DE202014001636U1 - Component for supporting a thermal tripping shaft and housing of a thermal-magnetic trip unit and thermal-magnetic trip unit of an electrical switch and electrical switch - Google Patents

Abstract

Component (1) for mounting a thermal trigger shaft (11) of a thermal trigger device (10) of a thermal-magnetic trigger unit (100) of an electrical switch, the component (1) having a first surface (2) with a first recess (3) Storage of the thermal release shaft (11) and a second surface (4) arranged opposite the first surface (2) with a second recess (5) to enable movement of a magnetic release shaft (21).

Description

The present invention relates to a component for supporting a thermal tripping shaft of a thermal tripping device of a thermal-magnetic trip unit of an electrical switch and to a housing of a thermal-magnetic trip unit for supporting at least one magnetic trip shaft of the thermal-magnetic trip unit. Further, the present invention relates to a thermal-magnetic trip unit of an electric switch, which has a thermal tripping shaft and a magnetic trip shaft, and to an electrical switch for interrupting a current flow of an electric circuit when a triggering event occurs.

Basically, it is known that molded case circuit breakers (MCCB) are designed, for example, according to the principle of magnetic repulsion or the interruption or separation of the contacts. In this case, the contacts open before the expected peak value of the short-circuit current is reached. The separation of the contacts considerably reduces the thermal load as well as the mechanical load due to the surge short-circuit current of the system components, which can occur during a short circuit. A molded case circuit breaker is used, for example, to realize a dual function, namely the protection of a system against overload and short-circuit currents and the protection of cables and electrical equipment from damage caused by, for example ground faults. To protect a system against overload currents or short-circuit currents, the molded case circuit breaker, which can also be referred to as a thermal-magnetic circuit breaker or circuit breaker, a thermal-magnetic trip unit (TMTU = Thermal Magnetic Trip Unit) on. The thermal-magnetic trip unit includes a thermal trip device for protecting the electrical circuit or an electrical device from damage due to overload, and a magnetic trip device for protecting the electrical circuit or an electrical device from damage due to a short circuit ,

A short circuit, and in particular an electrical short, is commonly known as a random or deliberate conductive connection between two or more conductive parts, and more particularly between two nodes of the electrical circuit, by which the electrical potential differences between these conductive parts are zero or nearly zero fall. In particular, with respect to a molded case circuit breaker, a short circuit is an abnormal connection between two separate phases intended to be isolated or isolated from one another. A short circuit leads to the presence of an excessive electrical current, namely an overcurrent, which can lead to damage, overheating, fire or even explosion of the electrical circuit and / or the consumer. An overload is a less extreme condition than a short circuit, and is a long-term overcurrent condition.

It is furthermore fundamentally known that the thermal tripping device has, for example, a bimetallic element made of at least two metal strips rolled on top of each other, each with different thermal expansion coefficients. The electric current flows, for example, for the heating of this bimetallic element or bimetallic strip via a corresponding heating coil or along a tapered power line path, due to the different thermal expansion coefficients, the bimetallic element bends or bends with a corresponding applied heat energy.

Due to the bending movement of the bimetallic element, for example, control contacts are actuated or unlatched a switching mechanism of a circuit breaker. The magnetic tripping device or the electromagnetic tripping device is constructed, for example, such that when a short circuit or short-circuit current occurs, the electric current flowing through a current-conducting element is so large that a yoke element arranged on the current-conducting element generates a magnetic field, which in turn attracts, for example, an anchor element , Due to the movement of the armature element, for example, a switching mechanism of the circuit breaker is unlatched without delay. The anchor element or the armature is held in known manner by a spring and in particular a tension spring in position, so that a movement of the anchor element in the direction of the yoke element against the tensile force or spring force of the spring therefore only when a defined magnetic field strength and consequently a corresponding triggering Short circuit current can occur. Compact circuit breakers are preferably circuit breakers, which can be switched on again after tripping due to an overload or a short-circuit current.

