DE102007048412A1 - Protective switching device and protective switching device - Google Patents

Abstract

The present invention relates to a protective switching device with a switching device (2) for switching at least one electrical contact, with a short circuit tripping device (3) for triggering the switching device (2) in a short circuit and with a residual current tripping device (5) for triggering the switching device (2) in a fault current drop and / or differential current case, wherein the switching device (2), the short-circuit tripping device (3) and the residual current tripping device (5) are arranged one behind the other in a longitudinal alignment, wherein the protective switching device (12) comprises a test circuit (6), in addition to the residual current tripping device ( 5) is arranged. Furthermore, the invention relates to a protective switching device, comprising a housing (7), wherein within the housing (7) a protective switching device (12) is provided.

Description

The The present invention relates to a protective switching device with a switching device for switching at least one electrical Contact, with a short circuit tripping device to trip the switching device in a short circuit and with a residual current device for triggering the switching device in a fault current case and / or differential current case, wherein the switching device, the short-circuit release device and the residual current tripping device in succession in a longitudinal alignment are arranged. Further concerns the invention is a protective switching device, in particular a protective switching device in narrow construction.

Usually Protective switching devices are in protective switching devices intended. Protection switching devices are used in installation technology For example, as a circuit breaker, residual current device or residual current circuit breaker realized. In the circuit breakers is often a short-circuit release and an overload release integrated. The protective switching devices are either single LS, FI or as device combinations (lined up Devices) FI / LS, LS / DI or LS + FI block known.

Circuit protection devices Furthermore, they are often designed as DIN rail mounted devices. The individual components are usually available as modules. For example, circuit breakers and residual current circuit breakers each offered in fixed module widths. The width of such Modular electromechanical switchgear is divided into division units specified in accordance with a relevant standard. For example corresponds to a division unit (TE) the measure of 18 mm.

From the DE 10 2004 034 859 A1 a protective device for a protective switching device or a protective switching device is known in which / a short-circuit tripping device, a switching device and a residual current tripping device are arranged one behind the other in the longitudinal direction of the protective switching device. Longitudinal alignment means that the short-circuit tripping device, the switching device and the residual current tripping device extend from one end face to the other end side of the housing of the protective switching device. The protective switching device disclosed there is a division unit wide. Furthermore, from the DE 10 2004 034 859 A1 It is known that an overload tripping device is provided within the protective switching device. That is, the DE 10 2004 034 859 A1 describes an arrangement on how to implement a protective switching device with short-circuit, overload and residual current protection. For this purpose, the centers of the short-circuit tripping device and the residual current tripping device and the switching mechanism are arranged in a plane or slightly offset from it. The width of the protective switching device does not exceed a dividing unit. The bimetallic strip, which represents the overload function of the overload trip device is arranged eccentrically.

Known Protective switching devices or protective switching devices that in addition to the short-circuit tripping device, the switching device and the fault current tripping device and a Prüfstromkreiseinrichtung have are dimensioned so large that they are not in a housing with a maximum width of 18 mm. Furthermore, in such protective switching devices or protective switching devices Always in the residual current device, d. H. in the FI or DI area, integrated. In particular, contacted the test current spring for double interruption of the test circuit always the moving parts of the switching mechanism the residual current device side, i. H. the FI or DI page.

at a protective switching device or a protective switching device in narrow construction, d. H. the protection device, in the the protective switching device is integrated may not exceed 18 mm wide, a Prüfstromkreiseinrichtung can not within the residual current device, d. H. FI or DI range, to get integrated.

Therefore the object of the invention is to provide a protective switching device or a protective switching device to provide a switching device, a Short-circuit release device, a residual current device and a Prüfstromkreiseinrichtung have and the are dimensioned so narrow that the protective switching device in a protective switching device with a maximum width of 18 mm fits or that the protective device with such a Protective switching device has a maximum width of 18 mm.

These The object is achieved by a protective switching device with the features according to the independent Claim 1 and by a protective device with the features according to the independent Claim 10 solved. Further features and details The invention will become apparent from the dependent claims, the Description as well as the drawings. Features and details related are described with the protective switching device are of course also in connection with the protective switching device and respectively vice versa.

