JP5142670B2 - Multi-function management system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a multifunctional management system and a method which utilize a power supplying electric appliance like a table tap, have multiple functions including an energy saving function, and thereby enable the management of a customer house. <P>SOLUTION: The multifunctional management system uses a table tap 5 which includes at least one socket to which a plug of a household electrical appliance is connected, and is connected to outlets 111, 112 of rooms H1, H2 of a customer house H, and includes: human detection sensors 3, 4 which sense the status of each room H1, H2; a PLC modem 53F, a PLC modem 2, and a router 1 which are provided to the table tap 5 to notify the detection result of the human detection sensors 3, 4; and a control part 53J which is provided to the table tap 5 to switch the status which can supply commercial power source AC to the outlets and the status which cannot supply it based on the detection result of human detection sensor 3, 4. <P>COPYRIGHT: (C)2009,JPO&amp;INPIT

Description

This invention uses the power supply appliance, such as strip, relates to a multi-function management system for managing demand house by a multi-functions including energy saving features.

  In various buildings such as houses, an outlet for taking out commercial power is provided on an indoor wall or the like. When using home appliances away from these outlets, a table tap is used when the power cord of the appliance does not reach the outlet. Some of these table taps have, for example, an energy saving function (see, for example, Patent Document 1). This table tap includes a plurality of outlets and a wireless communication device in the outlet body, and switches the power supply state to the home appliances connected to each outlet by radio from outside. In other words, this table tap saves energy at the customer's house by wireless instructions.

Some table taps perform an energy saving function by human body sensing (see, for example, Patent Document 2). This table tap includes a human body sensor and a plurality of outlets in the outlet body, and when the human body sensor stops detecting the human body, the power supply to the home appliances connected to the outlet is stopped. In other words, this table tap uses human body sensing to save energy at the customer's house.
JP 2002-44882 A JP 2005-276595 A

  However, each of the table taps described above, for example, a table tap that performs energy saving by wireless communication has the following problems. Depending on the installation location of the table tap, radio waves may not reach. In this case, the energy saving function of the table tap is impaired. Moreover, the table tap which senses a human body and saves energy has the following problems. If there is an obstacle to the human body sensor, such as a vase, at the place where the table tap is installed, the human body sensor of the table tap cannot detect the presence or absence of the human body. In such a case, the energy saving function of the table tap is still impaired.

  Furthermore, each table tap has only one function of saving energy of home appliances, and does not have other functions that are beneficial to the resident of the customer's house.

An object of the present invention is to provide a multi-function management system that solves the above-mentioned problems and enables the management of a customer's house by using a power supply electric appliance such as a table tap and having a multi-function including an energy saving function. There is.

In order to solve the above-mentioned problems, the invention of claim 1 uses an electric appliance for power supply that has at least one insertion port to which a plug of a household electric appliance is connected and is connected to an outlet of a building room. A multi-function management system, which is provided in a sensor unit for sensing a state of a room, the power supply electric appliance, a reporting means for reporting a detection result of the sensor unit, and the power supply electric appliance. , Based on the detection result of the sensor unit, control means for switching between a state in which commercial power can be supplied to the insertion port and a state in which supply is impossible, and a home that is included in the power supply electric appliance and represents home A mode changeover switch for switching between a mode or an absence mode representing absence, and the control means includes the mode changeover switch in the home mode, From the outside of the building to receive an indication of current, the sensor unit senses the human body, if the home appliance is connected to the spigot will enable supply of the commercial power source, the mode switching switch home mode a is, will receive the instruction power saving from outside the building, if the sensor unit does not sense the human body, or when the home appliance is not connected to the spigot is impossible to supply the commercial power source The multi-function management system is characterized in that the reporting means reports an alarm signal to the outside when the sensor unit senses a human body when the mode change switch is in the absence mode.

In the invention of claim 1, the sensor unit senses the state of the room. When the mode changeover switch is in the home mode and the control unit receives an energization instruction from the outside of the building , the sensor unit senses a human body, and if the home appliance is connected to the outlet, commercial power is supplied. If the power saving instruction is received from outside the building or the home appliance is not connected to the outlet, the commercial power supply cannot be supplied, and the reporting means is used when the mode switch is in the absence mode. When the sensor unit senses a human body, an alarm signal is reported to the outside.

According to a second aspect of the present invention, in the multifunction management system according to the first aspect, the sensor unit is provided in a transmission unit that senses a state of a room and transmits a sensing result, and the power supply electric appliance, A receiving unit that receives a sensing result from the transmitting unit and sends the sensing result to the control unit .

According to a third aspect of the present invention, in the multi-function management system according to the first or second aspect , the reporting means uses a power line in a building as a router for controlling connection to an external network. Then, the detection result of the sensor unit is sent.

