AU2017294466A1 - Receiving module, functional module and an electrical/electronic installation device - Google Patents

Abstract

The invention relates to a receiving module (10) for receiving a functional module (60), a functional module (60) to be received in a receiving module (10), and an electrical/electronic installation device (100) comprising such a receiving module (10) in which a functional module (60) is received. A functional module (60) of this type can be replaced easily, for example, to expand the range of functions.

Description

RECEIVING MODULE, FUNCTIONAL MODULE AND AN ELECTRICAL/ELECTRONIC INSTALLATION DEVICE

The invention relates to a receiving module for receiving a functional module, a functional module to be housed in a receiving module, and an electrical/electronic installation device comprising such a receiving module and such a functional module.

Electrical/electronic installation devices are usually designed to be installed into socalled installation boxes or flush-mounted boxes respectively. Said installation is commonly carried out by an electrician. When installing the electrical/electronic installation device it is usually connected to the wiring of the network of an electrical installation prior to mounting the device in the installation box. In the instance where a user wishes to expand the functional scope of this device, or to replace its function with another one, the complete removal of the electrical/electronic installation device from the installation box is usually required to be able to mount a different installation device in the installation box. This installation can usually only be carried out by an electrician.

It is the object of the invention to provide an electrical/electronic installation device with a functional scope that can be expanded easily or, respectively, the functions of which may be replaced easily by other functions.

According to the invention this object is met by a receiving module for receiving a functional module. The receiving module is suitable for mounting in an installation box. The receiving module comprises a first switching element, a connecting device, a first pole, a second pole and a first housing. The housing forms a receiving space for receiving the functional module. The first switching device and the connecting device are disposed in said first housing. The connecting device comprises at least two connecting facilities for the connection of a wire of an electrical installation each, that is, it comprises a first connecting facility and a second connecting facility. The first switching element is on the one hand connected to the first pole, and is connected to the first connecting facility on the other hand in an electrically

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PCT/EP2017/066645 conductive manner. The second pole is connected to the second connecting facility.

The first pole and the second pole are designed and disposed such that an electrical connecting element of the functional module, which is located in the receiving space, may be connected in an electrically conductive manner to the first pole and to the second pole.

This receiving module makes it possible to easily exchange a functional module housed therein and thus to provide the user with other functions or expanded functions. This means that a costly removal and re-installation of the device into the installation box is not necessary.

A second switching element of the functional module, which may be connected to the first and the second pole, may preferably be connected in series with the first switching element.

In a preferred embodiment the first pole is connected to the first switching element by means of a first electrical conductor. To be directly connected by means of the first electrical conductor means, in this context, that the first pole is connected to the first switching element without any further interposed functional electrical component.

The second pole is preferably connected directly by means of a second electrical conductor with the second connecting facility. To be directly connected by means of the second electrical conductor means, in this context, that the second pole is connected to the second connecting facility without any further interposed functional electrical component.

The connecting facilities are preferably provided in form of a terminal and, moreover, are preferably accessible from the outside of the first housing.

Due to said embodiment the receiving module can easily be connected to the wiring of the electrical installation prior to mounting it in the installation box.

In a preferred embodiment the terminal is of the design that has been disclosed in the European patent application EP 2 947 718 A1.

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This embodiment further simplifies the connection of the conductor with the receiving module.

The first switching element is preferably a mechanical switch.

Through the opening of the switch this embodiment makes it possible to provide a galvanic separation between the functional module disposed in the receiving space and/or a device that is connected in series with the installation device and/or a power supply of the electrical installation and/or the electrical installations itself.

The receiving module is preferably designed such that the functional module is brought into an installation position through a movement in an installation direction, whereby the functional module is received in said installation position in the receiving module.

In a preferred embodiment the first housing is provided with a recess that is connected to the receiving space, wherein the first pole and/or the second pole are disposed in said recess, wherein the recess preferably extends essentially along an installation direction of the functional module.

This embodiment makes it possible to reduce the danger of accidentally making contact with the first pole or the second pole, and thus reducing the danger of electric shock.

The first pole is preferably arranged in a first recess and the second pole in a second recess. Alternatively it is possible for the first pole and the second pole to be located in the same recess.

The recess and/or the first recess and/or the second recess preferably extend essentially in installation direction.

In a preferred embodiment the first pole and/or the second pole are provided in form of a contact tab, which extends preferably along the recess.

Alternatively, the first pole and/or the second pole may be provided in form of a socket. The socket has preferably a rectangular or square cross-section.