According to the first aspect of the invention, the object is achieved by a protective switching device with a switching device for switching at least an electrical contact, with a short-circuit tripping device for triggering the switching device in a short circuit and with a residual current device for triggering the switching device in a fault current and / or differential current case, wherein the switching device, the short-circuit tripping device and the residual current tripping device are arranged one behind the other in a longitudinal alignment, wherein the protective switching device Test circuit having means disposed adjacent to the residual current device, and wherein the protective switching device is so narrow that it can be arranged in a housing of a protective switching device with a maximum width of 18 mm, solved.

A Such protective switching device can be so narrow dimensioned be that the protective switching device in a housing a protective switching device can be integrated, wherein the Housing of the protective device maximum 18 mm is wide. That is, the protective switching device can be so small be dimensioned that the protective device, in the the protection switching device is installed, the width of a division unit can correspond. This is due to the special positioning of the Test circuit device allows. The test circuit device is no longer in the residual current device or the residual current protective function area, i. H. the FI or DI area, the protection switching device integrated, but separated from the Residual current device arranged. This can on the one hand, the fault current tripping device simpler and be made narrower. That is, due to the nonintegration of the Test circuit in the residual current device This can be dimensioned so small that so much space in addition to the residual current device remains that the Test circuit and the residual current device stay narrower than 18 mm together. The width of the case the protective switching device can after integration of the protective switching device a standard measure. This standard size is especially by a division unit with the measure of 18 mm defined. The protective switching device preferably has a width, which is in a range of 8 mm and 18 mm, in particular one Width, which lies in a range of between 14 mm and 18 mm, on. D. h., The width of the protective switching device can advantageously also be smaller than 18 mm.

The Residual-current trigger device has the function of a Residual current circuit breaker and / or a residual current circuit breaker. D. h .. the protective switching device according to the invention can the functionalities of a circuit breaker age and have a residual current circuit breaker. Furthermore However, the protection switching device can also the functionalities a circuit breaker and a residual current circuit breaker have. This means that these two functionalities can be combined in a single protective switching device and the width of this protection switching device not over which must go beyond a simple circuit breaker. Prefers is the residual current device an electromagnetic DI-timer).

The Arrangement of the test circuit device next to the residual current device allows for a simple construction of the parts of the Test circuit and on the other hand, that no others Components, in particular the residual current device be hampered.

The Test circuit device is in addition to the residual current device arranged. This means in the light of the invention that the test circuit device in the immediate vicinity of the residual current device is arranged. The short-circuit tripping device, the Switching mechanism and the residual current device are arranged one behind the other. "By" means that the test circuit device one side of the fault current triggering device facing is that does not face the switching mechanism or this is turned away. The test circuit device is parallel to the residual current device arranged with respect to the successively arranged components of the Protective switching device, d. H. parallel to the longitudinal orientation the short-circuit release device, the switching mechanism and the residual current device. Preferred is a protective switching device, in which the Prüfstromkreiseinrichtung parallel to the residual current device is arranged, and in the along the longitudinal orientation the switching device after the short-circuit tripping device and the residual current device after the switching device is arranged. As a result, the test circuit device be arranged in the vicinity of the switching mechanism to the To enable double interruption.

Prefers is also when the protective switching device is dimensioned in this way is that these in a circuit breaker with a length or depth of a maximum of 70 mm and a maximum height of 90 mm can be integrated.

Especially a protective switching device with a protective function against short circuit, overload and fault current and a Prüfstromkreiseinrichtung and with a rated current of up to 40 A is particularly preferred.

Further, a protective switching device is preferred in which the switching device, the short-circuit tripping device, the residual current tripping device and the test circuit device to ei a phase separation part and / or are attached to an inner side of a housing. As a result, the respective components can be securely arranged. The attachment of the Prüfstromkreiseinrichtung on the inside of a protective circuit surrounding housing provides space for an optimized attachment of the switching device, the short-circuit release device and the residual current device on the phase separation part.

The Test circuit having the protective circuit device preferably a test circuit spring and / or a test resistor on. Furthermore, a test current button can be provided. So can the test circuit, in addition to the residual current device is arranged only have a test circuit spring. A test resistor can then, for example, at another Position on the protective switching device, for example on the circuit board, be provided and with lines with the Prüfstromeinrichtung be connected.

Of Furthermore, a protective switching device is preferred in which the Test circuit device near the switching device next to the fault current trigger device is arranged. This allows short ways to switch off the residual current device and the short-circuit tripping device can be realized. That is, the lines between the residual current device and other components of the protective switching device can be short be laid and uncomplicated.

