WO2015173951A1 - Power control device, power control method, and power control system - Google Patents

Abstract

A power control device comprises: a first receiving device for receiving a first signal indicating that in a building having a plurality of rooms in each of which a first electric device is provided, a person who is assigned to one of said rooms is present outside said building; a first detection device for detecting that a door of said building is locked; and a first interrupt device for, when said first detection device detects that said door is locked when said first receiving device receives said first signal, interrupting the power supplied to said first electric device provided in said one of said rooms.

Description

Power control apparatus, power control method, power control system

The present invention relates to a power control device, a power control method, and a power control system.

For example, an electric device that is installed in a house and operates by being supplied with electric power is known (for example, Patent Document 1).

JP 2011-160608 A

For example, electric devices including the electric device disclosed in Patent Document 1 are supplied with power as standby power even when not operating. For this reason, there is a possibility that it may be difficult to reduce the amount of power consumed in the house where the electrical equipment is provided to be less than the amount of power supplied as the standby power described above.

The main present invention for solving the above-described problem is that a person assigned to one of the plurality of rooms in a building having a plurality of rooms each provided with a first electric device is located outside the building. A first receiving device that receives a first signal indicating that the door is in the building, a first detecting device that detects that the door of the building is locked, and the first receiving device that receives the first signal. A first shut-off device that shuts off power supplied to the first electrical device provided in the one room when the first detection device detects that the door is locked. This is a power control device.

Other features of the present invention will become apparent from the accompanying drawings and the description of the present specification.

According to the present invention, the power supplied to the electric device can be cut off.

It is a figure which shows the dwelling unit in embodiment of this invention. It is a disassembled perspective view which shows the door and control apparatus in embodiment of this invention. It is a side view which shows the door and control apparatus in embodiment of this invention. It is a front view which shows the control apparatus of the state in which the knob in embodiment of this invention was rotated to the 1st rotation position. It is a front view which shows the control apparatus of the state in which the knob in embodiment of this invention was rotated to the 2nd rotation position. It is a top view which shows the key apparatus in embodiment of this invention. It is sectional drawing which shows the key apparatus in embodiment of this invention. It is a figure which shows the state of the switch in each case in embodiment of this invention.

At least the following matters will become apparent from the description of this specification and the accompanying drawings.
=== Dwelling unit ===
Hereinafter, with reference to FIG. 1, the dwelling unit in this embodiment is demonstrated. FIG. 1 is a diagram illustrating a dwelling unit in the present embodiment. In FIG. 1, for convenience of explanation, the key units 511, 521, 531, and 541 show the dwelling units 100 in a state where they are placed inside the Western-style rooms 101 to 104.

The dwelling unit 100 (building) is, for example, a condominium or a detached house for multiple residents. The dwelling unit 100 is provided with a door 2, for example, four Western-style rooms 101 to 104 (rooms), an entrance 111, a corridor 112, a wash / bathroom 113, a toilet 114, a living / dining 115, and a kitchen 116.

The door 2 is a door that is opened and closed when entering and exiting the dwelling unit 100.

People who use the Western-style rooms 101 to 104 are assigned to the Western-style rooms 101 to 104, respectively. The persons assigned to the Western rooms 101 to 104 are also referred to as first to fourth persons, respectively. Each of the first to fourth persons may be one person or a plurality of persons.

The Western-style room 101 includes an outlet device 611 and an electric device 612.

The electrical device 612 is an electrical device such as a lighting, a television, an air conditioner, a printer, and a personal computer. The electric device 612 is connected to the AC power source G through the outlet device 611.

The outlet device 611 has a switch 613.

The switch 613 is turned on / off between the AC power supply G and the electric device 612. For example, when the switch 613 is turned on, the AC power source G and the electric device 612 are electrically connected, and power is supplied from the AC power source G to the electric device 612. On the other hand, for example, when the switch 613 is turned off, the AC power source G and the electric device 612 are electrically cut off, and power is not supplied from the AC power source G to the electric device 612.

The outlet device 611 receives the first and second control signals output from the control device 3 (FIG. 4), and controls on / off of the switch 613 based on the received control signals. For example, when the first control signal is received, the outlet device 611 turns off the switch 613. For example, when the second control signal is received, the outlet device 611 turns on the switch 613.

