JP2019016542A - Wiring device and wiring device system - Google Patents

Abstract

To provide a wiring device allowing a management person of the wiring device to easily comprehend the state of the wiring device, and a wiring device system.SOLUTION: A wiring device (1) comprises a processing part (14), a connection part (11), a detection part (12), and a communication part (13). The connection part (11) is electrically connectable to an electrical equipment (A1). The detection part (12) configured to detect the circumstance state where the connection part (11) is placed. The communication part (13) is capable of performing communication with an external unit (2) different from the electrical equipment (A1). The processing part (14) has a communication function to control the communication part (13) to transmit a detection signal including the detection result by the detection part (12) to the external unit (2).SELECTED DRAWING: Figure 1

Description

  The present disclosure relates generally to wiring devices and wiring device systems, and more particularly to wiring devices and wiring device systems to which electrical devices are electrically connected.

  Conventionally, an outlet having a plug blade insertion opening into which a plug blade of a power plug of an electric device is inserted is known as a wiring device. For example, Patent Document 1 discloses an outlet provided with a sensor device such as a human sensor in order to perform power feeding to an electric appliance and stop of power feeding in the presence or absence of a person.

JP 2013-161724 A

  In the outlet described in Patent Document 1, it is possible to control the power supply to the electric appliance (electrical device) connected to the wiring appliance according to the detection result of the human sensor mounted on the outlet. However, in the wiring device described in Patent Document 1, since the power supply is simply controlled according to the detection result of the human sensor, the administrator of the wiring device is difficult to grasp the detection result of the sensor. There was a problem that it was difficult to grasp the state of the wiring apparatus.

  The present disclosure has been made in view of the above points, and an object thereof is to provide a wiring device and a wiring device system in which an administrator of the wiring device can easily grasp the state of the wiring device.

  A wiring device according to an aspect of the present disclosure includes a processing unit, a connection unit, a detection unit, and a communication unit. The connection portion can be electrically connected to an electric device. The detection unit detects a state of an environment where the connection unit is placed. The communication unit can communicate with an external device different from the electric device. The processing unit has a communication function of controlling the communication unit so as to transmit a detection signal including a detection result of the detection unit to the external device.

  A wiring device system according to an aspect of the present disclosure includes the above wiring device, a receiving device, and an output device. The receiving device is the external device and receives the detection signal from the wiring device. The output device outputs information corresponding to the detection signal received by the receiving device.

  The present disclosure has an advantage that the manager of the wiring device can easily grasp the state of the wiring device.

FIG. 1 is a block diagram illustrating a configuration of a wiring device and a wiring device system according to an embodiment of the present disclosure. FIG. 2 is a sequence diagram showing an operation example of the above-described wiring device.

(1) Overview Hereinafter, an overview of the wiring device 1 and the wiring device system 100 according to the embodiment will be described with reference to FIG. In FIG. 1, a broken line represents a signal flow. In the present embodiment, the wiring device 1 has a function of an outlet that is connected to the plug of the electric device A1 and supplies electric power to the electric device A1. Here, it is assumed that the wiring device 1 is for AC 100V and is a two-port type outlet capable of connecting two plugs simultaneously. In the present embodiment, it is assumed that the wiring device 1 is an indoor outlet attached to the inner wall of the building. The building where the wiring device 1 is installed is, for example, a detached house, an apartment house, a factory, an office, a store, or a nursing facility.

  The wiring device 1 according to the present embodiment includes a processing unit 14, a connection unit 11, a detection unit 12, and a communication unit 13. The connection part 11 can be electrically connected to the electric device A1. In the present embodiment, the plug of the electric device A1 is connected to the connection portion 11 of the wiring device 1, so that power can be supplied from the wiring device 1 to the electric device A1. And in this embodiment, the wiring fixture 1 is used for the electric power supply to various electric equipment A1, such as a lighting fixture, an air-conditioning installation, a refrigerator, for example.

  The detection unit 12 detects the state of the environment where the connection unit 11 is placed. For example, if the detection unit 12 is a temperature sensor, the detection unit 12 detects the temperature of the connection unit 11 as the state of the environment where the connection unit 11 is placed. For example, if the detection unit 12 is a current sensor, the detection unit 12 detects the current flowing through the connection unit 11 as the state of the environment where the connection unit 11 is placed. The communication unit 13 can communicate with an external device 2 (receiving device 3) different from the electric device A1. The processing unit 14 has a communication function of controlling the communication unit 13 so as to transmit a detection signal including the detection result of the detection unit 12 to the external device 2.

  As described above, since the wiring device 1 of the present embodiment has a communication function, not only the detection unit 12 detects the state of the environment in which the wiring device 1 is placed, but also the detection result of the detection unit 12 is externally detected. It is possible to transmit to the device 2. For this reason, for example, an administrator of the wiring device 1 such as a resident of a building in which the wiring device 1 is installed does not directly check the wiring device 1 by obtaining the detection result of the detection unit 12 through the external device 2. It is possible to grasp the state of the environment where the wiring device 1 is placed. That is, in this embodiment, there is an advantage that the administrator of the wiring device 1 can easily grasp the state of the wiring device 1.