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Preferably the contact tab and/or the socket extend essentially in installation direction.

The contact tab and/or the socket are preferably produced from die-cut sheet metal.

In a preferred embodiment the first housing comprises, furthermore, a first snap-lock means to secure the functional module in the receiving space, wherein preferably the first snap-lock means is suitable to retain the functional module positively locked in the receiving space, preferably by means of a clip attachment.

This embodiment makes it possible to retain the functional module in the receiving module and at the same time provide for an easy exchange of the functional module. Moreover, through this embodiment it can be established in a simple manner through acoustic and/or tactile feedback whether the functional module has reached an installed position.

In a preferred embodiment the first switching element comprises an operating element, which is arranged and formed in such a way that the operating element may be activated through an operating member, which is located on the functional module in the receiving space.

This embodiment makes it possible to prevent power consumption when the installation device is switched off.

In a preferred embodiment the operating element may be operated by way of a linear movement, preferably by a linear movement in installation direction.

In a preferred embodiment the receiving module comprises an actuator, which is disposed and designed to open and/or close the first switching element by way of a control signal. The actuator is preferably a mechanical drive, which is designed to open and/or close the first switching element by way of a control signal.

This embodiment makes it possible to switch the installation device and/or a device connected in series with the installation device on and/or off remotely by way of a control signal.

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The invention concerns, moreover, a functional module to be received in a receiving module according to the invention. The functional module comprises a second housing and an electrical connecting element, wherein the electrical connecting element is disposed on the housing in such a way that the electrical connecting element can be connected with the first pole and the second pole as soon as the functional model has been received in the receiving module.

This embodiment provides for a simple installation of a functional module in a receiving module.

In a preferred embodiment the electrical connecting element comprises a third pole and a fourth pole. The third pole and the fourth pole extend preferably in an approximate installation direction of the functional module. In a further preferred manner the third pole and the fourth pole extend away from the second housing.

This embodiment additionally simplifies the installation of a functional module in a receiving module.

In a preferred embodiment the second housing comprises a second snap-lock means, which cooperates with the first snap-lock means to retain the functional module in the receiving module, preferably by being positively locked.

This embodiment makes it possible to retain the functional module in the receiving module and at the same time provide for a simple way of exchanging a functional module. Moreover, through this embodiment it can be established in a simple manner through acoustic and/or tactile feedback whether the functional module has reached an installed position.

The functional module preferably comprises an operating member, which is suitable for actuating the operating element once the functional module has been received in the receiving module.

This embodiment provides for the opening and closing of the first switching element of the receiving module through the functional module.

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In a preferred embodiment the functional module comprises an input element, which is designed such that the input element, when operated by the user, interacts with the operating member in order to operate the operating element, wherein preferably the operating member is rigidly attached to the input element, and further preferred is that the operating member is formed in one piece with the input element.

This embodiment makes it possible for the user to switch on or off respectively an installation device, which is formed by the functional module and the receiving module, and/or a device connected in series with the installation device through the operation of the input element, wherein power consumption is interrupted when the installation device or other device respectively device is switched off.

The input element is preferably made as a rocker or push button, preferably as push button with a translatory degree of freedom.

In a preferred embodiment the functional module comprises a contact bridge, which provides an electrically conductive connection between the third pole and the fourth pole. According to this embodiment, the electrical/electronic installation device, which is formed by the functional module and the receiving module, may be an on/off switch, for example a light switch.

The functional module preferably comprises a second switching element, which is provided with an electrically conductive connection to the third pole and to the fourth pole.

Further preferred is where the second switching element is on the one hand directly connected to the third pole by means of an electrical conductor element, and is on the other hand directly connected to the fourth pole by means of a further electrical conductor element.

This embodiment makes it possible to galvanically separate the second switching element from the remaining electrical installation through opening the first switching element.

In a preferred embodiment the second switching element is an electromechanical switching element, preferably a relay.

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This embodiment makes it possible, for example, to provide a functional module which, in addition to the switching on and off function, which is accomplished by the first switching element, provides further functions such as, for example, the dimming of a light source, or a timer function etc.

In a preferred embodiment the functional module comprises, furthermore, a mechanically operable switch, preferably a microswitch, which is designed and located in such a way that it can be operated by the input element. Furthermore preferred, the mechanically operable switch serves to control the second switching element.

Preferably the input element is designed to be able to assume at least a neutral position, a first input position and a second input position. In a further preferred embodiment the input element is designed to operate the second switching element in the first input position and the first switching element in the second input position.