The configuration of the Western-style rooms 102 to 104 is the same as the configuration of the Western-style room 101. That is, the configuration of the outlet devices 621, 631, and 641 is the same as the configuration of the outlet device 611, the configuration of the electrical devices 622, 632, and 642 is the same as the configuration of the electrical device 612, and the configuration of the switches 623, 633, and 643. Is the same as the configuration of the switch 613. The electric devices 612, 622, 632, and 642 correspond to the first electric device.

The entrance 111, the corridor 112, the bathroom / bathroom 113, the toilet 114, the living / dining room 115, and the kitchen 116 (also referred to as “shared room”) are rooms that the first to fourth people use together.

The common room has an outlet device 651 and an electric device 652 (second electric device). The electric device 652 is an electric device such as an illumination. For convenience of explanation, FIG. 1 shows an example in which the outlet device 651 and the electric device 652 are provided in the living / dining 115. For example, the outlet device 651 and the electric device 652 are provided in each room in the common room. It may be provided, or may be provided in some rooms.

The configuration of the outlet device 651 is the same as the configuration of the outlet device 611. Therefore, the configuration of the switch 653 is the same as the configuration of the switch 613.
=== Door ===
Hereinafter, the door in this embodiment is demonstrated with reference to FIG.2 and FIG.3. FIG. 2 is an exploded perspective view showing the door and the control device in the present embodiment. In FIG. 2, an absent switch 35 (FIG. 4), a human sensor 36, a first wireless communication unit 34, a second wireless communication unit 37, and a system switch 39 (prohibited device) provided on the front surface of the main body 33. ) Is omitted for convenience of explanation. In FIG. 2, the first piezoelectric elements 43 and 44, the second piezoelectric elements 41 and 42, the hollow portion 33B, and the engagement holes 331 and 332 are not visible, but are shown by broken lines for convenience of explanation. Has been. FIG. 3 is a side view showing the door and the control device in the present embodiment.

The door 2 has a thumb turn 20 and a dead bolt 211.

The thumb turn 20 is provided inside the dwelling unit 100 in the door 2. The thumb turn 20 has a trunk 21 and a knob 22.

The Z axis is an axis along the vertical direction, and the direction from the lower side to the upper side is + Z, and the direction from the upper side to the lower side is -Z. The Y axis is an axis along the rotation axis of the knob 22 in the thumb turn 20, and the direction from the inside to the outside of the dwelling unit 100 is defined as + Y, and the direction from the outside to the inside of the dwelling unit 100 is defined as -Y. The X axis is orthogonal to the Y axis and the Z axis and is along the direction in which the dead bolt 211 moves. The direction in which the dead bolt 211 protrudes from the door 2 is + X, and the dead bolt 211 is retracted to the door 2 The direction to do is -X.

The barrel 21 is provided at a predetermined position on the door 2.

The knob 22 is attached to the door 2 via the trunk 21 so as to be rotatable about a rotation axis along the Y axis orthogonal to the door 2. The knob 22 can be rotated approximately 90 degrees in the clockwise direction when viewed from −Y to + Y in a state where the knob 22 is along the vertical direction (Z axis). Thereafter, in a state where the knob 22 is in the horizontal direction (X axis) (not shown), it can be rotated 90 degrees counterclockwise as viewed from -Y to + Y. The state in which the knob 22 is along the vertical direction indicates a state in which the longitudinal direction of the knob 22 is along the Z axis, as shown in FIG. The state in which the knob 22 is along the horizontal direction indicates a state in which the longitudinal direction of the knob 22 is along the X axis.

The position of the knob 22 in a state where the knob 22 is along the X axis is defined as a first rotation position of the knob 22. Further, the position of the knob 22 in a state where the knob 22 is along the Z axis is defined as a second rotation position of the knob 22. The knob 22 is turned to the first turning position or turned to the second turning position.

It should be noted that the knob 22 can be rotated to the first or second rotational position also by the rotational operation of the key devices 511, 521, 531 and 541 inserted into the key holes provided outside the dwelling unit 100 in the door 2. Moved. That is, the knob 22 is rotated from both inside and outside the dwelling unit 100.

The dead bolt 211 protrudes from or retracts to the door 2 based on the rotation of the knob 22. For example, when the knob 22 is rotated to the first rotation position, the dead bolt 211 protrudes from the door 2. On the other hand, for example, when the knob 22 is rotated to the second rotation position, the knob 22 is retracted inside the door 2. Therefore, when the knob 22 is rotated to the first rotation position while the door 2 is closed, the door 2 is locked. Thereafter, when the knob 22 is rotated to the second rotation position, the door 2 is unlocked.
=== Control Device Structure ===
Hereinafter, the structure of the control device in the present embodiment will be described with reference to FIGS. 2 and 3.

