DE202013104447U1 - Circuit for supplying power to a luminaire on a movable furniture part - Google Patents

Abstract

Circuit for supplying energy to a luminaire (14) on a furniture part (16) which is movable relative to a furniture body (18), having a coupling device (22, 24) via which a furniture part-side circuit part (10) is provided with a furniture-body-side mains-operated power supply device (20 ), wherein the furniture part-side circuit part (10) has an energy store (26) and an actuatable by interrupting the coupling switching means (36; 38) which is adapted to, upon actuation of a power supply of the lamp (14) to turn on the energy storage (26) to continue to operate the lamp (14).

Description

The invention relates to the power supply of a lamp to a piece of furniture, in particular on a relative to a furniture carcass movable furniture part, for example, a sliding door, a pivotally mounted door or other movable furniture part.

If a luminaire is to be arranged on a movable furniture part, then there is the problem of designing a supply line for the power supply to the lamp so that when moving the furniture part, the lamp can be operated in different positions of the furniture part. While in a hinged door leads near door hinges are conceivable, a wiring for a lead in a sliding door is expensive, since the entire door is moved along a relatively large displacement relative to the furniture body.

The invention is based on the object to enable a maintenance-free power supply to a lamp on a relative to a furniture body movable furniture part, in which a continued operation of a lamp during movement of the furniture part is made possible. In particular, it is desirable to provide the power supply of a luminaire to a movable relative to a furniture body sliding door, which allows operation of the lamp both with the door closed and with the door open and manages without the replacement of batteries and the like maintenance operations.

The object is achieved by a circuit for powering a lamp on a relative to a furniture body movable furniture part
with a coupling device, via which a furniture part-side circuit part can be coupled to a furniture body-side mains-operated power supply device,
wherein the furniture part-side circuit part has an energy storage device and an actuatable by interrupting the coupling switching device, which is adapted to turn on operation, a power supply of the lamp from the energy storage to weiterzubetreiben the lamp.

In the case of a movable furniture part in the form of a sliding door, the circuit makes it possible to continue to operate a lamp which is attached to the furniture door and operated with the door closed when the door is opened, while the connection to the mains-powered power supply unit is interrupted. Measures to maintain a coupling of the lamp to the mains powered power supply can therefore be omitted. In particular, no permanent cable connection between furniture body and sliding door is required.

Advantageous embodiments and further developments of the invention are specified in the subclaims.

In the following a preferred embodiment of the invention will be explained in more detail with reference to the drawings.

Show it:

1 a schematic block diagram of a sliding door-side circuit part;

2 a schematic representation of a piece of furniture with a sliding door and a circuit that the circuit part 1 includes; and

3 a schematic diagram of a switching device of the circuit part.

1 shows a circuit for supplying power to a lamp to a furniture body movable furniture part in the form of a first, furniture part-side circuit part 10 , 2 shows an example of a circuit for powering a lamp on relative to a furniture body movable furniture part, the first circuit part 10 a second furniture body side circuit part 12 as well as an LED light 14 includes.

The lamp 14 and the first circuit part 10 are on a movable furniture part in the form of a sliding door 16 assembled. The second circuit part 12 is on a furniture body 18 assembled. The LED light 14 is electrically connected to the first circuit part 10 connected. The second circuit part comprises a mains-powered power supply device 20 , which provides, for example, a low voltage of 12 volts DC.

The first circuit part 10 comprises a first coupling device 22 couplable to a furniture body side second coupling means 24 , The coupling devices 22 . 24 together form a coupling device, via which the first circuit part 10 with the mains powered power supply 20 in a rest position of the sliding door 16 can be coupled. The rest position is a closed position of the door.

The coupling devices 22 . 24 include, for example, spring contacts or sliding contacts. In particular, the one coupling device comprises spring-loaded sliding contacts, while the other coupling device comprises rigid sliding contacts. The contacts of the coupling devices 22 . 24 are arranged so that they are in the Rest position of the sliding door 16 contact each other to at least one electrical connection between the first and second circuit parts 10 . 12 manufacture. In the example shown, two pairs of contacts are provided to make two electrical connections for the 12 volt supply and ground.

The coupling devices 22 . 24 are contact-bound, ie couple only when in contact. In particular, they are arranged so that when moving the sliding door 16 from the rest position, the coupling of the circuit part 10 with the power supply device 20 interrupted by interrupting the contacts. In particular, the coupling devices remove 22 . 24 when opening the sliding door 16 so far apart that the coupling is interrupted.

The structure of the first circuit part 10 is more accurate in 1 shown. In the 1 The circuit shown comprises an energy store 26 , for example, at least one accumulator 28 , in the example at least two accumulators 28 includes, which are connected in series.