In a preferred embodiment the input element comprises, furthermore, a reset means, which is designed to move the input element from the first input position or the second input position into the neutral position. The reset means may take the form of a spring, for example a spiral spring, torsion spring, compression spring, tension spring, leaf spring, yoke spring, rubber spring, air spring, gas spring etc.

The invention concerns, furthermore, an electrical/electronic installation device, which comprises a receiving module according to the invention and a functional module according to the invention, wherein the functional module is housed inside the receiving module.

Details and further advantages of the receiving module according to the invention and of the functional module according to the invention and of the electrical/electronic installation device according to the invention are explained by way of the exemplary embodiment described below.

Shown are in:

Fig. 1 a perspective cross-section in exploded view of an electrical/electronic installation device according to an exemplary embodiment;

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Fig. 2	a perspective cross-section of an electrical/electronic installation device according to the exemplary embodiment;
Fig. 3	a perspective cross-section in exploded view of the electrical/electronic installation device installed in an installation box according to the exemplary embodiment;
Fig. 4	a further perspective cross-section in exploded view of the electrical/electronic installation device according to the exemplary embodiment;
Figs. 5 to 7	a functional module of the electrical/electronic installation device according to the exemplary embodiment in cross-section;
Fig. 8	a cross-section of an electrical/electronic installation device according to the exemplary embodiment;
Fig. 9	a perspective view of the installation device according to the exemplary embodiment in exploded view.

The Figures 1 to 4, 8 and 9 depict an electrical/electronic installation device 100 according to the exemplary embodiment. The installation device comprises a receiving module 10 and a functional module 60. The receiving module 10 is designed to be installed inside an installation box 200. The receiving module 10 comprises a first housing 30. A first switching element 12 and a connecting device 14 are disposed inside said housing 30.

The connecting device 14 comprises at least two connecting facilities 16, 18, 19 for the connection of a conductor each of an electrical installation. According to the exemplary embodiment the connecting device 14 comprises a first connecting facility 16 and a second connecting facility 18. Moreover, the connecting device 14 may comprise a third connecting facility 19 and/or further connecting facilities.

The receiving module 10 comprises, moreover, a first pole 20 and a second pole 22, which are disposed inside the first housing 30. Furthermore, the first housing 30

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PCT/EP2017/066645 forms a receiving space 32 in which the functional module 60 is at least partially located.

The first switching element 12 is provided with an electrically conductive connection on the one hand to pole 20 and on the other hand to the first connecting facility 16. The second pole 22 is connected to the second connecting facility 18.

In an assembled state of the electrical/electronic installation device 100, the first pole 20 and the second pole 22 are provided with an electrically conductive connection to an electrical connecting element 62 of the functional module 60.

A second switching element 88 of the functional module 60, which may preferably be connected to the first pole 20 and the second pole 22, may be connected in series with the first switching element 12.

In a preferred embodiment the first pole 20 is directly connected by means of a first electrical conductor to the first switching element 12. To be directly connected by means of a first electrical conductor means in this context that the first pole 20 is connected to the first switching element 12 without interposing a further functional electrical component.

The second pole 22 is preferably directly connected to the second connecting facility 18 by means of a second electrical conductor. To be directly connected by means of a second electrical conductor means in this context that the second pole 22 is connected to the second connecting facility 18 without interposing a further functional electrical component.

Furthermore, the receiving module 10 may comprise a mounting frame 15, which specifically facilitates mounting of the receiving module 10 in the mounting box 200.

The first housing 30 may, furthermore, comprise a receiving aperture 31 into which the receiving space 32 leads, and through which the functional module 60 passes at least partially in order to house the functional module 60 inside the receiving module 10. The mounting frame 15 and the receiving aperture 31 preferably extend essentially in a same plane.

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The functional module 60 may be attached to the receiving module 10 in that the functional module 60 is guided through the receiving aperture 31 into the receiving space 32 in an installation direction E.

As is most clearly apparent from Figures 1 to 4, the switching element 12, the connecting device 14, the first pole 20 and the second pole 22 are set back in installation direction E with respect to the plane of the receiving aperture 31.

As is most clearly apparent from Figure 1, the connecting facilities 16, 18, 19 are accessible from the outside of the first housing 30. The connecting facilities 16, 18, 19 may be provided in form of clamping elements.

The electrical/electronic installation device 100 has the advantage that a user, who may be a layperson, is able to exchange one installation module 60 for another installation module 60 in a simple manner without the aid of an electrician. This makes it possible to provide other or additional functions of the electrical/electronic installation device 100 in a simple manner.

