RU2329561C1 - Device of protective disconnection of narrow structural version - Google Patents

Abstract

FIELD: electric engineering.

SUBSTANCE: invention is related to compact device of protective disconnection with expanded functionality, which has casing, in which commutation device is installed, as well as short-circuit current unlocking and device of damage current unlocking. In order to increase device compactness and in particular for realisation of its narrow structural version, centers of commutation device, device of short-circuit current unlocking and device of damage current unlocking are mainly locate in one plane, and commutation device is installed between device of short-circuit current unlocking and device of damage current unlocking. By means of that, for example, it is possible to combine linear protective breaker with switches of damage currents protection in single module, the width of which is multiple to 18 mm.

EFFECT: increase of device compactness.

7 cl, 2 dwg

Description

The present invention relates to a residual current device with a housing and located therein: a switching device for switching at least one electrical contact, a short-circuit current trip device for tripping a switching device in case of a short circuit, and a fault current trip device for tripping a switching device in case of current damage or differential current.

A similar residual current device is known from EP 0 929 292 A1. In discussing the state of the art, this publication discloses that in such residual current devices, the short-circuit current trip device and the fault current trip device can be located in one module and on the same plane.

Typically, residual current circuit breakers in electrical installation techniques are implemented, for example, in the form of linear circuit breakers, circuit breakers for protection against damage currents or circuit breakers for differential current protection. In linear circuit breakers, a short-circuit current release and a release for overload protection are often integrated in this case. Residual current circuit breakers are known either individually: LS [line fuse], FI [protection against fault currents], or as combinations of devices (devices arranged in series): FI / LS, LS / DI [differential protection] or LS + FI units.

Residual current devices, in addition, are often implemented as sequentially built-in devices. In this case, individual components are available, as a rule, in the form of modules. So, for example, linear circuit breakers and circuit breakers for protection against damage currents are respectively offered in the form of modules of constant width. The width of such modular electromechanical switching devices is indicated in units of division in accordance with the relevant standard. For example, one division unit (TE) corresponds to a size of 18 mm.

If now it is necessary to mount a combined residual current circuit breaker, such as a linear circuit breaker with a differential current protection switch or a fault current protection switch with a linear circuit breaker, then two devices are needed so that the resulting total width is greater than one unit of division TE. This means that such a combination of residual current circuit breakers requires more installation space than a simple linear circuit breaker with a width of 1 TE. This means, however, also that the protective function of the linear circuit breaker integrated in the switchgear cabinet cannot be increased without problems, since it cannot in any case be replaced by a combined protective disconnect device with a width of 2 TE.

Also, the structural height of the modular switching apparatus, for example, due to the distance between the rows of busbars for mounting, and the structural depth, for example, due to the size of the switchgear, are usually subject to restrictions. Thus, the structural depth would normally be at most 70 mm and the installation height at most 90 mm.

An object of the present invention is to provide compact residual current circuit breakers with enhanced protection functionality.

According to the invention, this problem is solved by a residual current device, with a housing and located therein: a switching device for switching at least one electrical contact, a short circuit current trip device for tripping a switching device in the event of a short circuit, and a fault current trip device for tripping a switching device in in case of fault current or in the case of differential current, the center of the switching device, the center of the trip device the short circuit current and the center of the fault current trip device are generally located on the same plane, and the switching device is located between the short circuit current trip device and the fault current trip device. That is, the fault current trip device has the function of a trip current protection switch and / or a differential current protection switch. Moreover, the named plane is preferably perpendicular to the mounting rail.

Advantageously, by using the arrangement of the switching device, the short-circuit current trip device and the fault current trip device according to the invention, it is possible to realize a residual current device, including the trip of the fault current, in a single module with a width of 1 TE. Moreover, in the case of existing installations, it is possible to increase the protective function due to the fact that, for example, a conventional linear circuit breaker is replaced with a combined protective circuit breaker of the same width.

Due to the more compact design of the residual current circuit breakers, however, a reduction in switchgear can also be achieved. The number of branches with a high combined protective function can also be increased in the case of conventional switchgear sizes. Finally, due to the compact arrangement according to the invention, in the combined residual current circuit breaker, an improvement in selectivity can be achieved.

In a preferred manner, the width of the housing, as mentioned, corresponds to a standard size. This standard size can be specifically determined using a division unit of 18 mm. This also leads to the advantage mentioned that separate modules can be replaced without problems since they have the same width.

The residual current circuit breaker according to the invention may have the functionality of a linear circuit breaker and a circuit breaker for protection against damage currents. In addition, however, the residual current circuit breaker may have the functionality of a linear circuit breaker and a differential current protection switch. This means that these two functionalities can be combined in one single device and the width of this device should not go beyond the width of a simple linear circuit breaker.