The control device 3 is detachably attached to the inside of the dwelling unit 100 in the door 2. The control device 3 includes a mounting plate 31, a cover 32, and a main body portion 33.
= Mounting plate =
The attachment plate 31 is a plate member attached to the inner surface of the dwelling unit 100 in the door 2. The mounting plate 31 has, for example, a substantially rectangular shape and is formed using an insulating resin or the like. The mounting plate 31 is provided with an insertion hole 31A and engagement pieces 311 and 312.

The thumb turn 20 is inserted through the insertion hole 31A. The diameter of the insertion hole 31A is set larger than the diameter of the cylinder 21 so that the cylinder 21 is inserted.

The engagement pieces 311 and 312 protrude from both ends in the X-axis direction toward −Y so as to engage with the main body 33 while being inserted into the engagement holes 331 and 332 of the main body 33, respectively. .
= Body part =
The main body 33 is the main body of the control device 3 and is attached to the door 2 using the attachment plate 31. The main body 33 has, for example, a substantially rectangular column shape, and is formed using an insulating resin or the like. The main body 33 is provided with an exposure hole 33A, engagement holes 331 and 332, first piezoelectric elements 43 and 44, second piezoelectric elements 41 and 42, and a hollow part 33B.

The engagement holes 331 and 332 are holes through which the engagement pieces 311 and 312 are detachably engaged, and are provided at positions facing the engagement pieces 311 and 312. That is, the main body 33 can be attached to and detached from the mounting plate 31.

The exposure hole 33 </ b> A is, for example, a circular hole for exposing the cover 32. The exposure hole 33A is provided at a position facing the thumb turn 20. A mountain portion 333 is formed inside the exposure hole 33 </ b> A in the main body portion 33. The peak portion 333 is a protrusion used when the cover 32 is attached to the main body portion 33, and is provided over the entire circumference of the exposure hole 33A. The peak portion 333 has a shape that is inserted into the groove 323 in the cover 32. The exposure hole 33A also functions as an attachment hole for rotatably attaching the cover 32 to the main body portion 33. The diameter of the exposure hole 33A is set larger than the diameter of the cover 32 so that the cover 32 is provided inside the exposure hole 33A. And when the cover 32 is attached with respect to the main-body part 33, rotation operation of the cover 32 exposed from the exposure hole 33A is attained.

The hollow portion 33 </ b> B is a cavity for rotatably accommodating the cover 32 attached to the main body portion 33. The hollow portion 33B is open on the + Y side and communicates with the exposure hole 33A on the -Y side.

The first piezoelectric elements 43 and 44 and the second piezoelectric elements 41 and 42 are elements that generate electric power when the projecting pieces 321 and 322 of the cover 32 are pressed against each other. The first piezoelectric elements 43 and 44 and the second piezoelectric elements 41 and 42 are provided in the hollow portion 33 </ b> B of the main body portion 33. The first piezoelectric elements 43 and 44 and the projecting pieces 321 and 322 correspond to the first detection device. The second piezoelectric elements 41 and 42 and the projecting pieces 321 and 322 correspond to the second detection device.

When the control device 3 is attached to the door 2, the first piezoelectric elements 43 and 44 are located at positions where the projecting pieces 321 and 322 are pressed against each other when the knob 22 is rotated to the first rotation position. Provided. The first piezoelectric elements 43 and 44 are provided on both sides of the exposure hole 33A in the vertical direction, for example.

When the control device 3 is attached to the door 2, the second piezoelectric elements 41, 42 are in positions where the projecting pieces 321, 322 are pressed against each other when the knob 22 is rotated to the second rotation position. Provided. The second piezoelectric elements 41 and 42 are provided on both sides of the exposure hole 33A in the horizontal direction, for example.
= Cover =
The cover 32 is attached to the thumb turn 20 and rotates together with the knob 22. The cover 32 is formed using, for example, an insulating resin. The cover 32 includes a main body 324, projecting pieces 321 and 322, and a knob 325. The main body 324, the projecting pieces 321, 322, and the knob 325 may be integrally formed.

