EP4252266A1 - Insulating-material housing and compact circuit breaker - Google Patents

Abstract

The insulating-material housing (2) according to the invention has a front side (3), an opposite fastening side (4) and also narrow and broad sides (5, 6) connecting them. A first and a second current path region (10, 20), which are arranged next to one another, are located in the housing (2), each of the two current path regions having a first receiving space (11, 21) for receiving a short-circuit tripping apparatus (40), a second receiving space (12, 22) for receiving a switching contact and also a third receiving space (13, 23) for receiving an arc-quenching apparatus (50). The two first receiving spaces (11, 21) are arranged in the region of the front side (3) and also in the region of a respective one of the narrow sides (5) here, so that the two second receiving spaces (12, 22) are arranged centrally between the two first receiving spaces (11, 21). The third receiving spaces (13, 23) are arranged between the fastening side (4) and the respectively associated first receiving space (11, 21). A fourth receiving space (104) for receiving an additional functional assembly (80) is arranged next to the first and/or third receiving space (11, 13) of the first current path region (10) in a normal direction of the broad sides. Owing to the compact configuration, the circuit breaker (1) can be expanded by an additional functional assembly arranged in the fourth receiving space (104).

Description

description

Insulating housing and compact circuit breaker

The invention relates to an insulating material housing for a compact circuit breaker. The insulating material housing has a front side, a fastening side and the narrow and broad sides connecting the front and the fastening side and is divided into a first and a second current path region, which are arranged next to one another in the width direction and are each designed to accommodate one current path. Each of the two current path areas has a first receiving space, which is provided and designed to accommodate a short-circuit tripping device of the miniature circuit breaker, a second receiving space, which is provided and designed to accommodate a switching contact of the miniature circuit breaker, and a third receiving space, which is intended and designed to accommodate an arc quenching device of the circuit breaker. The invention also relates to a compact circuit breaker with such an insulating housing, with a first current path in the first current path area, which can be interrupted by a first switching contact arranged in the second receiving space of the first current path area, and a second current path in the second current path area, which can be interrupted by a second switching contact arranged in the second receiving space of the second current path region.

Electromechanical protective switching devices - for example circuit breakers, miniature circuit breakers, residual current circuit breakers as well as arcing or AFD units - are used to monitor and protect an electrical circuit and are used in particular as switching and safety elements in electrical energy supply and distribution networks. To monitor and protect the electrical circuit, the protective switching device is connected to an electrical Line of the circuit to be monitored electrically conductively connected in order to interrupt the electric current in the je weilen monitored line if necessary. For this purpose, the protective switching device has at least one switching contact which can be opened when a predefined state occurs—for example when a short circuit or a fault current is detected—to separate the monitored circuit from the electrical mains. Such protective switching devices are also known as series installation devices in the field of low-voltage technology.

Circuit breakers are specially designed for high currents. A circuit breaker (so-called circuit breaker), which is also known as a "miniature circuit breaker" (MCB), represents what is known as an overcurrent protection device in electrical installations and is used in particular in the area of low-voltage networks. Circuit breakers and circuit breakers guarantee safe switching off in the event of a short circuit and protect consumers and systems against overload, for example against damage to the electrical lines due to excessive heating as a result of an excessive electrical current.They are trained to automatically switch off a circuit to be monitored in the event of a short circuit or the occurrence of an overload and thus from the rest of the line network Circuit breakers and miniature circuit breakers are therefore used in particular as switching and safety elements for monitoring and protecting an electrical circuit in electrical energy supply networks Filters are known in principle from publications DE 10 2015 217 704 A1, EP 2 980 822 A1, DE 10 2015 213 375 A1, DE 10 2013 211 539 A1 or EP 2 685 482 B1.

To interrupt a single phase line, a single-pole circuit breaker is usually used, which is usually one pitch unit wide (corresponds to approx. 18 mm). For three-phase connections (as an alternative to three single-pole switching devices), three-pole conductors protective switches are used, which accordingly have a width of three pitch units (corresponds to approx. 54mm). Each of the three phase conductors has a pole, i. H . assigned a switching point. If the neutral conductor is to be interrupted in addition to the three phase conductors, this is referred to as a four-pole device, which has four switching points: three for the three phase conductors and one for the shared neutral conductor. In addition, there are compact miniature circuit breakers which, with a housing width of only one pitch unit, have two switching contacts for one connection line each, d . H . either for two phase lines (compact circuit breaker of type 1+1) or for a phase line and the neutral conductor (compact circuit breaker of type 1+N) .

