JP2004336896A - Power feed unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a power feed unit to which the electric apparatus of a type that an existing plug is inserted into a socket can be easily applied as it is, and which easily performs the change of the electric apparatus for use irrespective of its models. <P>SOLUTION: Each of the power feed units 10, 40 and 50 comprises a power input part 17 which receives power from the outside; a power output part 12 which outputs the input power to the electric apparatus side; a power-on/off operation part 28 which is interposed between the power input part 17 and the power output part 12, and of which the power is turned on/off; a receiving part 14 that receives a power-on/off operation signal which is remote-controlled by radio; and a drive unit 33 that is operated by driving the power-on/off operation part based on a signal from the receiving part in accordance with the power-on/off operation signal. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a power supply unit that enables a power ON / OFF operation of a lighting device and other electric devices by wireless remote control.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, for the purpose of improving convenience, a technique for enabling ON / OFF operation of a large number of lighting fixtures and other electric appliances at home at once has been proposed.
[0003]
For example, in the case of Prior Art 1 (see Patent Literature 1), an existing switch device including a seesaw switch, which is particularly embedded in an indoor wall surface, is referred to as a switch switching device on the upper surface of the seesaw switch. The device is mounted with two screws, and by using an operating device (remote controller) for remotely operating the switching device, the fan gear in the switch switching device is turned to press the switch, thereby physically pressing the switch. It is a technology that allows remote operation by switching the lower switch.
[0004]
However, in the case of this technology, it is formed for a seesaw type switch buried in a wall, and it is effective for lighting equipment using such a form of switch. Cannot be used for electrical equipment that secures power.
[0005]
In addition, it takes time and effort to mount the switch device on the seesaw switch with two screws, and in the mounted state, the seesaw switch cannot be directly used manually. That is, the operating device and the switch cannot be used together.
[0006]
Further, in the case of the prior art 2 (see Patent Document 2), not only lighting equipment but also other electric equipment is also targeted. The outline takes the form of a wall switch buried in a wall in a room. The wall switch includes not only a push button (switch) but also a receiver for receiving a signal transmitted from a remote place, and further includes an electrical device in advance. Power supply wiring in a wall, connected to a wall switch, and controlling the receiver from a remote position with a transmitter using the wall switch, thereby enabling power ON / OFF operation for each electric device. .
[0007]
However, in the case of the above technology, work for embedding the receiver in the wall switch and interior work for wiring the power supply wiring of the electric device in the wall are required, and the existing electric device by plug connection cannot be used as it is. Moreover, it is laborious to make a change after performing the above-described interior work such as when replacing with a new electric device.
[0008]
[Patent Document 1]
JP-A-63-218109 [Patent Document 2]
Japanese Utility Model Registration No. 3056958.
[0009]
[Problems to be solved by the invention]
Therefore, the present invention provides a power supply unit that can easily apply an existing electrical device of a type that plugs into an outlet, and can easily change the electrical device to be used regardless of the model. For the purpose of providing.
[0010]
[Means for Solving the Problems]
The present invention provides a power input unit for receiving power from the outside, a power output unit for outputting the input power to the electric device, and a power supply unit interposed between the power input unit and the power output unit. A power ON / OFF operation unit for ON / OFF operation, a reception unit for receiving a power ON / OFF operation signal remotely operated by radio, and a signal from the reception unit corresponding to the power ON / OFF operation signal And a driving unit for driving and operating the power ON / OFF operation unit based on the power supply unit.
[0011]
The power input unit also includes an outlet into which a power plug is inserted, or an input unit configured by connecting a power input unit and an output terminal without using the outlet using screws or the like.
[0012]
The power input unit includes a power supply for controlling a power ON / OFF operation unit, which will be described later, to an AC / DC power converter that converts a part of the AC voltage received from the input unit into a predetermined DC voltage. May be branched.
[0013]
The power output unit includes a plurality of outlets for outputting the received power to the electrical device, or an output configured by connecting the power output unit and an input terminal of the electrical device using a screw or the like. Including.
