DE102008039066A1 - Circuit-breaker for interrupting current flow, has press element arranged at bridging element for pressing surface of bridging element against component or housing in deflecting position, where housing comprises two contacts - Google Patents

Abstract

The circuit-breaker has a housing comprising two contacts (10, 12) and a bridging element (14). The bridging element connects the contacts in a resting position. The bridging element disconnects the contacts in a deflecting position. A press element i.e. laminated spring (14), comprising a body (28) is arranged at the bridging element. The press element presses a surface of the bridging element against a component (32) or the housing in the deflecting position. The press element is engaged in a pre-determined pivoting angle in a recess (44).

Description

The The invention relates to a circuit breaker according to the preamble of claim 1.

One Circuit breaker should interrupt a current flow. typically, For example, the circuit breaker includes a housing in which a pad is provided is, wherein one of the contact point forming contact faces against the casing immovable and the other contact side relative to the housing movable and therefore of the other contact side is removable. In the present case are two Provided contact points. For this there is a first and a second contact, these contacts in particular to the casing to be immobile. Connections lead to the contacts to which cables are connected can be when the current flow through these lines by means of the circuit breaker should be interruptible. Now there is a bridging element. This poses in an idle position, an electrical connection from the first Contact to the second contact. Thus, there is of the terminal, leading to the first contact via the bridging element and the second contact connects to the connector that is connected to connected to the second contact. The bridging element should be pivotable be. In a deflection position, in which it starts from the rest position passes, then the electrical connection is no longer.

Circuit breaker with pivotable bridging elements have proved to be advantageous. This can be done by suitable springs the trigger conditions and reset conditions be set. In a typical circuit breaker of the generic type should the bridging element at currents to be pivoted above a certain current, so that in each case an arc between the contacts and the bridging element ausbil det, the current limiting acts, but it should be the bridging element return to the rest position, when the current strength the predetermined value only for not overly long Time exceeds and exclusively then, when a current to high current flows too long, should the bridging element remain permanently swiveled.

Classically, is used to cushion the bridging element used a torsion spring. This results in restrictions in the adjustability of the trigger conditions and the reset conditions.

It would be, however desirable, could the deflection and return behavior of the bridging element be targeted.

It Object of the invention, a circuit breaker according to the preamble of claim 1 to the effect that due to the Basic design more flexibility in the design of the deflection or restoring behavior of the bridging element consists.

The Task is solved by a circuit breaker according to claim 1.

According to the invention is thus at the bridging element arranged at least one pressure element on which a surface is formed is, this surface with at least one surface section in a first deflection position against another component or the housing at a first location of the same is pressed. In a second deflection position however, it should not be pressed to this first place.

The Invention differs from circuit breakers, in which the bridging element by Torsion springs supported is, in that the point at which a support is made, changeable is. In particular, the pressure piece in a second deflection position be pressed to a second position of the further component or of the housing. By appropriate training of the first job and appropriate assignment to the second deflection position, z. B. by appropriate training the second part of the component, one on the bridging element acting restoring moment be set. In particular, the pressure element with a Counter element, namely the further component or housing, Interact. Pressure element and counter element can thus be coordinated be that one for the being pressed the pressure element element, typically a spring, exactly the desired Moment provides.

The invention can be carried out so far that the pressure element during pivoting of the bridging element over at least a portion of the further component during pivoting over an angular range continuously slides. The surface of the pressure element and a contour on the further component or the housing can then be matched to one another. The mating contour to the pressure element may be provided on the housing or a component connected to the housing. Preferably, however, the further component is rotatably mounted, in particular about the same axis of rotation as the bridging element. Then, for example, in the case of short-circuit currents, the further component moves in the same direction, and a final opening of the contact is ensured by an external mechanism in the desired time course. The deflection and return behavior can also be adjusted by the fact that for admission the rotatably mounted component with a predetermined force (or a moment) is provided a spring, in particular a torsion spring. Then, if appropriate, a suitable possibility for locking the rotatably mounted component is provided.

The bridging element should be in the resting state in the ground state. A current flows too high current across the bridging element, Thus, the magnetic field generated by the current causes the bridging element moved out of the rest position. If the current decreases, should the bridging element return to the ground state again. For this reason, the surface of the pressure element and a Contour on the other component or the housing coordinated so that due to being pressed at least the surface portion the surface against the component or the housing at least up to a predetermined pivoting angle (angle of the Pivoting of the bridging element) from the rest position on (the bridging element) returning to the rest position Moment is provided.