(2) Details Hereinafter, the wiring device 1 and the wiring device system 100 according to the present embodiment will be described in detail with reference to FIG. A wiring device system 100 according to the present embodiment includes a wiring device 1, a receiving device 3 as an external device 2, an audio interface 5 as an output device 4, a mobile terminal 7, and a server 8. In addition to the connection unit 11, the detection unit 12, the communication unit 13, and the processing unit 14, the wiring device 1 includes a blocking unit 15. In the present embodiment, the connection unit 11, the detection unit 12, the communication unit 13, the processing unit 14, and the blocking unit 15 are all housed in the housing of the wiring device 1.

  The connection part 11 is a blade receiving member to which, for example, a plug of the electric device A1 is connected. The connection unit 11 is electrically connected to a power source B1 such as a commercial power source via an electric wire. Therefore, the electrical device A1 is electrically connected to the power supply B1 via the connection unit 11 by connecting the plug to the connection unit 11. The power source B1 supplies power to the electric device A1 connected to the connection unit 11.

  The detection unit 12 is configured to detect an abnormality related to the connection unit 11 as the state of the environment where the connection unit 11 is placed. In the present embodiment, the detection unit 12 includes a temperature sensor that detects the temperature in the housing of the wiring device 1. For example, if the contact resistance of the connecting portion 11 increases due to mechanical abnormalities caused by plugging / unplugging more than the expected number of times of use, adhesion of foreign matters such as dust to the connecting portion 11, the amount of heat generated at the connecting portion 11 increases. As a result, the temperature in the housing of the wiring device 1 rises. The detection unit 12 can detect an electrical abnormality such as a life of the wiring device 1 and a decrease in insulation performance as an abnormality related to the connection unit 11 by detecting this temperature increase with a temperature sensor. The temperature sensor is preferably installed in a region where the temperature is likely to rise when an abnormality occurs, such as in the vicinity of the connection portion 11.

  In the present embodiment, the abnormality relates to a decrease in the insulating performance of the connection portion 11. In the stage where the insulation performance of the connection part 11 falls, the temperature in the housing | casing of the wiring device 1 is rising rather than the normal time. For this reason, it is possible to detect an abnormality at a stage where the insulation performance of the connecting portion 11 is lowered by detecting the temperature that is higher than normal by the detecting portion 12.

  The communication unit 13 is a communication interface for communicating with a first communication unit 31 (described later) of the receiving device 3. In the present embodiment, the communication unit 13 is a low-power wireless communication interface that does not require a radio station license. For this type of low-power radio, specifications such as the frequency band to be used and the antenna power are defined in each country depending on the application. In Japan, a low-power radio (specific low-power radio) that uses radio waves in the 920 MHz band or the 420 MHz band is defined.

  The processing unit 14 controls the detection unit 12, the communication unit 13, and the blocking unit 15. In the present embodiment, the processing unit 14 is configured by a microcomputer having a processor and a memory as main components. The same applies to a control unit 34 of the receiving device 3 described later. That is, the processing unit 14 (control unit 34) is realized by a computer system having a processor and a memory. And a computer system functions as the process part 14 (control part 34), when a processor runs an appropriate program. The program may be recorded in advance in a memory, or may be provided by being recorded through a telecommunication line such as the Internet or a recording medium such as a memory card.

  The processing unit 14 is configured to acquire a detection result from the detection unit 12. In this embodiment, the process part 14 acquires the temperature in the housing | casing of the wiring appliance 1 detected in the detection part 12 as a detection result. The processing unit 14 compares the detection result (temperature) of the detection unit 12 with a threshold temperature stored in advance. When the detection result exceeds the threshold temperature (including “being equal to or higher than the threshold”), the processing unit 14 determines that the abnormality related to the connection unit 11 is detected by the detection unit 12. Here, the processing unit 14 determines that the detection unit 12 has detected an abnormality at a stage where the insulation performance of the connection unit 11 is reduced. In this case, the processing unit 14 generates a detection signal including an abnormality related to the connection unit 11 as a detection result of the detection unit 12. Then, the processing unit 14 controls the communication unit 13 to transmit the generated detection signal to the receiving device 3 (external device 2). That is, when the detection unit 12 detects an abnormality, the processing unit 14 executes a communication function for controlling the communication unit 13 so as to transmit a detection signal to the reception device 3 (external device 2).

  Further, when the processing unit 14 determines that the abnormality related to the connection unit 11 is detected by the detection unit 12, the processing unit 14 executes a blocking function. The blocking function is a function of blocking the electric circuit L1 (described later) by controlling the blocking unit 15. In other words, the processing unit 14 has a blocking function for controlling the blocking unit 15 to block the electric circuit L1 when a predetermined condition is satisfied. In the present embodiment, the predetermined condition includes the detection unit 12 detecting an abnormality related to the connection unit 11. Further, in the present embodiment, when the detection unit 12 detects an abnormality, the processing unit 14 executes a blocking function. That is, in the present embodiment, only the detection of an abnormality by the detection unit 12 is a predetermined condition. When the detection unit 12 detects an abnormality, the processing unit 14 may execute the blocking function immediately, or may execute the blocking function after a certain time.

  The blocking unit 15 is housed in the housing of the wiring device 1. The interruption | blocking part 15 is connected between the connection part 11 and power supply B1. The interruption | blocking part 15 is provided with the contact which electrically connects the connection part 11 and power supply B1, and the needle | mover which opens and closes a contact. The interruption | blocking part 15 operates a needle | mover, and opens a contact by being controlled by the process part 14. FIG. Thereby, the interruption | blocking part 15 interrupts | blocks the electric circuit L1 between the connection part 11 and power supply B1. The electric circuit L1 is a power supply path from the power source B1 to the connection unit 11 (or the electric device A1 connected to the connection unit 11).