If via the first coupling device 22 the circuit part 10 with the external, corpus-side power supply 20 is coupled, the over connections 30 connected LED light 14 through the power supply device 20 energized. Power is supplied via an intermediate DC-DC converter 32 ,

At the same time, a regulated charging of the energy store takes place when the external energy supply is coupled 26 via a charging device 34 , The charging device 34 is through the power supply device 20 energized. At the charging device 34 it is a known charging device, for example, a compensation device for maintaining a uniform voltage of the batteries to be charged 28 may include.

Next includes the circuit 10 a switching device 36 in the event of an interruption of the power supply via the external power supply device 20 the energy store 26 with the DC-DC converter 32 connects to a power supply of the connected LED light 14 from the energy store 26 turn. There is thus a switchover from the mains operated power supply device 20 on the local energy storage. The switching device 36 comprises a semiconductor switching element shown separately in the drawing 38 and will be referred to below with reference to 1 and 3 explained in more detail.

The switching device 36 includes a comparator 40 with a first input "+" and a second input "-". The comparator compares the input of the DC-DC converter (connected to the first input "+") 32 connected external supply voltage with the local supply voltage of the energy storage 26 at one pole of the energy store 26 , which is connected to the second input "-". The switching device 36 is adapted to be able to receive its supply voltage from each of the two inputs "+", "-" and has an input selector circuit for this purpose 42 on, which is connected to the two inputs "+", "-".

Depending on the result of the comparison of the supply voltages applied to the two inputs, an output driver switches 44 the connected Halbleiterschaltungsele element 38 to connect between the energy store 26 and the input of the DC-DC converter 33 As soon as and as long as the input voltage at the DC-DC converter 32 is higher than the voltage at the energy storage 26 , the connection between the two is disconnected. This is the case during operation via the mains powered power supply 20 , Here is a diode 45 , in particular a Schottky diode, the external supply voltage of 12 volts at the DC-DC converter 32 at. This is higher than the voltage of the energy storage, which is for example 2 × 3.7 volts.

If the coupling to the mains powered power supply 20 however interrupted, the input side of the DC-DC converter drops 32 voltage applied. In this case, the applied voltage is briefly below the voltage of the energy storage 26 , and the connection is immediately closed, leaving the energy store 26 via the semiconductor switching element 38 with the input of the DC-DC converter 32 connected is.

The DC-DC converter 32 has a permissible input voltage range, which is at least the output voltage of the energy store 26 and that of the mains powered power supply 20 provided supply voltage includes. The DC-DC converter 32 is thus adapted to change the power supply from the mains powered power supply 20 to the energy store 26 to provide a uniform output voltage of 12 volts. This also applies to a change in the opposite direction.

The comparator 40 and the semiconductor switching element 38 are designed for a very short switching time despite the high currents occurring. Here, the switching time is the time duration of the transition between a first constant level of one of the mains-powered power supply device 20 provided input voltage at the DC-DC converter 32 and a second constant level of one of the local energy storage 26 provided input voltage at the DC-DC converter 32 Understood.

The switching time to switch from the mains power supply to the energy supply from the energy storage 26 is preferably so low that when switched to no temporary loss of brightness of the LED light 14 is perceptible. Preferably, the switching time is shorter than one by at least one output capacitor, in particular at least one smoothing capacitor 46 , the DC-DC converter 32 bridgeable time duration of an input-side power failure at the DC-DC converter 32 , The DC-DC converter 32 can therefore provide the same uniform output voltage at the output capacitor before, during and after switching. In this way, upon interruption of the external power supply or actuation of the switching device 36 . 38 an uninterrupted and even flicker-free operation of the LED light 14 be achieved when switching the power supply from the energy storage. Conversely, the at least one smoothing capacitor 46 sufficiently dimensioned to the switching time of the switching device 36 . 38 to bridge and so an uninterrupted continued operation of the lamp 14 upon actuation of the switching device 36 . 38 to allow.

In the semiconductor switching element 38 it is preferably an insulated gate field effect transistor. Preferably, a self-blocking p-channel MOSFET with inverse diode is used, in particular a Leistungsfeldeffektransistor in the form of a FREDFET (fast-reverse epitaxial diode field-effect transistor), as shown schematically in FIG 1 is shown. A suitable switching device 36 is available, for example, under the type designation LTC4412 from Linear Technology, USA.

The charging device 34 is the same with the first coupling device 22 connected, that in case of interruption of the mains powered power supply, the charging device 34 is switched off. For this purpose, in the example shown, the charging device 34 over the Schottky diode 45 from the input of the DC-DC converter 32 separated, the anode of the diode 45 on the side of the coupling device 22 and the charging device 34 is located and the cathode on the side of the DC-DC converter 32 and the switching device 36 . 38 lies.