According to the invention of claim 1, since it has a function of notifying the detection result of the sensor unit and an energy saving function for switching the supply state of the commercial power supply to the insertion port based on the detection result, it is multifunctional in the building. Enable management.

  According to invention of Claim 2, it can prevent that the state where a sensor part stops operating with an obstruction like the past by installing a transmission part in the arbitrary places of a room can be prevented.

Further, according to the first aspect of the present invention, the supply state of the commercial power supply is switched based on the detection result of the sensor unit and the mode designated by the mode switch, so that various supply states can be switched.

According to the invention of claim 3 , since the sensing result of the sensor unit is sent to the router using power line communication, the sensing result can be sent to the network from any place in the building or room.

According to the first aspect of the present invention, the supply state of the commercial power supply is switched based on the sensing result of the sensor unit and the instruction of external energization and power saving, so that various supply states can be switched.

  Next, embodiments of the present invention will be described in detail with reference to the drawings. In the following embodiments, a general customer house using a commercial power source will be described as an example.

(Embodiment 1)
A multi-function management system according to this embodiment is shown in FIGS. This multi-function management system includes a router 1, a PLC (Power Line Communication) modem 2 installed in a customer's house H, and human sensors 3 and 4 installed in rooms H1 and H2 of the customer's house H, respectively. And a table tap 5 used in the customer's house H.

  In the customer house H, the commercial power source AC is supplied to the rooms H1 and H2 of the customer house H through the watt-hour meter 101 and the distribution board 102, but this supply is not shown. In addition, commercial power AC is supplied to the outlets 111 and 112 installed in the rooms H 1 and H 2 of the customer's house H through the electric lamp line 121 from the distribution board 102. The outlets 111 and 112 are embedded outlets installed on the walls of the rooms H1 and H2.

  When transmitting data with a network NW such as the Internet, the router 1 selects a route for transmitting data, relays data, and the like. For example, a LAN terminal 212 provided in the room H <b> 2 is connected to the router 1 by a LAN (Local Area Network). The PLC modem 2 is a communication device used for performing communication using a power line, that is, a device for power line communication. The PLC modem 2 separates the data signal transmitted using the power line 121 in the customer's house H from the commercial power supply AC, and sends this data signal to the router 1. Further, the PLC modem 2 transmits the data signal from the network NW, that is, the data signal received from the router 1 using the power line 121 of the customer's house H.

  The human sensor 3 is installed on the ceiling of the room H1 of the customer's house H. The installation location of the human sensor 3 is not limited to the ceiling of the room H1, and may be a wall or the like. As shown in FIG. 3, the human sensor 3 includes a pyroelectric sensor 31, a control unit 32, a wireless communication unit 33, a switch 34, and a power supply unit 35. The power source unit 35 converts the commercial power source AC from the distribution board 102 into a predetermined DC power source DC, and supplies the DC power source DC to the pyroelectric sensor 31, the control unit 32, and the wireless communication unit 33. The pyroelectric sensor 31 senses infrared rays generated by the human body and sends the sensing result to the control unit 32. The wireless communication unit 33 wirelessly transmits various signals under the control of the control unit 32. Radio waves, infrared rays, and the like are used for wireless communication by the wireless communication unit 33. The switch 34 is for switching a plurality of IDs (IDentifier number: identification number), and is from No. 1 to No. N. The control unit 32 controls the wireless communication unit 33 to transmit a sensor signal indicating the detection result of the pyroelectric sensor 31. When the detection result of the pyroelectric sensor 31 indicates that there is a human body, the control unit 32 controls the wireless communication unit 33 to generate an ID signal indicating an ID corresponding to the number set by the switch 34 together with the sensor signal. Send.

  The table tap 5 is an electric appliance for supplying power using the outlets 111 and 112. As shown in FIGS. 4 and 5, the plug 51 is inserted into the outlets 111 and 112, and one end is connected to the plug 51. It comprises a cable 52 and a main body 53 to which the other end of the cable 52 is connected. As shown in FIG. 6, the main body 53 includes a power switch 53A, power taps 53B to 53D, a power supply unit 53E, a PLC modem 53F, a mode changeover switch 53G, a wireless reception unit 53H, a control unit 53J, a display unit 53K, and a power supply relay unit. 53L, a connection detector 53M, a LAN terminal 53N, and an alarm output terminal 53P.

  The power switch 53 </ b> A is an on / off switch that is provided on the front surface side of the main body 53 and switches whether to supply the commercial power AC from the plug 51 to the main body 53. The power strips 53B to 53D are outlets to which outlets of household electrical appliances (not shown) used in the customer's house H are respectively connected. The power supply unit 53E converts the commercial power supply AC from the plug 51 into a predetermined DC power supply DC, and supplies this DC power supply DC to the PLC modem 53F to the connection detection unit 53M. Similar to the PLC modem 2, the PLC modem 53F separates the data signal transmitted along with the commercial power supply AC via the plug 51, and sends this data signal to the control unit 53J. Further, the PLC modem 53F transmits the data signal from the control unit 53J to the PLC modem 2 using the power line 121 in the customer's house H.