In order to be able to ensure an interruption of the current flow of the electric current of the electrical circuit due to a short circuit or an overload, it is necessary that the magnetic release device or the thermal release device due to the movement of the anchor element and the bimetal unhindered a trigger mechanism can activate. In particular, in the presence of a magnetic tripping shaft of the magnetic tripping device or a thermal tripping shaft of the thermal tripping device, wherein the individual tripping shafts are pivotally mounted about a defined pivot point, it is necessary that the rotational or pivotal movements of the magnetic tripping or thermal Tripping wave can not be hindered. In particular, in the event that in addition to the interruption of the current flow of the circuit of the electrical switch and a warning function to be realized, which allows the consumer or user of the molded case circuit breaker to detect whether a triggering event, such as in particular a short circuit, it is Required that the individual tripping devices and in particular the individual tripping waves can act independently of each other so that a corresponding transmission device can reliably send a signal regarding the triggering event to a corresponding control and / or display unit. For this purpose, it is conceivable, in particular, to trigger the thermal tripping shaft and / or the magnetic tripping shaft independently of each other. In order to ensure a bearing of the two tripping shafts within the housing of the thermal-magnetic trip unit, it is fundamentally known that at least one of the tripping shafts and in particular the magnetic tripping shaft has a U-shaped configuration and substantially the other tripping shaft and in particular the thermal tripping shaft at least arranged in sections surrounding. In consideration of individual manufacturing tolerances of the magnetic trip shaft and the thermal tripping shaft and also the housing of the thermal-magnetic trip unit in which the thermal tripping shaft and the magnetic trip shaft are arranged, it is possible that the thermal trip and / or the magnetic tripping such oversizes or even deformations, that in an arrangement of both tripping waves within the housing friction between the tripping waves, at least at isolated contact points, can take place. Due to the friction, a free and consequently unhindered movement of the individual release shafts is no longer possible. A disadvantage is consequently hindered due to the friction of the tripping shafts with each other, so that in particular at a very low release force to trigger a movement of the tripping waves of for example 1-2 N or less, a movement of the magnetic tripping or the thermal tripping wave can no longer be guaranteed , which in turn could no longer be triggered or unlatched, a triggering mechanism for interrupting the current flow of the electrical current of the electrical circuit.

It is therefore the object of the present invention to remedy the above-described disadvantages of a thermal-magnetic trip unit and in particular an electrical switch, such as an electrical circuit breaker or a molded case circuit breaker, at least partially. In particular, it is the object of the present invention, a component for supporting a thermal tripping shaft, a housing of a thermal-magnetic trip unit and a thermal-magnetic trip unit of an electrical switch and in particular an electrical switch for interrupting a current flow of an electric current of an electrical circuit to provide, by means of which a simple and inexpensive way a storage of the magnetic trip and the thermal tripping within the housing of the thermal-magnetic trip unit can be realized, with individual manufacturing tolerances and / or deformations of the thermal trip and / or the magnetic trip and / or the housing of the thermal-magnetic trip unit and also between the tripping shafts einlagernde dirt particles a function of the individual tripping shafts and in particular a trigger a trigger mechanism for interrupting a current flow of an electrical circuit does not affect.

The above object is achieved by a component for supporting a thermal tripping a thermal tripping device of a thermal-magnetic trip unit of an electrical switch with the features of claim 1 and by a housing of a thermal-magnetic trip unit for storing at least one magnetic trip of the thermal-magnetic trip unit with the features of claim 6. Further, the above object is achieved by a thermal-magnetic trip unit of an electric switch, comprising a thermal trip shaft and a magnetic trip shaft having the features of claim 9 and an electrical switch for interrupting a current flow of an electric current of an electric Circuit upon occurrence of a triggering event with the features according to claim 12. Further features and details of the invention will become apparent from the dependent claims, the Beschre ibung and the drawings. In this case, features and details that are described in connection with the component for storage, of course, also in connection with the housing according to the invention, the thermal-magnetic trip unit according to the invention and / or the electrical switch according to the invention and in each case vice versa, so that with respect to the disclosure of the individual aspects of the invention is always reciprocal reference or can be.

The component according to the invention for supporting a thermal tripping shaft of a thermal tripping device of a thermal-magnetic tripping unit of an electric switch has a first surface with a first recess for supporting the thermal tripping shaft and a second surface arranged opposite the first surface with a second recess to allow movement of one magnetic trip on. Advantageously, the component in particular has a cubic shape with a total of six sides or surfaces, wherein the two side surfaces of the cube-shaped component are substantially larger than its four lateral surfaces. The component is advantageously an intermediate piece, which is introduced into a housing of a thermal-magnetic trip unit or arranged in this housing such that the component is arranged at least in sections between the thermal tripping shaft and the magnetic tripping shaft.

