JP5177653B2 - Power saving system - Google Patents

Description

  The present invention relates to a power saving system.

  There is a technique for detecting the presence / absence of a person by detecting the movement of a heat source and operating a power source of an electrical product based on the detection result (see, for example, Patent Document 1). By employing this technique, a power saving effect can be achieved.

JP 2001-275278 A

  However, in general, an infrared sensor that senses a human body detects the presence or absence of a person by sensing a predetermined amount of movement by a heat source. Therefore, when the user is not moving much, the power of all the electrical products may be turned off regardless of the presence of the user. It is very inconvenient if this situation occurs when the user is using some kind of electrical product.

  Accordingly, an object of the present invention is to provide a power saving system that is more convenient.

In order to achieve the above object, a power saving system according to claim 1 of the present invention includes a human sensor, an information terminal that receives a detection signal from the human sensor, and a plurality of electrical products. The information terminal manages priority order information for each electrical product, and when the detection signal indicating that there is no person is received, the power supply of the electrical product is automatically turned off sequentially in accordance with the priority order information. A plurality of the human detection sensors, and the information terminal can set the electrical product and the human detection sensor to belong to any one of a plurality of groups. For each electrical product, the priority information is managed, and the detection signal indicating that there is no person is received from the human sensor belonging to the predetermined group. Then, in accordance with the priority information for the predetermined group, the power supply of the electrical products belonging to the predetermined group is sequentially turned off automatically, and the information terminal performs predetermined power belonging to the predetermined group according to the priority information. When the detection signal indicating the presence of a person is not received from the human sensor belonging to the predetermined group within a predetermined time after the power of the electric product is automatically turned off, according to the priority information. The power of the other electric products belonging to the predetermined group is automatically turned off, and the information terminal turns off the power of the predetermined number of electric products belonging to the predetermined group after the automatic turning off. If the detection signal indicating the presence of a person is not received from the human detection sensor belonging to the predetermined group within the time , The power of all the appliances belonging to the predetermined group on the automatic OFF.

Moreover, the power saving system according to claim 2 of the present invention is the power saving system according to claim 1 , wherein the information terminal turns off the power of the electrical product belonging to the predetermined group automatically. Thereafter, when the detection signal indicating the presence of a person is received from the human sensor belonging to the predetermined group within the predetermined time, the electrical products belonging to the predetermined group that are automatically turned off Then, the power of the predetermined electric product whose power is off is automatically turned on.

A power saving system according to claim 3 according to the present invention is the power saving system according to claim 1 or 2 , wherein the power saving system is disposed between the electrical product and an outlet, and can communicate with the information terminal. A communication module, and the information terminal controls power supply to the electrical product by controlling power supply to the electrical product connected to the communication module through communication with the communication module.

A power saving system according to a fourth aspect of the present invention is the power saving system according to the third aspect , wherein the human sensor is arranged in the communication module.

Moreover, the power saving system according to claim 5 of the present invention is the power saving system according to claim 3 or 4 , wherein the communication module automatically turns off the power supply of the predetermined electrical product. Before, a warning unit for notifying the automatic OFF is provided.

The power saving system according to claim 6 of the present invention is the power saving system according to any one of claims 1 to 5 , wherein the information terminal sets a timeout time. When the timeout time has elapsed since the start of the automatic OFF operation, the power of all the electrical products that are in the ON state when the timeout time has elapsed is turned off.

The power-saving system according to claim 1 of the present invention includes a human sensor, an information terminal that receives a detection signal from the human sensor, and a plurality of electrical products. The information terminal has priority for each electrical product. When the order information is managed and a detection signal indicating that there is no person is received, the power supply of the electrical products is automatically turned off sequentially in accordance with the priority order information.

  Therefore, when no person is detected by the human detection sensor, it is possible to prevent all the electric products from being suddenly turned off. Therefore, it is possible to provide a power saving system with higher convenience.

Moreover, in the power saving system according to claim 1 of the present invention, there are a plurality of human detection sensors.

  Therefore, the detection accuracy of whether or not there are people in the house or the like can be further increased.

Moreover, in the power saving system according to claim 1 of the present invention, the information terminal can set the electrical product and the human sensor to belong to any one of a plurality of groups, In this case, priority information is managed for each electrical product, and when a detection signal indicating the absence of a person is received from a human sensor belonging to a predetermined group, the priority information is determined according to the priority information for the predetermined group. The power supply of electrical products belonging to the group is automatically turned off sequentially.

  Therefore, it is possible to provide a power saving system capable of saving power of independent electrical products for each set group. As a result, a power saving system with higher user convenience can be provided.

In the power saving system according to claim 1 of the present invention, the information terminal automatically turns off the power of a predetermined electrical product belonging to a predetermined group in accordance with the priority information, and within a predetermined time, When a detection signal indicating the presence of a person is not received from the person detection sensor belonging to the group, the power of other electrical products belonging to the predetermined group is automatically turned off according to the priority order information.

  Thus, by providing a certain amount of time (predetermined time) between the automatic power-off of one electrical product and the next automatic power-off of the next electrical product, the user can act to stop the automatic power-off processing with a margin. Can be taken.

Further, in the power saving system according to claim 1 of the present invention, the information terminal belongs to the predetermined group within a predetermined time after automatically turning off the power of the predetermined number of electrical products belonging to the predetermined group. When a detection signal indicating the presence of a person is not received from the human detection sensor, the power supply of all electrical products in which the power supply belonging to the predetermined group is ON is automatically turned OFF.

  Therefore, it is possible to save power even for an electrical product that has been in an ON state during the automatic OFF process.