  The mode changeover switch 53G is provided on the surface side of the main body 53 together with the power switch 53A, and sends a home mode indicating that a householder is present at the customer's house H or an absent mode indicating the absence of the householder to the control unit 53J. That is, when the mode of the mode changeover switch 53G is at home, the mode changeover switch 53G receives a home mode signal having a value “1” representing a high level and an absent mode signal having a value “0” representing a low level. When the mode is absent, the home mode signal having the value “0” and the absent mode signal having the value “1” are sent to the control unit 53J. The wireless reception unit 53H receives signals wirelessly transmitted from the human sensors 3 and 4, that is, sensor signals and ID signals, and sends the received signals to the control unit 53J.

  The power relay unit 53L switches the states of the power taps 53B to 53D under the control of the control unit 53J. That is, the power supply relay unit 53L outputs the commercial power supply AC from the plug 51 to the power supply taps 53B to 53D when the energization setting that is a signal output from the control unit 53J is “1”. As a result, the table tap 5 becomes usable. In addition, when the power supply relay unit 53L receives the energization signal having the value “0” from the control unit 53J, the power supply relay unit 53L cuts off the commercial power supply AC from the plug 51 and prevents the commercial power supply AC from being output from the power supply taps 53B to 53D. As a result, the table tap 5 becomes unusable. The display unit 53K displays whether the power strips 53B to 53D are usable or unusable by light emission or the like. Connection detection unit 53M detects whether or not an outlet of a household electrical appliance (not shown) is connected to power supply taps 53B to 53D. As a method for detecting connection, for example, the current of the commercial power supply AC flowing through the power taps 53B to 53D is detected, and whether the home electric appliance (not shown) is in a connected state or in a disconnected state is detected depending on the presence or absence of the current. . Further, for example, a push switch is provided between the insertion port of the power strip 53B, and this switch is turned on / off by inserting a plug of the household electrical appliance (not shown), whereby the household electrical appliance (not shown) is connected to the power tap 53B. Detect if is connected. The connection detection unit 53M sends a connection signal representing the connection state of the home appliance (not shown) to the control unit 53J. In this embodiment, the value of the connection signal is “1” when a household electrical appliance (not shown) is connected, and the value of the connection signal is “0” when not connected.

  The LAN terminal 53N is a terminal for connecting to a LAN formed in the customer's house H, and the alarm output terminal 53P is a terminal that outputs an alarm output indicating whether there is an intruder in the customer's house H. The alarm output terminal 53P is connected to another alarm device or the like.

Based on various signals such as sensor signals, the controller 53J outputs an intruder notification with a value of “0” or “1” and an energization setting, and also outputs an alarm with a value of “0” or “1”. Is output to the alarm output terminal 53P. For this, the control unit 53J, as shown in FIG. 7, a processing circuit 53J ₁ and logic circuit 53J _2.

Processing circuit 53J ₁ is internally provided with a arithmetic circuit and a storage circuit, it performs various processes. Processing circuit 53J ₁ performs the following external instruction process in the various processes. Processing circuit 53J _1, either use strip 5 energization, from the outside of instructions used in a power saving, i.e. received from the PLC modem 53F. Note that this instruction may be received from the LAN terminal 53N. Such an instruction (hereinafter referred to as “external instruction”) is, for example, issued by a householder on the go using a mobile terminal such as a mobile phone via the network NW. The energization is a state in which the commercial power source AC can be always taken out from the table tap 5, and the power saving is the state in which the commercial power source AC cannot be taken out. Processing circuit 53J ₁ receives an external instruction current, sends a current signal and power saving signal value "0" of the value "1" to the logic circuit 53J _2. Further, upon receiving an external instruction for power saving, the processing circuit 53J ₁ sends an energization signal having a value “0” and a power saving signal having a value “1” to the logic circuit 53J ₂ .

The processing circuit 53J ₁ performs the next sensor input processing. Processing circuit 53J ₁ receives the sensor signal and ID signal representative of there body from the radio receiving unit 53H, a signal representing representative of the receipt of the sensor signal, a sensor input value "1", the receipt of the ID signal, the ID detection and comparison of the value "1", and sends to the logic circuit 53J _2. At this time, the processing circuit 53J ₁ is detected location corresponding to the received ID, examine the example room names, such as the living room. On the other hand, the processing circuit 53J ₁ receives a sensor signal representative of no human body, and sends a sensor input value "0", the ID detection and comparison of the values "0" to the logic circuit 53J _2.