The thermal tripping shaft is a component of the thermal tripping device, which may also include, among other things, a bimetallic element. Accordingly, the magnetic tripping shaft is a component of a magnetic tripping device, which, for example, in addition to the anchor element may also have a yoke element. The thermal tripping shaft is activated in particular when an overload occurs in the electrical circuit, so that a bimetallic element is bent such that in particular its contact area touches a corresponding contact area of the thermal tripping shaft, so that the kinetic energy of the bending bimetal is transmitted to the thermal tripping shaft which then advantageously pivots about its pivot point or rotates or rotates, which in turn triggers or unlatches a readout mechanism for interrupting the current flow of the electrical circuit. In contrast, the magnetic tripping shaft is pivoted or rotated about the pivot point, in particular when an armature and advantageously an impact armature or hinged armature is moved in the direction of this yoke element due to a magnetic field formed in the yoke element, whereby due to this movement, the armature element contacted the magnetic trip such that the Movement of the anchor element is transmitted to the magnetic trip shaft. The magnetic trip wave can either activate or unlatch a mechanism for interrupting the current flow of the electrical current of the circuit itself or be coupled or operatively connected to the thermal trip that the kinetic energy is transmitted from the magnetic trip to the thermal trip, whereupon the thermal trip shaft, as listed above, activates the triggering mechanism.

The component according to the invention is in particular an intermediate piece consisting of or comprising a plastic material and / or a ceramic material and / or a metallic material. Advantageously, the component contacts the thermal tripping shaft at least in regions, in particular in the region of the first recess. In contrast, the second recess in the region of the second surface is advantageously designed such that the magnetic release shaft can be moved or swiveled within this recess in such a way that contact between the magnetic release shaft and the component is advantageously avoided. This is due in particular to the fact that the magnetic tripping shaft is advantageously mounted on the housing of the thermal-magnetic trip unit, while the thermal tripping shaft is advantageously mounted only via the component according to the invention. It is therefore conceivable that the first surface extends substantially parallel to the second surface, wherein the first surface of the component is aligned in the direction of an upper side and in particular an opening of the housing of the thermal-magnetic trip unit, while accordingly the second surface of the component in the direction a bottom portion of the housing of the thermal-magnetic trip unit is aligned. The first surface and / or the second surface are thus opposite, previously mentioned lateral surfaces of the cube-shaped component. However, it is also conceivable that the component has a different shape and in particular a spherical, frusto-conical circular cylindrical or a comparable three-dimensional shape.

In the context of the invention, it is possible that the first recess has a semicircular shape whose size and / or shape corresponds at least in sections to a circumference of a shaft rod of the thermal tripping shaft. The semicircular shape, which may also be a U-shape or a trough shape or a similar shape, consequently extends in a tapering manner from the first surface of the component in its material thickness and forms a kind of groove, in which at least a portion of the shaft rod of the thermal tripping shaft can be arranged. The shaft rod of the thermal tripping shaft is in particular the region which extends along the axis of rotation of the thermal tripping shaft and from which various contact elements or regions extend outwards in order to be able to come into contact, for example, with a bimetallic element or with the magnetic tripping shaft , So it is conceivable that between the surface of the first recess and the shaft rod of the thermal tripping wave is almost a positive connection, wherein advantageously the size of the first recess is selected such that the shaft rod of the thermal tripping shaft can be moved with a defined play in the first recess. Advantageously, the shaft rod of the thermal tripping shaft is received in the first recess such that an arrangement or deposition of, for example, dirt particles is prevented, so that unimpeded rotational movement of the shaft rod of the thermal tripping shaft within the first recess can be made permanently possible. Thus, it is advantageously possible that the shaft rod of the thermal tripping shaft can move freely in the first recess, wherein a movement of the shaft rod of the thermal tripping shaft in the invention, a rotation of the shaft rod can be understood about the axis of rotation, the axis of rotation advantageously concentric is arranged to the shaft rod longitudinal axis, and further by the term of movement, a translational movement of the shaft rod of the thermal tripping shaft and in particular the entire thermal tripping shaft along the shaft rod longitudinal axis and therefore along the longitudinal axis of the axis of rotation can be understood, for example, to allow calibration of the thermal tripping device ,