  Moreover, in this embodiment, the interruption | blocking part 15 has a switch for returning to the original state from the state by which the electric circuit L1 was interrupted | blocked. For example, this switch is provided so as to be exposed from the housing of the wiring device 1. Therefore, in the state where the electric circuit L1 is interrupted, for example, when a person operates the switch, the interruption by the interrupting unit 15 is released, and the electric circuit L1 returns to the original state.

  In the present embodiment, the wiring device 1 further includes a power supply unit. The power supply unit is configured to receive power supply from the power supply B1 via an electric circuit different from the electric circuit L1. The power supply unit receives the power supply from the power supply B <b> 1, generates operating power, and supplies the generated operating power to the detection unit 12, the communication unit 13, and the processing unit 14. For this reason, the detection part 12, the communication part 13, and the process part 14 operate | move irrespective of opening / closing of the electric circuit L1.

  The receiving device 3 is provided in a building where the wiring device 1 is installed. In the present embodiment, the receiving device 3 is the external device 2 and receives a detection signal from the wiring device 1. The receiving device 3 includes a first communication unit 31, a second communication unit 32, a third communication unit 33, and a control unit 34.

  The first communication unit 31 is a communication interface for communicating with the communication unit 13 of the wiring device 1. In the present embodiment, the first communication unit 31 is a low-power radio communication interface that does not require a radio station license. The second communication unit 32 is a communication interface for communicating with the mobile terminal 7 or the server 8 via the router 6 or a network N1 such as the Internet. In the present embodiment, the second communication unit 32 is a communication interface compliant with the Ethernet (registered trademark) standard, and is connected to the router 6 by a LAN (Local Area Network) cable. The third communication unit 33 is a communication interface for communicating with the audio interface 5. In the present embodiment, the third communication unit 33 performs short-range wireless communication with the audio interface 5 in accordance with Bluetooth (registered trademark).

  The control unit 34 is configured to control each of the first communication unit 31, the second communication unit 32, and the third communication unit 33. When the first communication unit 31 receives the detection signal from the wiring device 1, the control unit 34 relays the received detection signal from the second communication unit 32 to the portable terminal 7 and the server 8. In addition, when the first communication unit 31 receives the detection signal from the wiring device 1, the control unit 34 relays the received detection signal from the third communication unit 33 to the voice interface 5.

  The audio interface 5 is provided in a building where the wiring device 1 is installed. The audio interface 5 is mainly composed of a computer system (including a microcomputer) including a processor and a memory, for example. That is, the computer system functions as the audio interface 5 by executing an appropriate program on the processor. The audio interface 5 receives the detection signal from the wiring device 1 by communicating with the third communication unit 33 of the receiving device 3. When receiving the detection signal, the audio interface 5 reproduces information corresponding to the detection result included in the detection signal from the speaker.

  The portable terminal 7 is a portable information terminal such as a smartphone. The mobile terminal 7 is mainly composed of a computer system (including a microcomputer) having a processor and a memory, for example. The portable terminal 7 functions as a communication device that receives at least a detection signal from the wiring device 1 by installing dedicated application software and starting the application software. The mobile terminal 7 communicates with the second communication unit 32 of the receiving device 3 via the router 6. In the present embodiment, the mobile terminal 7 performs short-range wireless communication with the router 6 in accordance with Wi-Fi (registered trademark).

  In the present embodiment, the mobile terminal 7 includes a display unit such as a liquid crystal display and a speaker in addition to the communication interface. When the mobile terminal 7 receives the detection signal from the wiring device 1 via the receiving device 3 and the router 6, the mobile terminal 7 displays information corresponding to the detection result included in the detection signal on the display or reproduces the sound from the speaker. It has a function to do.

  The server 8 is a facility owned by a place away from the building where the wiring device 1 is installed, for example, a provider (such as a housing company) of the wiring device 1 or a service provider (such as a management company) using the wiring device 1. Is provided. The server 8 communicates with the second communication unit 32 of the receiving device 3 via a network N1 such as the Internet. In this embodiment, as a communication method between the server 8 and the receiving device 3, a wireless communication method using the network N1 is applied. The server 8 is mainly composed of a computer system (including a microcomputer) including a processor and a memory, for example. That is, the computer system functions as the server 8 by executing an appropriate program on the processor.

  When the server 8 receives the detection signal from the wiring device 1 via the receiving device 3, the server 8 displays information corresponding to the detection result included in the detection signal on a display connected to the server 8 or connects to the server 8. It has a function of reproducing by voice from the recorded speaker. Further, the server 8 actually sets a monitoring target group including a plurality of buildings as a monitoring target. In this case, a plurality of wiring devices 1 respectively provided in a plurality of buildings belonging to the monitoring target group communicate with one server 8. In this embodiment, in order to simplify the description, the monitoring target of the server 8 is one wiring device 1 in one building. That is, in the present embodiment, the server 8 and the wiring device 1 are in a one-to-one relationship.

  As described above, the audio interface 5, the mobile terminal 7, and the server 8 all receive the detection signal from the wiring device 1 via the receiving device 3 and receive information according to the detection result included in the detection signal. It has a function of displaying or reproducing by sound. That is, in the wiring device system 100 of the present embodiment, the audio interface 5, the mobile terminal 7, and the server 8 are all output devices 4 that output information according to the detection signal received by the receiving device 3. Here, the information according to the detection result is, for example, a warning message indicating that an abnormality related to the connection portion 11 (here, an abnormality at a stage where the insulation performance of the connection portion 11 is reduced) has occurred. The warning message is stored in advance in the output device 4, for example, and is associated with the detection result included in the detection signal on a one-to-one basis.