Further, the processing circuit 53J ₁ performs the following alarm output processing. When the processing circuit 53J ₁ receives an intruder notification having a value “1”, which will be described later, from the logic circuit 53J ₂ , the processing circuit 53J ₁ generates an alarm signal indicating the detected location and the presence of the intruder in the previous processing. Then, the processing circuit 53J ₁ sends the generated alarm signal to the PLC modem 53F. Note that this signal may be output to the LAN terminal 53N. On the other hand, if the logic circuit 53J ₂ has received an intruder alert value "0", the processing circuit 53J ₁ does not output an alarm signal.

Logic circuit 53J ₂ performs an operation of each signal, and outputs the conduction setting the intruder Problem. As shown in FIG. 8, the logic circuit 53J ₂ outputs an intrusion detection circuit portion that outputs an intruder notification whose value is “0” or “1”, and also outputs an energization setting whose value is “0” or “1”. And a power saving setting circuit portion. The intrusion detection circuit portion includes AND gates GA11 to GA13 and a dead zone timer TM11, and the power saving setting circuit portion includes AND gates GA21 to GA23, OR gates GA24 and GA25, and a dead zone timer TM21. Such logic circuit 53J ₂ operates as follows.

If the mode selector switch 53G of strip 5 is home mode, the logic circuit 53J ₂ includes a home mode signal value "1", it receives the unattended signal value "0" from the mode selector switch 53G, a first Perform the action. AND gate GA11 intrusion detection circuit part of the logic circuit 53J ₂ includes a signal having a value "1" the value "0" by inverting the-home mode signal, the absence mode signal value "0", the output value "0" Is sent to the AND gate GA13, and the AND gate GA13 sends the output of the value “0” to the dead zone timer TM11. The dead zone timer TM11 does not send this signal next when the output value of the AND gate GA13 changes within a predetermined time. If the output of the value “0” from the AND gate GA13 is stably output after a predetermined time, the dead zone timer TM11 outputs the value “0”. Thus, intrusion detection circuit portion sends the value of the alarm output terminal 53P to the processing circuit 53J ₁ intruders notification value "0" as well as "0". This output state changes because the AND gate GA13 outputs the value “0” when the intrusion detection circuit portion receives the home mode signal having the value “1” and the absence mode signal having the value “0”. Absent. As a result, when the mode switch 53G of strip 5 in-home mode, the logic circuit 53J ₂ outputs the intruder alert value "0", to notify that the intruder no.

If the mode selector switch 53G of strip 5 is home mode, the human sensor 3, 4 detects the human body, the sensor input processing of the processing circuit 53J _1, the values of both the sensor input and ID detecting and comparison " since the 1 ', the logic circuit 53J ₂ performs a second operation by receiving these values. AND gate GA12 intrusion detection circuit part of the logic circuit 53J ₂ receives these values, and sends the output of the value "1" to the dead zone timer TM21 power saving setting circuit portion. Like the dead zone timer TM11, the dead zone timer TM21 does not send this signal next when the output of the AND gate GA12 changes within a predetermined time. When the output of the AND gate GA12 is stable, the dead zone timer TM21 sends the output of the value “1” to the AND gate GA21. The AND gate GA21 sends the output of the value “1” to the OR gate GA24 by the value “1” obtained by inverting the output of the dead zone timer TM21 and the value “0” from the AND gate GA11. The output of “1” is sent to the AND gate GA23.

  In such a state, the AND gate GA23 outputs a value corresponding to the connection signal of the home appliance (not shown). When the connection signal from the connection detection unit 53M is the value “1”, that is, when the mode changeover switch 53G is in the home mode, and the household electrical appliance (not shown) is connected to the table tap 5, The gate GA23 outputs the value “1”. Thereby, the power saving setting circuit part sends the energization setting of the value “1” to the power relay unit 53L. As a result, the power relay unit 53L makes the table tap 5 usable. On the other hand, when the connection signal from the connection detection unit 53M is the value “0”, that is, when the home appliance (not shown) is not connected to the table tap 5, the AND gate GA23 outputs the value “0”. . As a result, the power saving setting circuit portion sends the energization setting of the value “0” to the power supply relay unit 53L. As a result, the power relay unit 53L makes the table tap 5 unusable.

If the mode selector switch 53G of strip 5 is home mode, the human sensor 3 and 4 does not sense the human body, the sensor input processing of the processing circuit 53J _1, the value of the sensor input and ID detecting and comparing the "0 since the "logic circuit 53J ₂ performs a third operation by receiving these values. AND gate GA12 intrusion detection circuit part of the logic circuit 53J ₂ receives these values, and sends the output of the value "0" to the dead zone timer TM21 power saving setting circuit portion. Thereafter, the dead zone timer TM21 sends the output of the value “0” to the AND gate GA21. One input of the AND gate GA21 is added with a value “1” obtained by inverting the output of the value “0” of the AND gate GA11 of the intrusion detection circuit portion. Therefore, the AND gate GA21 outputs the value “0”. Is sent to the OR gate GA24.