It is also conceivable that the second recess is formed such that a movement of a shaft arranged eccentrically to a rotational axis of the magnetic trip shaft shaft of the magnetic trip shaft around the axis of rotation of the magnetic trip within the second recess is made possible. Advantageously, the magnetic tripping shaft has an axis of rotation concentric with the axis of rotation of the thermal tripping shaft, the magnetic tripping shaft having a shaft rod arranged eccentrically to its axis of rotation, however, the shaft rod longitudinal axis of the shaft rod of the magnetic tripping shaft being substantially parallel to the longitudinal axis the axis of rotation of the magnetic tripping shaft or the thermal tripping shaft runs. Accordingly, the magnetic tripping shaft accordingly has a shaft rod and two leg elements which extend away from the shaft rod in substantially the same direction and which are advantageously arranged at a respective end or end region of the shaft rod of the magnetic tripping shaft. These leg members each advantageously have a storage area at those end portions which are opposite the end portions of the leg members which are connected to the shaft rod ends of the shaft rod of the magnetic trip unit. The axis of rotation of the magnetic trip wave advantageously passes through the or between the storage areas of the leg elements and substantially parallel in the same direction to the longitudinal axis of the shaft rod of the magnetic trip unit. Accordingly, it is advantageously possible for the second recess on the second surface or on the second side of the component according to the invention to extend, in particular in such a way along the second surface and into the material thickness of the component, starting from the second surface, that a movement of the Shaft rod along a circular path can be made possible, which extends around the axis of rotation of the magnetic tripping shaft or the thermal tripping shaft.

In the context of the invention, it is further possible that the component has a third surface arranged between the first surface and the second surface, on which a mounting projection for mounting the component to a corresponding holding element of a housing of a thermal-magnetic trip unit for holding the component is arranged. The third surface is advantageously also a lateral surface of the cube-shaped component, which advantageously extends between the first surface and the second surface. This surface or side of the component has a mounting projection, for example in the form of a mounting rib or a mounting pin or a mounting pin or a plurality of mounting pins or mounting pins or mounting ribs on. Consequently, this mounting projection extends away from the third surface and advantageously serves for the reliable and correct positioning of the component in the housing. Advantageously, the component has only a single surface, which has such a mounting projection, so that the component can therefore be arranged in consideration of the known Poka-Yoke principle only in a defined orientation within the housing, resulting in a faulty installation of the component during reduce the installation of the thermal-magnetic trip unit. Furthermore, it is conceivable that the mounting projection serves alternatively or additionally to the clearance-free arrangement of the component on the housing and in particular in the interior of the housing, so that consequently the mounting projection is configured such that it in the form of a press fit for positive connection with a corresponding recess in Housing can serve.

It is furthermore conceivable for the component to have at least one fourth surface arranged between the first surface and the second surface, on which at least one projection for play-free arrangement of the component is arranged on a corresponding holding element of a housing of a thermal-magnetic trip unit for holding the component is. The fourth surface of the component is advantageously a side surface of the component which extends between the first surface and the second surface. The named protrusion is, for example, a material curvature or a material throw which is deformed at least partially in such a manner when introducing or arranging the component in the holding element, that an interference fit and consequently a positive connection between the component and the holding element of the housing of a thermomagnetic trip unit independently Dimensional deviations and in particular manufacturing tolerances can be made possible. Thus, it is also possible that the projection in the region of the mounting projection and / or in the region of the third surface, which has the mounting projection, is arranged.

Furthermore, a housing of a thermal-magnetic trip unit is claimed for supporting at least one magnetic trip of the thermal-magnetic trip unit, said housing according to the invention at least one extending from an inner surface of a housing wall in the direction of the housing interior holding member for holding a component according to at least one of having preceding claims 1 to 5. Consequently, the housing according to the invention has at least one holding element which can be used to hold a component according to the above-mentioned type. The holding element according to the invention has a forceps-shaped or U-shaped configuration for arranging at least a portion of this component between the forceps or wall regions of the holding element. The forceps-like shape or the U-shaped or trough-shaped shape of the holding element is designed such that the walls or pliers of the holding element extending from an inner surface of the wall of the housing in the direction of the housing interior and in particular in the direction of an opposite wall of the housing , Between the pliers, the holding element has a receiving space for receiving at least a portion of the component. In particular, this receiving space extends along the inner surface of the wall of the housing from an opening or an upper area towards a bottom area or a lower area of the housing such that the component can be inserted from an upper opening of the housing into the holding element. The housing itself is advantageously an injection-molded housing with at least one circumferential wall and has a substantially cube-shaped form with at least four wall regions.

In the context of the invention, it is conceivable that the housing has at least two holding elements, which are arranged essentially parallel to one another and are disposed opposite portions of the inner surface of the housing wall, for holding a component for supporting the thermal tripping shaft. Advantageously, the holding elements are arranged on the inner surface of the housing wall in such a way that the respective receiving space of the holding elements opens in the direction of the interior of the housing so that the clamps of the holding elements extend from the inner surface of the housing wall into the interior of the housing. In the context of the invention, opposite means that the housing wall has two substantially mutually parallel sections, which have an opposite inner surface. Accordingly, it is possible that the holding elements are arranged at least substantially opposite and advantageously parallel to each other extending wall regions of the housing wall. Thus, it is conceivable that the holding elements along the inner surface of the housing walls are arranged offset according to the height or the length of the individual sections of the housing. However, it is also conceivable that the at least two holding elements are arranged directly opposite one another, that means at a comparable height and of comparable length at the sections of the housing wall.

