JP2017069909A - State notification apparatus for electric device and status notification system for electric device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily and immediately realize a notification function of information on a state of an electric device including a household electrical appliance.SOLUTION: An electromagnetic wave sensor 31 is disposed in the vicinity of an electric device 2 having an electric motor, detects an electromagnetic wave emitted from the electric motor, and outputs a detection signal. Upon receipt of the detection signal output from the electromagnetic wave sensor 31, a short-range wireless transmission unit 33 transmits a beacon signal including an identification signal Ii corresponding to the detection signal by short-range wireless communication.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an electrical device state notification device and an electrical device state notification system.

  2. Description of the Related Art In recent years, home electric appliances (home appliances) having a function connectable to a home network, called network home appliances, smart home appliances, and the like, have been provided. By using such a home appliance, the user can control the operation of the home appliance and acquire the operation status (state) of the home appliance even in a place away from the place where the home appliance is installed. Become.

  For example, Patent Literature 1 proposes a network home appliance that can operate its operation from outside the home via a network.

JP 2006-203515 A

  By the way, in the technique disclosed in Patent Document 1, a configuration for detecting and notifying its own operation status, a configuration for communicating with a control device existing on a network, and the like are incorporated in the home appliance in advance. It realizes the function of notifying the state of equipment and the function of remote control of home appliances. That is, in the technique described in Patent Document 1, for a general home appliance sold in the market that does not have such a configuration, the user can acquire the state or perform remote operation. I can't do it.

  If a configuration for detecting and transmitting its own operation status is incorporated in an internal circuit of a general home appliance that does not have a network function, a notification function of the state of the home appliance can be realized. Specific examples of the function of detecting its own operating status include, for example, a function of detecting power supplied to a motor of a home appliance, a function of receiving a control signal output from a control circuit in the home appliance, and the like. Conceivable.

  Since it is considered difficult for a user of a home appliance to perform the operation of incorporating such a function into the home appliance, this operation needs to be performed at the manufacturing stage of the home appliance. However, even when the above functions are incorporated at the manufacturing stage, it is considered that a certain amount of time is required until home appliances incorporating the above functions are spread to general households. This is because household appliances such as household washing machines, vacuum cleaners, refrigerators, and air conditioners (hereinafter referred to as “air conditioners”) generally have a long product life and a long cycle of replacement by users.

  The present invention has been made in view of such a situation, and an object of the present invention is to easily and immediately realize a notification function of information related to the state of electrical devices including home appliances.

An electrical equipment state notification device according to the present invention includes an electromagnetic wave sensor and a short-range wireless transmission unit.
The electromagnetic wave sensor is disposed in the vicinity of an electric device having an electric motor, detects an electromagnetic wave emitted by the electric motor, and outputs a detection signal.
The short-range wireless transmission unit transmits a beacon signal including an identification signal corresponding to the detection signal by short-range wireless communication when triggered by the supply of the detection signal from the electromagnetic wave sensor.

An electrical equipment state notification system according to the present invention includes a state notification device and a communication terminal.
The state notification device is disposed in the vicinity of an electric device having an electric motor, detects an electromagnetic wave emitted by the electric motor and outputs a detection signal, and triggered by receiving the detection signal from the electromagnetic wave sensor. A short-range wireless transmission unit that transmits a beacon signal including identification information according to the short-range wireless communication.
The communication terminal receives the beacon signal, and outputs the short-range wireless reception unit that acquires the identification information included in the beacon signal, and the state information of the electrical device according to the identification information acquired by the short-range wireless communication unit And an output unit.

In the present invention configured as described above, the state of the electrical device, for example, the operation of the electrical device has started or stopped, or the electrical device is in operation, is detected by the electromagnetic wave sensor in the state notification device disposed near the electrical device. Then, a beacon signal including identification information corresponding to the electromagnetic wave detection signal is transmitted from the short-range wireless transmission unit. That is, the state of the electric device is notified by the beacon signal. Therefore, the user can easily and immediately realize the notification function of the information related to the state of the electric device only by arranging the state notification device in the vicinity of the electric device.
Problems, configurations, and effects other than those described above will be clarified by the following description of embodiments.

1 is a schematic diagram showing an overall configuration of an electrical equipment state notification system according to a first embodiment of the present invention. It is a block diagram which shows the internal structure of the status notification system of the electric equipment which concerns on the 1st Embodiment of this invention. It is a block diagram which shows the internal structure of the electromagnetic wave sensor which concerns on the 1st Embodiment of this invention. It is explanatory drawing which shows the data structure of the identification information database (DB) of this invention. 4A shows the data structure of the identification information DB when the threshold value is one, FIG. 4B shows the data structure of the identification information DB when the threshold value is two, and FIG. 4C shows the measured value of the sensor. The data structure of identification information DB at the time of matching the information regarding the operation | movement by a short distance radio | wireless transmission part is shown. It is explanatory drawing which shows the data structure of state information DB of this invention. 5A shows the data structure of the status information DB having identification information corresponding to the identification information shown in FIG. 4A, and FIG. 5B shows the data of the status information DB having identification information corresponding to the identification information shown in FIG. 4B. The structure is shown. It is a sequence diagram which shows operation | movement of each part which comprises the state notification system of the electric equipment which concerns on the 1st Embodiment of this invention. It is explanatory drawing which shows the example of a display of the status information of the electric equipment of this invention. FIG. 7A shows a display example of state information when the washing machine as an electric device is operating, FIG. 7B shows a display example of state information when the washing machine is stopped, and FIG. The example of a display of the status information at the time of also displaying the information of the operating time of a washing machine with the information that the washing machine is operating is shown. It is a block diagram which shows the internal structure of the state notification system of the electric equipment which concerns on the modification 1 of the 1st Embodiment of this invention. It is explanatory drawing which shows the data structure of state information DB which concerns on the modification 1 of the 1st Embodiment of this invention. It is a block diagram which shows the internal structure of the state notification system of the electric equipment which concerns on the modification 2 of the 1st Embodiment of this invention. It is a schematic diagram which shows the whole structure of the state notification system of the electric equipment which concerns on the 2nd Embodiment of this invention. It is a block diagram which shows the internal structure of the status notification system of the electric equipment which concerns on the 2nd Embodiment of this invention. It is a sequence diagram which shows operation | movement of each part which comprises the state notification system of the electric equipment which concerns on the 2nd Embodiment of this invention. It is a block diagram which shows the internal structure of the state notification system of the electric equipment which concerns on the modification 1 of the 2nd Embodiment of this invention. It is a block diagram which shows schematic structure of the state notification system of the electric equipment which concerns on the modification 2 of the 2nd Embodiment of this invention. It is a block diagram which shows schematic structure of the state notification system of the electric equipment which concerns on the modification 3 of the 2nd Embodiment of this invention.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described with reference to the accompanying drawings. In the present specification and drawings, components having substantially the same function or configuration are denoted by the same reference numerals, and redundant description is omitted.