  As a result, the OR gate GA24 outputs a value corresponding to the output from the OR gate GA25. In other words, when the external energization signal has the value “1” (the power saving signal is the value “0”), the OR gate GA25 of the power saving setting circuit portion sends the output of the value “1” to the OR gate GA24. As a result, the OR gate GA24 sends the output of the value “1” to the AND gate GA23. As a result, the AND gate GA23 outputs a value corresponding to the connection signal of the home appliance (not shown). When the connection signal from the connection detection unit 53M is a value “1”, that is, when a home appliance (not shown) is connected to the table tap 5, the AND gate GA23 outputs a value “1”. Thereby, the power saving setting circuit part sends the energization setting of the value “1” to the power relay unit 53L. As a result, the power relay unit 53L makes the table tap 5 usable. On the other hand, when the connection signal from the connection detection unit 53M is the value “0”, that is, when the home appliance (not shown) is not connected to the table tap 5, the AND gate GA23 outputs the value “0”. . As a result, the power saving setting circuit portion sends the energization setting of the value “0” to the power supply relay unit 53L. As a result, the power relay unit 53L makes the table tap 5 unusable.

  On the other hand, when the mode changeover switch 53G of the table tap 5 is in the home mode, the power saving signal from the outside is the value “1” (the energization signal is the value “0”) when the human sensors 3 and 4 do not sense the human body. Then, the AND gate GA22 of the power saving setting circuit portion sends the output of the value “0” to the OR gate GA25 by the value “0” obtained by inverting the power saving signal. Since an energization signal having a value “0” is applied to one input of the OR gate GA25, the OR gate GA25 sends an output having a value “0” to the OR gate GA24. Since the output of the value “0” from the AND gate GA21 is added to one input of the OR gate GA24, the OR gate GA24 sends the output of the value “0” to the AND gate GA23. As a result, the AND gate GA23 outputs the value “0”. That is, when the power saving signal from the outside is the value “1”, the power saving setting circuit portion sends the energization setting of the value “0” to the power supply relay unit 53L. As a result, the power relay unit 53L makes the table tap 5 unusable.

If the mode selector switch 53G of strip 5 is absent mode, the logic circuit 53J ₂ receives the unattended signal value "1" (at-home mode signal value "0") from the mode selector switch 53G, the fourth Perform the action. AND gate GA11 intrusion detection circuit part of the logic circuit 53J ₂ includes a signal having a value "0" the value "1" obtained by inverting the-home mode signal, the absence mode signal value "1", the output value "1" Is sent to the AND gate GA13.

As a result, the AND gate GA13 outputs a value corresponding to the sensor input value and the ID detection / comparison value. In other words, if the human sensor 3 and 4 does not sense the human body, the sensor input processing of the processing circuit 53J _1, the value of both the sensor input and ID detecting and comparing is "0", these values, and The gate GA12 sends the output of the value “0” to the AND gate GA13. As a result, the AND gate GA13 sends an output of the value “0” to the dead zone timer TM11. Thereafter, when the dead zone timer TM11 outputs a value "0", intrusion detection circuit portion sends the value of the alarm output terminal 53P to the processing circuit 53J ₁ intruders notification value "0" as well as "0". As a result, when the mode selector switch 53G of strip 5 is absent mode, the human sensor 3 and 4 does not sense the human body, the logic circuit 53J ₂ is to intruders notification to the value "0", intrusion That there is no person.

On the other hand, when the human sensor 3, 4 detects the human body, the sensor input processing of the processing circuit 53J _1, the values of both the sensor input and ID detecting and comparing becomes "1". With these values, the AND gate GA12 of the intrusion detection circuit portion sends the output of the value “1” to the AND gate GA13. Since the output of the value “1” is added from the AND gate GA11 to one input of the AND gate GA13, the AND gate GA13 sends the output of the value “1” to the dead zone timer TM11. Thereafter, when the dead zone timer TM11 outputs the value "1", intrusion detection circuit portion sends the value of the alarm output terminal 53P to the processing circuit 53J ₁ intruders notification value "1" as well as "1", Notify that there is an intruder.

If the mode selector switch 53G of strip 5 is absent mode, the logic circuit 53J ₂ performs a fifth operation with the fourth operation described above. When AND gate GA11 intrusion detection circuit part of the logic circuit 53J ₂ outputs a value "1", the AND gate GA21 power saving setting circuit part, by the value "1" the value "0" obtained by inverting the sensor input and ID Regardless of the detection / comparison value, the output of the value “0” is sent to the OR gate GA24. As a result, the OR gate GA24 outputs “0” or “1” according to the output from the OR gate GA25.