It is further possible that at least one of the retaining elements of the at least two retaining elements has a mounting recess for receiving a mounting projection of the component which can be arranged on the retaining element. The mounting recess may in this case be, for example, a mounting hole or in particular a mounting groove, which advantageously in the vertical direction and in particular from the opening or an upper side of the housing in the direction of the bottom area, d. H. a lower side of the housing extends, so that in particular the mounting projection, which may be configured as previously mentioned in the form of a mounting rib or a mounting pin, introduced into this mounting recess and in particular can be inserted. Advantageously, the mounting recess and in particular the mounting groove to the mounting projection and in particular the mounting rib identical configuration in terms of depth, width and / or length, so that consequently a smooth insertion of the mounting rib can be made possible in the mounting groove. Advantageously, only one retaining element of the at least two substantially opposing retaining elements, which form a pair of retaining elements, has this mounting recess, so that consequently a laterally reversed arrangement of the component within the housing can be avoided.

In the case of the invention, all the advantages that already come to a Component according to the first aspect of the invention have been described.

Furthermore, a thermal-magnetic trip unit of an electric switch is claimed, which is a thermal tripping of a thermal tripping device for activating a trigger mechanism for interrupting a current flow of an electrical circuit in the event of an overload and a magnetic trip of a magnetic tripping device for activating the thermal tripping shaft when a Short circuit has. In the invention, a shaft rod of the magnetic trip shaft is arranged eccentrically pivotable about a rotation axis of the magnetic trip shaft, wherein at least one component for supporting the thermal trip shaft between the thermal trip shaft and the magnetic trip shaft is arranged. The thermal-magnetic trip unit advantageously has, in addition to the thermal tripping shaft, a magnetic tripping shaft, wherein the thermal tripping shaft is a component of the thermal tripping device, while the magnetic tripping shaft is advantageously a component of the magnetic tripping device. The magnetic trip device has in addition to the magnetic trip wave and an armature and in particular an impact armature and a yoke element for generating a magnetic field, wherein the armature so interacts with the magnetic trip shaft, that due to a movement of the armature in the direction of the yoke element, the magnetic trip shaft in rotation the axis of rotation of which is offset, which in turn causes a thermal tripping shaft to rotate about its axis of rotation, thus activating or activating a tripping mechanism for interrupting the current flow or current path of the electrical circuit or the electrical switch based on the rotation of the thermal tripping shaft about its axis of rotation is unlatched. In order to enable an independent movement of the individual tripping shafts, namely the thermal tripping shaft and the magnetic tripping shaft within the thermal-magnetic trip unit, it is possible according to the present invention, by means of an intermediate element, such as the component according to the invention, which at least partially between a shaft rod of the thermal Tripping shaft and the magnetic trip shaft is arranged to realize a storage of the thermal tripping shaft independently of a storage of the magnetic trip.

In addition to the thermal tripping shaft, the thermal tripping device also has, in particular, a bimetallic strip or bimetallic element which bends in such a way as to cause contact between at least one area of the bimetallic element and the thermal tripping shaft, as a result of which the thermal tripping shaft rotates or rotates is offset about the axis of rotation, which in turn activates or unlatches a trigger mechanism for interrupting the current flow of the electrical circuit. The thermal tripping shaft advantageously has a shaft rod whose longitudinal axis extends concentrically with the axis of rotation of the thermal tripping shaft, wherein the magnetic tripping shaft has a shaft rod whose longitudinal axis is parallel to the longitudinal axis of the axis of rotation of the magnetic tripping shaft, but also eccentric thereto. The thermal tripping shaft and the magnetic tripping shaft advantageously have an identical axis of rotation. Accordingly, it is possible that the shaft rod of the magnetic trip shaft is moved along a circular path which extends about the axis of rotation of the magnetic tripping shaft and the thermal tripping shaft.

It is also conceivable that the thermal-magnetic trip unit comprises a housing according to at least one of the preceding claims 6 to 8. Accordingly, the thermal-magnetic trip unit advantageously has a housing of the type mentioned above.

It is further possible that the component is designed according to one of the preceding claims 1 to 5. Consequently, it is possible for the component extending at least in regions between the magnetic tripping shaft and the thermal tripping shaft to be designed according to the above-mentioned type.