In order to from a certain duration of flowing a current to high amperage the circuit breaker trips permanently, a flow of electricity so completely is prevented, preferably has the circuit breaker on a Contour on the other component or the housing on a recess, in which engages the pressure element from a predetermined pivoting angle. This pivot angle is preferably greater than the pivot angle, until to which a resetting Moment is provided to the rest position.

It now gives different embodiments, how the pressure element can be designed. The pressure element can in particular at least two parts, namely a body and include a spring, the body by means of the spring on the bridging element supported is. Then press that Feather the body away from the pressure element, namely against the counter element (the other Component or housing). This embodiment has the advantage that the shape of the body is ideal to the counter element can be adjusted and the spring can be designed so that the desired Spring force is provided.

Around To stabilize the assembly, the body may be attached to the bridging element be hinged and therefore be swiveled, the spring is just a Swinging away the non-articulated part of the body from the bridging element causes, up to the counter element.

It can be provided that of the body always the same part of surface pressed against the counter element becomes. So the body can snap into the above recess, the surface can be at one Latch of the body be educated. The latch then slides during pivoting of the bridging element along the contour of the further component or of the housing. One body of this kind leaves is particularly easy to manufacture and is low in wear.

The But pressure element can be used to promote Movement opposite the further component or the housing also comprise a roller, which on the body is fixed, which is supported on the spring. The roll then rolls when pivoting the bridging element along the contour of the counter element to the pressure element. The at the Pressure element formed surface is then the rolling surface the role, wherein in each case the surface portion of this rolling surface, which from the bridging element pointing, in contact with the surface (contour) on the other component or the housing comes.

at a particularly simple embodiment is as a pressure element a spring, in particular a leaf spring provided. This is thus a separation between a body whose surface is along the contour is to slide, and the pressure applied against the contour Element omitted: The spring slides when pivoting the bridging element along the contour of the counter element to the pressure element and brings even the pressure for this on. This solution is particularly inexpensive.

Basically, one single is enough Pressure element, with a view to providing one for a rotation caring moments can However, also be provided pressure elements on both sides of the bridging element. This can be done in particular by 180 ° (or in the range of between 165 ° and 195 °) the axis of rotation offset points may be provided. The dissembling two printing elements by 180 ° the axis of rotation is in particular special with rotationally symmetrical bridging elements useful and recommended even if these sections are rotationally symmetric, so if the area where the pressure elements are mounted, is designed rotationally symmetrical to the axis of rotation. Then can the printing elements have the same design, and the counter contours on the Housing or at the one with the housing connected component can also be designed rotationally symmetrical. In such a rotationally symmetrical design is subject in particular to the bridging element only small forces, the for to ensure its wear could.

following become preferred embodiments the invention described with reference to the drawing, in which

1 in cross-section the essential components for describing the invention of a circuit breaker according to a first embodiment of the invention at a first position of its bridging element,

2 the components of the circuit breaker off 1 at a second position of the bridging element,

3 the components of the circuit breaker off 1 at a third position of the bridging element,

4 that on the bridging element from the 1 to 3 acting moment depending on the pivoting angle,

5 shows an alternative embodiment of a bridging element,

6 to 10 show possible embodiments of the pressure element arranged on a bridging element,

11 in cross-section of the description of the invention essential components of a circuit breaker according to a second embodiment of the invention at a first position of the bridging element shows and

12 the components of the circuit breaker off 11 at a second position of the bridging element shows.

In a circuit breaker are fixedly connected to a housing, not shown in the figures, a first contact 10 and a second contact 12 provided. It should be in a ground state current from the first contact 10 to the second contact 12 can flow. This is a bridging element 14 provided, which is about an axis 16 is rotatably mounted.

1 shows the ground state in which the bridging element 14 located in its rest position and the electrical contacts 10 and 12 at the same time touching, leaving an electrical connection between the electrical contacts 10 and 12 is provided.

The arrangement as well as the contacting via contact surfaces 18 and 20 at the contacts as well as contact surfaces 22 At the bridging element is such that when a current flows above a predetermined current strength, a magnetic field is generated, which is a pivoting of the bridging element 14 around its axis of rotation 16 causes, for. B. in the in 2 shown position.

In order for this pivoting defines defined at predetermined current and at a predetermined speed, is the bridging element 14 with a restoring it to the restoring moment applied. The momentary forces are provided by springs 24 provided, which are supported on the bridging element. The feathers 24 act on an axis 26 stored bodies 28 one, which is a catch 30 exhibit. The bridging element 14 is now at least partially from a rotatable about the axis of rotation 16 stored component 32 surrounded on which on two sides contoured surfaces 34 are provided. The contour of the surfaces 34 is to the bridging element 14 with his bodies 28 adapted so that the springs 24 the locking lugs 30 each against the associated surface 34 Press to provide the desired restoring moment. When pivoting according to the angle α slide the locking lugs 30 on the contoured surfaces 34 along.