A residual current circuit breaker is a protective device to ensure protection against a dangerous residual current in an electrical system. Such a residual current—which is also referred to as residual current—occurs when a live line section has an electrical contact with earth. This is the case, for example, when a person touches a live part of an electrical system: in this case, the current flows as a fault current through the person's body towards earth. To protect against such body currents, the fault current circuit breaker must quickly and safely disconnect all poles of the electrical system from the mains when such a fault current occurs. In general usage, instead of the term "residual current circuit breaker", the terms FI circuit breaker (abbreviated: Fl switch), residual current circuit breaker (abbreviated: DL switch) or RCD (for "Residual Current Protective Device") are equivalent used .

arc or AFD units are used to detect arcing faults that can occur at a defective point in an electrical line - for example, a loose cable clamp or a broken cable. used . If the accidental arc occurs electrically in series with an electrical consumer, the normal operating current is generally not exceeded because it is limited by the consumer. For this reason, the accidental arc is not detected by a conventional overcurrent protection device, such as a fuse or a circuit breaker. To determine whether an arc fault is present, the arc fault detection device measures both the voltage curve and the current curve over time and analyzes and evaluates them with regard to the curves that are characteristic of an arc fault. In the (English-language) specialist literature, such protective devices for detecting accidental arcs are referred to as "Arc Fault Detection Device" (abbreviated: AFDD). In North America, the term "Arc Fault Circuit Interrupter" (abbreviated: AFCI) is common.

In addition, there are also combined device designs in which the functionality of a residual current circuit breaker is supplemented by the functionality of a miniature circuit breaker: such combined protective switching devices are known in German as FI /LS or in English-speaking countries as RCBO (for residual current operated circuit breaker with overcurrent protection). designated . Compared to separate residual current circuit breakers and miniature circuit breakers, these combination devices have the advantage that each circuit has its own residual current circuit breaker: Normally, a single residual current circuit breaker is used for several circuits. If there is a residual current, all of the fused circuits are switched off as a result. The use of RCBOs only shuts down the circuit concerned.

More and more functionalities are tending to be integrated into the devices, i. H . combined protective switching devices are being developed which cover the range of functions of several individual devices: in addition to the FI/LS protective switching devices already described above, which cover the range of functions of a conventional residual current circuit breaker (FI) with that of a circuit breaker (LS), there are other designs in which, for example, the functionality of an AFD unit is integrated into existing devices such as MCB, RCD or RCBO/FILS.

Particularly in the case of compact miniature circuit breakers - for example with two protected poles in one pitch unit or with four protected poles in two pitch units - the available construction volume is limited by the maximum possible external dimensions specified by the standard, the necessary components and components required for the individual device functions Triggers and the necessary or resulting minimum wall thicknesses and cross-sections of the individual parts and functional assemblies, severely limited. For any additional functional extensions of the protective switching device, there is usually no additional structural volume available.

It is therefore the object of the present invention to provide an insulating material housing for a compact circuit breaker and a compact circuit breaker with a corresponding insulating material housing, which are characterized by an alternative arrangement of the individual components, so that an additional Functional assembly can be arranged in the insulating material housing.

This object is achieved according to the invention by the insulating material housing for a compact circuit breaker and the compact circuit breaker with a corresponding insulating material housing according to the independent claims. Advantageous configurations of the insulating material housing according to the invention and of the compact line protection switch according to the invention are the subject of the dependent claims.

The insulating material housing according to the invention for a compact circuit breaker has a front side, a fastening side and the front side and the fastening side connect ing narrow and broad sides on . In the insulating material housing there are a first and a second current path area, which are arranged next to one another in the width direction and are designed to accommodate one current path each, with each of the two current path areas having a first accommodation space which is provided and designed for this purpose, a short-circuit Trigger device of the circuit breaker to increase, a second receiving space, which is intended and designed to receive a switching contact of the circuit breaker and a third receiving space, which is intended and designed to increase an arc extinguishing device of the circuit breaker, has. The two first receiving spaces are arranged in the region of the front side and in the region of one of the narrow sides in the insulating material housing, so that the two second receiving spaces are arranged centrally in the insulating material housing between the two first receiving spaces. The third receiving spaces are each arranged between the fastening side and the respectively associated first receiving space of the respective current path area. A fourth accommodation space, which is provided and designed to accommodate an additional functional assembly of the miniature circuit breaker, is arranged in a direction normal to the broad sides next to the first and/or third accommodation space of the first current path region.