Especially preferred is a protective circuit device described above, at a phase separation part is provided which the protective switching device divided into a phase side and a neutral side, wherein the Test circuit device and the short-circuit release device on the phase side and the residual current device is arranged on the neutral side. Through the phase separation part and the special arrangement of the test circuit device on the phase side and the residual current device on the neutral side, is the test circuit device specially protected and electrical from the residual current device isolated.

Of the Test circuit resistance of the test circuit device can be arranged next to the test circuit spring. Of the Test circuit resistance can be formed wired. This is done by disconnecting the neutral side on which the Residual current device is arranged allows. By a breakthrough in the phase separation part of the test circuit led to the neutral side of the protective switching device where the line of the test circuit is passed through the summation current transformer becomes. By the arrangement of the test circuit resistance space is created on the protected phase side PCB. This is an optimized arrangement of the remaining electrical components, in particular the bulky transistors and varistors on the PCB possible.

Prefers is also a protective switching device, in which at the switching device an overload trip device is arranged. The arrangement of the overload trip device on the Protective switching device is not so critical because the dimensions of the overload trip device are low. So can the overload trip device be arranged between the other components. advantageously, However, the overload trip device is on the phase side provided in the vicinity of the switching device. This allows short and easy ways or lines from the overload trip device to the switching device will be realized.

The overload trip device switches the flowing through the protective switching device Power off when a given nominal value of the current is longer Time is exceeded significantly. For triggering is preferably a thermal release, in particular a bimetal that heats up when flowing through Power bends and triggers a shutdown mechanism. The Time to release depends on the strength of the overcurrent. At a high overcurrent is shorter than when the Rated current.

A Protective circuit device, in which the test button of the test circuit device via the Prüfstromkreiseinrichtung is arranged, is particular prefers. By the arrangement of the test circuit device In addition to the residual current device, this is easy realizable.

According to the second aspect of the invention, the object is achieved by a protective switching device comprising a housing in which within the housing a previously described protective switching device is provided, wherein the width of the housing a maximum of one division unit of 18 mm corresponds, solved.

By integrating such a protective switching device in a protective switching device, a protective switching device can be provided that in a single division unit with a width of 18 mm, a switching device, a Kurzschlussauslöseeinrichtung, a residual current device and a Prüfstromkreiseinrichtung. Such a narrow circuit breaker can be easily added to existing systems. That is, in an existing system, the protective function can be increased by, for example, a conventional circuit breaker with the width of a graduation unit is replaced by such a protection device of the same width. Preference is also a protection switching device, in which the width of the housing is less than 18 mm. For example, the width of the housing may have a value between 8 mm and 18 mm, in particular between 14 mm and 18 mm.

By the more compact design of the protective device can but also a reduction of distributors can be achieved. In front All in the housing small, inconspicuous distributors are desired. Likewise, the number of branches with high combined protection function with conventional distributor sizes increase. Ultimately, by the present invention compact Arrangement in the combined protection device an improvement the selectivity can be achieved.

Preferably corresponds to the width of the housing, as mentioned a standard measure. This standard size is specially designed by a division unit defined with the measure of 18 mm. This leads to the advantage that individual modules easily can be replaced because they have the same width.

The Protection device according to the invention can the functionalities of a circuit breaker and of a residual current circuit breaker incl. In addition, however, that protection device can also the functionalities of a circuit breaker and a residual current circuit breaker incl have. This means that these are three functionalities can be united in a single device and the width of this device does not exceed that of one simple circuit breaker goes out.

The Short-circuit release device, the switching device and the fault current tripping device are preferably in Längsaus direction of the protective switching device one behind the other within the housing arranged the protective switching device, wherein the longitudinal alignment of the protective device from one end face to the opposite end face of the housing of the protective switching device extends. The front sides of the housing of the protective switching device define the width of the protective switching device. That is, the End faces are a maximum of 18 mm wide. Between both ends the protective switching device is the short-circuit tripping device, the switching device and the residual current device arranged one behind the other. The residual current device is facing a side wall of the protective switching device, while parallel to the residual current device the test circuit device of the opposite Side wall of the protective device facing.