The main body 324 has, for example, a cylindrical shape so that the thumb turn 20 can be inserted therein. On the + Y side of the main body 324, an opening (not shown) for inserting the thumb turn 20 into the main body 324 is provided. A knob 325 is provided on the −Y side of the main body 324. A groove 323 into which the peak portion 333 of the main body 33 is inserted is provided on the outer peripheral surface of the main body 324. The groove 323 is a groove used when the cover 32 is attached to the main body 33, and is provided over the entire circumference of the cover 32.

The knob 325 is fixed with respect to the knob 22 by fitting the knob 22. The knob 325 has a hollow shape. The inside of the knob 325 communicates with the inside of the main body 324. Therefore, when the thumb turn 20 is inserted into the cover 32, the knob 22 fits into the knob 325 inside the cover 32. The knob 325 is fixed with respect to the knob 22.

The projecting pieces 321 and 322 have, for example, a substantially rectangular column shape, and are pieces that are pressed against the first piezoelectric elements 43 and 44 and the second piezoelectric elements 41 and 42. The protruding pieces 321 and 322 protrude from the outer peripheral surface of the main body 324. The protruding pieces 321 and 322 protrude from the main body 324 in a direction away from the XZ plane. The projecting pieces 321 and 322 are provided on both sides of the main body 324 so that the longitudinal direction of the projecting pieces 321 and 322 and the longitudinal direction of the knob 325 are substantially orthogonal to each other.
= Mounting the control device on the door =
The mounting plate 31 is fixed to the door 2 in a state where the thumb turn 20 is inserted into the insertion hole 31A. The attachment plate 31 may be fixed using, for example, a screw, or may be fixed using a double-sided tape, an adhesive, a surface fastener, or the like.

The cover 32 is attached to the exposure hole 33 </ b> A in the main body 33. At this time, since the tip of the peak portion 333 is inserted into the groove 323 and the peak portion 333 is caught in the groove 323, the cover 32 is prevented from being detached from the main body portion 33 due to its own weight, for example. Further, at this time, the cover 32 can rotate around a rotation shaft 32B (FIG. 4) passing through the center of the cover 32 and along the Y axis.

The main body 33 with the cover 32 attached is attached to the attachment plate 31. With the engagement pieces 311, 312 inserted into the engagement holes 331, 332, the engagement pieces 311, 312 engage with the main body portion 33, whereby the main body portion 33 is fixed to the mounting plate 31. Thus, the control device 3 is attached to the door 2.
=== Function of Control Device ===
Hereinafter, the function of the control device according to the present embodiment will be described with reference to FIGS. FIG. 4 is a front view showing the control device in a state in which the knob in the present embodiment is rotated to the first rotation position. FIG. 5 is a front view showing the control device in a state where the knob in the present embodiment is rotated to the second rotation position.

4 and 5, the second piezoelectric elements 41 and 42, the first piezoelectric elements 43 and 44, and the projecting pieces 321 and 322 are invisible, but are shown by broken lines for convenience of explanation. .

The control device 3 includes a first wireless communication unit 34, an absent switch 35, a human sensor 36, a second wireless communication unit 37, a control circuit 38, and a system switch 39.

The first wireless communication unit 34 is provided with a communication antenna for transmitting the first and second control signals to the outlet devices 611, 621, 631, 641, 651 (also referred to as “each outlet device”). ing. Each outlet device corresponds to a first to third shut-off device and a supply device. The control device 3 and each outlet device correspond to a power control device.

First to fourth identification signals output from the key devices 511, 521, 531 and 541 (also referred to as “each key device”) are transmitted to the second wireless communication unit 37 (first receiving device, second receiving device). Is provided with a communication antenna. Each key device (transmission device) will be described later.

The human sensor 36 is, for example, an infrared sensor that detects the presence of a person in the dwelling unit 100. The human sensor 36 operates by being supplied with electric power generated by at least one of the first piezoelectric elements 43 and 44 and the second piezoelectric elements 41 and 42 (also referred to as “each piezoelectric element”). For this reason, the power consumption in the dwelling unit 100 including the control device 3 can be reduced.

The absent switch 35 is a switch for cutting off all the electric power supplied to the electric devices 612, 622, 632, 642, 652 (also referred to as “each electric device”) in the dwelling unit 100. When the absent switch 35 is pressed, the control device 3 transmits a first control signal to each outlet device. A piezoelectric element (not shown) with which the absent switch 35 is pressed when the absent switch 35 is pressed is provided in the control device 3. Based on the electric power generated by the piezoelectric element, the control device 3 transmits a first control signal to each outlet device.