(3) Operation Hereinafter, an example of the operation of the wiring device and the wiring device system of the present embodiment will be described with reference to FIG. In the following description, it is assumed that an abnormality at a stage where the insulation performance of the connection part 11 is reduced occurs as an abnormality related to the connection part 11 of the wiring device 1. In this case, when the detection result (temperature) of the detection unit 12 exceeds the threshold temperature, the processing unit 14 determines that an abnormality related to the connection unit 11 has been detected by the detection unit 12 (step S101). And the process part 14 performs the interruption | blocking function (step S102). In addition, the processing unit 14 performs a communication function so as to transmit a detection signal including an abnormality related to the connection unit 11 as a detection result of the detection unit 12 to the reception device 3 (step S103).

  In the receiving device 3, the first communication unit 31 receives a detection signal from the wiring device 1 (step S104). Then, the control unit 34 relays the received detection signal to the output device 4 (step S105). In the present embodiment, the control unit 34 relays the received detection signal from the second communication unit 32 to the mobile terminal 7 and the server 8. Further, the control unit 34 relays the received detection signal from the third communication unit 33 to the voice interface 5.

  When receiving the detection signal from the reception device 3 (step S106), the output device 4 outputs information corresponding to the received detection signal (step S107). For example, when the audio interface 5 which is the output device 4 receives the detection signal, a warning message such as “The wiring device is hot. Please stop using the electrical device and replace the wiring device” from the speaker. Reproduce. For example, when the mobile terminal 7 and the server 8 which are the output devices 4 receive the detection signal, the warning message is displayed on the display or reproduced from the speaker.

  As described above, since the wiring device 1 of the present embodiment has a communication function, the detection unit 12 not only detects the state of the environment in which the wiring device 1 is placed, but also receives the detection result of the detection unit 12. It is possible to transmit to the device 3 (external device 2). For this reason, the administrator of the wiring device 1 can acquire the detection result of the detection unit 12 through the receiving device 3. For example, when the administrator is around the voice interface 5, the administrator can obtain the detection result of the detection unit 12 by listening to a warning message reproduced by the voice interface 5. For example, when the administrator owns the mobile terminal 7, the administrator obtains the detection result of the detection unit 12 by looking at the display of the mobile terminal 7 or listening to a warning message reproduced by the mobile terminal 7. Is possible. In this way, the administrator can grasp the state of the environment where the wiring device 1 is placed without directly examining the wiring device 1. That is, in this embodiment, there is an advantage that the administrator of the wiring device 1 can easily grasp the state of the wiring device 1.

  And an administrator can respond | correspond variously by grasping | ascertaining the state of the environment where the wiring appliance 1 is set | placed. In the present embodiment, the administrator can easily grasp the abnormality of the wiring device 1 at the stage where the insulation performance of the connection portion 11 is lowered. Therefore, for example, when the manager is a housing company that provides the wiring device 1, the manager dispatches an electrician to repair the wiring device 1, or replace the wiring device 1 with a new one. It is possible to take countermeasures against the abnormality of the wiring device 1.

  That is, the wiring device 1 of the present embodiment is different from a wiring device that simply has a power feeding function, such as an outlet described in Patent Document 1. That is, since the wiring device 1 of this embodiment has the transmission function of the detection result of the detection part 12 as mentioned above, there exists an advantage that the further added value not only a power supply function can be anticipated.

(4) Modification The above embodiment is merely one of various embodiments of the present disclosure. The above embodiment can be variously modified according to the design and the like as long as the object of the present disclosure can be achieved. Hereinafter, modifications of the embodiment will be listed. The modifications described below can be applied in appropriate combinations.

  In the present embodiment, the abnormality detected by the detection unit 12 may be divided into a plurality of stages. And the process part 14 may perform a communication function, if the detection part 12 detects the abnormality of the stage before the abnormality of the stage which performs a interruption | blocking function. That is, the processing unit 14 does not execute both the communication function and the blocking function when an abnormality to execute the blocking function occurs, but executes only the communication function before the abnormality to execute the blocking function occurs. May be. For example, the processing unit 14 may execute the communication function when the detection unit 12 detects the first temperature, and may execute the blocking function when the second temperature higher than the first temperature is detected. In this case, when the detection unit 12 detects the first temperature, that is, before the stage where the insulation performance of the connection unit 11 is deteriorated, the manager has some abnormality in the wiring device 1. It is possible to grasp that.

  In the present embodiment, the detection unit 12 detects an abnormality at a stage where the insulation performance of the connection unit 11 decreases by detecting the temperature in the housing of the wiring device 1, but the present invention is not limited to this. . For example, the detection unit 12 may be configured to detect a current flowing through the connection unit 11 using a current sensor, or may be configured to detect gas generated in the housing of the wiring device 1 using a gas sensor. In any configuration, the detection unit 12 can detect an abnormality at a stage where the insulation performance of the connection unit 11 is lowered.