Further, in the power saving system according to claim 2 of the present invention, after the information terminal automatically turns off the power of the electrical product belonging to the predetermined group, the information terminal detects from the human sensor belonging to the predetermined group within a predetermined time. When a detection signal indicating the presence of a person is received, the power supply of the predetermined electrical product among the electrical products belonging to the predetermined group that is automatically turned off is automatically turned on .

  Therefore, when the user recognizes that the automatic power-off process has started and causes the human sensor to detect the presence of the user, the power supply of a predetermined electrical product can be automatically restored to the ON state.

The power saving system according to claim 3 of the present invention further includes a communication module disposed between the electrical product and the outlet, and capable of communicating with the information terminal. The information terminal communicates with the communication module. The power supply operation of the electrical product is performed by controlling the electrical supply to the electrical product connected to the communication module.

  Therefore, the automatic power ON / OFF control of the electrical product by the information terminal can be achieved by a simpler system.

In the power saving system according to the fourth aspect of the present invention, the human sensor is arranged in the communication module.

  Therefore, the system configuration of the power saving system can be further simplified.

Further, in the power saving system according to claim 5 of the present invention, the communication module includes a warning unit for notifying that the power supply of a predetermined electrical product is automatically turned off before the power supply is automatically turned off.

  Therefore, it is possible to prevent the power supply of the electric product from being automatically turned off without any warning. That is, a more convenient power saving system can be provided.

Further, in the power saving system according to claim 6 of the present invention, the information terminal can set a timeout time, and when the timeout time has elapsed since the start of the automatic OFF operation, the power is turned on when the timeout time has elapsed. Turn off the power of all electrical products.

  Therefore, the so-called time-out function described above enables power saving even for an electrical product that has been in an ON state during the automatic OFF process.

  Hereinafter, the present invention will be specifically described with reference to the drawings showing embodiments thereof.

<Embodiment 1>
FIG. 1 is a diagram showing a schematic configuration of a power saving system according to the present embodiment.

  As shown in FIG. 1, the power saving system 100 includes an information terminal 10, a plurality of electrical products 20, and a plurality of communication modules 30.

  The information terminal 10 is connected to the communication module 30 via the power line PL, and performs power line communication with the communication module 30. The information terminal 10 collects / manages / processes information transmitted from the communication module 30. Although not shown, the information terminal 10 can transmit / receive information to / from an external server via the Internet line. Further, the communication is not limited to power line communication between the information terminal 10 and the communication module 30, and may be wireless communication such as LAN (Local Area Network) communication, Bluetooth (registered trademark), and ZigBee (registered trademark).

  The electric product 20 is a home appliance such as a television, a refrigerator, and a washing machine. A communication module 30 is disposed between the electrical product 20 and the outlet (power line PL). In addition, the electrical product 20 is supplied with electricity from the power line via the communication module 30.

  FIG. 2 is a block diagram showing a functional configuration of the communication module 30.

  As shown in FIG. 2, the communication module 30 includes an infrared sensor (which can be grasped as a human sensor) 31, a communication unit 32, an electrical measurement unit 33, a control unit 34, and a warning unit 35.

  The communication unit 32 is a part having a function of performing power line communication with the information terminal 10. The infrared sensor 31 is a sensor that can sense the presence / absence of a person. A detection signal from the infrared sensor 31 is transmitted from the communication unit 32 to the information terminal 10 under the control of the control unit 34.

  In addition, there are a plurality of infrared sensors 31, and each of the communication modules 30 may be provided. Alternatively, only one infrared sensor 31 may be provided in a single communication module 30.

  The infrared sensor 31 does not need to be disposed in the communication module 30. That is, although different from the present embodiment, the infrared sensor 31 may be configured separately from the communication module 30. In this case, the infrared sensor 31 can perform transmission (such as transmission of a detection signal) with the information terminal 10 by specific low power wireless communication or the like.

  The electricity measuring unit 33 can measure the current and the amount of power supplied to the connected electrical product 20. In addition, the control unit 34 is a circuit that turns on / off the control of each circuit in the communication module 30 and the power / current supply to the connected electrical product 20. Further, the warning unit 35 is a circuit that notifies a warning by light or sound.

  In the present invention, the information terminal 10 receives the detection signal from the infrared sensor 31 and manages priority information for each of the plurality of electrical products 20. When the information terminal 10 receives the detection signal indicating that there is no person, the information terminal 10 controls the communication module 20 and sequentially turns off the power supply of the electrical product 20 connected to the communication module 30 in accordance with the priority order information. To do.

  As shown in FIG. 3, a plurality of electrical products 20 </ b> A to 20 </ b> F are disposed in the house H. Communication modules 30A to 30F are disposed between the electrical products 20A to 20F and the outlets, respectively. In the configuration of FIG. 3, infrared sensors 31 </ b> A to 31 </ b> F are disposed in the communication modules 30 </ b> A to 30 </ b> F. However, as described above, the infrared sensor 31 may not be provided in all the communication modules 30A to 30F. Further, as described above, the infrared sensors 31A to 31F and the communication modules 30A to 30F may have different configurations.

  In addition, although illustration is abbreviate | omitted in FIG. 3, each communication module 30A-30F is connected with the information terminal 10 via the power line PL so that communication is possible.

  Further, the priority information shown in FIG. 4 is set in the information terminal 10, and the priority information is managed and stored.

  In the above configuration, it is assumed that all the infrared sensors 31A to 31F arranged in the house H detect that there is no person. Then, all the infrared rays 31 </ b> A to 31 </ b> F transmit a detection signal (referred to as a non-existence detection signal) indicating that the person is absent to the information terminal 10 via the communication modules 30 </ b> A to 30 </ b> F.