  In this state, if the energization signal from the outside is the value “1” (the power saving signal is the value “0”), the OR gate GA25 of the power saving setting circuit portion sends the output of the value “1” to the OR gate GA24. As a result, the OR gate GA24 sends the output of the value “1” to the AND gate GA23. As a result, the AND gate GA23 outputs a value corresponding to the connection signal of the home appliance (not shown). When the connection signal from the connection detection unit 53M is a value “1”, that is, when a home appliance (not shown) is connected to the table tap 5, the AND gate GA23 outputs a value “1”. Thereby, the power saving setting circuit part sends the energization setting of the value “1” to the power relay unit 53L. As a result, the power relay unit 53L makes the table tap 5 usable. On the other hand, when the connection signal from the connection detection unit 53M is the value “0”, that is, when the home appliance (not shown) is not connected to the table tap 5, the AND gate GA23 outputs the value “0”. . As a result, the power saving setting circuit portion sends the energization setting of the value “0” to the power supply relay unit 53L. As a result, the power relay unit 53L makes the table tap 5 unusable.

  On the other hand, when the mode changeover switch 53G of the table tap 5 is in the absence mode, if the external power saving signal is the value “1” (the energization signal is the value “0”), the AND gate GA22 of the power saving setting circuit portion In response to the input of the value “0” obtained by inverting the power saving signal of the value “1”, the output of the value “0” is sent to the OR gate GA25. Since the energization signal with the value “0” is applied to the OR gate GA25, the OR gate GA25 sends the output with the value “0” to the OR gate GA24. Since the output of the value “0” from the AND gate GA21 is added to the OR gate GA24, the OR gate GA24 sends the output of the value “0” to the AND gate GA23, and the AND gate GA23 outputs the value “0”. As a result, the power saving setting circuit portion sends the energization setting of the value “0” to the power supply relay unit 53L. As a result, the power relay unit 53L makes the table tap 5 unusable.

Thus, the logic circuit 53J ₂ is home mode signals, unattended signal, sensor input, ID detection and comparison, the energization signal, and outputs the power saving signal and a value intruder Problem in response to the connection signal current setting and.

  Next, a multifunction management method using the multifunction management system of this embodiment will be described. In the customer's house H, the PLC modem 2 is connected to the power line 121, and the PLC modem 2 is made connectable to the network NW by the router 1. Further, the human sensors 3 and 4 are installed in the rooms H1 and H2, respectively, and the switches 34 of the human sensors 3 and 4 are set so that the IDs of the human sensors 3 and 4 are different from each other.

When the customer's house H is in such a state, when the householder of the customer's house H uses the table tap 5 in the room H1, for example, the plug 51 of the table tap 5 is inserted into the outlet 111 and is provided in the main body 53 of the table tap 5. The mode changeover switch 53G that is being used is set to the home mode. When the table tap 5 is set to the home mode, the mode changeover switch 53G sends a home mode signal having a value “1” and an absent mode signal having a value “0” to the control unit 53J. Upon receiving these signals, the logic circuit 53J ₂ of the control unit 53J performs a first operation, and sends an intruder alert value "0" to the processing circuit 53J _1. Processing circuit 53J ₁ is by the warning output processing, does not output the alarm signal to the PLC modem 53F.

When the setting of the table tap 5 is set to the home mode, when the pyroelectric sensor 31 of the human sensor 3 installed in the room H1 senses a human body, the control unit 32 displays a sensor signal indicating a detection result by the pyroelectric sensor 31. And an ID signal for specifying the room H1 is transmitted by controlling the wireless communication unit 33. When the wireless reception unit 53H of the strip 5 receives the sensor signal and the ID signal from the human sensor 3, processing circuitry 53J ₁ is the sensor input processing, a sensor input value "1", likewise the value of "1" Send ID detecting and comparing the logic circuit 53J _2. In this case, when the home appliance (not shown) is connected to the strip 5, the logic circuit 53J ₂ is the second operation, and sends the current setting of the value "1" to the power relay unit 53L. As a result, the table tap 5 can be used, and the commercial power AC is supplied to the household electrical appliance (not shown) connected to the table tap 5. Further, when the home appliance (not shown) is not connected to the strip 5, the logic circuit 53J ₂ is the second operation, and sends the current setting of the value "0" to the power relay unit 53L. As a result, the table tap 5 becomes unusable.