The term "compact miniature circuit breaker" refers to a miniature circuit breaker that has two protected poles per pitch unit, for example two protected poles in one pitch unit, but also four protected poles with a width of two pitch units, etc. This also includes miniature circuit breakers with three protected poles with a housing width of 1.5 pitch units , one pitch unit corresponds to a housing width of about 18mm .

The first and the second current path area are arranged next to each other and each run from one of the two narrow rarely to the other of the two narrow sides. The two current path areas are separated from one another at least in sections by a partition which also extends from one of the two narrow sides to the other of the two narrow sides and thus runs parallel to the two broad sides at least in sections. However, the partition wall does not run centrally between the two broad sides, but is designed to project in sections (in the direction of one of the two broad sides) in order to allow sufficient installation space for the components of the circuit breaker to be arranged in the respective receiving spaces.

The spatial arrangement of the two first receiving spaces is selected such that the first receiving space of the first current path area is arranged in the area of one narrow side, while the first receiving space of the second current path area is arranged in the area of the other narrow side, so that the two second receiving spaces are between the two first receiving spaces can be arranged in the middle of the insulating material housing. This opposing arrangement of the two first accommodation spaces, each for accommodating a short-circuit tripping device, and the second accommodation spaces arranged between them, each for accommodating a switching contact, contributes significantly to an extremely compact arrangement of the individual components in the insulating housing of the compact circuit breaker at .

The third receiving spaces assigned to the respective current path are arranged below the first receiving space assigned to the respective current path in the region of the fastening side in the insulating material housing, ie. H . the third receiving space of the first current path area is arranged in a normal direction of the front side behind the first receiving space of this first current path area, the third receiving space of the second current path area is arranged in this normal direction behind the first receiving space of the second current path area. The arrangement of the fourth accommodation space in a normal direction of the broad sides next to the first and/or third accommodation space of the first current path area is made possible by the fact that the components to be arranged in the first and/or third accommodation space, i. H . the respective short-circuit tripping device and/or the respective arc-extinguishing device, are designed to be narrower in the width direction and therefore do not take up the entire inner width of the insulating material housing.

The compact design of these components and the insulating material housing that is precisely adapted to this design make it possible to provide the fourth accommodation space, which is intended and designed to accommodate an additional functional assembly of the miniature circuit breaker. The compactly designed miniature circuit breakers can therefore also take account of the customer's desire for progressive integration of more and more functions into one device.

In an advantageous development of the insulating material housing, a further fourth accommodation space, which is provided and designed to accommodate a further additional functional assembly of the miniature circuit breaker, is arranged in a direction normal to the broad sides next to the first and/or third accommodation space of the second current path area.

With the aid of the additional fourth receiving space, there is the possibility of integrating an additional function into the miniature circuit breaker, which can be implemented identically for both current paths and therefore requires additional installation space both in the first current path area and in the second current path area. In addition, there is the possibility of realizing two different additional functional assemblies, for example sensors or integrated circuits, in the fourth accommodation space and in the further fourth accommodation space. In a further advantageous development, the insulating material housing is characterized in that at least one of the fourth accommodation spaces extends at least partially from the area next to the first accommodation space to an adjacent area next to the third accommodation space.

In the event that both the first accommodating space for accommodating a short-circuit tripping device and the third accommodating space for accommodating an arc quenching device, which is assigned to the same current path area, can be designed narrower than the maximum possible internal width of the insulating housing, then there is - since the first and the fourth receiving space of each current path area are arranged next to each other - the possibility that the fourth and/or the further fourth receiving space is correspondingly enlarged and also extends downwards in the direction of the fastening side to the area next to the third receiving space. In this way, a larger additional functional module—for example a flat module—can also be arranged in the fourth receiving space.

In a further advantageous development of the insulating material housing, the fourth receiving space assigned to the respective current path area is arranged next to the first receiving space of the same current path area.

Furthermore, in a further advantageous development of the insulating material housing, the fourth receiving space assigned to the respective current path area is arranged next to the first receiving space of the other current path area.