Prefers is a circuit breaker in which at the end faces of the Housing of the protection device in each case at least a terminal L for at least one phase conductor and a terminal N are provided for a neutral and in which the protective switching device by the between the front sides of the housing of the protective switching device extending phase separator into a phase side and a neutral side is divided. Such a trained protection device is separated into two areas. Due to the phase separation part, the Test circuit device on the protected Phase side and the residual current device on the Neutral side can be arranged. Preferably, the short-circuit release device is on the phase side arranged. As a result, both the Prüfstromkreiseinrichtung and the short-circuit tripping device electrically isolated from the residual current device inside the housing arranged the protective switching device. Furthermore, the overload release device is also Advantageously, on the phase side within the housing of the Protective switching device arranged. So can the overload release device be arranged electrically insulated. In this case, the test circuit device, d. H. the test current spring and the test current resistance, arranged directly on the phase separation part. Through a breakthrough In the phase separation part of the test circuit can on the neutral side the protective switching device are guided.

In addition, a protective switching device is preferred in which at least one opening for carrying out at least one phase conductor and an opening for carrying out a neutral conductor are provided on the front sides of the housing of the protective switching device and that the protective switching device by the extending between the end faces of the housing of the protective switching device phase separation part in a phase side ( 9 ) and a neutral side is divided. As a result, electrical cables can hang out of the openings to supply the protective switching device electrically. These so-called hanging lines are also referred to as pig-tails.

The overload trip device can easily between the different components within arranged the housing of the protective device be as they are significantly smaller in size than the others Has components. Preferably, the overload release device be provided in addition to the switching mechanism.

Prefers is a circuit breaker that contains the functionalities a circuit breaker and residual current circuit breaker or a circuit breaker and a residual current circuit breaker has.

The present invention can be used particularly advantageously for protective switching devices, which are designed as DIN rail mounted device. In this case, the advantages mentioned above are even more effective.

The Invention will now be based on embodiments below With reference to the accompanying drawings explained in more detail. Show it:

1 a sectional view from above through a protective switching device;

2 a schematic sectional view from above through a protective switching device;

3 a sectional view from the side by a protective switching device;

4 a schematic sectional view from the side by a protective switching device.

1 shows a section from above through a protective switching device 12 , The protective switching device 12 has a switching device 2 for switching at least one electrical contact, a short-circuit tripping device 3 for triggering the switching device 2 in a short circuit and a residual current device 5 for triggering the switching device 2 in a fault current case and / or differential current case. The short-circuit tripping device 3 , the switching device 2 and the residual current device 5 are along a longitudinal orientation of the protective switching device 12 arranged one behind the other. Longitudinal alignment here means the extension of the protective switching device 12 along the x-axis of the 1 represented coordinate system. The switching device 2 lies advantageously between the short-circuit tripping device 3 and the residual current device 5 to the ways to the short-circuit tripping device 3 and the residual current device 5 short. Furthermore, the protective switching device 12 one next to the residual current device 5 arranged test circuit device 6 on. "Next to" the residual current device 5 means that the test circuit device 6 in the y-direction of the fault current tripping device 5 extends out. Here is the test circuit device 6 through a phase separation part 8th from the residual current device 5 electrically isolated. The phase separation part 8th runs in x-orientation through the protective switching device 12 and subdivides these into two areas. Through a breakthrough in the phase separation part 8th can the test current from the test circuit 6 on the side of the residual current device 5 be guided. The test circuit device 6 has a test circuit spring 6b and a test circuit resistance 6a on. Furthermore, the test circuit device 6 a test button 11 on. Furthermore, on the side of the test circuit device 6 an overload trip device 4 intended. The overload trip device may be anywhere between the other components, ie, for example, the short-circuit tripping device 3 , the test circuit device 6 or the switching device 2 be arranged. Preferably, it is in the immediate vicinity of the switching device 2 on the side of the short-circuit tripping device 3 intended. As a result, short and easy ways or lines of the overload release device 4 to the switching device 2 will be realized. The overload trip device 4 switches the through the protective switching device 12 flowing current when a given nominal value of the current is exceeded for a considerable time. For triggering is preferably a thermal release, in particular a bimetallic strip, which bends when heated by the current flowing through and a shut-off mechanism in the switching device 2 triggers.

Such a designed protection switching device can be made very narrow. By the separation of the test circuit device 6 from the residual current device 5 is it possible for the first time the residual current device 5 so narrow form that within the housing 7 the protective switching device 12 , which has a maximum width of 18 mm, in addition to the residual current device 5 also the test circuit device 6 can be arranged. At the same time, the test circuit device 6 by the between the test circuit 6 and the residual current device 5 extending phase separation part electrically from the residual current device 5 be isolated.