[0014]
In addition, the output unit may be configured to include a display unit for displaying whether power is supplied or not.
[0015]
The power ON / OFF operation unit indicates, for example, a relay contact when remotely operated. In the case of the relay contact, the drive unit indicates a relay switch, and drives the relay switch in the drive unit based on a signal from the reception unit to operate the relay contact in the ON / OFF operation unit.
Note that the relays used in the internal circuit of the power supply unit include all those having similar functions, such as mechanical relays and semiconductor relays.
[0016]
The receiving section includes a phototransistor, a photodiode or the like, which receives incident light and outputs a predetermined signal, and further includes those formed with a condensing lens in their configuration. Further, an antenna provided with an antenna or the like for receiving an electromagnetic wave is also included.
[0017]
Further, it can be formed to include a transmitter (remote controller) for transmitting a power ON / OFF operation signal to the receiving section by wirelessly operating remotely, corresponding to the receiving mode of the receiving section.
[0018]
According to the configuration described above, the power supply wiring provided in the power supply input unit is connected to the power supply unit, and the electric equipment of the existing power supply wiring is simply connected to the output unit. The conduction can be performed by the / OFF operation unit.
[0019]
Further, it is possible to form a switching means such as a switch for switching between a power supply state and a power supply ON / OFF operation state by remote control.
[0020]
The power ON / OFF operation switching means includes a power supply ON / OFF operation unit, or a part immediately before a drive unit for driving or stopping the drive unit before operating the power ON / OFF operation unit. By forming it in such a manner, it can be formed so as to be switchable to any one of the above states.
[0021]
In this case, for example, if the switch as the switching means is switched to the ON state, the power can always be supplied. If the switch is switched to the OFF state, the power can be turned on using a transmitter or the like described later. / OFF operation can be performed.
[0022]
In other words, if the power supply unit is switched to the power supply state by the switching unit, the power supply unit constantly supplies power. The power ON / OFF operation can be performed by a switch provided in the electric device as usual.
[0023]
Further, if the switching means is switched to a state where the power can be turned on / off, the power can be turned on / off using the transmitter without using the switch provided in the electric device. it can.
After the power is turned on by the transmitter, the power supply unit is continuously supplied with power. Therefore, the power on / off operation is performed by a switch provided in the electric device as usual. be able to.
[0024]
The power supply unit described above may be provided for each room, and may be a power outlet for each room. Alternatively, the power supply output unit may be connected to immediately after output from the breaker, the power output unit may be led out to each room, and the power may be directly supplied to electric devices such as lighting fixtures and ventilation fans provided for each room.
If an electromagnetic wave is used as the transmission means from the transmitter, the power can be turned on / off even through a wall.
[0025]
Further, for example, a small-sized power supply unit for a lighting fixture may be attached to an attachment portion of the ceiling-mounted lighting fixture to the ceiling, and the power of the lighting fixture may be turned ON / OFF using the transmitter. Good.
[0026]
【The invention's effect】
According to the present invention, if the power supply unit of the power supply unit is connected to the power supply line and the power supply output unit is connected to the electric device, the transmitter (remote controller) can control the power supply unit and the remote unit remote from the electric device. Power ON / OFF control of the electric device can be easily performed from the position.
[0027]
Furthermore, if the power input unit and the power output unit of the power supply unit are formed into a plug and an outlet type, if the power supply unit is connected to an existing outlet, the power supply unit can be easily used as a wireless outlet. It can be used, and the existing electric equipment can be used as it is, without having to work on indoor equipment such as a wall switch or modifying the electric equipment.
[0028]
Even if the power switch of each electric device provided indoors is not turned off, if the transmitter is used, the ON / OFF operation of the power of the electric device in the room using the transmitter can be performed collectively. For example, when going out, the user does not forget to turn off the power.
[0029]
If the power supply unit is turned on / off, no standby power is consumed even when the power is turned off by a transmitter (remote controller) provided in an electric device such as an air conditioner or a television. . Moreover, in order to save standby power, it is not necessary to unplug the plug from the outlet each time the device is used, and the power ON / OFF operation can be performed collectively.