  When the information terminal 10 receives the absence detection signal, the information terminal 10 refers to the priority order information illustrated in FIG. 4 set in its own device, and searches for an electrical product with a priority order of “1”. . In the example of FIG. 4, the electrical product 20B has a priority “1”. Therefore, the information terminal 10 transmits a power OFF signal for automatically turning OFF the power to the communication module 30B connected to the electrical product 20B.

  The communication module 30B that has received the power-off signal cuts off the electric supply from the power line PL to the electrical product 20B under the control of the control unit 34 provided in the self-machine. Thereby, the power supply of the electric product 20B is automatically turned off.

  After the power-off signal is transmitted to the communication module 30B, a detection signal (presence detection signal) indicating that there is a person in the house H within a predetermined time is sent to the information terminal 10 in the house H. It is assumed that the infrared sensors 31A to 31F are not received. In this case, after the predetermined time, the information terminal 10 refers to the priority order information illustrated in FIG. 4 set in its own device, and searches for an electrical product having a priority order of “2”. In the example of FIG. 4, the electrical product 20D has a priority “2”. Therefore, the information terminal 10 transmits a power OFF signal for automatically turning OFF the power to the communication module 30D connected to the electrical product 20D.

  The communication module 30D that has received the power OFF signal cuts off the supply of electricity from the power line PL to the electrical product 20D under the control of the control unit 34 provided in the own device. Thereby, the power supply of the electric product 20D is automatically turned off.

  It is assumed that the information terminal 10 does not receive the presence detection signal from any of the infrared sensors 31A to 31F in the house H within a predetermined time after transmitting the power OFF signal to the communication module 30D. In this case, after the predetermined time, the information terminal 10 refers to the priority order information illustrated in FIG. 4 set in its own device, and searches for an electrical product having a priority order of “3”. In the example of FIG. 4, the electrical product 20A has a priority “3”. Therefore, the information terminal 10 transmits a power OFF signal for automatically turning OFF the power to the communication module 30A connected to the electrical product 20A.

  The communication module 30A that has received the power OFF signal cuts off the supply of electricity from the power line PL to the electrical product 20A under the control of the control unit 34 disposed in the own device. Thereby, the power supply of the electric product 20A is automatically turned off.

  In this way, until the presence detection signal is received from any one of the infrared sensors 31A to 31F, the information terminal 10 automatically turns off the electrical products 20A to 20F sequentially in accordance with the priority order information.

  A case where the information terminal 10 manages priority information as shown in FIG. 5 will be described. As described above, the presence detection signals are sent from any of the infrared sensors 31A to 31F within a predetermined time after the power of the electric products 20B, 20D, and 20A is automatically turned off sequentially in accordance with the priority order information shown in FIG. Suppose that it is not sent. In this case, the information terminal 10 automatically turns off the power of all the remaining electrical products 20C, 20E, and 20F set as “final OFF” shown in FIG. In response, a power OFF signal is transmitted.

  A case where the information terminal 10 manages priority information as shown in FIG. 6 will be described. As illustrated in FIG. 6, when there are a plurality of electrical products with the same rank, a power OFF signal is transmitted to each communication module connected to the electrical product with the same rank. For example, it is assumed that the presence detection signal is not transmitted from any of the infrared sensors 31A to 31F within a predetermined time after the power of the electric product 20B is automatically turned off. In this case, the information terminal 10 supplies the communication modules 30C and 30D connected to the electrical products 20C and 20D in order to automatically turn off the power of the electrical products 20C and 20D having the priority “2”. On the other hand, a power OFF signal is transmitted.

  When there is an electrical product that does not want to be turned off, the information terminal 10 may manage priority information that does not include such an electrical product.

  Next, a case will be described in which the information terminal 10 receives the presence detection signal during the automatic power-off process of the electrical products 20A to 20F according to the priority information.

  For example, it is assumed that the information terminal 10 manages the priority order information illustrated in FIG. 4, and the power supplies of the electrical products 20B and 20D are automatically turned off sequentially in accordance with the priority order information. It is assumed that the information terminal 10 receives the presence detection signal from any of the infrared sensors 31A to 31F in the house H within a predetermined time after transmitting the power OFF signal to the communication module 30D. In this case, the information terminal 10 transmits a power ON signal to each of the communication modules 30B and 30D that have transmitted the power OFF signal so far.

  When each communication module 30B, 30D receives the power ON signal, the control unit 34 disposed in the communication module 30B, 30D resumes the supply of electricity from the power line PL to the electrical products 20B, 20D. Thereby, the power supplies of the electric products 20B and 20D are automatically turned on.

  Here, the information terminal 10 that has received the presence detection signal may transmit a power ON signal to each of the communication modules 30A to 30F that have transmitted the power OFF signal so far. On the other hand, the information terminal 10 that has received the presence detection signal has a predetermined electric power set in advance in the information terminal 10 among all the communication modules 30A to 30F that have transmitted the power OFF signal so far. A power ON signal may be transmitted only to the communication modules 30A to 30F connected to the products 20A to 20F.

  For example, it is assumed that electrical products 20B and 20F are set as the predetermined electrical product in the information terminal 10. Assume that the power supplies of the electric products 20A, 20B, 20D, and 20F have already been automatically turned off. In this case, the power ON signal is transmitted only to the communication modules 30B and 30F connected to the electrical products 20B and 20F.

  As described above, in the power saving system 100 according to the present embodiment, the information terminal 10 manages priority information for each electrical product 20. When the information terminal 10 receives a non-existence detection signal indicating that there is no person in the house H from the all infrared sensors 31A to 31F, the information terminal 10 sequentially turns off the power of the electrical product 20 in accordance with the priority information. To do.