  In the present embodiment, the abnormality detected by the detection unit 12 relates to a decrease in the insulation performance of the connection unit 11, but is not limited to this. For example, the abnormality detected by the detection unit 12 may be a shake greater than or equal to a predetermined seismic intensity due to an earthquake. This abnormality can be detected by the detection unit 12 having an acceleration sensor. Specifically, when the detection result (acceleration) by the acceleration sensor exceeds a predetermined acceleration set in advance, the processing unit 14 generates an earthquake having a predetermined seismic intensity or more in the environment where the connection unit 11 is placed. The communication function is executed. At this time, it is preferable that the processing unit 14 also executes the blocking function.

  This configuration is effective, for example, when the manager is a resident of a building and has gone out to a remote place. In other words, since the seismic intensity that the administrator can know from news and the like is a seismic intensity in a relatively wide range, it is difficult for the administrator to determine whether there has been an earthquake that affects the building. On the other hand, in this configuration, the administrator can know that there has been a shake greater than or equal to a predetermined seismic intensity from the detection signal from the wiring device 1 installed in the building. For this reason, there is an advantage that the administrator can easily grasp whether or not there has been an earthquake that affects the building.

  Further, the abnormality detected by the detection unit 12 may be ultraviolet rays. This abnormality can be detected by the detection unit 12 having an ultraviolet sensor. Specifically, when the detection result (ultraviolet ray amount) by the ultraviolet sensor exceeds a predetermined ultraviolet ray amount set in advance, the processing unit 14 has a relatively large ultraviolet ray amount in the environment where the connection unit 11 is placed. The communication function is executed.

  This configuration is effective when, for example, the manager is a resident of a building and the wiring device 1 is installed outdoors. That is, the wiring device 1 can urge the resident in the building to pay attention according to the amount of outdoor ultraviolet rays. For example, when the administrator owns the mobile terminal 7, the administrator listens to a warning message such as “Let's wear a hat because the amount of ultraviolet rays is large” that the mobile terminal 7 reproduces. It is possible to prepare clothes in advance.

  In addition, the abnormality detected by the detection unit 12 may be a sound such as noise. This abnormality can be detected by the detection unit 12 having a sound sensor. Specifically, when the detection result (volume of a specific sound) by the sound sensor exceeds a predetermined volume set in advance, the processing unit 14 intrudes a suspicious person in the environment where the connection unit 11 is placed. It is determined that some kind of abnormality has occurred, and the communication function is executed. Here, the specific sound is, for example, a sound that breaks the glass or a person's falling sound. The sound sensor is preferably configured to mainly detect sound in a specific frequency band (here, sound that breaks glass, etc.).

  This configuration is effective when, for example, the manager is a resident of a building and the wiring device 1 is installed indoors. In other words, in this configuration, for example, a resident who is away from the wiring device 1 such as outdoors has an abnormality such as an intrusion of a suspicious person or a fall of a family living together due to a detection signal from the wiring device 1. Easy to grasp.

  Moreover, in this embodiment, although the interruption | blocking part 15 is comprised so that the electric circuit L1 may be interrupted | blocked by being controlled by the process part 14, it is not the meaning limited to this. For example, the interruption | blocking part 15 may be comprised so that the electric circuit L1 may be interrupted | blocked, regardless of control by the process part 14, if a leak is detected. Moreover, the interruption | blocking part 15 may be comprised so that the electric circuit L1 may be interrupted | blocked irrespective of control by the process part 14, if an overcurrent or a short circuit is detected. Any leakage, overcurrent, or short circuit can be detected by the current sensor (detection unit 12). In this case, when the current sensor detects any one of leakage, overcurrent, and short circuit, the processing unit 14 executes a communication function. The current sensor may be integrated with the device constituting the blocking unit 15 or may be a separate body.

  Here, the detection part 12 should just have at least 1 among the above-mentioned temperature sensor, current sensor, gas sensor, acceleration sensor, ultraviolet sensor, and sound sensor. That is, the detection part 12 should just have the sensor according to the state to detect among the states of the environment where the connection part 11 is placed. In addition, the detection unit 12 may detect a plurality of states. For example, when the detection unit 12 includes a temperature sensor and a sound sensor, the detection unit 12 can detect the temperature in the casing of the wiring device 1 and the indoor noise as the state of the environment where the connection unit 11 is placed. Is detected.

  By the way, the wiring device 1 may be assigned unique identification information such as a production number. In this case, the processing unit 14 may execute the communication function by including the identification information of the wiring device 1 to which the processing unit 14 belongs in the detection signal. In other words, the detection signal may include identification information for identifying the wiring device 1 that is the transmission source of the detection signal. This configuration is effective when there are a plurality of wiring devices 1. That is, in this configuration, the administrator can easily grasp which wiring device 1 has an abnormality based on the detection signal from the wiring device 1.

  Here, it is preferable that the identification information is associated with the electric device A1 connected to the wiring device 1 by, for example, a setting operation by a contractor or an administrator. For example, when the electric device A1 is a refrigerator, the identification information of the wiring device 1 to which the refrigerator is connected is associated with the refrigerator. Then, the processing unit 14 executes the communication function by including the identification information and the information on the electric device A1 associated with the identification information in the detection signal. In this configuration, the administrator can easily grasp the wiring device 1 in which an abnormality has occurred and the electric device A1 connected to the wiring device 1 based on the detection signal from the wiring device 1.

  In addition, when the wiring device 1 has a current sensor, the processing unit 14 uses, for example, a disaggregation technique or the like to change the electrical device A1 connected to the wiring device 1 from the waveform of the current flowing through the connection unit 11. You may specify. That is, the processing unit 14 may automatically specify the electric device A1 connected to the wiring device 1 and associate the specified electric device A1 with the identification information. In this case, the work of associating the identification information with the electric device A1 connected to the wiring device 1 is not necessary.