[0030]
Also, if a power supply unit is attached immediately after the breaker and power is directly supplied from the power supply unit to lighting equipment provided for each room, a signal for power ON / OFF operation is performed by a transmitter. Since there is no need to turn on / off the power using a switch or the like embedded in the wall, the cost can be reduced by not forming the switch portion.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described below with reference to the drawings.
As shown in FIG. 1, this embodiment shows an example in which a power supply unit 10 having a substantially rectangular parallelepiped shape is connected to an indoor outlet 11.
[0032]
The external configuration of the power supply unit 10 is such that three power outlets 12 are arranged side by side at substantially equal intervals as output units on the front side in the longitudinal direction, and when the power outlets 12 are placed as shown in FIG. , Three pilot lamps 13 (red LEDs) are provided.
Further, a switch 35 may be formed on the opposite side of the power outlet 12 from the pilot lamp 13.
[0033]
Further, a receiver 14 for receiving incident light for reception is formed at one corner on the front side.
[0034]
Further, a power plug 19 of an audio device 81 and a power plug 16 of a fan 82 are inserted into the two power outlets 12, respectively.
[0035]
Further, a power plug 17 is provided as an input unit via a wiring extending from one end face in the longitudinal direction, and the power plug 17 is inserted into the indoor outlet 11.
[0036]
In addition, a wireless operation device 18 (transmitter or remote controller) that can remotely operate the power supply unit 10 wirelessly is provided indoors. The wireless operation device 18 includes an operation unit 18a that is operated by a user pressing a button 18c, and a transmission unit 18b that transmits an operation signal using infrared rays based on information from the operation unit 18a. .
[0037]
The power supply unit 10 is mounted indoors in the above-described manner. However, focusing on the internal circuit configuration of the power supply unit 10, as shown in the circuit diagram of FIG. The power supply is output from the power outlet 12 to the electric devices 81 and 82 via the relay contact 28.
[0038]
Further, the power is turned ON / OFF by the relay contact 28, and the signal transmitted by the wireless operating device 18 is received by the receiver 14 in order to switch the relay contact 28.
[0039]
That is, the receiver 14 includes a photodiode 29 (photoelectric element) and an optical signal receiving circuit 32, receives a signal transmitted from the wireless operation device 18 by the photodiode 29, and converts the received signal into a signal. In response, the light receiving circuit 32 outputs a predetermined pulse signal.
[0040]
Further, the bidirectional flip-flop circuit 33 receives the predetermined pulse signal and generates an ON / OFF operation signal for power supply from the flip-flop circuit 33.
[0041]
In addition, the AC / DC voltage circuit 27 generates 5 V DC and supplies it to a predetermined circuit in order to obtain operation power of the electric circuit.
[0042]
Furthermore, if the switch 35 for manual switching, which forms the flip-flop circuit 33 at a stage subsequent to the output, is conductive, the output of the flip-flop circuit 33 reaches the relay switch 34, and the relay switch 34 is driven (ON). In other words, the power can be turned on by switching the relay contact 28.
[0043]
That is, when the relay switch 34 is turned on / off by the output of the flip-flop circuit 33 by the switching operation of the switch 35 (contact a in FIG. 2), the power on / off operation by the wireless operating device 18 is possible. When the switch is switched to the 5V side of the operating power supply (contact b in FIG. 2), the relay switch 34 is turned on, so that the relay contact 28 is always ON, and the electrical equipment 81, 82 The power can always be supplied.
[0044]
A red LED 13 is mounted as the pilot lamp 13 between the switch 35 and the flip-flop circuit 33. The red LED 13 is lit when the power ON / OFF operation signal passes.
That is, the pilot lamp 13 is turned on by the output of the flip-flop circuit 33, and can display a state in which the wireless operating device 18 is turned on.
[0045]
The connection point of the switch 35 can be formed on the relay contact 28 (RY-1). In this case, the flip-flop circuit 33 is directly connected to the relay switch 34, and is connected in parallel with the relay contact 28 (RY-1) as shown in FIG.