  Therefore, when the infrared sensors 31A to 31F do not detect a person, it is possible to prevent all the electric products 20A to 20F from turning off suddenly. For example, if any of the electric products 20A to 20F is turned off and the user moves the infrared sensors 31A to 31F so that human detection is possible, it is possible to prevent all the electric products 20A to 20F from being turned off. . Therefore, the power saving system 100 according to the present embodiment can provide a more convenient power saving system.

  Moreover, the infrared sensor 31A-31F for detecting a person may be one in the house H. However, by arranging a plurality of infrared sensors 31 </ b> A to 31 </ b> F in the house H, it is possible to further increase the detection accuracy of whether or not there is a person in the house H.

  In the present embodiment, when the information terminal 10 does not receive the presence detection signal from the infrared sensors 31A to 31F within a predetermined time after the automatic power OFF of the predetermined electrical products 20A to 20F according to the priority order information, The terminal 10 automatically turns off the power supplies of the next electric products 20A to 20F according to the priority order information.

  In this way, by providing a certain amount of time (predetermined time) between the automatic power-off of the electrical products 20A to 20F and the automatic power-off of the next electrical products 20A to 20F, the user can easily perform the power automatic An action for stopping the OFF process can be taken.

  Further, as described with reference to FIG. 5, the information terminal 10 does not receive the presence detection signals from the infrared sensors 31 </ b> A to 31 </ b> F within a predetermined time after the automatic power-off of the predetermined number of electrical products 20 </ b> A to 20 </ b> F. At this time, the information terminal 10 automatically turns off the power of all the remaining electrical products 20A to 20F.

  Therefore, there is no need to continue the automatic power OFF process for the electrical products 20A to 20F for a long time. Therefore, the power ON time of the electric products 20A to 20F during the automatic power OFF process can be shortened. Thereby, power saving of the electric products 20A to 20F becomes possible.

  In the present embodiment, when the information terminal 10 receives the presence detection signal from the infrared sensors 31A to 31F within a predetermined time after the power of the electrical products 20A to 20F is automatically turned off, the electrical product 20A that is automatically turned off. The power supply of predetermined electric products 20A to 20F is automatically turned on.

  Therefore, when the user recognizes that the automatic power-off process has started and takes the action of causing the infrared sensors 31A to 31F to detect the presence of the user, the power supply of the predetermined electrical products 20A to 20F is automatically turned on. Can be recovered.

  In the present embodiment, communication modules 30 </ b> A to 30 </ b> F that are disposed between electrical products 20 </ b> A to 20 </ b> F and outlets and can communicate with information terminal 10 are provided. And the information terminal 10 controls the electric supply to the electric products 20A to 20F connected to the communication modules 30A to 30F through communication with the communication modules 30A to 30F, and thereby each electric product 20A to 20F. The power is being operated.

  Therefore, automatic power ON / OFF control of the electrical products 20A to 20F by the information terminal 10 can be achieved by a simpler system.

  Further, the infrared sensors 31A to 31F may be configured separately from the communication modules 30A to 30F. However, the system configuration of the power saving system 100 can be further simplified by arranging the infrared sensors 31A to 31F in the communication modules 30A to 30F.

  In addition, before the predetermined electric products 20A to 20F in the electric products 20A to 20F are automatically turned off, the user is notified that the predetermined electric products 20A to 20F are automatically turned off. It is convenient to be able to.

  Therefore, as illustrated in FIG. 2, the communication module 30 includes a warning unit 35, and the warning unit 35 indicates that the power supply of the predetermined electrical products 20 </ b> A to 20 </ b> F is turned off for a predetermined period of time. Notify by light or sound. If the user recognizes the warning by the warning unit 35, the user can take an action to stop the automatic power-off of the predetermined electrical products 20A to 20F.

  For example, it is assumed that electrical products 20C and 20D are set as the predetermined electrical product in the information terminal 10. In this case, after the communication module 30C (or the communication module 30D) receives the power OFF signal, the communication module 30C (or the communication module) is performed before performing the automatic power OFF process for the electric product 20C (or the electric product 20D). 30D) is operated for a predetermined period.

<Embodiment 2>
In the power saving system 200 according to the present embodiment, as shown in FIG. 7, the electric products 20 a to 20 i and the infrared sensors 31 a to 31 i are grouped into any one of a plurality of groups G1 to G4. ing. Here, communication modules 30a to 30i are individually connected between the electrical products 20a to 20i and the outlets. The grouping can be set and managed in the information terminal 10.

  Here, the grouping may be performed on a room-by-room basis, and can be arbitrarily set according to the user's request, not spatially.

  In the case illustrated in FIG. 7, four groups G1 to G4 are set and managed in the information terminal 10. The information terminal 10 is set so that the electrical products 20a and 20b and the infrared modules 31a and 31b belong to the group G1. Further, the information terminal 10 is set so that the electrical products 20c, 20d, and 20e and the infrared modules 31c, 31d, and 31e belong to the group G2. Further, the information terminal 10 is set so that the electrical products 20f, 20g, 20h, 20i and the infrared modules 31f, 31g, 31h, 31i belong to the group G3. In addition, the information terminal 10 is set so that the electrical product 20j and the infrared module 31j belong to the group G4.

  Here, as illustrated in FIG. 7, the number of the infrared sensors 31 a to 31 i belonging to each group may be single instead of plural.

  In the present embodiment, as described above, in the information terminal 10, the electrical products 20a to 20j and the infrared sensors 31a to 31j are set to belong to any one of the plurality of groups G1 to G4. And the information terminal 10 is managing the priority information for every electric product 20 in every group G1-G4 so that it may illustrate in FIG. That is, the priority order information is independent in each of the groups G1 to G4.