The two developments mentioned above relate to two alternative embodiments: In the first case, the fourth receiving space, which is arranged next to the first and/or third receiving space of the first current path area, is also assigned to this first current path area. This is particularly advantageous when in the fourth receiving space to be arranged additional functional assembly is to be assigned to the first short-circuit tripping device to be arranged in the first receiving space of the first current path area and/or to the first arc-extinguishing device to be arranged in the third receiving space of the first current path area. The same applies to the further, fourth receiving space, which is then arranged correspondingly next to the first and/or third receiving space of the second current path region and assigned to it.

In the second case, the fourth receiving space, which is arranged next to the first and/or third receiving space of the first current path area, is assigned to the other, ie the second current path area. The further fourth receiving space, which is then arranged next to the first and/or third receiving space of the second current path area, is correspondingly assigned to the first current path area.

The compact circuit breaker according to the invention has an insulating housing of the type described above. In this case, a first current path arranged in the first current path area can be interrupted by a first switching contact arranged in the second receiving space of the first current path area. A second current path arranged in the second current path area can be interrupted by a second switching contact arranged in the second receiving space of the second current path area. Furthermore, the compact circuit breaker according to the invention has a first short-circuit tripping device, which is arranged in the first receiving space of the first current path area, a second short-circuit tripping device, which is arranged in the first receiving space of the second current path area, a first arc quenching device, which is located in the third receiving space of the first current path area is arranged, a second arc quenching device, which is arranged in the third accommodation space of the second current path area, and an additional functional assembly, which is arranged in the fourth accommodation space. With regard to its topographical structure, the compact line protection switch according to the invention is based on the insulating material housing according to the invention described above. With regard to the basic advantages of the compact circuit breaker according to the invention, reference is therefore made to the above statements on the advantages of the insulating material housing according to the invention.

In an advantageous further development of the compact circuit breaker, the first switching contact and the second switching contact are arranged in opposite directions and can therefore be actuated in opposite directions.

The opposite arrangement of the switching contacts enables a particularly compact arrangement of the switching contacts between the first and the second short-circuit tripping device - and thus an extremely compact design of the compact circuit breaker.

In a further advantageous development of the compact line protection switch, the additional functional module is assigned to the first and/or the second current path area.

In a further advantageous development of the compact line protection switch, a further additional functional module is arranged in the further fourth receiving space.

The additional functional module, which can be assigned to the first or the second or both current path areas, takes account of the user's requirement for further integration of additional functionalities in the individual protective switching devices, even for compact circuit breakers with two protected poles in one modular width. The same applies to the integration of the further additional functional module in the insulating material housing of the compact circuit breaker according to the invention. In the following, exemplary embodiments of the insulating material housing according to the invention and of the compact circuit breaker according to the invention are explained in more detail with reference to the attached figures. In the figures are :

FIG. 1 shows a first exemplary embodiment of the insulating material housing according to the invention in several views;

FIG. 2 shows a second exemplary embodiment of the insulating material housing according to the invention;

FIG. 3 shows a third exemplary embodiment of the insulating material housing according to the invention;

FIG. 4 shows a perspective sectional illustration of the compact circuit breaker according to the invention;

characters

5 and 6 perspective side views of the compact circuit breaker according to the invention.

In the various figures of the drawing, the same parts are always provided with the same reference symbols. The description applies to all drawing figures in which the corresponding part can also be seen.

In FIG. 1, a first exemplary embodiment of the insulating material housing 2 according to the invention for a compact circuit breaker 1 (see FIG. 4) is shown schematically in several views. The term "compact circuit breaker" means a circuit breaker with two protected poles or switching points that are electrically isolated from one another in a common housing with a width of only one modular width (1TE corresponds to approx. 18mm). The two switching points can be switchable together or separately from each other. The insulating material housing 2 according to the invention has a front side 3 , a fastening side 4 opposite the front side 3 , and narrow sides 5 and broad sides 6 connecting the front and fastening sides 3 and 4 . The front side 3 has a stepped design and therefore has a protruding central area and two set-back edge areas. A switching mechanism receiving space 7 is formed inside the protruding central area, which is used to receive and hold a manually actuated switching mechanism of the compact circuit breaker 1 .