Further, a trip device may be located on the switching device to protect against overloads. Fundamentally, this tripping device for protection against overloads can lie with its center also on the plane on which the centers of other components also lie. Since, as a rule, the overload release is, however, smaller than the mentioned components of the residual current circuit breaker, it can also be easily located at other places between these components.

Particularly preferably, the present invention can be used for residual current circuit breakers, which are designed as a series-integrated device. In this case, the above advantages are manifested even more.

The present invention is explained in more detail using the attached drawings, which show:

Figure 1 is a cross-sectional view of a residual current device according to the invention

Figure 2 is a side view of the residual current circuit breaker of Figure 1.

The embodiments described in more detail below are preferred embodiments of the present invention.

Accordingly, a particularly preferred embodiment of the present invention, in the housing 1 of the residual current circuit breaker there is a switching mechanics 2 with at least one electrical contact, which can be tripped by a short-circuit current release 3, an overload release 4 and a fault current release 5. The releases are shown symbolically in in the form of rectangular components and the corresponding trip levers are outlined in dashed lines. At the edge 6, both halves of the housing 1 of the residual current circuit breaker are joined together. On the end faces of the housing 1, the connecting terminals L and N are shown.

As follows from the schematic diagram of Fig. 1, the components of the short-circuit current release 3, switching mechanics 2 and the fault current release 5 have the greatest length among the components that are essential here. In contrast, the overload release 4 has a relatively small size. According to the invention, only the large components 2, 3 and 5 are arranged so that their respective centers lie essentially on the same plane. In the present example, this plane passes through the midline 7 along the longitudinal extent of the housing 1 and thereby perpendicularly to the mounting rail not shown, onto which the device is mounted on the recess shown in FIG. 2.

The overload release 4, in comparison with other components 2, 3 and 5, is relatively small in size so that it can be more easily positioned between them. In the present example, it lies slightly offset to the side between the overload release 4 and the fault current release 5.

In the case of two-dimensional projections of the essential components 2, 3, and 5 onto the plane of the base of the residual current device, they lie in a row one after another. Due to this, it is possible to provide the width of the housing, respectively, to one unit of division TE.

In Fig.2, the residual current device of Fig.1 is presented in cross section. Here you can see the two-dimensional distribution of switching mechanics 2, a short-circuit current release 3 and a fault current release 5 in the above plane. Also, the location of the trip unit for overload protection 4 below the switching mechanics 2 is shown in FIG. 2. In addition, also here dashed lines symbolize individual trip levers on the switching mechanics 2. The cut line for the cross section of Fig. 1 is indicated by the letter A.

Essential for the present case components switching mechanics 2, short-circuit current release 3 and fault current release 5 lie their centers, respectively, as in the example of Figure 1, exactly on the same plane, and the releases act on the general switching mechanics 2. Corresponding to the implementation of switching mechanics 2 and trip levers however, it may be necessary that the centers of these components are somewhat offset from the plane. However, the essence of the arrangement according to the invention is to use the third dimension perpendicular to the named plane as little as possible. Thus, the residual current device can be implemented with volumetric functional units, such as electromagnetic releases and converters, as well as functional units that require less volume, such as thermal releases, in a narrow design. In this case, the width of the combined device is preferably limited to 1 TE, the structural depth is less than 70 mm and the structural height is less than 90 mm. Thus, it is possible to evenly distribute the sensors and actuators necessary for the combined protective function against overload, short circuit current and fault current in the available structural volume.

Claims (7)

1. Residual current circuit breaker with a housing (1) and a switching device (2) located inside it for switching at least one electrical contact, a short-circuit current trip device (3) for tripping a switching device (2) in case of a short circuit and a trip device fault current (5) for tripping the switching device in case of fault current and / or differential current, characterized in that the center of the switching device (2), the center of the short circuit current tripping device Nia (3) and the center of the disengaging device current damage (5) is mainly arranged in the same plane, and that the switching device (2) is arranged between the device disengaging short-circuit current (3) and a fault current tripping device (5). 2. The residual current device according to claim 1, wherein the width of the housing (1) corresponds to a standard size. 3. The residual current circuit breaker according to claim 2, wherein the width of the housing (1) corresponds to a division unit of 18 mm. 4. The residual current device according to any one of claims 1 to 3, which has the functionality of a linear circuit breaker and a circuit breaker for protection against damage currents. 5. The residual current device according to any one of claims 1 to 3, which has the functionality of a linear circuit breaker and a differential current protection switch. 6. The protective shutdown device according to any one of claims 1 to 3, and on the switching device (2) there is a trip device for protection against overloads (4). 7. The protective shutdown device according to any one of claims 1 to 3, which is made in the form of a series-integrated device.

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