In the 2 is such a trained protection switching device 12 in a housing 7 a protective switching device 1 shown schematically. Between the front sides 7a and 7b of the housing 7 of the protective switching device 1 run in succession, the short-circuit tripping device 3 , Switching device 2 and the residual current device 5 , In addition to the residual current device 5 is the test circuit device 6 arranged. This is due to the particularly narrow fault current release device 5 allows. At the front ends 7a . 7b of the housing 7 In each case terminals L and N are provided for the connection of phase or neutral conductors. The terminal marked L represents the terminal for a phase conductor and the terminal marked N represents the terminal for a neutral. Between the two terminals L and N is the phase separator 8th provided, which from the first end face 7a to the second end face 7b of the housing through the interior of the housing 7 runs. In this case, the phase separation part is divided 8th the interior of the protective switching device 1 into a live page 9 and a neutral side 10 , The Fault current triggering device 5 is on the neutral side 10 while the short-circuit tripping device 3 , the overload trip device 4 and the test circuit device 6 on the protected live side 9 are arranged. The switching device 2 lies on both sides of the phase separation part 8th , By the arrangement of the test circuit device 6 in addition to the residual current device 5 and diagonally next to the switching device 2 can the lines from the test circuit 6 to the residual current device 5 and also to the short circuit tripping device 3 be kept short and be designed uncomplicated. By separating the components into different areas, ie phase side 9 and neutral side 10 , the electrical insulation of the components of each phase is easily possible. By recording the Prüfstromeinrichtung in the phase side 9 will be on the neutral side 10 Space for the arrangement of the residual current tripping device 5 and the printed circuit board, not shown, within the housing 7 created.

The special advantage of the protective switching device 1 lies in the fact that the protection device 1 in the case of full functionality, ie functions for short-circuit protection, residual current or residual current protection and for overload protection, in addition in such a narrow housing 7 Space for a test circuit device 6 having. This has not been possible so far. The protective switching device 1 has a maximum width of one division unit, which is in the 2 denoted by TE on. One division unit corresponds to a width of 18 mm.

In the 3 is a longitudinal section through a protective device 1 shown. In this case, the components of the protective switching device 12 recognizable on the phase side of the protective switching device 12 are arranged. Behind the test circuit device 6 is the phase separation part 8th provided and behind the residual current device 5 , The overload trip device 4 lies between the test circuit device 6 and the short-circuit tripping device 3 slightly below the switching mechanism 2 ,

4 shows a schematic representation of a longitudinal cut protective device 1 , In this view, the neutral side 10 to be viewed as. Behind the residual current device 5 is the test circuit device 6 arranged, which is indicated by the dashed lines. The test circuit device 6 on the live side 9 is by means of an electrical line through an opening in the phase part 8th is guided, with the neutral side 10 connected. Furthermore, the test circuit device 6 with the switching device 2 connected. Also the short circuit tripping device 3 and the residual current device 5 are with the switching device 2 connected to the switching device 2 trigger if necessary. Ie. the tripping levers of the short-circuit tripping device 3 and the residual current device 5 are indicated as dashed lines.

Due to the special arrangement of the components of the protective switching device 12 can be a circuit breaker 1 in narrow construction, ie with a maximum width of 18 mm, realized, the circuit breaker 1 a short circuit tripping device 3 , a switching mechanism 2 , a residual current device 5 , if necessary, an overload trip device 4 and a test circuit device 6 having.

In this case, it is preferable in addition to the width of the protective switching device limited to a division unit TE 1 , the installation depth of the protective switching device 1 limited to 70 mm and the height to 90 mm. Thus, it is possible to accommodate the sensors and actuators required for the combined overload, short-circuit and fault current protection function as well as the test circuit functionality evenly in the available design volume.