The contour of the surface 34 , seen in section perpendicular to the axis of rotation 16 , fixes the moment. To the in the 1 to 3 shown contoured surface 34 is in 4 this moment M is shown as a function of the pivot angle α. Obviously, the moment is positive up to a _critical angle α. The curve 36 gives the behavior of the moment M up to the α _limit again. Present is at the point 38 who the in 1 shown rest position (pivot angle α = 0) corresponds to the restoring moment equal to a value of M ₀ . Swiveling decreases due to the contour of the surfaces 34 the moment M first below the value M ₀ , z. At the point 40 , From a point 42 the moment increases again, and that is when the catch clicks 30 one in the surface 34 or the associated component 32 provided recess 44 approaches. At the point 44 is then the restoring moment M maximum, then drop sharply. If the angle α _{limit is} reached, the locking lugs snap 30 in the recesses 44 like it is in 3 is shown. The circuit breaker then remains permanently in the in 3 shown position, the _{pivot angle} α thus remains permanently the same α _limit . It is not possible to _swivel beyond α _limit .

The course of the restoring torque M shown in dependence on the pivot angle α corresponding to the curve 36 is exemplary, and other courses of this moment may deviate from that of the surface by other contour shapes 34 to be provided. Other contour shapes can be made simply by replacing the component 32 be provided, with otherwise the same structure of Leis processing switch. Thus, the restoring moment does not have to fall below the value it has at rest when the bridging element 14 is deflected. The restoring moment M should be adapted to the expected currents at which tripping is effected and their time course. By a suitable choice of the restoring moment, certain time profiles of the pivoting can thus be determined as a function of the pivoting angle of the respective pivoting speed.

In the embodiment according to 1 has the bridging element 14 a bulbous body 46 with arranged thereon rod-shaped or plate-shaped parts 48 ,

As in 5 shown, the bridging element as a bridging element 50 however, completely have a rectangular cross section, z. B. be constructed plate-shaped, with the plate 52 , and on this plate 52 can the body 28 as well as on the bulbous body 46 at the bridging element 14 to be appropriate. When using the bridging element 50 out 5 is however at a the component 32 corresponding component a completely different surface contour of the surface 34 appropriate surface to provide.

At the in 1 respectively. 5 shown bridging elements 14 and 50 each was the same combination of body 28 and spring 24 used. Such a combination may be referred to as a "pressure element" attached to the bridging element 14 . 50 is arranged.

In addition to this pressure element, the individually again in 6 is shown, other printing elements can be used:
With the same shape of the body 28 can the spring 24 instead of the catch 30 opposite surface 54 of the body 28 as in 7 shown on a surface 56 support the lever arm, over which the body 28 at the bridging element 14 . 50 hinged, and this purpose a recess 58 having.

An in 8th shown pressure element has a body 60 on, which is U-shaped, with elongated holes in the legs of the U-shape 62 are formed. The base of the U-shape is supported by a spring 64 taking off, being on the pen 64 opposite side of the U-shape a detent 66 is provided. With appropriate attachment of the pressure element 8th on a bridging element on the type of bridging elements 14 and 50 can the catch 66 on a contour like the contour 34 slide along and thereby change their distance to the bridging element, wherein the body 60 with the slot 62 moved relative to a fastening means, not shown in the figure.

In a modification of the pressure element 6 is in place of the latch 30 otherwise identical design, a double bow 68 provided in which a role 70 is stored. Instead of that latch 30 as described above along the contour 34 slides, the role can 70 along this contour 34 roll. There are also variations in the 7 and 8th shown printing elements possible in which the locking lugs 30 and 66 are replaced by a double bar with a roller.

Finally, as a pressure element and a leaf spring 72 can be used, which is a bulge 74 having a relatively small radius of curvature, which matches a suitable recess on the type of recess 44 can be chosen. Will the leaf spring 72 used as a pressure element, so fall the roles of the spring 24 and the body 28 in one element together: the leaf spring 72 pushes the bulge 74 even against a contoured surface. If necessary, the bulge 74 engage in a recess.