The circuit 10 is thus adapted, when a connection to the mains powered power supply device exists 20 the connected LED light 14 via the mains powered power supply 20 Provided Ver supply voltage to operate when interrupting the coupling to the power supply device 20 however, a power supply of the LED light 14 from the local energy store 26 the circuit 10 to operate, and a switch between both states in each case with uninterrupted, flicker-free operation of the LED lamp 14 to enable.

1 further shows an adjustable, for example, programmable timer 48 comprising two functions described below. The timing device 48 is with the first coupling device 22 connected to detect the presence of the external supply voltage.

When operating the LED light via the local power source 26 switches the timer 48 after an adjustable persistence of, for example, two minutes, the LED light 14 off and disconnects via a relay 50 the accumulators 28 galvanically. In the example shown, this is the coil circuit of the relay 50 parallel to the LED light 14 connected and in series with one of the timing controller 48 controllable semiconductor switching element 52 connected in the form of a MOSFET to interrupt the flow of current.

Next takes over the timer 48 a second function, a safety function: When the supply voltage from the mains power supply device is applied 20 there is a limitation of the charging time of the charging device 34 by turning it off after a settable time of, for example, four hours. This is the charging device 34 via a controllable by the timing controller semiconductor switching element 54 in the form of another MOSFET with the first coupling device 22 connected.

The MOSFETs 52 . 54 are each self-locking executed and are of the Zeitsperreinrichtung 48 controlled so that after the expiration of the respective switching time an interruption of the respective electrical connection is made.

Claims (10)

Circuit for supplying power to a luminaire ( 14 ) on one opposite a furniture body ( 18 ) movable furniture part ( 16 ), with a coupling device ( 22 ; 24 ), via which a furniture-part circuit part ( 10 ) with a furniture-body-side mains-powered power supply device ( 20 ), wherein the furniture part side circuit part ( 10 ) an energy store ( 26 ) and an actuatable by an interruption of the coupling switching device ( 36 ; 38 ), which is adapted to, at Actuation of a power supply of the lamp ( 14 ) from the energy store ( 26 ) to turn on the light ( 14 ) weiterzubetreiben. A circuit according to claim 1, wherein the coupling means is a contact-bound coupling means. Circuit according to Claim 1 or 2, in which the coupling device ( 22 ; 24 ) so on the furniture body ( 18 ) and on the movable furniture part ( 16 ) is arranged such that when moving the furniture part ( 16 ) From a rest position, the coupling is interrupted. Circuit according to one of the preceding claims, in which the switching device ( 36 ; 38 ) a comparator ( 40 ) for comparing via the coupling device ( 22 ) provided with the voltage from the energy storage ( 26 ) provided voltage, wherein the switching device ( 36 ; 38 ) a semiconductor switching element ( 38 ), which is operated in response to the result of the comparison. Circuit according to Claim 4, in which the semiconductor switching element ( 38 ) comprises a power field effect transistor. Circuit according to one of the preceding claims, comprising a DC-DC converter ( 32 ), the lamp ( 14 ) is arranged upstream and is adapted, both at input side power supply via the coupled mains powered power supply device ( 20 ) and, in the case of an interruption of the coupling, when the input-side energy supply is switched on from the energy store ( 26 ) on the output side, the same uniform operating voltage for the lamp ( 14 ) to provide. Circuit according to one of the preceding claims, with one of the luminaires ( 14 ) upstream DC-DC converter ( 32 ), the output side at least one smoothing capacitor ( 46 ), wherein the switching time of the switching device ( 36 ; 38 ) is smaller than one through the at least one smoothing capacitor ( 46 ) bridgeable duration of an input-side power failure at the DC-DC converter ( 32 ), so that upon actuation of the switching device ( 36 ; 38 ) an uninterrupted operation of the lamp ( 14 ). Circuit according to one of the preceding claims, wherein the furniture-part circuit part ( 10 ) a charging device ( 34 ) for the energy store ( 26 ) which, when the circuit part is coupled ( 10 ) with the mains powered power supply ( 20 ) is operable via the mains power supply ( 20 ) the energy store ( 26 ) to load. Circuit according to one of the preceding claims, further comprising a furniture body-side circuit part ( 12 ), which supplies the mains powered power supply ( 20 ), wherein the furniture part-side circuit part ( 10 ) at least one LED light ( 14 ). Furniture, in particular cupboard, with a furniture body ( 18 ) and one opposite the furniture body ( 18 ) movable furniture part ( 16 ), in particular in the form of a sliding door, with a circuit according to one of claims 1 to 9, wherein the furniture part-side circuit part ( 10 ) and the at least one lamp ( 14 ) connected to the circuit part ( 10 ) is connected to the movable furniture part ( 16 ) are mounted.

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