The system switch 39 is, for example, a tumbling operation switch for switching the state of the control device 3. For example, when the lever of the system switch 39 is moved to the stop side, the control device 3 transmits the second control signal to each outlet device, and then, based on control by the control circuit 38 to be described later, 2 The control signal cannot be transmitted. On the other hand, for example, when the lever of the system switch 39 is moved to the start side, the control device 3 is in a state where it can transmit the first and second control signals based on the control by the control circuit 38 described later.

The control circuit 38 transmits the first and second control signals based on the reception result of the second wireless communication unit 37, the detection result of the human sensor 36, and which of the piezoelectric elements generates electric power. The control device 3 is controlled as described above. The control circuit 38 operates by being supplied with electric power generated by at least one piezoelectric element of each piezoelectric element. For this reason, the power consumption in the dwelling unit 100 including the control device 3 can be reduced.

For example, when the human sensor 36 detects that there is a person, the control circuit 38 performs control so as not to transmit the first and second control signals. Note that this control is not performed when the absent switch 35 is pressed. With this configuration, for example, the first and second control signals can be prevented from being transmitted when the knob 325 is rotated from the inside of the dwelling unit 100. On the other hand, for example, when the human sensor 36 does not detect the presence of a person, the control circuit 38 controls to transmit the first or second control signal.

Specifically, for example, when power is generated by at least one of the second piezoelectric elements 41 and 42 (when it is detected that the door 2 is unlocked), the control circuit 38 receives the second wireless communication unit 37. Based on the result, control is performed so that the second control signal is transmitted to the outlet device. Specifically, for example, the control circuit 38 controls the outlet device 651 and the outlet device corresponding to the reception result of the second wireless communication unit 37 to transmit the second control signal. When the reception results of the second wireless communication unit 37 are the first to fourth identification signals, the corresponding outlet devices are outlet devices 611, 621, 631, and 641, respectively.

For example, when power is generated at least one of the first piezoelectric elements 43 and 44 (when it is detected that the door 2 is locked), the control circuit 38 is based on the reception result of the second wireless communication unit 37. Control is performed such that the first control signal is transmitted to the outlet device. Specifically, for example, when the second wireless communication unit 37 has received all the first to fourth identification signals, the control circuit 38 controls each outlet device to transmit the first control signal. .

On the other hand, for example, when the second wireless communication unit 37 has not received all of the first to fourth identification signals, the control circuit 38 determines whether all of the first to fourth persons are outside the dwelling unit 100, After determining whether at least one of the first to fourth persons is inside the dwelling unit 100 (also referred to as “determination regarding the person of the dwelling unit 100”), the first control signal is transmitted based on the determination result. To control.

More specifically, for example, when it is determined that all of the first to fourth people are outside the dwelling unit 100 when power is generated by at least one of the first piezoelectric elements 43 and 44, the control circuit 38 Control is performed so that the first control signal is transmitted to the outlet device 651 and the outlet device corresponding to the reception result of the second wireless communication unit 37. On the other hand, for example, when it is determined that at least one of the first to fourth persons is inside the dwelling unit 100 when power is generated by at least one of the first piezoelectric elements 43 and 44, the control circuit 38. Controls the outlet device corresponding to the reception result of the second wireless communication unit 37 to transmit the first control signal.

In addition, about the judgment regarding the person of the dwelling unit 100, it is good also as being made based on the detection result of the human sensitive sensor 36, for example, and the log | history of the information which the 2nd wireless communication part 37 shows a 1st thru | or 4th identification signal. Is stored in the memory and may be performed based on the information, or may be performed based on the state of each switch.
=== Key device ===
Hereinafter, the key device according to the present embodiment will be described with reference to FIGS. FIG. 6 is a plan view showing the key device in the present embodiment. FIG. 7 is a cross-sectional view showing the key device in the present embodiment. FIG. 7 shows the key device 5 as viewed from + Y1 to −Y1 in a B1-B2 cross section parallel to the X1-Z1 plane of FIG.

Each key device is inserted into a key hole provided outside the dwelling unit 100 in the door 2 and used to lock or unlock the door 2. The key devices 511, 521, 531 and 541 are assigned to the first to fourth persons, respectively. Each key device, the control device 3, and each outlet device correspond to a power control system.

The key device 511 has a blade part 52 to be inserted into the keyhole and a head part 51 that functions as a knob. The head 51 is provided with a transmission button 591. Inside the head 51, an urging device 513 (FIG. 7), a protruding piece 514, a fixing piece 512, a piezoelectric element 53, a conductive wire 55, and a transmitting device 54 are provided.