  Assume that the information terminal 10 receives a detection signal (absence detection signal) indicating that there is no person from all the infrared sensors 31a to 31j belonging to the predetermined groups G1 to G4 in the state where the above setting is made. At this time, the information terminal 10 sequentially turns off the power supplies of the electrical products 20a to 20j belonging to the predetermined groups G1 to G4 according to the priority order information. That is, the automatic power-off process of the electrical products 20 described in the first embodiment is performed independently for each of the groups G1 to G4.

  In the following, the discussion will be focused on the group G2, but the matters described for the group G2 can be applied to the other groups G1, G3, G4. The matters related to the configuration described with reference to FIGS. 1 and 2 are the same in this embodiment.

  In the configuration shown in FIG. 7, communication modules 30c to 30e are arranged between the electrical products 20c to 20e belonging to the group G2 and the outlets. In the configuration of FIG. 7, infrared sensors 31c to 31e are disposed in the communication modules 30c to 30e. However, as described above, the infrared sensors may not be provided in all the communication modules 30c to 30e. In addition, the infrared sensors 31c to 31e and the communication modules 30c to 30e may have different configurations.

  In addition, although illustration is abbreviate | omitted in FIG. 7, each communication module 30c-30e is connected with the information terminal 10 through the power line PL so that communication is possible. Further, the priority information shown in FIG. 8 is set in the information terminal 10, and the priority information is managed and stored.

  In the above configuration, it is assumed that all the infrared sensors 31c to 31e belonging to the group G2 detect that there is no person. Then, each of the infrared rays 31c to 31e transmits the absence detection signal to the information terminal 10 via the communication modules 30c to 30e. When the information terminal 10 receives the absence detection signal, the information terminal 10 refers to the priority information illustrated in FIG. 8 (priority information related to the group G2 in this description) set in its own device, Search for electrical products with a rank of “1”. In the example of FIG. 8, the electrical product 20d has a priority “1”. Therefore, the information terminal 10 transmits a power OFF signal for automatically turning off the power to the communication module 30d connected to the electrical product 20d.

  The communication module 30d that has received the power OFF signal cuts off the supply of electricity from the power line PL to the electrical product 20d under the control of the control unit 34 provided in the own device. Thereby, the power supply of the electric product 20d is automatically turned off.

  A detection signal (presence detection signal) indicating that a person is detected from any of the infrared sensors 31c to 31e belonging to the group G2 within a predetermined time after the power OFF signal is transmitted to the communication module 30d. It is assumed that the terminal 10 does not receive. In this case, the information terminal 10 automatically turns off the power of the other electrical products 20c and 20e belonging to the group G2 according to the priority order information shown in FIG.

  Specifically, after the predetermined time, the information terminal 10 refers to the priority information related to the group G2 illustrated in FIG. 8 set in the own device, and searches for an electrical product having a priority “2”. In the example of FIG. 8, the electrical product 20c has a priority “2”. Therefore, the information terminal 10 transmits a power OFF signal for automatically turning OFF the power to the communication module 30c connected to the electrical product 20c.

  The communication module 30c that has received the power-off signal cuts off the power supply from the power line PL to the electrical product 20c under the control of the control unit 34 provided in the self-machine. Thereby, the power supply of the electric product 20c is automatically turned off.

  It is assumed that the information terminal 10 does not receive the presence detection signal from any of the infrared sensors 31c to 31e belonging to the group G2 within a predetermined time after transmitting the power OFF signal to the communication module 30c. In this case, after the predetermined time, the information terminal 10 refers to the priority information related to the group G2 illustrated in FIG. 8 set in the own device, and searches for an electrical product having a priority “3”. . In the example of FIG. 8, the electrical product 20e has a priority “3”. Therefore, the information terminal 10 transmits a power OFF signal for automatically turning OFF the power to the communication module 30e connected to the electrical product 20e.

  The communication module 30e that has received the power OFF signal cuts off the power supply from the power line PL to the electrical product 20e under the control of the control unit 34 provided in the self-machine. Thereby, the power supply of the electric product 20e is automatically turned off.

  As described with reference to FIG. 5, after the predetermined number of electrical products belonging to the group G2 are sequentially turned off, the information terminal 10 detects the above-described infrared sensors 31c to 31e belonging to the group G2 within the predetermined time. When the presence detection signal is not received, the power of all the electrical products that are in the power-on state belonging to the group G2 may be automatically turned off.

  In addition, as described with reference to FIG. 6, when there are a plurality of electrical products having the same priority in the priority information, the information terminal 10 selects all the electrical products having the same priority at the priority. Turn off the power automatically.

  When there are electrical products 20c to 20e that do not want to be turned off, the information terminal 10 may manage priority information that does not include such electrical products 20c to 20e.

  Next, a case where the information terminal 10 receives the presence detection signal during the automatic power-off process of the electrical products 20c to 20e according to the priority information will be described.

  For example, it is assumed that the information terminal 10 manages the priority order information illustrated in FIG. 8, and the power supplies of the electrical products 20d and 20c are sequentially automatically turned off in accordance with the priority order information regarding the group G2. It is assumed that the information terminal 10 receives the presence detection signal from any of the infrared sensors 31c to 31e belonging to the group G2 within a predetermined time after transmitting the power OFF signal to the communication module 30c. In this case, the information terminal 10 transmits a power ON signal to each of the transmission destination communication modules 30c and 30d that have transmitted the power OFF signal so far in the group G2.

