EP2367243A1 - Socket device - Google Patents

Abstract

The socket arrangement (11) comprises a socket base (12), which has a socket (13) and a network connection unit for electric power supply of the socket. An external switch part (20) is provided, which is formed separately from the socket base. A switch is provided, which is arranged in a switching circuit (28). The electric connection unit has an electrical interface (24), which is formed at the socket base, and electric interface unit (25) formed at the switch part.

Description

The invention relates to a socket assembly, with a socket base part having at least one socket and power connection means for electrical power to the socket, an external, from the socket base part separately formed switch part with a switch circuit arranged in a switch for switching on and / or off the electrical power supply is associated by interrupting or closing the switch circuit, wherein the switch circuit is connected via electrical connection means to the socket base part.

A socket arrangement of this kind is for example from the DE 20 2004 016 090 U1 known, in which a multiple socket is connected via a supply line with a stepping switch. The connection of the power cable and the connection of the supply line are at two opposite short times of the housing. At the footswitch is the complete mains voltage, so that the supply cable has a relatively large diameter and thus is stiff and further must also be sufficiently insulated. The supply line is firmly connected to the housing, which makes it necessary to provide relatively wide, adapted to the cross section of the footswitch cable bushings, for example, if the multiple socket stowed behind a closet invisible and only the footswitch should remain visible.

The object of the invention is to provide a socket arrangement of the type mentioned, which is easy to handle and is adaptable to space conditions of different types.

This invention is achieved by a socket arrangement with the features of independent claim 1. Further developments of the invention are shown in the subclaims.

The socket arrangement according to the invention is characterized in that the electrical connection means comprise an electrical interface formed on the socket base part and electrical interface elements formed on the switch part, which can be detachably plugged together as an electrical plug connection.

Due to the possibility of plug-in socket base part and switch part, the handling of such a socket arrangement is significantly increased. For example, it is possible to stow the socket base part behind a piece of furniture and only after the socket base part has taken the desired position to insert the switch part. If the switch part connected by means of an electrical connection cable to the socket base part, this is only a relatively narrow cable feedthrough necessary because not just the switch part must pass through the cable feedthrough, but only the electrical connector on the cable.

In a further development of the invention, the switch circuit is subjected to a safety extra-low voltage, which is much lower than the mains voltage. It is therefore not the entire power supply passed through the switch part, but only a control current, with the in the switch circuit arranged switch of the switch part can be interrupted.

In a particularly preferred manner, the switch circuit with safety extra-low voltage acts on a relay which actuates a power switch arranged on the socket base part for switching the mains supply on or off. With the control current so the relay can be operated, which in turn acts on the switched on in the power circuit power switch. As relay mechanical, electrical or electromagnetic relays can be used. In the case of an electrical relay, for example, a semiconductor relay, in particular triac, or alternatively a surge relay (bistable relay) can be used.

Conveniently, the relay is arranged on the socket base part. In principle, however, it would also be possible that the control electronics are arranged on the switch part and then a control signal is transmitted wirelessly or by means of suitable signal lines to the power switch.

In a particularly preferred manner, the relay is switched with the switch circuit closed so that the associated power switch turns on the power supply. If the switch circuit is interrupted by means of the switch, then the relay is controlled such that the associated power switch disconnects the mains supply. This ensures that the socket arrangement is completely de-energized when the mains supply is switched off.

In a further development of the invention, the relay is part of a relay module, which is integrated as a modular unit in the socket base part. This allows relay module and various other socket components as needed to assemble different socket bases.

In a particularly preferred manner, the electrical interface means on the switch part comprise an electrical connection cable and a plug part arranged at the free ends of the electrical connection cable, while the interface formed on the socket base part comprises a plug part which corresponds to the plug part on the switch part. In combination with the safety extra-low voltage or the control current in the switch circuit, this has the consequence that the electrical connection cable can have a significantly smaller diameter than conventional power cables. Furthermore, no extensive isolation of such a low-voltage cable is necessary, as would be the case with a conventional power cable. Furthermore, the switch part can be made relatively inexpensive overall, since the switch arranged in the switch circuit does not have to switch high power and thus does not have to be designed as a circuit breaker. Thus, the overall dimensions of the switch part can be kept relatively small overall.