When setting the strip 5 in-home mode, the human sensor 3 installed in the room H1 is not sense the human body, the processing circuit 53J ₁ of strip 5, the sensor input processing, a value of "0" a sensor input, also add an ID detection and comparison of the values "0" to the logic circuit 53J _2. Furthermore, for example, it received from the PLC modem 53F, when the external instruction is energized, the processing circuit 53J ₁ is an external instruction process, power saving signal and a logic circuit value "1" energization signal and a value of "0" 53J ₂ Add to. External instruction is energized, the home appliance (not shown) is connected to the strip 5, the logic circuit 53J ₂ is the third operation, the energization setting value "1" to the power relay unit 53L send. As a result, the table tap 5 can be used, and the commercial power AC is supplied to the household electrical appliance (not shown) connected to the table tap 5. Further, when the home appliance (not shown) is not connected to the strip 5, the logic circuit 53J ₂ is the third operation, and sends the current setting of the value "0" to the power relay unit 53L. As a result, the table tap 5 becomes unusable.

When setting the strip 5 in-home mode, when the human sensor 3 installed in the room H1 is not sense the human body, the external instruction is in a power saving, processing circuit 53J ₁ is an external instruction process, the value Add energizing signal and the power-saving signal of a value "1" of "0" to the logic circuit 53J _2. When an external instruction is in a power saving, the logic circuit 53J ₂ is the third operation, and sends the current setting of the value "0" to the power relay unit 53L. As a result, the table tap 5 becomes unusable. At this time, the table tap 5 is always in an unusable state regardless of whether or not a home appliance (not shown) is connected.

By the way, when the householder of the customer's house H puts the mode changeover switch 53G provided in the main body 53 of the table tap 5 into the absence mode, the mode changeover switch 53G has the home mode signal of the value “0” and the absence of the value “1”. A mode signal is sent to the control unit 53J. Upon receiving these signals, the logic circuit 53J ₂ of the control unit 53J performs a fourth operation. At this time, when the human sensor 3 room H1 is not sense the human body, the processing circuit 53J ₁ is the sensor input processing logic and sensor input value "0", also the ID detection and comparison of the values "0" and it sends it to the circuit 53J _2. Thus, the logic circuit 53J ₂ sends an intruder alert value "0" to the processing circuit 53J _1. In this case, the processing circuit 53J ₁ is by the warning output processing, does not output the alarm signal to the PLC modem 53F.

When setting the strip 5 in unattended mode, the human sensor 3 room H1 is to sense the human body, the processing circuit 53J ₁ is the sensor input processing, a sensor input value "1", likewise the value "1" Send and ID detecting and comparing of the logic circuit 53J _2. Thus, the logic circuit 53J ₂ is the fourth operation, sends an intruder alert value "1" to the processing circuit 53J _1. In this case, the processing circuit 53J ₁ is by the warning output processing, and outputs a warning signal to the PLC modem 53F. At the same time, the processing circuit 53J ₁ receives the sensor signal and ID signal representative of there body from the radio receiving section 53H, examining the detection location corresponding to the received ID. Then, the processing circuit 53J ₁ is by the warning output processing, and generates an alarm signal indicating that there is detected location as intruders examined, and sends the alarm signal to the PLC modem 53F. As a result, the alarm signal is transmitted to the network NW via the PLC modem 2 and the router 1, and for example, a portable terminal owned by a housekeeper who is out reports that there is an intruder.

When setting the strip 5 in unattended mode, the logic circuit 53J ₂ performs a fifth operation with the fourth operation. The energization signal from the outside is a value "1", i.e., an external instruction energized, the home appliance (not shown) is connected to the strip 5, the logic circuit 53J ₂ is the fifth By the operation, the energization setting of the value “1” is sent to the power supply relay unit 53L. As a result, the table tap 5 can be used, and the commercial power AC is supplied to the household electrical appliance (not shown) connected to the table tap 5. Further, when the home appliance (not shown) is not connected to the strip 5, the logic circuit 53J ₂ is the fifth operation, sends the current setting value of "0" to the power relay unit 53L. Thereby, power supply relay part 53L interrupts commercial power supply AC supplied to power supply taps 53B-53D, and table tap 5 will be in an unusable state.

Further, when the setting of the table tap 5 is set to the absence mode, if the power saving signal from the outside is the value “1”, that is, if the external instruction is power saving, the logic circuit 53J ₂ performs the fifth operation by The energization setting of the value “0” is sent to the power supply relay unit 53L. As a result, the table tap 5 is always disabled.

  Thus, according to this embodiment, the human sensors 3 and 4 and the table tap 5 installed in the rooms H1 and H2 detect an intruder into the room to which the table tap 5 is connected, and pass through the network NW. , It is possible to report to a mobile terminal possessed by a distant householder. In addition, when the housekeeper is absent, or even if he / she is at home, the room H1, H2 to which the table tap 5 is connected is temporarily opened, and the table tap 5 is connected by an external instruction using the network NW. The supply control of the commercial power supply AC can be performed by switching the supply state of the commercial power supply AC to a home electric appliance (not shown). That is, according to this embodiment, multi-functional management can be performed in the customer's house H by the energy saving function using both the human sensor 3 and the table tap 5, the intruder detecting function by the human sensor 3, and the like. Is possible. Further, according to this embodiment, the intruder can be notified and the commercial power supply AC can be controlled simply by inserting the table tap 5 into the outlets 111 and 112. Therefore, the table tap 5 can be compared with the conventional table tap. It is possible to improve usability.