  When each communication module 30c, 30d receives the power ON signal, the control unit 34 disposed in the communication module 30c, 30d resumes the supply of electricity from the power line PL to the electrical products 20c, 20d. Thereby, the power supplies of the electric products 20c and 20d that belong to the group G2 and have been turned off so far are automatically turned on.

  Here, the information terminal 10 that has received the presence detection signal may transmit a power ON signal to each of the communication modules 30c and 30d that have transmitted the power OFF signal so far in the group G2. . On the other hand, the information terminal 10 that has received the presence detection signal is set to the information terminal 10 in advance among all the communication modules 30c and 30d that have transmitted the power OFF signal so far in the group G2. A power ON signal may be transmitted only to the communication modules 30c to 30e connected to the predetermined electrical products 20c to 20e.

  Since the power saving system 200 according to the present embodiment is configured as described above, it has the following effects in addition to the effects described in the first embodiment.

  That is, in the present embodiment, the information terminal 10 can set the electrical products 20a to 20j and the infrared sensors 31a to 31j to belong to any one of the plurality of groups G1 to G4. The information terminal 10 manages the priority information for each of the groups G1 to G4, and receives the absence detection signal from the infrared sensors 31a to 31j belonging to the predetermined groups G1 to G4. In accordance with the priority order information related to G4, the power supplies 20a to 20j belonging to the predetermined groups G1 to G4 are sequentially turned off automatically.

  Therefore, it is possible to provide a power saving system 200 that can save power of independent electrical products 20a to 20j for each of the set groups G1 to G4. As a result, the power saving system 200 with higher user convenience can be provided.

  In addition, the infrared sensor 31a-31j for detecting a person may be one for each group G1-G4. However, by arranging a plurality of infrared sensors 31a to 31j in each group G1 to G4, it is possible to further increase the detection accuracy of whether or not there is a person in each group G1 to G4.

  Also in the present embodiment, the communication module 30 may include the warning unit 35, and the warning unit 35 may be operated for a predetermined period before the power of the predetermined electric products 20a to 20j is turned off.

<Embodiment 3>
FIG. 9 shows a configuration of power saving system 300 according to the present embodiment.

  In the power saving system 300 according to the present embodiment, at least one or more other sensors s1 to s7 are arranged in the power saving system 200 according to the second embodiment. The other sensors s1 to s7 are sensors other than the infrared sensors 31a to 31j that detect the movement of a person by detecting the movement of the heat source. The other sensors s1 to s7 are, for example, door opening / closing detection sensors or sensors for detecting that a person is sitting on the toilet seat.

  Further, in the information terminal 10, the other sensors s1 to s7 are set to be grouped into the groups G1 to G4 (setting to make the other sensors s1 to s7 belong to any of the groups G1 to G4).

  In the configuration illustrated in FIG. 9, the other sensors s1 and s2 belong to the group G2. The other sensors s3, s4, and s5 belong to the group G3. The other sensors s6 and s7 belong to the group G4. Here, as shown in FIG. 9, there may be a group G1 having no other sensors s1 to s7. Further, a plurality of other sensors s1 to s7 may be provided for each group, or a single sensor may be provided.

  Moreover, the weighting with respect to the infrared sensors 31a-31j and the other sensors s1-s6 which belong to the said group can be set to the information terminal 10 for every group, respectively. For example, in the information terminal 10, a weighting information table illustrated in FIG. 10 is set for each group G1 to G4. Here, in the present embodiment, the weights of the infrared sensors s1 to sj belonging to the groups G1 to G4 are the same in the groups G1 to G4. That is, although the weighting table is independent for each group G1 to G4, the infrared sensors s1 to sj belonging to the same group G1 to G4 have the same weighting.

  In addition to the weighting of the sensors 31a to 31j and s1 to s7, the information terminal 10 may also manage the installation locations of the sensors 31a to 31j and s1 to s7.

  In the present embodiment, the weighting is expressed as a numerical value of 1 to 10, and the higher the numerical value, the higher the weighting. In addition, the said weighting means the importance of the sensor in the case of the automatic power supply OFF process implemented independently for each group G1-G4 demonstrated above. Therefore, the information terminal 10 places more importance on the signal from the sensor with high weighting and determines whether or not to perform the automatic power-off process.

  Further, in the information terminal 10, whether or not there is a person in each of the groups G1 to G4 is attached to the output signals from the sensors s1 to s7 and 31a to 31j and the sensors s1 to s7 and 31a to 31j. It is executed by a predetermined calculation in consideration of weighting. And the information terminal 10 does not implement the said automatic OFF process with respect to the electrical products 20a-20j which belong to the said groups G1-G4 with respect to the groups G1-G4 judged that there exists a person.

  For example, in the predetermined groups G1 to G4, it is assumed that the weights of the other sensors s1 to s7 are set higher than the weights of the infrared sensors 31a to 31j. Then, it is assumed that an output signal indicating that there is a person is output from the other sensors s1 to s7 belonging to the predetermined groups G1 to G4. At this time, even if the information terminal 10 receives the absence detection signal indicating that there is no person from the infrared sensors 31a to 31j belonging to the predetermined groups G1 to G4, the automatic OFF is not performed.

  Next, the operation of the power saving system 300 according to the present embodiment will be specifically described with reference to FIGS. 9 and 10. Here, in the present embodiment, the discussion proceeds with attention paid to the group G4, but the matters described for the group G4 can be applied to the other groups G1 to G3. In addition, the matter regarding the structure demonstrated using FIG.1, 2,7 is the same also in this Embodiment.

  For example, it is assumed that the group G4 is a group set in the toilet of the house H. The infrared sensor 31j is assumed to be installed near the ceiling. The other sensor s6 is a sensor that detects the seating of the toilet seat, and the other sensor s7 is a sensor that detects the use of the urinal.