The interior of the insulating material housing 2 also has a first current path area 10 and a second current path area 20, which extend along a longitudinal direction L from one of the two narrow sides 5 to the other, opposite narrow side 5 and are arranged next to one another in a width direction B. The first current path area 10 and the second current path area 20 are arranged essentially point-symmetrically to one another in the insulating material housing 2 . The first current path area 10 has a first receiving space 11 , a second receiving space 12 and a third receiving space 13 ; Likewise, the second current path region 20 has a first accommodation space 21 , a second accommodation space 22 and a third accommodation space 23 . The first receiving spaces 11 , 21 serve to receive and hold a respective short-circuit tripping device 40 (see FIG. 4) of the circuit breaker 1 . The second receiving spaces 12, 22 are each used to receive and hold a switching contact of the circuit breaker 1 and - if necessary - to receive and hold a thermal release each, which acts on the switching mechanism of the compact circuit breaker 1 when a thermal overload occurs and such the tripping of the circuit breaker 1, d. H . the opening of the and/or the switching contacts causes. The third receiving spaces 13, 23 are used to receive and hold an arc extinguishing device 50 (see FIG. 4) of the compact circuit breaker 1 in each case. Furthermore, the first current path region 10 has a first terminal receiving space 18 for receiving and stationary fixing of a first electrical connection terminal and a second terminal receiving space 19 for receiving and stationary fixing of a second electrical connecting terminal. Correspondingly, the second current path area 20 has a first terminal receiving space 28 for accommodating and stationary fixing of a further first electrical connection terminal and a second terminal receiving space 29 for accommodating and stationary fixing of a further second electrical connecting terminal. The compact circuit breaker 1 is connected to electrical input and output connection lines via the electrical connection terminals (see Figures 5 and 6) which are arranged in the first and second terminal receiving spaces 18, 19, 28 and 29 and fixed in the insulating material housing 2 (Not shown) electrically conductively connectable.

The first receiving space 11 of the first current path area 10 and the first receiving space 21 of the second current path area 20 are each formed in the area of one of the two recessed edge areas of the front side 3 and in the area of one of the two narrow sides 5 in the insulating housing 2 . In other words: the two first receiving spaces 11, 21 are arranged one behind the other in the longitudinal direction L, with the first receiving space 11 of the first current path area 10 in the area of one narrow side 5, the first receiving space 21 of the second current path area 20 in the area of the other narrow side 5 is arranged. Only two of the terminal receiving spaces 18 , 19 , 28 , 29 are arranged between the first receiving spaces 11 and 21 and the respective narrow side 5 .

The third receiving space 13 of the first current path area 10 and the third receiving space 23 of the second current path area 20 are between the attachment side 4 and the respective current path area 10 or 20 associated first receiving space 11 or. 21 arranged. In other words : the third receiving space 13 of the first current path area 10 is arranged between the fastening side 4 and the first receiving space 11 of the first current path area 10 , the third receiving space 23 of the second current path area 20 is arranged between the fastening side 4 and the first receiving space 21 of the second current path area 20 . With an orthogonal viewing direction onto the front side 3, the two third receiving spaces 13 and 23 are each below the same current path area

10 or . 20 associated first receiving space 11 or. 21 arranged. Since the first current path area 10 and the second current path area 20 are arranged essentially point-symmetrically to one another in the insulating material housing 2, the switching contacts arranged in the respective second receiving space are arranged in opposite directions, ie. H . their moving contacts can be actuated in opposite directions, for example by the respective short-circuit tripping device or a thermal tripping device which is also arranged in the associated second receiving space.

Due to this opposing arrangement of the moving contacts, the center planes of the two short-circuit tripping devices 40 are each positioned at a distance from the center plane of the compact circuit breaker 1 . Through this eccentric , i . H . eccentric arrangement of the two short-circuit tripping devices 40 is created next to the first receiving spaces

11 and 21 in the area of one of the two broad sides 6 an additional space - the fourth receiving space 104 or. the other fourth receiving space 204 - which is hermetically separated from one or the other current path area or functionally open to the compact line protection switch 1 can be assigned as a whole.

The second receiving space 12 of the first current path region 10 and the second receiving space 22 of the second current path region 20 are arranged adjacent to one another between the two first receiving spaces 11 and 21 in the center of the insulating material housing 2 and . The two second receiving spaces 12 and 22 each take up approximately half of the interior Interior of the insulating material housing 2 in the width direction B available installation space, while the two first receiving spaces 11 and 21 and the two third receiving spaces 13 and 23 are each significantly more than half the available inner width of the insulating material f housing 2 claim.