[0046]
In the case of the switch 35 of this embodiment, when the switch 35 is turned on manually, the input power is output regardless of whether or not the relay contact 28 is in contact, and the power is always supplied. When the switch 35 is turned off, the operation of the relay contact 28 becomes effective, so that the operation of the wireless operation device 18 can be enabled / disabled.
[0047]
Although FIG. 2 shows only a circuit diagram corresponding to one power outlet 12, the power supply unit 10 includes three power outlets 12, so that the flip-flop circuit 33, the switch 35, The red LED 13, the relay switch 34, and the relay contact 28 are formed three each corresponding to the three power outlets 12.
[0048]
That is, when the user presses the button 18c of the wireless operating device 18 corresponding to each of the three power outlets 12 to be output to the electric device, a signal set in advance for each of the buttons 18c is transmitted, and the signal is transmitted. The received optical signal receiving circuit 32 transmits a received signal to the flip-flop circuit 33 corresponding to the button 18c pressed by the user among the three flip-flop circuits 33, and the power ON / OFF operation described above is performed. Similarly, a power ON / OFF operation to the corresponding power outlet 12 is performed.
[0049]
Further, when the user operates (turns on) the electric fan 82 placed at a predetermined place in the room using the power supply unit 10 having the above configuration, the power plug 16 of the electric fan 82 is inserted. When the button 18c of the wireless operating device 18 corresponding to the power outlet 12 of the power supply unit 10 is pressed, the ON operation has been performed, and power is supplied to the fan 82 to operate the fan 82 (turn it on). be able to.
[0050]
If the same button 18c is pressed again, it means that the power has been turned off, so that the power supply can be stopped and the fan 82 can be stopped (turned off).
[0051]
In the power supply unit 10, if the power is turned on by the wireless operation device 18 or the switch 35, the power can be switched by a power ON / OFF switch formed in the electric devices 81 and 82 as usual.
[0052]
In the operation of pressing the button 18c, the user does not need to keep pressing the button 18c by forming the flip-flop circuit 33 in the power supply unit 10.
[0053]
As described above, existing electric equipment can be used simply by plugging the power plug of the electric equipment into the power outlet 12 of the power supply unit 10.
[0054]
Further, the power supply unit 10 may be formed so as to be able to cope with various electric devices 53 by forming a larger number of power outlets 12 and associated internal circuits.
[0055]
The power supply plug 17 of the power supply unit 10 is inserted into the indoor outlet 11 via electric wiring. However, if this form is adopted, the power supply unit 10 can be arbitrarily set within the length of the electric wiring. Place.
On the other hand, the power supply unit 10 is formed so that a power plug 17 protrudes from the back surface of the power supply unit 10 without using the electric wiring, and the power plug 17 is connected to the indoor outlet 11 together with the power supply unit 10. It does not matter even if it is attached. With this configuration, the power supply unit 10 can be made compact without being placed on the floor, so that the appearance can be maintained.
[0056]
Next, as another embodiment, as shown in FIG. 4, in a ceiling-pending pendant light 41, usually, the pendant light 41 is connected to a power outlet 43 in a mounting portion 46 embedded in the ceiling surface of the pendant light 41. When the power plug 44 of 41 is inserted, it is attached to the ceiling.
[0057]
Here, the pendant light 41 is not directly attached to the power outlet 43 on the ceiling, but is attached via a small-sized power supply unit 40 having a cylindrical shape having substantially the same diameter as the attachment portion 46. That is, the power supply unit 40 is mounted such that the power plug 17 is located at the upper part and the power outlet 12 is located at the lower part.
[0058]
Further, one set of the circuit configuration described with reference to FIG. 2 corresponding to the power plug 17 and the power outlet 12 is incorporated, and two receivers 14 are formed at predetermined opposing portions on the side surface. I have.
[0059]
With the above configuration, there is no need to pull on the string member 42 hanging from the pendant light 41 to perform ON / OFF operation and to press the switch 45 on the wall surface. Power ON / OFF operation can be performed.