The transmission button 591 is pressed when transmitting the first identification signal. The transmission button 591 is urged by an urging device 513 such as a spring from the -Z1 side to the + Z1 side at the upper part (+ Z1) of the fixed piece 512 fixed at a predetermined position inside the head 51. Yes.

The transmission device 54 is a wireless transmission device that operates with the electric power generated by the piezoelectric element 53. When the electric power generated by the piezoelectric element 53 is supplied via the conductive wire 55, the transmission device 54 transmits a first identification signal.

For example, when a force from + Z1 to −Z1 is applied to the transmission button 591 (when the transmission button 591 is pressed), the projecting piece 514 moves from + Z1 to −Z1 together with the transmission button 591. The piezoelectric element 53 is pressed. At this time, the electric power generated by the piezoelectric element 53 is supplied to the transmission device 54. Then, the transmission device 54 transmits the first identification signal.

The configuration of the key devices 521, 531, and 541 is the same as the configuration of the key device 511. When the transmission buttons of the key devices 521, 531, and 541 are pressed, the key devices 521, 531, and 541 transmit the second identification signal, the third identification signal, and the fourth identification signal, respectively. In addition, since the 1st thru | or 4th person is pressed when the 1st thru | or 4th person is outside the dwelling unit 100, the 1st thru | or 4th identification signal of the 1st thru | or 4th person of the dwelling unit 100 is pressed. It shows that you are outside.
=== Operation of Control Device ===
Hereinafter, the operation of the control device according to the present embodiment will be described with reference to FIGS. 1 and 8. FIG. 8 is a diagram showing the state of the switch in each case in the present embodiment.
= First to fifth cases =
When the first person out of the first to fourth persons in the dwelling unit 100 goes out (first case), the first person uses the key device 511 outside the dwelling unit 100 to open the door 2. Lock. At this time, the first person performs locking in a state where the transmission button 591 of the key device 511 is pressed. Therefore, the first identification signal is transmitted from the key device 511 and the first piezoelectric elements 43 and 44 generate power. Then, the control device 3 switches the switch 613 from on to off. At this time, the switches 613, 623, 633, 643, and 653 (also referred to as “each switch”) other than the switch 613 are kept on. In this case, the power supplied to the electric device 612 is cut off.

Thereafter, when the second and third persons go out further (second case), one of the second and third persons uses the key device assigned outside the dwelling unit 100. The door 2 is locked. At this time, the above-mentioned one person performs locking in a state where the second and third persons press the transmission buttons of the key devices 521 and 531 respectively. Therefore, the second and third identification signals are transmitted from the key devices 521 and 531 and the first piezoelectric elements 43 and 44 generate power. Then, the control device 3 switches both the switches 623 and 633 from on to off. In this case, each of the electric power supplied to the electric devices 622 and 632 is further cut off.

After this, when the fourth person goes out further (third case), the fourth person locks the door 2 using the key device 541 outside the dwelling unit 100. At this time, the fourth person performs locking in a state where the transmission button of the key device 541 is pressed. Accordingly, the fourth identification signal is transmitted from the key device 541 and the first piezoelectric elements 43 and 44 generate power. At this time, the control circuit 38 determines that all of the first to fourth persons are outside the dwelling unit 100. Therefore, the control device 3 switches both the switches 643 and 653 from on to off. In this case, each of the electric power supplied to the electric devices 642 and 652 is further cut off.

After this, when the fourth person returns home (fourth case), the fourth person unlocks the door 2 using the key device 541 outside the dwelling unit 100. At this time, the fourth person unlocks the key device 541 while pressing the transmission button. Accordingly, the fourth identification signal is transmitted from the key device 541 and the second piezoelectric elements 41 and 42 generate power. Then, the control device 3 switches both the switches 643 and 653 from off to on. In this case, electric power is supplied to the electric devices 642 and 652.