1

Protection device

2

switching device

3

Short circuit triggering device

4

Overload tripping device

5

Fault current triggering device

5a

Side wall

6

Prüfstromkreiseinrichtung

6a

Prüfstromkreiswiderstand

6b

Prüfstromkreisfeder

7

casing of the protective switching device

7a

front

7b

front

8th

Phase separation member

9

phase side

10

Neutral side

11

test button

12

Circuit-breaker device

L

terminal for a phase conductor

N

terminal for a neutral

TE

width a division unit

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102004034859 A1 [0004, 0004, 0004]

Claims (15)

Protection switching device with a switching device ( 2 ) for switching at least one electrical contact, with a short-circuit tripping device ( 3 ) for triggering the switching device ( 2 ) in a short circuit and with a residual current device ( 5 ) for triggering the switching device ( 2 ) in a fault current and / or differential current case, wherein the switching device ( 2 ), the short-circuit release device ( 3 ) and the residual current device ( 5 ) are arranged one behind the other in a longitudinal alignment, characterized in that the protective switching device ( 12 ) a test circuit device ( 6 ), which in addition to the residual current device ( 5 ), and that the protective switching device is formed so narrow that it can be arranged in a housing of a protective switching device with a maximum width of 18 mm. Protection switching device according to claim 1, characterized in that along the longitudinal alignment of the switching device ( 2 ) after the short-circuit tripping device ( 3 ), the residual current device ( 5 ) after the switching device ( 2 ) and the test circuit device ( 6 ) in parallel with the residual current device ( 5 ) are arranged. Protective switching device according to claim 1 or 2, characterized in that the switching device ( 2 ), the short-circuit release device ( 3 ), the residual current device ( 5 ) and the test circuit device ( 6 ) on a phase separation part and / or on an inner side of a housing ( 7 ) are attached. Protective circuit device according to one of Claims 1 to 3, characterized in that the test circuit device ( 6 ) has a test circuit spring and / or a test resistor. Protective circuit device according to one of Claims 1 to 4, characterized in that the test circuit device ( 6 ) of a side wall ( 5a ) of the residual current device ( 5 ) parallel to the longitudinal orientation of the protective switching device ( 12 ) runs, facing. Protective circuit device according to one of Claims 1 to 5, characterized in that the test circuit device ( 6 ) near the switching device ( 2 ) next to the residual current device ( 5 ) is arranged. Protective circuit device according to one of claims 1 to 6, characterized in that a phase separation part ( 8th ) is provided which the protective switching device ( 12 ) into a phase page ( 9 ) and a neutral side ( 10 ), wherein the test circuit device ( 6 ) and the short-circuit release device ( 3 ) on the phase side ( 9 ) and the residual current device ( 5 ) on the neutral side ( 10 ) is arranged. Protective switching device according to one of claims 1 to 7, characterized in that on the switching device ( 2 ) an overload triggering device ( 4 ) is arranged. Protective switching device according to one of claims 1 to 8, characterized in that a test button ( 11 ) provided above the test circuit device ( 6 ) is arranged. Protective switching device comprising a housing ( 7 ), characterized in that inside the housing ( 7 ) a protective switching device ( 12 ) according to one of claims 1 to 9, wherein the width of the housing ( 7 ) corresponds to a maximum of one division unit of 18 mm. Protective switching device according to claim 10, characterized in that the short-circuit tripping device ( 3 ), the switching device ( 2 ) and the residual current device ( 5 ) in the longitudinal direction of the protective switching device ( 1 ) one behind the other within the housing ( 7 ), wherein the longitudinal orientation of the protective switching device ( 1 ) from one end face ( 7a ) to the opposite end face ( 7b ) of the housing ( 7 ) of the protective switching device ( 1 ). Protective switching device according to claim 10 or 11, characterized in that at the end faces ( 7a . 7b ) of the housing ( 7 ) of the protective switching device ( 1 ) at least one terminal (L) for at least one phase conductor and a terminal (N) are provided for a neutral conductor and that the protective switching device ( 1 ) through which between the end faces ( 7a . 7b ) of the housing ( 7 ) of the protective switching device ( 1 ) extending phase separation part ( 8th ) into a phase page ( 9 ) and a neutral side ( 10 ) is divided. Protective switching device according to claim 10 or 11, characterized in that at the end faces ( 7a . 7b ) of the housing ( 7 ) of the protective switching device ( 1 ) in each case at least one opening for carrying out at least one phase conductor and an opening for carrying out a neutral conductor are provided and that the protective switching device ( 1 ) through which between the end faces ( 7a . 7b ) of the housing ( 7 ) of the protective switching device ( 1 ) extending phase separation part ( 8th ) into a phase page ( 9 ) and a neutral side ( 10 ) is divided. Protective switching device according to one of claims 10 to 13, characterized in that the protective switching device ( 1 ) the functionalities of a lei circuit breaker and residual current circuit breaker or a circuit breaker and a differential circuit breaker has. Protective switching device according to one of the claims 10 to 14, characterized in that this as a rail-mounted device is trained.