 36, thereby facilitating a skipping of the arc on the second arc guide rail 25.

The first and second arc guide rail 21, 25 with the fixed contact horn 23 are made of a material with good electrical conductivity.

The prechamber space 20 has on at least one partial surface of the inside of the housing a plurality of projecting guide ribs 30, 30 ', 30 "which extend from the region of the contact arrangement approximately in the direction of the switching arc into the region of the arc quenching chamber 19 are arranged elongated extending. The switching arc running off the contact point is guided tightly and additionally driven between the projecting upper sides of the guide ribs 30, 30 ', 30 ", while the gas pressure arising in front of the arc column can equalize in flow channels around it Arcing arc gas pressure in the flow channels between the guide ribs 30, 30 ', 30 "relax. As a result of this flow of the gases, a pressure difference which inhibits the arc migration is effectively compensated in the regions in front of and behind the arc. In addition, the pressure equalization ensures good deionization of the re-ignition-prone area at the contact point behind the arc.

The pre-chamber chamber 20 further has on a partial surface of the inside of the housing in the region of the fixed contact piece 24, more precisely, in the region of Festkontakthorns 23, a projecting web 31 with annularly closed peripheral contour, between the fixed contact piece 24, more precisely the fixed contact horn 23, adjacent guide rib 30 " and the first arc guide rail 21. The annular ridge 32 has an arcuate portion 32 bulging obliquely downward toward the inclined leg 26, and a straight portion closing the arcuate portion 32 upward the web 32 as a whole has approximately the shape of the letter D. The peripheral contour of the arcuate web section 32 is adapted to the peripheral contour of the arcuate part of the fixed contact horn Bow of the Festkontakthorns 23 and the elbow 32 of the web 31 are aligned with each other, as seen in the direction perpendicular to the broad side of the service switching device. The gases of the switching arc so to speak see a wall in front, formed from the bow of Festkontakthorns and the elbow 32 of the web 31, and they are thus forced to circulate around this wall and thus around the web 31 around, because the direct path straight away towards the arc extinguishing chamber 19 through them is blocked by this wall.

As a result, a gas circulation flowing around the web 31 can form between the guide rib 30 "adjacent to the fixed contact piece 24 and the first arc guide rail 21. The web 31 comes to the arrangement in the region of the fixed contact piece 24. Its design with annularly closed circumferential contour allows gas circulation of the arc extinguishing gases around the web 31 around. Thereby, a partial backflow of the arc extinguishing gases is generated behind the switching arc on the arc quenching device, and this backflow further reduces the pressure difference between the arc front and back and additionally drives the arc. Thus, the arc is driven even faster into the arc splitter stack. In the FIG. 2 the corresponding gas flow is illustrated by arrows.

The housing is designed in shell construction, that is, it is composed of two housing halves 2, wherein the guide ribs 30, 30 ', 30 "and the web 31 are mounted on a partial surface of the housing inner side of a housing half-shell 2.

FIG. 3 shows a view of such a housing shell 2, without any further component or component of the circuit breaker. The guide ribs and webs are molded together with other contour elements in the injection molding of the housing half shell 2 in one operation.

It can also on opposite faces of the housing inner sides of each housing half shell part - guide ribs and a partial web are integrally formed, which complement each other when assembling the housing half shells complementary to the guide ribs 30, 30 ', 30 "and the web 31.

It will be readily apparent to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiment, and that the present invention may be embodied in other specific forms without departing from essential attributes thereof, and it is therefore desirable to the present embodiments are to be considered in all respects as illustrative and not restrictive.

LIST OF REFERENCE NUMBERS

1 Circuit breaker 2 Housing shell 3 Front front 4, 4 ' Rear front 5, 5 ' narrow side 6 mounting side 7 recess 8, 8 ' retaining nose 9 toggle switch 10 articulated chain 11 hanger 12 intermediate lever 13 ratchet lever 14 sear 15 hammer 16 contact lever 17 impact armature 18 bimetallic 19 extinguishing chamber 20 antechamber 21 First guard rail, fixed contact rail 22 Elongated section 23 Fixed contact Horn 24 Fixed contact piece 25 Second guardrail 26 Oblique thigh 27 holding leg 28 Bimetallbefestigungsstelle 29 Movable contact piece 30, 30 ', 30 " guiding rib 31 Ring-shaped bridge 32 Arched bridge section 33 rib 34 groove 35 First leg 36 turn

Claims (5)

Installation switching device (1), comprising a housing (2), a contact arrangement in a pre-chamber space (20), wherein the contact arrangement comprises a fixed (24) and a movable (29) contact piece, with an arc extinguishing chamber (19), with a first (21 ) and a second (25) arc guide rail, which guide the resulting in a switching action on the contact assembly switching arc in the arc extinguishing chamber (19), wherein the first arc guide rail (21) is associated with the fixed contact (24), wherein the pre-chamber space (20) on at least a partial surface of the inside of the housing has a plurality of projecting guide ribs (30, 30 ', 30 "), which are arranged extending from the region of the contact arrangement approximately in the direction of the switching arc to the region of the arc quenching chamber (19), characterized in that the pre-chamber space ( 20) on at least a partial surface of the inside of the housing in the region of the fixed contact piece (24) a vorste comprising the annular web (31) with an annularly closed peripheral contour which is arranged between the fixed contact piece (24) adjacent guide rib (30 ") and the first arc guide rail (21), so that between the fixed contact piece (24) adjacent the guide rib (30" ) and the first arc guide rail (21) can form a gas circulation flowing around the web (31). Installation switching device (1) according to claim 1, characterized in that the first arc guide rail (21) has an elongated portion (22), with one end of the fixed contact piece (24) carrying, arcuate fixed contact horn (23) is connected, and that the web (31) is arranged with an annularly closed circumferential contour in the region of the fixed contact horn (23), so that between the guide rib (30 ") adjacent to the fixed contact horn (23) and the elongated section (22) of the first arc guide rail (21) a Bridge (31) can form around flowing gas circulation. Installation switching device (1) according to claim 2, characterized in that the web (31) has an arcuate web portion (32), and that the peripheral contour of the arcuate web section (32) is adapted to the peripheral contour of the fixed contact horn (23). Installation switching device (1) according to one of the preceding claims, characterized in that the housing is composed of two housing half-shells (2), wherein the guide ribs (30, 30 ', 30 ") and the web (31) on a partial surface of the housing inner side of a housing half-shell (2) are attached. Installation switching device (1) according to one of claims 1 to 3, characterized in that the housing is composed of two housing half-shells (2), wherein on opposite faces of the housing inner sides of each housing half shell part - guide ribs and a part-web are formed, which during assembly the housing half-shells complementary to the guide ribs 830, 30 ', 30 ") and the web (31) supplement.

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