  In the present embodiment, the communication between the wiring device 1 and the receiving device 3 (external device 2) is one-way communication from the wiring device 1 to the receiving device 3, but may be bidirectional communication. . Specifically, the communication unit 13 may be configured to receive a response signal to the detection signal from the reception device 3 (external device 2). Then, the predetermined condition for the processing unit 14 to execute the blocking function may include the communication unit 13 receiving a response signal. That is, the processing unit 14 does not execute the blocking function even if the detection unit 12 detects an abnormality, and executes the blocking function after receiving the response signal.

  In this configuration, after confirming the detection signal from the wiring device 1, the administrator performs a remote operation of transmitting a response signal to the wiring device 1 via the portable terminal 7 or the server 8, thereby determining the administrator's own judgment. Thus, the electric circuit L1 of the wiring device 1 can be interrupted. When the voice interface 5 is a voice assistant device (described later), the administrator can cut off the electric circuit L1 of the wiring device 1 by performing a voice operation via the voice interface 5.

  In the present embodiment, the voice interface 5 may be a voice assistant device having a function of recognizing a voice uttered by a person. In this case, the voice interface 5 may be configured to analyze a voice uttered by the administrator and transmit a control signal corresponding to the analysis result to the wiring device 1 via the receiving device 3. For example, it is assumed that the administrator utters a voice saying “Stop using the air conditioner wiring device”. Then, the voice interface 5 analyzes this voice and generates a control signal including a command for instructing the interruption of the electric circuit L1 of the wiring device 1 to which the air conditioner is connected. And the audio | voice interface 5 transmits the produced | generated control signal to the wiring appliance 1 to which the air conditioner is connected via the receiver 3. When the processing unit 14 of the wiring device 1 to which the air conditioner is connected receives a control signal from the audio interface 5, the processing unit 14 performs a blocking function. In this configuration, the wiring device 1 can be remotely operated using the voice interface 5.

  Here, the processing unit 14 may have a detection mode in which a control signal from the receiving device 3 (external device 2) is executed as a trigger. Then, the processing unit 14 may execute the communication function when the detection unit 12 detects that the state of the environment in which the connection unit 11 is placed is out of the preset range in the detection mode. . Hereinafter, specific examples will be described. In the following, it is assumed that the voice interface 5 is a voice assistant device and is installed in a living room. In the following, it is assumed that the wiring device 1 is installed in the dressing room and the wiring device 1 has a temperature sensor as the detection unit 12.

  For example, the administrator emits a voice such as “take a bath” toward the voice interface 5. Then, the voice interface 5 analyzes this voice and transmits a control signal corresponding to the analysis result to the wiring device 1 in the dressing room via the receiving device 3. When receiving the control signal, the processing unit 14 of the wiring device 1 in the dressing room shifts to the detection mode. The detection unit 12 detects the temperature of the dressing room as the state of the environment where the wiring device 1 is placed. In the detection mode, the processing unit 14 determines whether or not the state of the environment where the connection unit 11 is placed is out of a preset range (in this case, whether the temperature of the dressing room is lower than a predetermined temperature). Or not).

  When the processing unit 14 determines that the temperature of the dressing room is lower than the predetermined temperature, the processing unit 14 includes the fact in the detection signal and executes the communication function. When the audio interface 5 receives the detection signal from the wiring device 1, it reproduces a warning message such as “The temperature of the dressing room is low”. In this configuration, the manager can know that the temperature of the dressing room is low before taking a bath, and thus it is easy to prevent the occurrence of heat shock. In the above specific example, the voice interface 5 is the control signal transmission source, but the mobile terminal 7 may be the control signal transmission source.

  In the present embodiment, the processing unit 14 executes the communication function when the detection unit 12 detects an abnormality related to the connection unit 11. However, the present invention is not limited to this. For example, the processing unit 14 may periodically execute the communication function regardless of whether or not an abnormality has occurred in the connection unit 11. In this case, the administrator can monitor the environment where the wiring device 1 is placed through the receiving device 3 (external device 2).

  Further, when the detection unit 12 includes a current sensor, the detection unit 12 indirectly detects the current flowing through the connection unit 11 to indirectly determine the operation state of the electric device A1 connected to the connection unit 11. It is possible to detect. Then, the processing unit 14 may periodically execute the communication function regardless of whether or not an abnormality has occurred in the connection unit 11. In this case, the administrator can periodically grasp the operating state of the electric device A1.

  In this embodiment, the interruption | blocking part 15 has a switch for returning to the original state from the state by which the electric circuit L1 was interrupted | blocked, but it is arbitrary whether this switch is provided. For example, the interruption | blocking part 15 may be comprised so that it may not return to the original state, once the electric circuit L1 is interrupted | blocked.

  In the present embodiment, the wiring device 1 may include a light emitting unit having a light emitting element such as a speaker or a light emitting diode. In this case, when the detection unit 12 detects an abnormality, the processing unit 14 may perform control to notify the abnormality to the surroundings by, for example, reproducing sound from a speaker or causing the light emitting unit to emit light. In this configuration, it is possible to notify a person around the wiring device 1 of the occurrence of an abnormality.