The use of a printing element with a roll will be described below with reference to the 11 and 12 explained in more detail. The representation in the 11 and 12 is essentially the same as in the 1 to 3 , where denoted by the reference numerals 74 and 76 two contacts are designated and with the reference numeral 78 a bridging element is designated. At the bridging element are printing elements 80 around a rotation axis 82 hinged. They are at the same time by means of a spring 84 at the bridging element 78 supported. The basic form of the printing element 80 for this purpose comprises a substantially L-shaped body, wherein the one leg of the "L" is bent and its end at a bearing point 82 of the bridging element 78 is stored, and the other leg of the body, the spring 84 supported. At one of the depository 82 opposite side of the body comprises the pressure element 80 a double hanger 84 in which a role 86 is rotatably mounted. In an in 11 shown basic position is the role 86 in a recess 88 one with 90 designated component (body), which is about the axis of rotation 82 is rotatably mounted, engaged. Under the effect of a current with a current above a certain limit, that is due to the springs 84 in interaction with the surface 92 of the component 90 provided moment, and the role 86 rolls along the surface 92 in the in 12 shown position, the component moves in this case in the opposite direction to the bridging element. The contoured surface 92 is designed so that in the component 90 a second recess 94 is provided, in which the role 86 but from a certain angle can snap into place, so that the bridging element 78 not readily in the in 11 shown basic position can return.

In the present invention, in a modification of previously known embodiments, a moment on a respective bridging element 14 . 50 . 78 exercised in that a pressure element at different pivot angles on different locations of a contoured surface 34 acts.

In a not shown in the figures deviating embodiment of the invention, the pressure element does not slide continuously over a contour 34 but snaps out of a detent position due to a latching mechanism at a certain pivoting angle. Re-snapping into the detent position can also be provided.

With reference to the embodiments of the invention described in the figures, it has been assumed that the component 32 respectively. 90 rotatable about the same axis of rotation as the bridging element 14 . 50 is stored. The rotatable mounting complements a sliding along the pressure element along the contoured surface 34 respectively. 92 according to a predetermined time course. The rotatability of the component 32 respectively. 90 also allows, for. B. when a coupling element is attached as a manipulating rod with this component, turning on the circuit breaker by rotation of the component 32 respectively. 90 via a switch lock, so that the bridging element 14 . 78 is reset after it once in the recess 44 respectively. 94 is engaged.

Embodiments of the invention are possible in which the component 32 respectively. 90 is not rotatable. In particular, the component 32 respectively. 90 be connected to the housing or even be part of the housing.

Claims (11)

Circuit breaker with a housing, with a first and a second contact ( 10 . 12 ; 74 . 76 ) and with a bridging element ( 14 ; 50 ; 78 ), which in an inoperative position establishes an electrical connection from the first contact ( 10 ; 74 ) to the second contact ( 12 ; 76 ) and is pivotable from the rest position in deflection positions in which this electrical connection does not exist, characterized in that on the bridging element ( 14 ; 50 ; 78 ) at least one pressure element is arranged, on which a surface is formed which, at least in a first deflection position, has at least one surface section against another component ( 32 ; 90 ) or the housing is pressed at a first location thereof, to which it is not pressed, at least in a second deflection position. Circuit breaker according to claim 1, characterized in that the pressure element in at least one second deflection position at least with a surface portion against a second position of the further component ( 32 ; 90 ) or the housing is pressed. Circuit breaker according to Claim 1 or 2, characterized in that the surface of the pressure element and a contour ( 34 ; 92 ) on the further component ( 32 ; 90 ) or the housing are matched to one another in such a way that due to the pressing of at least the surface section against the component ( 32 ; 90 ) or the housing at least up to a predetermined angle of pivoting of the bridging element ( 14 ; 78 ) from the rest position, the bridging element ( 14 ; 78 ) is provided in the rest position restoring moment. Circuit breaker according to one of the preceding claims, characterized in that a contour ( 34 ; 92 ) on the further component ( 32 ; 90 ) or on the housing a recess ( 44 ; 94 ), in which the pressure _element engages at a predetermined _{pivot angle} (α _limit ). Circuit breaker according to one of claims 1 to 4, characterized in that the pressure element by a spring ( 24 ; 64 ) supported body ( 28 ; 60 ). Circuit breaker according to claim 5, characterized in that the body ( 28 ) on the bridging element ( 14 ; 50 ) is articulated. Circuit breaker according to claim 5 or 6, characterized in that the surface on a detent ( 30 ; 66 ) of the body ( 28 ; 60 ) is trained. Circuit breaker according to claim 5 or 6, characterized in that the surface of the rolling surface of a roller attached to the body ( 70 ). Circuit breaker according to one of claims 1 to 4, characterized in that the pressure element is a spring ( 72 ), in particular a leaf spring. Circuit breaker according to one of the preceding claims, with at least one pressure element on two sides of the bridging element ( 14 ; 50 ; 78 ). Circuit breaker according to one of the preceding claims, characterized in that the component ( 32 ; 90 ), in particular around the same axis as the bridging element ( 14 ; 78 ), is rotatably mounted.