As a plug part, for example, mutually corresponding modular plug and modular jacks, for example in the form of RJ connectors can be used. It would be conceivable, for example, a RJ-11 male / female pair, as it is also used for telephone lines.

Conveniently, the plug part is male on the switch part and the plug part on the socket base part is female. If the switch circuit is subjected to the safety extra-low voltage, however, it would also be conceivable that the plug part on the switch part is female and the plug part on the socket base part is male-shaped.

In principle, it is also conceivable that the electrical interface means of the switch part are wireless and the plug part is arranged directly on a switch housing of the switch, whereby the switch part can be plugged directly onto the socket base part.

In a further development of the invention, a coupled to the mains voltage indicator circuit is looped via the switch part, in which a arranged on the switch part indicator light for displaying whether mains voltage is applied or not turned on. Thus, a determination of the operating state of the socket arrangement is possible in a simple manner. As an indicator light, for example, at least one LED can be used. It is possible that the display circuit is also interrupted as the switch circuit by means of the switch, whereby the indicator light detects the switch position of the switch. Alternatively, it is possible for the display circuit to be coupled to the mains output voltage, independently of the switch circuit, and to be uninterruptible. It is conceivable to provide an additional indicator light which is coupled to the mains input voltage, which indicates whether or not the outlet arrangement as a whole hangs on the grid. Conveniently, the display circuit is also supplied with the safety extra-low voltage and is also performed in the case of the presence of an electrical connection cable via the electrical connection cable. This can then be designed as a three- or four-pin cable.

It is possible that the socket arrangement comprises a dummy plug which can be plugged onto the electrical interface on the socket base part as an alternative to the electrical interface means of the switch part and effects a permanent on state of the mains supply, for example the power switch located in the socket base permanently turns on.

In a further development of the invention, the socket base part is designed as a power strip with at least two sockets. Alternatively, it is conceivable that the socket base part is designed as a socket switching device, such as socket adapter or socket measuring device.

Fig. 1

eine perspektivische Darstellung eines ersten Ausführungsbeispiels der erfindungsgemäßen Steckdosenanordnung,

Fig. 2

eine perspektivische Ansicht des Schalterteils mit elektrischem Anschlusskabel der Steckdosenanordnung von Fig. 1,

Fig. 3

eine perspektivische Darstellung eines zweiten Ausführungsbeispiels der erfindungsgemäßen Steckdosenanordnung,

Fig. 4

eine perspektivische Teilansicht eines dritten Ausführungsbeispiels der erfindungsgemäßen Steckdosenanordnung und

Fig. 5

ein schematisches Schaltbild für die Ausführungsbeispiele der erfindungsgemäßen Steckdosenanordnung.

Preferred embodiments of the invention are illustrated in the drawings and will be explained in more detail below. In the drawing show:

Fig. 1

a perspective view of a first embodiment of the socket arrangement according to the invention,

Fig. 2

a perspective view of the switch part with electrical connection cable of the socket assembly of Fig. 1 .

Fig. 3

a perspective view of a second embodiment of the socket arrangement according to the invention,

Fig. 4

a partial perspective view of a third embodiment of the socket assembly according to the invention and

Fig. 5

a schematic diagram of the embodiments of the socket arrangement according to the invention.

The Fig. 1 and 2 show a first embodiment of the socket assembly 11 of the invention. The socket assembly 11 has a socket base part 12, which is formed according to the first embodiment as a power strip with linearly arranged sockets 13, for example, two to seven in number.

The socket base part 12 has a housing 14, with a housing top 15, at which the sockets 13 are located, and a housing bottom 16. Conveniently, the housing 13 is divided into two and consists of an upper shell 17, at which the housing top 15 and the sockets 13 are located and a lower shell 18 to which the housing bottom 16 and the power supply is located. Alternatively, it would also be possible to make the housing 14 in one piece. The housing 14 of the socket arrangement is expediently made of plastic and is preferably produced by means of plastic injection molding.