[0060]
Furthermore, for example, a common wireless operation device 18 is formed in the small power supply unit 40 and the power supply unit 10 described above, and electric devices including the pendant light 41 are collectively used by using the wireless operation device 18. You may make it operable.
[0061]
Next, as another embodiment, as shown in FIG. 5A, for example, when a house is built, the power supply output terminal of the breaker 51 and the same circuit configuration as the above-described power supply unit are provided as described above. The power input unit 17 of the power supply unit 50 is connected in series, the power supply unit 50 is placed in each of the rooms 54 and 55, and the power supply unit 50 is connected to each electric device. It is not necessary to separately form the wiring of the wall switch 45 such as a ventilation fan or the wall switch 45 itself in the wall, and the ON / OFF operation of the power supply of the electric devices in the rooms 54 and 55 is performed by one wireless operation device 18. be able to.
[0062]
As another embodiment, as shown in FIG. 5B, the above-described power supply unit 50 is arranged immediately after the breaker 51, and the output power from the power supply unit 50 is transmitted to the electric devices 53 in the rooms 54 and 55. It may be formed in an output form.
[0063]
In this case, the power supply unit 50 forms an input terminal of a power supply without forming the power outlet 12 and the power plug 17 as described above, and connects the input terminal to an electric device, an indoor outlet 11, and a power output, respectively. Connected to terminal.
[0064]
In the case of the above-described embodiment, for example, if the output power for the pendant light 41 and the output power for the indoor outlet 11 are supplied for each of the rooms 54 and 55, the switch 45 of the pendant light 41 is provided in the same manner as in the above-described embodiment. It is not necessary to form any of the electric appliances using the indoor outlet 11.
[0065]
In addition, the signal transmission / reception mode between the wireless operation device 18 and the receiver 14 can be changed to one power supply unit 10 or 40 even if the power supply unit is turned on / off using a signal by electromagnetic waves even if the wall is separated. Thus, the ON / OFF state of the power supply can be managed for each house.
[0066]
In correspondence between the above embodiment and the configuration of the present invention,
The power plug 17 of this embodiment corresponds to the power input section of the present invention,
Similarly,
The power outlet 12 corresponds to a power output unit,
The relay contact 28 corresponds to a power ON / OFF operation unit,
The receiver 14 (the photodiode 29 and the optical signal receiving circuit 32) corresponds to a receiving unit,
The flip-flop circuit 33 and the relay switch 34 correspond to a driving unit,
The radio controller 18 corresponds to the transmitter,
The present invention is not limited to only the configuration of the above-described embodiment, but can obtain many embodiments.
[Brief description of the drawings]
FIG. 1 is an external view illustrating a usage mode of a power supply unit.
FIG. 2 is a circuit diagram of a power supply unit.
FIG. 3 is another circuit diagram of the power supply unit.
FIG. 4 is an external view showing a usage mode of another power supply unit.
FIG. 5 is a block diagram showing a usage form of still another power supply unit.
[Explanation of symbols]
10, 40, 50: power supply unit 17: power plug 17
12 power outlet 28 relay contact 14 receiver 25 driver 35 switch 33 flip-flop circuit 34 relay switch 18 wireless controller 51 breaker

Claims (4)

A power input for receiving external power,
A power output section for outputting the input power to the electric device side,
A power ON / OFF operation unit interposed between the power input unit and the power output unit to turn on / off the power;
A receiving unit for receiving a power ON / OFF operation signal remotely operated by radio;
Based on a signal from the receiving unit corresponding to the power ON / OFF operation signal,
A power supply unit comprising: a drive unit that drives and operates the power ON / OFF operation unit. The power supply unit according to claim 1, further comprising a transmitter that wirelessly remotely controls the power supply unit to transmit a power ON / OFF operation signal to the receiving unit. The power supply unit according to claim 1, wherein a power output unit of the breaker and the power input unit are connected in series. 4. The power supply according to claim 1, further comprising a switching unit configured to switch any one of a power supply state and a power supply ON / OFF state by the remote control. Supply unit.

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