(Embodiment 2)
In this embodiment, another sensor, for example, a smoke detection sensor for detecting the presence or absence of smoke generated in a fire or the like, and a logic circuit for using the smoke detection sensor are used instead of the human sensors 3 and 4. . This logic circuit reports the occurrence of a fire according to the presence or absence of smoke, and when there is no smoke, the logic circuit implements according to the value of the energization signal and the power saving signal and the value of the connection signal of the home appliance. The energization setting similar to that in the first mode is output.

  According to such an embodiment, there are demands such as an energy saving function using a table tap when the smoke detection sensor does not detect smoke, and a fire detection function by the smoke detection sensor when the smoke detection sensor detects smoke. It is possible to perform multi-functional management at home.

  In this embodiment, in addition to the smoke detection sensor, various sensors such as a temperature sensor that detects indoor temperature, a gas sensor that detects gas, and an illuminance sensor that detects indoor brightness are used. Can do.

  As mentioned above, although each embodiment of this invention has been described in detail, the specific configuration is not limited to each embodiment, and even if there is a design change or the like without departing from the gist of this invention, It is included in this invention. For example, the human detection sensors 3 and 4 of the first embodiment and the smoke detection sensor of the second embodiment transmit the detection result to the table tap 5 by the wireless communication unit 33, but the human detection sensor 3 is connected to the table tap 5. 4 or a smoke detection sensor may be directly provided. Also in this case, it is possible to perform multi-functional management in the customer's house. In each embodiment, the PLC modem 53F and the like are incorporated in the table tap. However, in addition to the table tap, it may be incorporated in a bifurcated outlet.

BRIEF DESCRIPTION OF THE DRAWINGS It is a block diagram which shows the multifunctional management system by Embodiment 1 of this invention. It is a figure which shows the mode of the room of FIG. It is a block diagram which shows a human sensitive sensor. It is a front view which shows the external appearance of a table tap. It is a figure which shows the mode inside a table tap. It is a block diagram which shows the structure of a table tap. It is a block diagram which shows the structure of a control part. It is a circuit diagram which shows a logic circuit.

Explanation of symbols

1 router (reporting means)
2 PLC modem (reporting means)
3, 4 Human sensor (sensor part)
31 Pyroelectric sensor 32 Control unit 33 Wireless communication unit 34 Switch 35 Power supply unit 5 Table tap 51 Plug 52 Cable 53 Main body 53A Power switch 53B to 53D Power supply tap 53E Power supply unit 53F PLC modem (reporting means)
53G mode changeover switch 53H wireless reception unit 53J control unit (control means)
53J ₁ processing circuit 53J ₂ logic circuit 53K display unit 53L power relay unit 53M connection detection unit 101 watt hour meter 102 distribution board 111, 112 outlet 121 power line 212 LAN terminals GA11-GA13, GA21-GA23 AND gate GA24, GA25 OR gate TM11, TM21 dead zone timer

Claims (3)

A multi-function management system using an electric appliance for power supply that has at least one insertion port to which a plug of a household electrical appliance is connected and is connected to an outlet of a building room,
A sensor unit that senses the state of the room;
A reporting means provided in the electric appliance for power supply, for reporting a sensing result of the sensor unit;
Control means that is provided in the electric appliance for power supply, and switches between a state in which commercial power can be supplied to the insertion port and a state in which supply is impossible based on the sensing result of the sensor unit;
A mode changeover switch for switching between a home mode representing home or an absent mode representing absence, which is provided in the electric appliance for power supply;
With
In the case where the mode change switch is in a home mode, the control means receives an energization instruction from the outside of the building, the sensor unit senses a human body, and the home appliance is connected to the insertion port. will allow the supply of the commercial power source, the mode switching switch is a home mode, will receive the instruction power saving from outside the building, if the sensor unit does not sense the human body, or the home appliance is the insertion If it is not connected to the mouth, the commercial power supply cannot be supplied,
When the mode change switch is in the absence mode, the reporting means reports an alarm signal to the outside when the sensor unit senses a human body.
Multi-function management system characterized by that. The sensor unit is
A transmission unit that senses the state of the room and transmits the detection result;
A receiving unit provided in the electric appliance for power supply, receiving a sensing result from the transmitting unit and sending the result to the control unit;
The multi-function management system according to claim 1, comprising:   3. The method according to claim 1, wherein the reporting unit sends a detection result of the sensor unit to a router that controls to connect to an external network using a power line in a building. 4. The multifunction management system described.

Images