For electrical power supply of the sockets 13 is at least one power cord (not shown), which exits via a cable exit from the housing 14. The cable outlet is expediently located on the housing bottom 16. Spacer means in the form of a strip-like stand frame 19 are furthermore provided, so that a removal of the power cable running outwardly underneath the housing bottom 16 is possible. Through the stand a power cord receiving cavity is formed.

The socket assembly 11 also has a separately formed from the socket base portion 12 switch part 20, which has a arranged in a switch circuit switch 21 for switching on or off of the electrical power supply by interrupting or closing the switch circuit. The Switch part 20 has a switch housing 22, from which a switch 21 belonging to the switch element 23 protrudes. The switch element 23 is designed so that it can be easily operated by hand or alternatively by foot, whereby a switching operation of the switch 21 is triggered. The switch element 23 may be designed, for example, as a tilt, rocker or pushbutton switch.

The switch part 20 is connected via electrical connection means with the socket base part 12. The electrical connection means comprise an electrical interface 24 formed on the socket base part 12 and electrical interface means 25 formed on the switch part 20, which can be detachably plugged together as an electrical plug connection.

According to the first exemplary embodiment, the electrical interface means 25 of the switch part 20 comprise an electrical connection cable 26 and a plug part 27a arranged at the free end of the electrical connection cable 26. The electrical connection cable 26 is part of the switch circuit 27, which is operated with a relation to the mains current significantly lower control current. The switch circuit is further acted upon with respect to the mains voltage much lower safety extra-low voltage, which in combination with the relatively low control current results in a relatively small electrical power. This has the consequence that the electrical connection cable 26 can have a significantly smaller diameter than the power cable. It is much more flexible than the power cord and also the electrical shielding or insulation of this connection cable does not have to meet the requirements of a power cord. The plug part 27a at the free end of the electrical connection cable 26 is as in particular in Fig. 2 shown by way of example in FIG Shape of a male modular plug in the form of an RJ connector, such as RJ-11 connector executed. This modular plug fits on a corresponding plug part 27b on the electrical interface 24 on the socket base part 12 and can be latched there. The plug part 27b on the side of the socket base part 12 can accordingly be configured as a modular socket, in particular likewise in RJ-design.

In addition to the switch circuit 28, a display circuit is connected between the socket base part 12 and the switch part 20, which is also guided via the electrical connection cable 26. Accordingly, the electrical connection cable 26 may be implemented as a four-pole or four-core cable. In the display circuit, an indicator light 29 is looped in the form of an LED, which is integrated in the switch housing 22 of the switch part 20 and signals by lighting the mains operation. The display circuit is like the switch circuit 28 by means of the switch 21 interruptible and also acted upon by the safety extra-low voltage. The indicator light thus detects the switch position of the switch 21 and lights up if the display circuit is closed. Alternatively, it is possible that the display circuit is coupled to the mains output voltage, independently of the switch circuit 28 is formed and uninterruptible.

In the socket base part 12 is also a relay 30 in the form of an electrical relay, such as bistable relay or surge relay. The relay 30 is looped into the switch circuit 28 and controls a power switch 40, which in turn is turned on in the power circuit. The relay 30 is by closing or interrupting the switch circuit 28 by means of the switch 21 in different Controlled positions that bring the associated power switch 40 either in the on or off position, whereby the mains power is turned off or turned on. The power switch 40 is designed as a 2-pole switch, so interrupts both neutral and outer conductor.

Fig. 3 shows a second embodiment of the socket assembly 11 according to the invention, which differs from the first embodiment described above in that instead of a socket strip designed as a socket base part 12 here a socket base part 12 is used in the form of a socket-switching device. As a switching device, for example, a socket adapter, a socket meter o. The like. Be used. This socket-switching device has instead of a power cord formed on a switch device housing power plug for plugging into a power outlet and arranged for example on the opposite side working outlet. The switch part 20 is also connected here by means of an electrical connection cable with the socket switching device. It can be used here the same plug connections as in the first embodiment described above.