In the case of the thermal-magnetic trip unit according to the invention, all the advantages which have already been described for a component and / or a housing according to the preceding aspects of the invention result.

It is further claimed an electrical switch for interrupting a current flow of an electric current of an electric circuit upon the occurrence of a triggering event, comprising a thermal-magnetic trip unit according to at least one of the preceding claims 9 to 11. Accordingly, the electrical switch, which is in particular an electrical power switch, and advantageously a molded case circuit breaker, at least one thermal-magnetic trip unit, which is configured as mentioned above.

In the case of the electrical switch according to the invention, all advantages which already result in a component, a housing and / or a thermal-magnetic trip unit according to FIGS previous aspects of the invention have been described.

An embodiment of a component according to the invention, an embodiment of a thermal-magnetic trip unit according to the invention and an embodiment of a housing according to the invention are explained in more detail below with reference to drawings. Each show schematically:

1 a perspective view of an embodiment of a component according to the invention,

2 a sectional view of an embodiment of a thermomagnetic trip unit, and

3 a perspective view of an embodiment of a housing according to the invention.

Elements with the same function and mode of action are in the 1 to 3 each provided with the same reference numerals.

In the 1 is a perspective view of a first embodiment of a component according to the invention 1 shown. The component 1 has a first surface 2 and one of the first surface 2 opposite second surface 4 on, which also as lateral surfaces of the substantially parallelepiped or cube-shaped component 1 can be designated. The first surface 2 has a first recess 3 on, which in particular has a U-shaped or a semicircular shape. The first recess 3 extends on the one hand, starting from the first surface 2 in a defined depth of the material of the component 1 in and on the other advantageous from a fourth surface 8th towards a fifth surface, not shown here, which is the fourth surface 8th opposite, the fourth surface 8th and the fifth surface the side surfaces of the component 1 form. The first recess 3 thus offers a passage from the fourth surface 8th to the fifth surface. In the area of the second surface 4 is a second recess 5 introduced, which starting from the second surface 4 in the direction of the component interior and in particular in a material layer of the component 1 extends into it. Furthermore, also forms the second recess 5 a passageway or tunnel starting from the fourth surface 8th to the fifth surface not shown here, which is the fourth surface 8th opposite. In the area of a third surface 6 which is located between the first surface 2 and the second surface 4 extends and also a lateral surface of the component 1 is advantageous is a mounting projection 7 , which according to the embodiment of the 1 is designed in the form of a mounting rib arranged, wherein, as in the 1 shown, the mounting projection along the third surface 6 starting from the first surface 2 towards the second surface 4 can extend. The fourth surface 8th which is located between the first surface 2 and the second surface 4 extends and in particular a side surface or base of the cube-shaped component 1 represents advantageously has at least one projection 9 and preferably a plurality of protrusions 9 which is in the form of accumulations of material along the fourth surface 8th , in particular in the form of ribs or webs, starting from the first surface 2 towards the second surface 4 extend or run. Like in the 1 shown is the first recess 3 the second recess 5 not completely opposite each other. Rather, it is possible that the first recess 3 in a first area, and in particular along a surface of a first half of the component 1 extends while the second recess 5 in particular in a second area opposite thereto or along a surface of a second half of the component 1 extends. The second recess 5 advantageously has a sufficient in the longitudinal direction of the second surface 4 extending length to allow movement of a shaft rod of the magnetic trip shaft on a circular path about a pivot point or a rotation axis of the magnetic trip shaft. The longitudinal direction of the second surface 4 corresponds in the context of the invention, the between the third surface 6 and one of the third surface 6 opposite to the sixth surface not shown here extending length of the second surface, wherein the sixth surface is also a lateral surface of the component 1 is. In the 2 is a side sectional view of an embodiment of a thermal-magnetic trip unit 100 shown. Inside a housing 3 the thermal-magnetic trip unit 100 is in particular a thermal tripping device 10 and a magnetic trip device 20 arranged. The thermal release device 10 has a thermal tripping shaft shown here at least in sections 11 on, which interacts with a bimetallic element, not shown here. The magnetic release device 20 has, inter alia, a here at least partially illustrated magnetic trip 21 on which interacts in particular with a shock anchor, not shown here. The magnetic trip wave 21 has a wave rod 22 on while the thermal trip 11 a wave rod 12 having.