In the width direction B, next to the first accommodation space 11 and the third accommodation space 13 of the first current path area 10 , a fourth accommodation space 104 is formed inside the insulating material housing 2 , which is intended to accommodate an additional functional assembly of the miniature circuit breaker 1 . The fourth receiving space 104 can be assigned both to the first current path area 10 and to the second current path area 20 . It is also possible for the fourth receiving space 104 to be assigned to both current path areas 10 and 20 , for example because it accommodates an additional functional assembly which can be assigned to both current path areas 10 and 20 .

Furthermore, in the width direction B, in addition to the second accommodation space 21 and the third accommodation space 23 of the second current path region 20, a further fourth accommodation space 204 is formed inside the insulating material housing 2, which is intended to accommodate a further additional functional assembly of the circuit breaker 1 . The further fourth receiving space 204 can also be assigned both to the first current path area 10 and to the second current path area 20 . It is also possible that the further fourth receiving space 204 is also assigned to both current path areas 10 and 20 .

FIG. 1 shows the basic structure of the insulating material housing 2 for arranging the individual components of a two-pole compact circuit breaker 1 with a housing width B of one pitch unit. However, this basic structure can be scaled to miniature circuit breakers with several protected poles, for example four protected poles in one An insulating material housing with a corresponding housing width of two pitch units.

FIG. 2 shows a second exemplary embodiment of the insulating material housing 2 according to the invention—again in several views—schematically. In contrast to the first exemplary embodiment shown in FIG. 1, in the second exemplary embodiment the fourth receiving space 104 and the further fourth receiving space 204 do not extend all the way to the fastening side 4 . Rather, a narrow connection area 27 is arranged between the fastening side 4 and the fourth receiving space 104, which is used to receive and hold an electrically conductive connection between the second switching contact that can be arranged in the second receiving space 22 of the second current path area 20 and the second switching contact that can be arranged in the second terminal receiving space 29 of the second current path area 20 electrical terminal is used. A further narrow connection area 17 is also arranged between the fastening side 4 and the further fourth receiving space 204, which is used to receive and hold a further electrically conductive connection between the first switching contact that can be arranged in the second receiving space 12 of the first current path region 20 and the one in the second terminal receiving space 19 of the first Current path area 10 can be arranged electrical further second electrical terminal is used. The electrically conductive connections between the first or The second switching contact and the electrical connection terminal that is clearly assigned to the respective switching contact can be configured differently, for example as a rigid conductor, as a stranded wire, as a sheet metal strip or the like.

FIG. 3 shows a third exemplary embodiment of the insulating material housing 2 according to the invention—again in several views—schematically. In this case, the fourth accommodation space 104 is only arranged in the area next to the first accommodation space 11 of the first current path area 10 . Likewise, the further fourth receiving space 204 is only indicated next to the first receiving space 21 of the second current path area 20 arranges . This embodiment makes sense, for example, if the additional functional assembly to be arranged in the fourth receiving space 104 is to be assigned directly to the short-circuit tripping device to be arranged in the first receiving space 11 of the first current path region 10, and the additional functional assembly to be arranged in the fourth receiving space 204 to the first receiving space 21 of the second current path area 20 to be arranged short-circuit tripping device is to be assigned directly - for example in the form of a shielding plate in each case in order to reduce the magnetic field generated by the respective short-circuit tripping device.

From the housing division shown in Figure 3, there is also the advantage that the third receiving spaces 13 and 23 are correspondingly larger, d. H . can be made wider, so that the arc quenching devices to be arranged in the third receiving space 13 and in the further third receiving space 23 can also be made larger.

FIG. 4 schematically shows a perspective sectional view of the compact line protection switch 1 according to the invention, the sectional plane running parallel to the narrow sides 5 through the first receiving space 11 and the third receiving space 13 of the first current path area 10 . The insulating material housing 2 is presently made in three parts and has a first housing cover 2-1 and a second housing cover 2-2, which are fastened to a middle part 2-3 of the housing, for example by means of rivets and/or snap-in connections.