Fig. 4 shows a third embodiment of the socket assembly 11 according to the invention in this embodiment, the relay 30 is part of a relay module 31, which is integrated as a modular unit in the socket base part 12. As a result, relay module 31 and various other socket components can be combined to form different socket base parts as needed. For example, can be used as a further socket component a socket module with a certain number of sockets, which is then inserted into a socket frame and can be coupled together with the relay module 31. Depending on the configuration of the socket frame and the socket module so socket strips can be formed with very different number of sockets.

If the socket assembly 11 are turned on, the switch element 23 is actuated by the foot or by the hand of the switch part 20, whereby the switch circuit 23 is closed by the switch 21. The now flowing control current activates the looped into the switch circuit 28 relay 30, and triggers a switching operation on the relay 30. This switching operation, for example, the surge of the control current, causes a switching operation in the power switch, which is thereby closed so that mains voltage is applied, the socket assembly 11 is thus activated. The indicator light comes on. If the socket arrangement is to be switched off, reverse operations take place, i. a switching of the switch element 23 causes the interruption of the switch circuit 28, whereby a switching operation of the power switch 40 is initiated via the relay 30 in the off position, so that the power circuit is interrupted. The indicator light 29 goes out. In the off position, the socket assembly 11 is completely de-energized.

Claims (15)

Socket assembly, comprising a socket base part (12) having at least one socket (13) and power connection means for electrical power to the socket (13) having an external, from the socket base part (12) separately formed switch part (20) with a in a switch circuit (28) arranged switch (21) for switching on and off of the electrical power supply by interrupting or closing the switch circuit (28) is assigned, wherein the switch circuit (28) via electrical connection means to the socket base part (12) is connected , characterized in that the electrical connection means comprise an electrical interface (24) formed on the socket base part (12) and electrical interface means (25) formed on the switch part (20) which can be detachably plugged together as an electrical plug connection. Socket assembly according to claim 1, characterized in that the switch circuit (28) is acted upon with respect to the mains voltage much lower safety extra-low voltage. Socket assembly according to claim 2, characterized in that the switch circuit (28) acts with safety extra-low voltage to a relay (30), the one at the socket base part (12) arranged power switch for turning on or off the power supply operated. Socket assembly according to claim 3, characterized in that the relay (30) is arranged on the socket base part (12). Socket assembly according to claim 3 or 4, characterized in that when the switch circuit is closed (28), the relay (30) is switched such that the associated power switch (40) turns on the power supply. Socket assembly according to one of claims 3 to 5, characterized in that the relay (30) is part of a relay module (31) which is integrated as a modular unit in the socket base part (12), whereby the relay module (31) as needed with different other socket components to different socket base parts (12) can be assembled. Socket assembly according to one of the preceding claims, characterized in that the electrical interface means (25) on the switch part (20) comprise an electrical connection cable (26) and at the free end of the electrical connection cable (26) plug part (27a,), and the Socket base part (12) formed electrical interface (25) comprises a plug part (27a) on the switch part (20) corresponding plug part (27b). Socket assembly according to claim 7, characterized in that the plug part (27a) on the switch part (20) male and the plug part (27b) on the socket base part (12) is female. Socket assembly according to claim 7 or 8, characterized in that the electrical connection cable (26) has a smaller diameter than a conventional power cable. Socket assembly according to one of the preceding claims, characterized in that via the switch part (20) is looped to the mains voltage display circuit in which a switch part (20) arranged indicator light (29) for indicating whether mains voltage is present or not turned on. Socket assembly according to claim 10, characterized in that the display circuit coupled to the mains output voltage, independently of the switch circuit (28) is formed and uninterruptible. Socket assembly according to claim 10 or 11, characterized in that the display circuit is also acted upon by the safety extra-low voltage. Socket assembly according to one of the preceding claims, characterized by a dummy plug (32) for plugging onto the electrical interface (24) on the socket base part (12), which as long as he is in the plugged state, the electrical mains supply turns on. Socket assembly according to one of the preceding claims, characterized in that the socket base part (12) is designed as a socket strip with at least two sockets (13). Socket assembly according to one of the preceding claims 1 to 13, characterized in that the socket base part (12) is designed as a socket switching device, such as socket adapter.

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