  Now, it is assumed that the information terminal 10 has received an output signal indicating seating from another sensor (a sensor installed in the toilet seat) s6. In this case, even if the information terminal 10 receives the non-existence detection signal from the infrared sensor 31f, and / or outputs an output signal indicating non-use from another sensor (a sensor installed in the urinal) s7. Even if the information is received, the information terminal 10 does not perform the automatic power OFF process of the electrical product 20j.

  Next, it is assumed that the information terminal 10 receives an output signal indicating use from another sensor (a sensor installed in the urinal) s7. Even in this case, the information terminal 10 does not perform the automatic power OFF process of the electrical product 20j no matter what output signal is received from the infrared sensor 31f and other sensors (sensors installed on the toilet seat) s6. .

  For example, it is assumed that the information terminal 10 receives an output signal indicating non-use after receiving an output signal indicating use from another sensor (sensor installed in the urinal) s7. Furthermore, it is assumed that the information terminal 10 continues to receive the absence detection signal from the infrared sensor 31f and continues to receive an output signal indicating non-seating from another sensor (a sensor installed on the toilet seat) s6. In this case, the information terminal 10 performs the power automatic OFF process for the electrical product 20j. Here, although different from FIG. 9, when a plurality of electrical products are installed in the group G4, it is desirable to take a longer time interval (the predetermined time) for sequential automatic power OFF for each electrical product. It is. This is because the weights assigned to the other sensors s7 are set to be relatively high.

  Further, it is assumed that the information terminal 10 receives the non-existence detection signal after receiving the presence detection signal from the infrared sensor 31f. Furthermore, the information terminal 10 continues to receive an output signal indicating non-sitting from another sensor (sensor installed in the toilet seat) s6, and outputs indicating non-use from another sensor (sensor installed in the urinal) s7. Suppose that the signal reception continues to be received. In this case, the information terminal 10 performs the power automatic OFF process for the electrical product 20j. Here, although different from FIG. 9, when a plurality of electrical products are installed in the group G4, the time interval (the predetermined time) of the sequential automatic power OFF for each electrical product may be set shorter. desired. This is because the weight attached to the infrared sensor 31f is set to be relatively low.

  The sequential automatic power OFF operation for electrical products, which is performed in units of groups G1 to G4, is as described in the second embodiment.

  As described above, in this embodiment, in addition to the infrared sensors 31a to 31j that detect the presence / absence of a person by detecting the movement of the heat source, other sensors s1 to s7 are arranged. . The other sensors s1 to s7 are grouped for each group G1 to G7 in the information terminal 10. In the information terminal 10, for each of the groups G1 to G4, weights are set to the sensors 31a to 31j and s1 to s7 belonging to the groups G1 to G7. And the information terminal 10 does not have a person for each group G1-G7 in consideration of the output signals from the sensors 31a-31j, s1-s7 and the weights assigned to the sensors 31a-31j, s1-s7. Judgment is made.

  Therefore, the information terminal 10 can determine whether a person exists or not with higher accuracy.

<Embodiment 4>
In the power saving system according to the present embodiment, the information terminal 10 can be set with a timeout time.

  In the power saving system according to each of the above embodiments, it is assumed that the automatic power-off operation is sequentially started for the electrical products. The information terminal 10 starts time measurement simultaneously from the start time. When the above-described group is set, the information terminal 10 performs time measurement from the start of automatic power OFF in the group for each group. Therefore, a timeout time can be set for each group in the information terminal 10.

  It is assumed that the information terminal 10 reaches the time-out time set in the own device while the automatic OFF operation of the electrical product is sequentially performed. In this case, the power supply of all the electrical products that are turned on when the timeout time elapses is automatically turned off.

  For example, it is assumed that five electrical products that are targets for automatic power OFF processing are installed in the first group. Then, it is assumed that 20 minutes is set as the timeout time for the first group in the information terminal 10. In this state, when the power automatic OFF operation is started in the first group, the information terminal 10 starts time measurement for the first group in synchronization with the start timing. Then, during the sequential automatic power-off processing of the electrical products belonging to the first group, if the measurement time reaches the timeout time, and two electrical products that have not yet been powered off remain when the timeout is reached. To do. In the case of the number of pieces, the information terminal 10 transmits a power OFF signal to each communication module connected to the two electric products. Each communication module that has received the power-off signal stops supplying electricity to the connected electrical product, whereby the two electrical products are turned off.

  As described above, in the present embodiment, the time-out period can be set for the information terminal 10, and when the time-out elapses from the start of the automatic OFF operation, the power supply of all electrical products that are turned on when the time-out elapses Set to OFF.

  Therefore, the so-called time-out function described above enables power saving even for an electrical product that has been in an ON state during the automatic OFF process. This embodiment is effective when the sequential automatic power-off operation for all electric products is continued for a long time.

<Priority information setting method>
In the first embodiment, it has been described that priority information is set in the information terminal 10. Here, the method will be described.

  For example, even if the power supply of the electrical product is automatically turned off accidentally, the priority of the automatic turn-off is made higher for the electrical product that is less damaged on the user side (that is, the earlier automatic turn-off). For example, even if the sub-lighting is accidentally automatically turned off, there is almost no damage to the user. Therefore, the priority order of the sub-illumination is set to “1”. Thereafter, priorities are set in order so that the power supply is automatically turned off from the electrical product that causes less damage to the user even if the power supply is automatically turned off by mistake.