The first switching element 12 is preferably a mechanical switch, which may be used to provide galvanic separation for example between the electrical/electronic installation device 100 and a power source of the electrical installation.

The first switching element 12 may, for example, be a mechanical switch with an input and an output, or a mechanical switch with two inputs and one output. If the first switching element 12 is a mechanical switch with two inputs and one output, the first switching element 12 may, for example, be used to switch a shutter on and off, or to reverse the polarity of an electromotor that drives such a shutter.

The first housing 32 may comprise a recess 34 that leads into the receiving space 32, in which the first pole 20 and/or the second pole 22 are disposed. According to the exemplary embodiment, each of the poles 20, 22 of the receiving module 10 is located inside its own recess 34. The recess 34 and/or the first pole 20 and/or the second pole 22 extend essentially in installation direction E.

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The poles 20, 22 of the receiving module 10 are tongue-shaped according to the exemplary embodiment. Each pole 20, 22 of the receiving module 10 may be located against a wall of the recess 34.

The functional module 60 comprises a second housing 70 and an electrical connecting element 80 which, in the assembled state of the electrical/electronic installation device 100, is connected to the first pole 20 and the second pole 22.

The connecting element 80 may comprise a third pole 82 and a fourth pole 84, which also extend preferably approximately in installation direction E. Preferably again, the poles 82, 84 of the functional module 60 protrude from the second housing 70 in installation direction E.

In the assembled state the first pole 20 is connected in an electrically conductive manner to the third pole 82, and the second pole 22 has an electrically conductive connection with the fourth pole 84.

The functional module 60 may comprise an operating member 90, which is designed to operate the operating element 13 in the assembled state of the electrical/electronic installation device 100. The functional module 60 may also comprise an input element 92 which, when operated by the user, interacts with the operating member 90 in such a way that the operating element 13 is activated. Thus the operating member 90 may be rigidly attached to the input element 92, or it may be formed as one piece.

In an exemplary embodiment not shown in the figures a contact bridge may be disposed between the third pole 82 and the fourth pole 84 and connected in series. This ensures that a power circuit is created through a power source, which is located in the electrical installation, and the first switching element 12. According to this embodiment the functional module 60 may be designed such that the electrical/electronic installation device 100 forms a simple on/off switch. Said on/off switch is essentially formed by the input element 92 of the functional module 60, which interacts via the operating element 13 with the first switching element 12.

In the exemplary embodiment according to the Figures 1 to 9, the functional module 60 may comprise a second switching element 88, which is preferably in form of a

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PCT/EP2017/066645 relay and which, when assembled, connects the third pole 80 to the fourth pole 84 in an electrically conductive manner. Preferred is also that the second switching element 88 may on the one hand be directly connected to the third pole 80 by means of an electrical conductor element, and on the other hand directly connected to the fourth pole 84 by means of a further electrical conductor element.

According to this embodiment the functional module 60 may, for example, provide an additional dimmer function. In this instance the first switching element 12 may be used for switching on and off and the second switching element 88 for the dimming function, wherein the first switching element 12 as well as the second switching element 88 may be controlled by an input element 92. To this end the input element may assume a neutral position Sr, a first input position Si and a second input position S2. Accordingly, the second switching element 88 can be operated in the first input position Si and the first switching element 12 can be operated in the second input position S2. Thus, if a user only presses lightly on the input element 92 in such a way that the input element 92 assumes the first input position Si, a light may be dimmed, for example, and if the user presses the input element 92 more forcefully in such a way that the input element assumes the second input position S2, the light is switched on or off.

The functional module 60 may comprise a microswitch 89, which is designed and disposed in such a way so as to control the second switching element 88. The microswitch 89 can operate the second switching element 88 in the first input position Si.

The second switching element 88 may in addition comprise a communication unit by means of which the second switching element 88 is able to receive control commands, which may originate from, for example, a mobile unit, preferably a mobile phone, and convert them into switching commands.

Figure 9 depicts an electrical/electronic installation device 100 with a functional module 60, which provides further functions in addition to switching on and off. The further functions may be provided, as described above, by the second switching element 88, wherein the second switching element 88 may be controlled by an additional touch-sensitive sensor 91, which is attached to the input element 92.

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Moreover, the functional module 60 may comprise a reset means 94, which is designed to change the input element 92 from the first input position or the second input position into the neutral position as soon as a user releases the input element 92.