At the wave rod 12 the thermal tripping wave 11 is inter alia an engaging element 13 arranged, which, as in the 2 shown, shown cut. This engagement element 13 advantageously serves as a rib for one Adjustment knob for adjusting the position of the thermal tripping shaft. Furthermore, the thermal tripping shaft has at least one contact element, not shown here, in order to come into contact with a bending or bent bimetallic element, whereby the kinetic energy of the bimetal element on the contact element 13 is transmitted, so that thereby a rotational movement of the thermal tripping shaft 11 and in particular the shaft rod 12 the thermal tripping wave 11 around whose pivot point D, or about its axis of rotation D is made possible. The axis of rotation D of the thermal tripping shaft 11 extends advantageously along the longitudinal axis of the shaft rod 12 the thermal tripping wave. Between the thermal tripping shaft 11 and the magnetic trip wave 21 is an embodiment and in particular that in the 1 shown embodiment of a component according to the invention 1 arranged. Like in the 2 recognizable, contacted in particular the shaft rod 12 the thermal tripping wave 11 the first recess 3 of the component 1 while the wave rod 22 the magnetic trip 20 within the second recess 5 of the component 1 is movably arranged, advantageously without the second recess 5 to contact. Furthermore, the thermal-magnetic trip unit 100 a power line element 40 which is due to the thermal-magnetic trip unit 100 extends to an electric current along or by the thermal-magnetic trip unit 100 to conduct, so that the magnetic trip device 20 due to a triggering moment, such as a short circuit or the thermal trip device 10 due to a triggering moment or event, such as an overload can be triggered.

In the 3 is an embodiment of a housing according to the invention in a perspective view 30 shown. This case 30 the thermal-magnetic trip unit 100 (see. 2 ) has in particular a housing wall 31 which extends in the form of a cube having at least four side surfaces. The housing wall 31 in particular has an outer surface 31.2 and an inner surface 31.1 on. In the area of the inner surface 31.1 the housing wall 31 is at least one holding element 32 and advantageous, as in the 3 shown a total of four retaining elements 32 arranged to be based on an arrangement of consequently two components 1 (see. 1 ) within the housing 1 a stable and reliable storage of a thermal tripping shaft 11 (see. 2 ). At least two of the retaining elements are advantageous 32 arranged opposite one another such that their receiving spaces 32.1 are opposite. Furthermore, each retaining element 32 at least two walls or two pliers 33.1 and 33.2 on which starting from the inner surface 31.1 the housing wall 31 extend in the direction of the housing interior I. Two opposing retaining elements 32 advantageously form a pair of holding elements, wherein one of the holding elements 32 each pair of retaining elements a mounting recess 34 which, as in the 3 shown, may be configured in the form of a mounting groove or groove. In this mounting recess 34 is the one in the 1 shown mounting projection of the component 1 , which may be configured for example in the form of a mounting rib, einbringbar. Advantageously, the walls or the pliers extend 33.1 and 33.2 of the holding element 32 along the inner surface 31.1 the housing wall 31 starting from a bottom area B of the housing 30 in the direction of an opening or an upper side of the housing 30 and advantageously have a length or height which is substantially equal to the length or height of the third surface 6 and one of the third surface 6 opposite sixth surface which extends between the first surface 2 and the second surface 4 extend the component corresponds. The first pliers 33.1 and the second pair of pliers 33.2 each retaining element 32 advantageously have such from the inner surface 31.1 the housing wall 31 wegerstreckende length, in particular an area of the fourth surface 8th and the fourth surface 8th opposite fifth surface of the component 1 (see. 1 ) are contacted at least in sections. Advantageously, it is possible that the at least on the fourth surface 8th arranged protrusions 9 , like in the 1 shown inside areas of the pliers 33.1 respectively. 33.2 the respective holding elements 32 contact them in such a way that they through the pliers 33.1 and 33.2 be deformed to a clearance arrangement of the component 1 inside the recording rooms 32.1 the respective holding elements 32 to enable.

LIST OF REFERENCE NUMBERS

1

component

2

first surface

3

first recess

4

second surface

5

second recess

6

third surface

7

mounting boss

8th

fourth surface

9

head Start

10

thermal release device

11

thermal tripping wave

12

Shaft rod of the thermal release shaft

13

Engagement element of the thermal tripping shaft

20

magnetic release device

21

magnetic trip

22

Shaft rod of the magnetic release shaft

30

casing

31

housing

31.1

inner surface of the housing wall

31.2

outer surface of the housing wall

32

retaining element

32.1

Receiving space of the holding element

33.1

first pliers of the retaining element

33.2

second pliers of the holding element

34

Mounting recess of the holding element

100

thermal-magnetic trip unit

40

Power-conducting member

B

Floor area of the housing

D

axis of rotation

I

housing interior

Claims (12)