  The wiring device 1 is not limited to being used indoors, but may be used outdoors such as outside a building such as a parking lot. Further, the wiring device 1 is not limited to an outlet having no grounding electrode, and may be an outlet having a grounding electrode. Further, the wiring device 1 is not limited to an AC 100V outlet, and may be an AC 200V outlet or a DC outlet, for example. Furthermore, the wiring device 1 is not limited to an A type outlet, and may be an outlet that can connect a plug having a pin-shaped plug blade, such as a B type or a C type. In addition, the wiring device 1 is not limited to a two-port type outlet, and may be, for example, a one-port type or a three-port type outlet.

  Further, the wiring device 1 is not limited to the above-described outlet, and may be, for example, an information outlet to which a connector of a LAN (Local Area Network) cable can be connected, a USB (Universal Serial Bus) outlet, or the like. . That is, the wiring device 1 should just have the connection part 11 which can connect the electric equipment A1 electrically. And the wiring appliance 1 may be used in order to supply electric power from the power supply B1 to the electric equipment A1 like this embodiment, and may be used in order to connect the electric equipment A1 to the network N1.

  The communication method between the wiring device 1 and the receiving device 3 is not limited to the specific low power wireless, and may be other wireless communication such as Bluetooth (registered trademark) or Wi-Fi (registered trademark). The communication method between the wiring device 1 and the receiving device 3 may be a wired communication method such as, for example, power line communication.

  In the present embodiment, the receiving device 3 may be a local device used in, for example, a HEMS (Home Energy Management System). In the present embodiment, the receiving device 3 and the output device 4 may be configured as a single device. For example, the mobile terminal 7 may be configured to receive the detection signal from the wiring device 1 as the external device 2 without going through the receiving device 3. In this case, the communication method between the communication unit 13 of the wiring device 1 and the mobile terminal 7 is wireless communication such as Wi-Fi (registered trademark), for example.

  In the present embodiment, the mobile terminal 7 communicates with the receiving device 3 via the router 6 by Wi-Fi (registered trademark), but the present invention is not limited to this. For example, the mobile terminal 7 may be configured to communicate with the receiving device 3 via the network N1 without passing through the receiving device 3. In this case, the mobile terminal 7 is connected to the network N1 via a mobile phone network (carrier network) provided by a communication carrier. Examples of the mobile phone network include a 3G (third generation) line and an LTE (Long Term Evolution) line. In addition, the mobile terminal 7 may be connected to the network N1 via a public wireless LAN.

  In the present embodiment, the server 8 may have a function of transmitting a signal to the wiring device 1. For example, the server 8 transmits a signal for alive check (survival confirmation) to the wiring device 1, a signal for inquiring about the state of the wiring device 1, a signal for controlling the processing unit 14 of the wiring device 1, and the like. It may have the function to do.

  Although the wiring appliance system 100 of this embodiment is provided with the audio | voice interface 5, the portable terminal 7, and the server 8 as the output device 4, it is not the meaning limited to this. For example, the wiring device system 100 may include at least one device among the audio interface 5, the mobile terminal 7, and the server 8.

  In the present embodiment, the wiring device system 100 includes one wiring device 1, but the present disclosure is not limited to the number of wiring devices 1. For example, the wiring device system 100 may include a plurality of wiring devices 1. Moreover, the electric appliance A1 connected to the wiring device 1 may be plural.

  The execution subject of the wiring device 1 or the wiring device system 100 in the present disclosure includes a computer system. The computer system mainly includes a processor and a memory as hardware. When the processor executes the program recorded in the memory of the computer system, a function as an execution subject of the apparatus or the system in the present disclosure is realized. The program may be recorded in advance in the memory of the computer system, but may be provided through an electric communication line, or may be recorded in a recording medium such as a memory card, an optical disk, or a hard disk drive that can be read by the computer system. May be provided. A processor of a computer system includes one or more electronic circuits including a semiconductor integrated circuit (IC) or a large scale integrated circuit (LSI). The plurality of electronic circuits may be integrated on one chip, or may be distributed on the plurality of chips. The plurality of chips may be integrated into one device, or may be distributed and provided in a plurality of devices.

(Summary)
As described above, the wiring device (1) according to the first aspect includes the processing unit (14), the connection unit (11), the detection unit (12), and the communication unit (13). The connection part (11) can be electrically connected to the electric device (A1). The detection unit (12) detects the state of the environment where the connection unit (11) is placed. The communication unit (13) can communicate with an external device (2) different from the electric device (A1). The processing unit (14) has a communication function of controlling the communication unit (13) so as to transmit a detection signal including the detection result of the detection unit (12) to the external device (2).

  According to this aspect, there is an advantage that the administrator of the wiring device (1) can easily grasp the state of the wiring device (1).

  The wiring device (1) which concerns on a 2nd aspect is further equipped with the interruption | blocking part (15) in a 1st aspect. The shut-off unit (15) cuts off the electric circuit (L1) between the power source (B1) that supplies power to the electric device (A1) connected to the connection unit (11) and the connection unit (11). The processing unit (14) has a blocking function of controlling the blocking unit (15) to block the electric circuit (L1) when a predetermined condition is satisfied. The predetermined condition includes detecting an abnormality related to the connection unit (11) by the detection unit (12). A processing part (14) will perform a communication function, if abnormality is detected in the detection part (12).

  According to this aspect, there is an advantage that when an abnormality relating to the connection portion (11) occurs, it is easy to prevent an undesirable influence on the environment where the connection portion (11) is placed.