A short-circuit tripping device 40 of the compact circuit breaker 1 is arranged in the first receiving space 11, d. H . recorded and held. The short-circuit tripping device 40 has a magnetic coil 41 and an armature-plunger assembly 42 that is movable relative thereto Current path area 10 associated switching contact is moved to open the switching contact fnen and such to interrupt the current flow.

An arc quenching device 50 of the compact circuit breaker 1 is arranged below the short-circuit tripping device 40 in the third receiving space 13, d. H . recorded and held. The arc quenching device 50 has a large number of splitter plates which are arranged parallel to one another and are spaced apart from one another. If the arc hits the arc quenching device 50, it splits into a number of partial arcs, which burn in series between the individual arc splitters. Due to the resulting higher arc voltage and the cooling effect of the arc splitters, the arc is finally extinguished.

In the width direction B, next to the first accommodation space 11 with the short-circuit tripping device 40 arranged therein and the third accommodation space 13 with the arc quenching device 50 arranged therein, there is the fourth accommodation space 104, in which the additional functional assembly of the circuit breaker 1 can be arranged. The width direction B corresponds to the normal direction of the broad sides 6 .

FIGS. 5 and 6 show perspective side views of the compact circuit breaker 1 according to the invention, with the housing cover 2-1 being omitted in order to enable a view of the fourth receiving space 104. A cooling element 80 is accommodated and held in the fourth accommodation space 104 , as an example of a possible additional functional assembly to be arranged there. Furthermore, the connection terminal 9 arranged in the terminal receiving space 29 can be seen in this representation between the cooling element 80 and the narrow side 5 . In this illustration, the connection terminal 9 is made of a screw terminal; However, this is not essential to the invention, which is why other suitable connection elements can also be used there. With the aid of the fourth accommodation space 104 and/or the further fourth accommodation space 204, it is possible to expand the functionality of the compact circuit breaker by one or more functions. Particularly in the case of compact protective switching devices with two fused poles with a width of one pitch unit or four fused poles with a width of two pitch units, the possibility of being able to implement additional functions represents a not inconsiderable competitive advantage. As an additional functional module or as a further additional functional assembly, which can be accommodated and held in the fourth accommodation space 104 and/or in the further fourth accommodation space 204, the following possibilities, for example, come into consideration:

• Insertion of one or more shielding plates against escaping magnetic fields in the adjacent first receiving space 11 or. 21 arranged short-circuit tripping device to affect the magnetic influence on neighboring protective switching devices or. to minimize;

• Introduction of ferromagnetic materials in order to in the adjacent third receiving space 13 or. 23 arranged arc quenching device to influence the arc effect;

• Introduction of heat sinks 80 made of ferromagnetic or non-ferromagnetic, solid, liquid or gaseous materials for cooling in the adjacent first receiving space 11 or. 21 arranged short-circuit tripping device 40 and / or in the adjacent third receiving space 13 or. 23 arranged arc extinguishing device 50;

Utilizing the structural volume provided by the fourth receiving space 104 and/or in the further fourth receiving space 204 to influence the gas exchange, in particular re in the area of the respective second receiving space 12 or 12 . 22 arranged respective switching contact: these include, for example, flow-suitable contours for the targeted guidance of the gas flow during arc shutdown/extinguishing.

• Use of electronic components, which are used to digitize the compact line protection switching device 1, for example by a communication module (wired or wireless), a measuring device, for example to record the type of tripping (thermal or magnetic), a counting function, a temperature monitor, a Forecast of the probability of failure, etc.

• Due to the structural proximity to the adjacent first recording space 11 or. 21 arranged short-circuit tripping device and in the adjacent third receiving space 13 or. 23 arranged arc extinguishing device 50 advantageously electronic actuators and / or sensors for status monitoring and status reporting can be introduced into the fourth receiving space 104 and / or the other fourth receiving space 204.

• Instead of the connection area 17 or . 27, the fourth accommodation space 104 and/or the further fourth accommodation space 204 can also be used as an alternative connection area between the output-side connection terminal 9 and the second accommodation space 21 or 22 arranged switching contact - if necessary. on the also in the second receiving space 21 or. 22 arranged thermal system are used.