It will be apparent that the invention is not limited to the described and depicted exemplary embodiments. Changes, for example in the design of the various components or replacement by technical equivalents, are possible at any time provided they are within the scope of the protection applied for.

Claims (15)

1. A receiving module for receiving a functional module (60), wherein the receiving module (10) is designed to be fixed inside an installation box, wherein the receiving module (10) comprises a first switching element (12), a connecting device (14), a first pole (20), a second pole (22) and a first housing (30), which forms a receiving space (32) to house the functional module (60) and in which the first switching element (12) and the connecting device (14) are disposed, wherein the connecting device (14) comprises at least two connecting facilities (16, 18, 19) for connecting a conductor of an electrical installation each, that is, at least a first connecting facility (16) and a second connecting facility (18), wherein the first switching element (12) is on the one hand connected to the first pole (20) and on the other hand to the connecting facility (16) in an electrically conductive manner, wherein the second pole (22) is connected to the second connecting facility (18), wherein the first pole (20) and the second pole (22) are shaped and disposed in such a way that an electrical connecting element (62), which is disposed on the functional module (60), which in turn is housed inside the receiving space (32), may be connected to the first pole (20) and the second pole (22) in an electrically conductive manner.

2. The receiving module according to claim 1, characterised in that the first switching element (12) is a mechanical switch.

3. The receiving module according to one of the claims 1 or 2, characterised in that the first housing (30) is provided with a recess (34) that feeds into the receiving space (32), wherein the first pole (20) and/or the second pole (22) are disposed in the recess (34), wherein preferably the recess (34) extends essentially in an installation direction (E) of the functional module (60).

4. The receiving module according to one of the claims 1 to 3, characterised in that the first housing (30) comprises, moreover, a first snap-lock means (36) for fixing the functional module (60) in the receiving space (32), wherein preferably the first snap-lock means (36) is suitable to retain the functional

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PCT/EP2017/066645 module (60) positively locked inside the receiving space (32).

5. The receiving module according to one of the claims 1 to 4, characterised in that the first switching element (12) comprises an operating element (13), which is disposed and designed such that the operating element (13) may be operated through an operating member (90), which is disposed on the functional module (60) which in turn is housed inside the receiving space (32).

6. The receiving module according to one of the claims 1 to 5, characterised by an actuator (11), wherein the actuator (11) is disposed and designed so that it is able to open and/or close the first switching element (12) by way of a control signal.

7. Afunctional module to be housed in a receiving module (10) according to one of the claims 1 to 6, comprising a second housing (70) and an electrical connecting element (62), wherein the electrical connecting element (62) is disposed on the second housing (70) in such a way that the electrical connecting element (62) may be connected to the first pole (20) and the second pole (22) once the functional module (60) is placed inside the receiving module (10).

8. The functional module according to claim 7, characterised in that the electrical connecting element (62) comprises a third pole (82) and a fourth pole (84), each of which extends approximately in an installation direction (E) of the functional module (60) preferably away from the second housing (70).

9. The functional module according to one of the claims 7 or 8, wherein the receiving module (10) is a receiving module (10) according to one of the claims 4 to 6, characterised in that the second housing (70) comprises a second snap-lock means (72), which interacts with the first snap-lock means (36) to retain the functional module (60) inside the receiving module (10), preferably in a positively-locked manner.

10. The functional module according to one of the claims 7 to 9, wherein the receiving module (10) is a receiving module (10) according to one of the claims 5 or 6, characterised in that an operating member (90), which is

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PCT/EP2017/066645 designed to interact with the operating element (13) as soon as the functional module (60) is placed inside the receiving module (10).

11. The functional module according to claim 10, characterised by an input element (92), which is designed in such a way that the input element (92) interacts with the operating member (90) when pressed by a user in order to actuate the operating element (13), wherein preferably the operating member (90) is rigidly attached to the input element (92), wherein further preferably the operating member (90) is formed as a single piece with the input element (92).

12. The functional module according to one of the claims 8 to 11, characterised by a contact bridge that connects the third pole (82) to the fourth pole (84) in an electrically conductive manner.

13. The functional module according to one of the claims 1 to 11, characterised by a second switching element (88), which is connected to the third pole (82) and the fourth pole (84) in an electrically conductive manner.

14. The functional module according to claim 13, characterised in that the second switching element (88) is an electromechanical switching element, preferably a relay.

15. Electrical/electronic installation device, comprising a receiving module (10) according to one of the claims 1 to 6 and a functional module (60) according to one of the claims 7 to 14, wherein the functional module (60) is housed inside a receiving module (10).