NL2002923C2 - DEVICE FOR CENTRALLY CONTROLLING POWER CONNECTIONS. - Google Patents

Description

Device for centrally controlling power connections

The invention relates to a device for centrally controlling current connections.

It is known to switch power connections, such as sockets and light points, by means of a switch. This is used, for example, in one room to switch a number of lamps on or off simultaneously with one switch. In such an embodiment, a socket is only suitable for being switched by means of the switch and it is not possible to place a socket outside this circuit.

In addition, it is known that power connections in a building are subdivided into groups and that these groups can be centrally switched in the fuse box by switching off or switching on a stop. This makes it possible to switch a whole group of power connections, which can be distributed over different spaces, on or off in one go.

Recent research has shown that around 15% of household power consumption is caused by lights that are left on unnecessarily and by devices that are in a standby state. When a television or computer is switched off, part of the electronics continues to consume power, for example in order to be able to respond to signals from a remote control, with which the device can be switched on again.

To reduce such power consumption, these devices should be disconnected from the power connection. When leaving a building, the devices could in any case be disconnected. However, this is labor intensive.

Disconnecting the devices and lamps by switching off a group in the fuse box is also undesirable, because also devices which must remain on, such as for example a refrigerator or central heating boiler, are also switched off.

It is therefore an object of the invention to reduce or even prevent the aforementioned disadvantages.

This object is achieved with a device according to the preamble, which device comprises: a number of current connections, each comprising at least one selector switch for optionally placing the current connection in a switched position; and - centrally arranged control means for controlling the power connections depending on the chosen position.

By arranging a selector switch on each power connection, it can be selected whether or not the power connection is controlled by the centrally arranged control means. For example, it can be set per power connection whether the relevant device must be continuously supplied with power, such as for example a refrigerator or central heating boiler, or whether the power connection can be switched off centrally.

The centrally arranged control means can be arranged in a suitable place, for instance next to the front door of a building, so that when leaving the building, all switched power connections, such as sockets and light points, can be switched off in one go and when entering the building all power connections can be switched on again.

In an embodiment of the device according to the invention, the control means control the power connections 30 radiographically. A radio control has the advantage that it can easily be implemented in an existing building. It is true that the radiographic part of the power connection will consume a small amount of power in order to be able to respond to the radiographically sent control signal. In addition, there is a chance that not every power connection 3 responds to a radio control signal sent as a result of poor reception conditions within a building.

In a preferred embodiment of the device according to the invention, a control wire is arranged between the control means and the current connections. With such a control wire it is possible to reliably control the power connections. In addition, it can be guaranteed that the power connection is completely switched off and that there is no minimum power consumption, such as with a radio control.

In this embodiment the power supply runs via the control wire and by interrupting the power supply by means of a centrally arranged mechanical switch the power consumption of the switched power connections 15 is reduced to zero.

In another embodiment of the device according to the invention the selector switch of each power connection comprises at least a second switched position and the control means comprise a timer for controlling current connections after a selected time, the selector switch of which is placed in the second switched position.

In this embodiment it is possible to put a power connection in a switched position, in which the power connection is disconnected from the power after a preset time. For this purpose a timer is provided in the control means which, after a certain time has elapsed, switches off the current connections which have been set in the timer position.

A preferred embodiment of the invention comprises means for keeping current constant during the switching of the selector switch. In the case that a device connected to the power connection is already switched on, such as a computer, it is undesirable for the power to be interrupted briefly during the switching of the selector switch. This is prevented in this embodiment.

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The selector switch preferably comprises a pressure position in order to keep the flow constant during the switching of the switch. This makes it possible to press the selector switch, whereby the power supply remains constant and it is then possible to set the selector switch to a different position, without the power supply being interrupted by moving the switch.

In yet another embodiment of the device according to the invention, the current connections are subdivided into at least two separate current groups and the control means control the at least two separate current groups simultaneously. It is customary in a building to divide the power connections into groups. With this embodiment it is possible to control different groups of power connections simultaneously.

In yet another embodiment of the device according to the invention, the control means comprise an electromechanical switch. With an electromechanical switch it is possible to control different groups simultaneously to be controlled electronically, while the actual switching is nevertheless carried out mechanically.

In a preferred embodiment of the device according to the invention, the electromechanical switch 25 is driven by a control signal. This control signal can come from a control computer or from a small switch, which is incorporated, for example, in the lock of a front door. In the latter case, the power connections can be switched off automatically as soon as the front door is turned on lock 30.