  Alternatively, the priority order may be set so that the longer the power-on state continues, the faster the automatic power-off of electrical products that cause danger to the user side. For example, the priority of electrical products such as dryers and irons that may cause a fire due to forgetting to turn off the power is increased (that is, it is automatically turned off earlier).

  Note that the information terminal 10 may adopt a configuration in which priority order information for each electrical product can be changed and set in consideration of manual power operation of the electrical product.

  For example, the priority information may be automatically set by the information terminal 10 so that automatic power OFF is performed in the order in which a manual power OFF operation performed at a certain timing is performed. Alternatively, the priority information may be automatically set by the information terminal 10 so that the automatic power-off operation is performed in the reverse order of the manual power-on operation from a certain timing. Alternatively, the information terminal 10 may collect time-series changes in manual power supply operation for each electrical product, and the information terminal 10 may automatically set the priority information based on the statistical result of the collected information. . For example, based on the statistical information, the information terminal 10 is automatically set so that an electrical product that is manually turned off (or turned on) more frequently has a higher priority (that is, the power is automatically turned off earlier). Set the priority for each electrical product.

  As described above, by enabling the information terminal 10 to automatically set the priority order, it is possible to set the priority order in consideration of the usage status of the user's electric product in the information terminal 10.

  Note that when the electrical product has a power saving mode, the electrical product may be switched to the power saving mode before the power of the electrical product is automatically turned off. For example, a description will be given of the case of a lighting apparatus that performs power ON / OFF processing and power saving mode / normal mode switching processing by a remote controller. When the information terminal 10 determines to automatically turn off the lighting device, if the information terminal 10 is set to switch the power saving mode before the automatic power-off process for the lighting device, the information terminal 10 Then, a power saving mode switching control signal is transmitted to the remote controller. The remote controller that has received the power saving mode switching control signal transmits a power saving mode signal to the lighting device. The lighting device that has received the power saving mode signal switches to the power saving mode.

  Thereafter, if the information terminal 10 still does not receive the presence detection signal from the infrared sensor even after a lapse of a certain time from the transmission of the power saving mode switching control signal, the information terminal 10 is connected to the communication module connected to the lighting device. On the other hand, a power OFF signal is transmitted. The communication module that has received the power OFF signal stops supplying electricity to the lighting device that is the connection destination.

It is a figure showing a schematic structure of a power-saving system concerning the present invention. It is a block diagram which shows the internal structure of the communication module by which the infrared sensor was arrange | positioned. 1 is a diagram showing a configuration of a power saving system according to Embodiment 1. FIG. It is a figure which shows priority order information. It is a figure which shows priority order information. It is a figure which shows priority order information. 6 is a diagram illustrating a configuration of a power saving system according to Embodiment 2. FIG. It is a figure which shows the priority information for every group. FIG. 6 is a diagram illustrating a configuration of a power saving system according to a third embodiment. It is a figure explaining the relationship between each sensor and weighting.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Information terminal 20, 20A-20F, 20a-20j Electric product 30, 30A-30F, 30a-30j Communication module 31, 31A-31F, 31a-31j Infrared sensor 32 Communication part,
33 Electric measurement part 34 Control part 35 Warning part 100,200,300 Power-saving system H House PL Power line G1-G4 Group s1-s7 Other sensors

Claims (6)

A human sensor,
An information terminal for receiving a detection signal from the human sensor;
With multiple electrical products,
The information terminal
Priority information is managed for each electrical product,
When the detection signal indicating the absence of a person is received, the electrical product is automatically turned off sequentially in accordance with the priority information,
The human sensor is plural,
The information terminal
The electric product and the human sensor can be set to belong to any one of a plurality of groups,
In each group, for each electrical product, the priority information is managed,
When the detection signal indicating that there is no person is received from the human sensor belonging to the predetermined group, the power supplies of the electrical appliances belonging to the predetermined group are sequentially switched according to the priority information for the predetermined group. , Turn off the automatic,
The information terminal
In accordance with the priority information, after the power of the predetermined electrical product belonging to the predetermined group is automatically turned off, the presence of a person from the human sensor belonging to the predetermined group is indicated within a predetermined time. When not receiving the detection signal, according to the priority information, the power of the other electrical products belonging to the predetermined group is automatically turned off,
The information terminal
The detection signal indicating that there is a person from the human sensor belonging to the predetermined group within the predetermined time after the power of the predetermined number of the electric products belonging to the predetermined group is automatically turned off. When not receiving, automatically turn off the power of all the electrical products belonging to the predetermined group,
Power saving system characterized by that. The information terminal
When the detection signal indicating the presence of a person is received from the human sensor belonging to the predetermined group within the predetermined time after the power supply of the electrical product belonging to the predetermined group is automatically turned off. , Among the electrical products belonging to the predetermined group that has been automatically turned off, the power of the predetermined electrical product that is in a power off state is automatically turned on.
The power saving system according to claim 1 . A communication module disposed between the electrical product and a power outlet and capable of communicating with the information terminal;
The information terminal
By controlling power supply to the electrical product connected to the communication module through communication with the communication module, the power operation of the electrical product is performed.
The power saving system according to claim 1 or claim 2, wherein The human sensor is
Disposed in the communication module;
The power saving system according to claim 3 . The communication module includes:
A warning unit for notifying that the predetermined electrical product is automatically turned off before the power is automatically turned off;
The power saving system according to claim 3 or 4 , wherein the power saving system is provided. The information terminal
You can set a timeout period
When the timeout time has elapsed since the start of the automatic OFF operation, the power of all the electrical products that are in the ON state when the timeout time has elapsed is turned off.
The power saving system according to any one of claims 1 to 5 , wherein the power saving system according to any one of claims 1 to 5 is provided.

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