• Furthermore, the design volume reserved by the fourth receiving space 104 and/or the further fourth receiving space 204 can also be used as an additional blow-out duct in order to positively influence the gas exchange in the compact circuit breaker 1 - and here in particular in the area of the arc quenching device 50 . reference character list

1 compact circuit breaker

2 I insulating material housing

2- 1 housing cover

2-2 Housing Cover

2-3 Housing middle section

3 front

4 fastening side

5 narrow side

6 broadside

7 switching mechanism accommodation space

9 terminal block

10 current path area

11 first recording room

12 second recording room

13 third recording room

17 connection area

18 first terminal receiving space

19 second terminal receiving space

20 rung area

21 first recording room

22 second recording room

23 third recording room

27 connection area

28 first terminal receiving space

29 second terminal receiving space

40 Short-circuit tripping device

41 Solenoid

42 Anchor Plunger Assembly

50 arc extinguishing device

80 cooling element

104 fourth recording room

204 another fourth recording room

B width direction

L Longitudinal direction

Claims

23 patent claims

1. Insulating material housing (2) for a compact circuit breaker (1), having a front side (3), one of the front side 3 opposite mounting side (4) and the front and the mounting side (3, 4) connecting narrow and broadsides (5, 6) ,

- With a first and a second current path area

(10, 20), which are arranged next to one another in the width direction (B) and are designed to accommodate one current path each, each of the two current path regions having: o a first accommodation space (11, 21) which is provided and designed for this purpose, a short-circuit tripping device (40) of the circuit breaker (1), o a second receiving space (12, 22) which is provided and designed to receive a switching contact of the circuit breaker (1), o a third receiving space (13, 23) which is provided for this purpose and is designed to accommodate an arc extinguishing device (50) of the circuit breaker (1),

- wherein the two first receiving spaces (11, 21) are arranged in the area of the front side (3) and in the area of one of the narrow sides (5) in the insulating housing (2),

- wherein the two second receiving spaces (12, 22) are arranged centrally in the insulating housing (2) between the two first receiving spaces (11, 21),

- wherein the third receiving spaces (13, 23) are each arranged between the fastening side (4) and the respectively assigned first receiving space (11, 21) of the respective current path area,

- Wherein a fourth receiving space (104), which is provided and designed to receive an additional functional assembly of the circuit breaker (1), in a normal direction of the broad sides (6) next is arranged in the first and/or third receiving space (11, 13) of the first current path region (10). Insulating material housing (2) according to claim 1, wherein a further fourth receiving space (204), which is provided and designed to receive a further additional functional assembly of the miniature circuit breaker (1), in a direction normal to the broad sides (6) next to the first and/or third receiving space (21, 23) of the second current path region (20) is arranged. Insulating material housing (2) according to any one of claims 1 to 2, wherein at least one of the fourth receiving spaces

(104, 204) extends at least partially from the area next to the first receiving space (11, 21) to an adjacent area next to the third receiving space (13, 23). Insulating housing (2) according to one of Claims 1 to 3, the fourth receiving space (104, 204) assigned to the respective current path area (10, 20) being arranged next to the first receiving space (11, 21) of the same current path area (10, 20). Insulating housing (2) according to one of Claims 1 to 3, the fourth receiving space (104, 204) assigned to the respective current path area (10, 20) being arranged next to the first receiving space (21, 11) of the other current path area (20, 10). . Compact circuit breaker (1)

- With a designed according to one of claims 1 to 5 insulating housing (2),

- having a first current path arranged in the first current path area (10), which can be interrupted by a first switching contact arranged in the second receiving space (12) of the first current path area (10), and a second current path arranged in the second current path area (20), which can be interrupted by an im second up receiving space (22) of the second current path area (20) arranged second switching contact can be interrupted,

- having a first short-circuit tripping device (40) arranged in the first receiving space (11) of the first current path area (10) and a second short-circuit tripping device arranged in the first receiving space (21) of the second current path area (20),

- having a first arc quenching device (50) arranged in the third receiving space (13) of the first current path area (10) and a second arc quenching device arranged in the third receiving space (23) of the second current path area (20),

- With an additional functional assembly (80), which is arranged in the fourth receiving space (104). Compact circuit breaker (1) according to claim 6, wherein the first switching contact and the second switching contact are arranged in opposite directions and can therefore be actuated in opposite directions. Compact circuit breaker (1) according to one of claims 6 or 7, wherein the additional functional module (80) is assigned to the first or the second current path area. Compact circuit breaker (1) according to one of Claims 6 to 8, a further additional functional assembly being arranged in the further fourth receiving space (204).