The invention further comprises a building comprising a device according to the invention, wherein the power connections are distributed over the different rooms of the building and wherein the control means are arranged centrally, for example at the front door.

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In a preferred embodiment of the building according to the invention, the control signal is generated by a lock in a door, for example the front door.

These and other features of the invention are further elucidated with reference to the accompanying figures.

Figure 1 shows schematically a first embodiment according to the invention.

Figure 2 shows schematically a part of a second embodiment according to the invention.

Figure 3 shows schematically a third embodiment according to the invention.

Figure 1 shows a first embodiment 1 of a device according to the invention. The device 1 has a number of power connections 2. Each power connection 2 has two connection terminals 3, 4. The pole 4 is directly connected to a power source 5, while the pole 3 is connected to a switch 6.

The switch 6 has two positions. In the first position, the switch 6 connects the pole 3 to a first circuit 7, which is directly connected to the power source 5. In the second position, the switch 6 connects the pole 3 to a second circuit 8. This second circuit 8 is connected to the power source 5 via a centrally placed switch 9.

Depending on the position of the switch 6 of a power connection 2, the poles 3, 4 are directly connected to the power source 5 or the poles 3, 4 are connected via the centrally placed switch 9. Thus, it is possible to choose per power connection for a centrally switched power connection 2 or for a permanent power connection 2. Figure 2 shows only the centrally placed switch 10 of a second embodiment of the invention. This switch 10 comprises three switches 9 of three different circuits according to figure 1. Such an embodiment occurs, for example, when different groups of current connections are present in a building.

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The three switches 9 are connected to each other and are operated by an electromagnet 11. The assembly of switches 9 and electromagnet 11 forms an electromechanical switch 10.

The electromagnet 11 can be controlled by a control signal, for example from a switch 12, which is incorporated in a lock. For example, when a front door is locked, the electromechanical switch 10 will switch off the switched power connections.

Figure 3 shows a third embodiment of the invention. This embodiment 15 has two power connections 16, which are each provided with two poles 17, 18. The pole 18 is directly connected to a power source 19, while the pole 17 is connected to a three-way switch 20.

In a first position of the switch 20, the pole 17 is connected to the circuit 21, which is directly connected to the power source 19. In this position, the power connection 16 is a continuous connection.

In a second position of the switch 20, the pole 17 is connected to the circuit 22. This circuit 22 comprises a central switch 23, so that in this position the current connection 16 is a centrally switched current connection.

In the third position of the switch 20, the pole 17 is connected to the circuit 23. This circuit 23 is connected to the power source 19 via a timer 24. The timer 24 is further connected to the circuit 22 via control line 25.

When the centrally located switch 23 is opened so that the circuit 22 is interrupted, the timer 24 will signal this interruption and start the timer function. Only after a set time has elapsed, will the timer 24 interrupt the circuit 23. This makes it possible to supply power connections 16 thus set after switching off the central switch 23 for some time.

Optionally, an electrically operated valve can further be controlled by means of the central switch, with which the gas supply or water supply can be shut off.

Claims (11)

Device for centrally controlling current connections, comprising: - a number of current connections, each comprising at least one selector switch for optionally placing the current connection in a switched position; and - centrally arranged control means for controlling the power connections depending on the chosen position. Device as claimed in claim 1, wherein the control means control the power connections radiographically. Device as claimed in claim 1, wherein a control wire is arranged between the control means and the power connections. Device as claimed in any of the foregoing claims, wherein the selector switch of each power connection comprises at least a second switched position and wherein the control means comprise a timer for controlling current connections after a selected time, the selector switch of which is in the second switched position placed. 5. Device as claimed in any of the foregoing claims, comprising means for keeping current constant during the conversion of the selector switch. The device of claim 5, wherein the selector switch comprises a pressure position in order to keep the flow constant during the switching of the switch. Device as claimed in any of the foregoing claims, wherein the current connections are subdivided into at least two separate current groups and wherein the control means control the at least two separate current groups simultaneously. Device as claimed in any of the foregoing claims, wherein the control means comprise an electromechanical switch. 9. Device as claimed in claim 8, wherein the electromechanical switch is controlled by a control signal. 10. Building comprising a device as claimed in any of the foregoing claims, wherein the power connections are distributed over the different rooms of the building and wherein the control means are arranged centrally, for instance at the front door. A building as claimed in claim 10 and a device as claimed in claim 8 or 9, wherein the control signal is generated by a lock in a door, for example the front door.