Component ( 1 ) for supporting a thermal tripping shaft ( 11 ) a thermal triggering device ( 10 ) a thermal-magnetic trip unit ( 100 ) of an electrical switch, wherein the component ( 1 ) a first surface ( 2 ) with a first recess ( 3 ) for the storage of the thermal tripping wave ( 11 ) and a second of the first surface ( 2 ) oppositely arranged surface ( 4 ) with a second recess ( 5 ) to enable movement of a magnetic trip ( 21 ) having. Component ( 1 ) according to claim 1, characterized in that the first recess ( 3 ) has a semicircular shape whose size and / or shape at least in sections a circumference of a shaft rod ( 12 ) of the thermal tripping wave ( 11 ) corresponds. Component ( 1 ) according to one of the preceding claims 1 or 2, characterized in that the second recess ( 5 ) is formed such that a movement of an eccentric to a rotation axis (D) of the magnetic release shaft ( 21 ) arranged shaft rod ( 22 ) of the magnetic release shaft ( 21 ) about the axis of rotation (D) of the magnetic release shaft ( 21 ) within the second recess ( 5 ). Component ( 1 ) according to one of the preceding claims, characterized in that the component ( 1 ) one between the first surface ( 2 ) and the second surface ( 4 ) arranged third surface ( 6 ), on which a mounting projection ( 7 ) for mounting the component ( 1 ) on a corresponding retaining element ( 32 ) of a housing ( 30 ) a thermal-magnetic trip unit ( 100 ) for holding the component ( 1 ) is arranged. Component ( 1 ) according to one of the preceding claims, characterized in that the component ( 1 ) at least one between the first surface ( 2 ) and the second surface ( 4 ) arranged fourth surface ( 8th ) at which at least one projection ( 9 ) for play-free arrangement of the component ( 1 ) on a corresponding retaining element ( 32 ) of a housing ( 30 ) a thermal-magnetic trip unit ( 100 ) for holding the component ( 1 ) is arranged. Casing ( 30 ) a thermal-magnetic trip unit ( 100 ) for storing at least one magnetic trip ( 21 ) of the thermal-magnetic trip unit ( 100 ), the housing ( 30 ) at least one of an inner surface ( 31.1 ) of a housing wall ( 31 ) in the direction of the housing interior (I) extending holding element ( 32 ) for holding a component ( 1 ) according to at least one of the preceding claims 1 to 5, wherein the retaining element ( 32 ) a tong-like shape for arranging at least a portion of the component ( 1 ) between the pliers ( 33.1 . 33.2 ) of the retaining element ( 32 ) having. Casing ( 30 ) according to claim 6, characterized in that the housing ( 30 ) at least two substantially mutually parallel and opposite portions of the inner surface ( 31.1 ) of the housing wall ( 31 ) arranged holding elements ( 32 ) for holding a component ( 1 ) for the storage of the thermal tripping wave ( 11 ) having. Casing ( 30 ) according to claim 7, characterized in that at least one of the retaining elements ( 32 ) of the at least two holding elements ( 32 ) an assembly cut-out ( 34 ) for receiving a mounting projection ( 7 ) of the holding element ( 32 ) can be arranged component ( 1 ) having. Thermal-magnetic trip unit ( 100 ) of an electrical switch, comprising - a thermal tripping shaft ( 11 ) a thermal triggering device ( 10 ) for activating a trigger mechanism for interrupting a current flow of an electrical circuit when an overload occurs and - a magnetic trip ( 21 ) of a magnetic triggering device ( 20 ) for activating the thermal tripping wave ( 11 ) in the event of a short circuit, wherein a shaft rod ( 22 ) of the magnetic release shaft ( 21 ) eccentrically pivotable about a rotation axis (D) of the magnetic release shaft ( 21 ), and wherein at least one component ( 1 ) for the storage of the thermal tripping wave ( 11 ) between the thermal tripping wave ( 11 ) and the magnetic trip wave ( 21 ) is arranged. Thermal-magnetic trip unit ( 100 ) according to claim 9, characterized in that the thermal-magnetic trip unit ( 100 ) a housing ( 1 ) according to at least one of the preceding claims 6 to 8. Thermal-magnetic trip unit ( 100 ) according to claim 10, characterized in that the component ( 1 ) is configured according to one of the preceding claims 1 to 5. An electric switch for interrupting a current flow of an electrical current of an electric circuit when a triggering event occurs, comprising a thermal-magnetic trip unit ( 100 ) according to at least one of the preceding claims 9 to 11.

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