  In the wiring device (1) according to the third aspect, in the second aspect, when the processing unit (14) detects an abnormality in the detection unit (12), it executes a blocking function.

  According to this aspect, there is an advantage that, when an abnormality relating to the connection portion (11) occurs, it is easier to prevent an undesirable influence on the environment where the connection portion (11) is placed.

  In the wiring device (1) according to the fourth aspect, in the second or third aspect, the abnormality is divided into a plurality of stages. A processing part (14) will perform a communication function, if the detection part (12) detects abnormality of the stage before the abnormality of the stage which performs a interruption | blocking function.

  According to this aspect, there is an advantage that it is easy for the administrator of the wiring device (1) to grasp that some abnormality has occurred before the abnormality at the stage where the blocking function should be performed.

  In the wiring device (1) according to the fifth aspect, in any one of the second to fourth aspects, the abnormality relates to a decrease in the insulating performance of the connection portion (11).

  According to this aspect, there is an advantage that the manager of the wiring device (1) can easily take measures such as repairing the wiring device (1) or replacing it with a new one.

  In the wiring device (1) according to the sixth aspect, in any one of the second to fourth aspects, the abnormality is a shake greater than or equal to a predetermined seismic intensity due to an earthquake.

  According to this aspect, there is an advantage that the manager of the wiring device (1) can easily grasp whether or not there has been an earthquake that affects the building where the wiring device (1) is installed.

  In the wiring device (1) according to the seventh aspect, in any one of the first to sixth aspects, the detection signal includes identification information for identifying the wiring device (1) that is the transmission source of the detection signal.

  According to this aspect, there is an advantage that the administrator of the wiring device (1) can easily grasp which wiring device (1) has an abnormality.

  In the wiring device (1) according to the eighth aspect, in any one of the second to sixth aspects, the communication unit (13) is configured to receive a response signal to the detection signal from the external device (2). The The predetermined condition includes that the communication unit (13) receives the response signal.

  According to this aspect, after the administrator of the wiring device (1) confirms the detection signal from the wiring device (1), the circuit (L1) of the wiring device (1) is cut off by the administrator's own judgment. There is an advantage that is possible.

  In the wiring device (1) according to the ninth aspect, in any one of the first to eighth aspects, the processing unit (14) has a detection mode that is executed by using a control signal from the external device (2) as a trigger. doing. When the detection unit (12) detects that the state of the environment is out of the preset range in the detection mode, the processing unit (14) executes the communication function.

  According to this aspect, there is an advantage that the manager of the wiring device (1) can easily grasp the state of the environment where the wiring device (1) is placed at an arbitrary timing.

  A wiring device system (100) according to a tenth aspect includes any one of the first to ninth wiring devices (1), a receiving device (3), and an output device (4). The receiving device (3) is an external device (2) and receives a detection signal from the wiring device (1). The output device (4) outputs information corresponding to the detection signal received by the receiving device (3).

  According to this aspect, there is an advantage that the administrator of the wiring device (1) can easily grasp the state of the wiring device (1).

  About the structure which concerns on a 2nd-9th aspect, it is not an essential structure for wiring apparatus (1), and can be abbreviate | omitted suitably.

DESCRIPTION OF SYMBOLS 1 Wiring instrument 11 Connection part 12 Detection part 13 Communication part 14 Processing part 15 Blocking part 2 External apparatus 3 Reception apparatus 4 Output apparatus 100 Wiring instrument system A1 Electrical equipment B1 Power supply L1 Electric circuit

Claims (10)

A processing unit;
A connection that can be electrically connected to an electrical device;
A detection unit that detects a state of an environment in which the connection unit is placed;
A communication unit capable of communicating with an external device different from the electrical device,
The said processing part has a communication function which controls the said communication part so that the detection signal containing the detection result of the said detection part may be transmitted to the said external device. Further comprising a blocking unit that blocks a power path between the power source that supplies power to the electrical device connected to the connection unit and the connection unit;
The processing unit has a blocking function for controlling the blocking unit to block the electric circuit when a predetermined condition is satisfied,
The predetermined condition includes detecting an abnormality related to the connection unit in the detection unit,
The wiring device according to claim 1, wherein the processing unit executes the communication function when the detection unit detects the abnormality. The wiring device according to claim 2, wherein the processing unit executes the blocking function when the detection unit detects the abnormality. The abnormality is divided into a plurality of stages,
The wiring device according to claim 2 or 3, wherein the processing unit executes the communication function when the detection unit detects an abnormality at a stage prior to an abnormality at a stage of executing the blocking function. The wiring apparatus according to claim 2, wherein the abnormality relates to a decrease in insulation performance of the connection portion. The wiring apparatus according to any one of claims 2 to 4, wherein the abnormality is a swing greater than a predetermined seismic intensity due to an earthquake. The wiring device according to claim 1, wherein the detection signal includes identification information for identifying a wiring device that is a transmission source of the detection signal. The communication unit is configured to receive a response signal to the detection signal from the external device;
The wiring device according to any one of claims 2 to 6, wherein the predetermined condition includes the communication unit receiving the response signal. The processing unit has a detection mode that is executed using a control signal from the external device as a trigger,
The said processing part will perform the said communication function, if the said detection part detects that the state of the said environment is in the state deviated from the preset range in the said detection mode. The wiring apparatus according to item 1. The wiring device according to any one of claims 1 to 9,
A receiving device that is the external device and receives the detection signal from the wiring device;
An output device that outputs information according to the detection signal received by the receiving device.

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