Thereafter, when the first to third people further return home (in the fifth case), one of the first to third people uses the key device assigned outside the dwelling unit 100. The door 2 is unlocked. At this time, the above-mentioned one person unlocks with the first to third persons pressing the transmission buttons of the key devices 511, 521, and 531, respectively. Therefore, the first to third identification signals are transmitted from the key devices 511, 521, and 531 and the second piezoelectric elements 41 and 42 generate power. Then, the control device 3 switches the switches 613, 623, and 633 from off to on. In this case, electric power is further supplied to the electric devices 612, 622, and 632.
= Everyone goes out =
When the first to fourth persons in the dwelling unit 100 go out, one of the first to fourth persons locks the door 2 using the key device assigned outside the dwelling unit 100. I do. At this time, the above-mentioned one person performs locking in a state where the transmission buttons of the respective key devices to which the first to fourth persons are assigned are pressed. Therefore, the first to fourth identification signals are transmitted from the key devices, and the first piezoelectric elements 43 and 44 generate power. Therefore, the control device 3 switches each switch from on to off. And each electric power currently supplied to each electric equipment is further interrupted | blocked.

For example, when the first to fourth people in the dwelling unit 100 go out, one of the first to fourth people presses the absent button 35 and locks it. Also good.

Further, for example, one of the first to fourth persons may perform locking using a master key having a configuration similar to that of the key device 511. When the master key transmission button is pressed, the master key transmits the first to fourth identification signals. Specifically, one person performs locking while pressing a master key transmission button.
= Everyone returns home =
When the first to fourth persons in the dwelling unit 100 return home, one of the first to fourth persons opens the door 2 using the key device assigned outside the dwelling unit 100. Do the lock. At this time, the above-mentioned one person unlocks with the transmission buttons of the key devices to which the first to fourth persons are assigned being pressed. Therefore, the first to fourth identification signals are transmitted from the key devices, and the second piezoelectric elements 41 and 42 generate power. And the control apparatus 3 switches each switch from OFF to ON. In this case, electric power is supplied to each electric device.

Note that, for example, one of the first to fourth people may perform unlocking using the master key while pressing the master key transmission button.

As described above, for example, when the first identification signal indicating that the first person among the first to fourth persons is outside the dwelling unit 100 is received, the first piezoelectric elements 43 and 44 are When power is generated on at least one side, the control device 3 detects that the door 2 is locked and transmits a first control signal to the outlet device 611. The outlet device 611 switches the switch 613 from on to off. In this case, the power supplied to the electric device 612 is cut off. Therefore, for example, when the first person goes out, the power supplied to the electric device 612 provided in the western room 101 to which the first person is assigned is cut off, and the power consumption in the dwelling unit 100 Can be reduced.

In addition, the dwelling unit 100 has a shared room. For example, when power is generated by at least one of the first piezoelectric elements 43 and 44 when the first to fourth identification signals (second signals) are received, the control device 3 sends the first control signal to each outlet device. Send. In this case, the power supplied to each electrical device is interrupted. Therefore, for example, by cutting off the power supplied to the electrical equipment 652 provided in the shared room together with the power supplied to the electrical equipment 612, 622, 632, 642, the power consumption in the dwelling unit 100 is reduced. can do.

For example, when only the first identification signal is received and the power is generated by at least one of the first piezoelectric elements 43 and 44, the control device 3 does not transmit the first control signal to the outlet device 651. The first control signal is transmitted only to the outlet device 611. Therefore, for example, it is possible to prevent the second to fourth persons in the dwelling unit 100 from using the electric device 652. That is, the power consumption in the dwelling unit 100 can be reduced while maintaining the convenience of the people in the dwelling unit 100.

For example, when power is generated at least one of the second piezoelectric elements 41 and 42 when the first identification signal is received, the control device 3 detects that the door 2 is unlocked, and the outlet device 611. A second control signal is transmitted. The outlet device 611 switches the switch 613 from off to on. In this case, electric power is supplied to the electric device 612. Therefore, when the first person returns home, the convenience of the first person can be improved by making the electrical device 612 operable.

In addition, for example, when all of the first to fourth persons are out, when only the first identification signal is received and power is generated at least one of the second piezoelectric elements 41 and 42, the control device 3 Transmits the second control signal to both the outlet devices 611 and 651. In this case, electric power is supplied to the electric device 652 together with the electric device 612. Therefore, when the first person returns home, the convenience of the first person can be further improved by making the electric apparatus 652 operable together with the electric apparatus 612.

Further, for example, when the lever of the system switch 39 is moved to the stop side, the control device 3 cannot transmit the first and second control signals based on the control by the control circuit 38. That is, in this case, the function of turning on / off each switch in the control device 3 is stopped. Therefore, it is possible to provide an easy-to-use control device 3 that can stop the function of controlling the power supplied to each electrical device.

Also, each key device transmits the first to fourth identification signals. That is, in each key device, a function as a transmission device that transmits the first to fourth identification signals and a function of locking and unlocking the door 2 are realized. That is, for example, since it is not necessary to provide a transmission device that transmits the first to fourth identification signals separately from each key device, the convenience of the first to fourth people can be improved.

The key device 511 includes a transmission button 511 and a piezoelectric element 53. When the transmission button 511 is pressed, the piezoelectric element 53 generates power by pressing the protruding piece 514 of the transmission button 511. The power generated by the piezoelectric element 53 is supplied, and the transmission device 54 transmits the first identification signal. Therefore, for example, it is not necessary to provide the key device 511 with, for example, a storage battery for supplying the transmission device 54 with power for outputting the first identification signal. For this reason, since it is not necessary to charge the said storage battery in the dwelling unit 100, the power consumption in the dwelling unit 100 can be reduced.

In addition, the said embodiment is for making an understanding of this invention easy, and is not for limiting and interpreting this invention. The present invention can be changed and improved without departing from the gist thereof, and the present invention includes equivalents thereof.

In the above embodiment, the case where the dwelling unit 100 is provided with, for example, the Western-style rooms 101 to 104 has been described, but the present invention is not limited to this. For example, a plurality of rooms other than four may be provided in the dwelling unit 100.

2 Door 3 Control device 511, 521, 531, 541 Key device 611, 621, 631, 641, 651 Outlet device 612, 622, 632, 642, 652 Electrical equipment 613, 623, 633, 643, 653 Switch

Claims (10)

1. In a building having a plurality of rooms each provided with a first electrical device, a first signal indicating that a person assigned to one of the plurality of rooms is outside the building is received. A first receiving device;
   A first detection device for detecting that the door of the building is locked;
   When the first detecting device detects that the door is locked when the first receiving device receives the first signal, the first signal is supplied to the first electric device provided in the one room. A first shut-off device that shuts off the generated power;
   A power control apparatus comprising:
2. The building further includes a shared room provided with a second electrical device and used by a plurality of people assigned to each of the plurality of rooms,
   A second receiving device for receiving a second signal indicating that the plurality of persons are outside the building;
   The first shut-off device is
   When the first detection device detects that the door is locked when the second receiving device receives the second signal, the power supplied to the plurality of first electric devices and the second The power control apparatus according to claim 1, further comprising: a second cutoff device that cuts off electric power supplied to the electric device.
3. The first shut-off device is
   The first detection device detects that the door is locked when the first reception device receives the first signal and the second reception device does not receive the second signal. A third cutoff device that cuts off the power supplied to the first electrical device provided in the one room without cutting off the power supplied to the second electrical device. The power control apparatus according to claim 2, wherein
4. A second detection device for detecting that the door is unlocked;
   When the second receiving device detects that the door is unlocked when the first receiving device receives the first signal, the first electric device provided in the one room The power control device according to claim 1, further comprising: a supply device that supplies power to the power supply device.
5. A second detection device for detecting that the door is unlocked;
   The second detection device detects that the door is unlocked when the first reception device receives the first signal and the second reception device does not receive the second signal. 3. The power control according to claim 2, further comprising: a supply device that supplies power to the first electric device and the second electric device provided in the one room. apparatus.
6. A prohibition device for prohibiting the first shut-off device from shutting off the power supplied to the first electrical device regardless of the reception result of the first receiving device and the detection result of the first detection device; The power control apparatus according to claim 1.
7. The apparatus further comprises a prohibition device that prohibits the supply device from supplying power to the first electric device regardless of a reception result of the first reception device and a detection result of the second detection device. The power control apparatus according to claim 4.
8. In a building having a plurality of rooms each provided with a first electrical device, a first signal indicating that a person assigned to one of the plurality of rooms is outside the building is received. The first step;
   A second step of detecting that the door of the building is locked;
   When detecting that the door is locked when receiving the first signal, a third step of cutting off the power supplied to the first electric device provided in the one room;
   A power control method comprising:
9. In a building having a plurality of rooms each provided with electrical equipment, a transmitting device transmits a signal indicating that a person assigned to one of the plurality of rooms is outside the building,
   A receiving device for receiving the signal;
   A detection device for detecting that the door of the building is locked;
   When the receiving device receives the signal, and the detecting device detects that the door is locked, a shut-off device that cuts off power supplied to the electrical equipment provided in the one room When,
   A power control system comprising:
10. The power transmission system according to claim 9, wherein the transmission device includes a button and a piezoelectric element that presses the button and outputs the signal when the button is pressed.

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