<First Embodiment>
First, the contents of the electrical equipment state notification system according to the first embodiment of the present invention will be described.

[Entire configuration of electrical equipment status notification system]
First, with reference to FIG. 1, an overall configuration of an electrical equipment state notification system 1 according to the present embodiment will be described. FIG. 1 is a schematic diagram showing an overall configuration of an electrical equipment state notification system 1. As shown in FIG. 1, an electrical device state notification system 1 includes a wireless transmission device 3 as an electrical device state notification device and a communication terminal 4 attached to a side surface 2 a of a washing machine 2 as an example of an electrical device. With.

  The wireless transmission device 3 transmits a beacon signal to the surroundings using short-range wireless communication. The beacon signal transmitted from the wireless transmission device 3 includes identification information Ii corresponding to the level of electromagnetic waves emitted from a motor (not shown) of the washing machine 2.

  The communication terminal 4 analyzes the state of the electric device using the identification information Ii included in the beacon signal, and displays the state information Io of the electric device obtained by the analysis on the screen of the output unit 45. Or the communication terminal 4 accumulate | stores the status information Io obtained by analysis, or notifies outside.

  The wireless transmission device 3 is disposed at a position where the electromagnetic wave emitted from the motor of the washing machine 2 can be received. In the present embodiment, it is assumed that the motor of the washing machine 2 is disposed at a position close to the side surface 2a inside the washing machine 2 (not shown in FIG. 1). As long as the electromagnetic wave emitted from the motor can be received, the wireless transmission device 3 may be arranged at any position. For example, if it can be arranged inside the washing machine 2, it may be arranged inside the washing machine 2.

  The communication terminal 4 is arranged within a range where a radio wave of a beacon signal transmitted from the wireless transmission device 3 reaches. It is preferable to adopt Bluetooth (registered trademark), BLE (Bluetooth Low Energy), or the like as a standard for short-range wireless communication performed with the wireless transmission device 3. When these standards are adopted, the reach range of the beacon signal transmitted from the wireless transmission device 3 is about several tens of meters.

[Configuration of electrical equipment status notification system]
Next, the configuration of the electrical equipment state notification system 1 according to the first embodiment of the present invention will be described with reference to FIG. FIG. 2 is a block diagram showing an internal configuration of the electrical equipment state notification system 1. As shown in FIG. 2, the electrical device state notification system 1 includes a wireless transmission device 3 and a communication terminal 4.

  The wireless transmission device 3 includes an electromagnetic wave sensor 31, a storage unit 32, and a short-range wireless transmission unit 33. The electromagnetic wave sensor 31 detects an electromagnetic wave emitted with the operation of the washing machine 2, generates a detection signal according to the detected electromagnetic wave level, and supplies the generated detection signal to the short-range wireless transmission unit 33. A configuration example of the electromagnetic wave sensor 31 will be described later with reference to FIG.

  The storage unit 32 is configured by a storage medium (for example, a memory card) used as, for example, a RAM (Random Access Memory), a ROM (Read Only Memory), and the like. The storage unit 32 includes an identification information database (hereinafter referred to as “DB”). D1 is stored. The identification information DB D1 is a database that manages the threshold for determining the level of the electromagnetic wave level detected by the electromagnetic wave sensor 31 and the identification information Ii in association with each other. The data structure of the identification information DB D1 will be described later with reference to FIG.

  The short-range wireless transmission unit 33 reads the identification information Ii included in the detection signal from the identification information DB D1 in the storage unit 32 when the electromagnetic wave detection signal is supplied from the electromagnetic wave sensor 31. The short-range wireless transmission unit 33 generates a beacon signal including the read identification information Ii, and transmits the generated beacon signal by short-range wireless communication. When the BLE standard, for example, is applied as a communication standard for short-range wireless communication, the short-range wireless transmission unit 33 transmits advertising data including identification information Ii as a beacon signal to the surroundings of the wireless transmission device 3 by broadcasting. can do.

  As described above, the wireless transmission device 3 that transmits the beacon signal in a format compliant with the BLE standard has low power consumption. In addition, since power supply to the short-range wireless transmission unit 33 can be covered by a battery (not shown) built in the wireless transmission device 3, the function of the wireless transmission device 3 transmitting a beacon signal including the identification information Ii can be simplified. It can be realized by the configuration.

  The communication terminal 4 includes a short-range wireless reception unit 41, a storage unit 42, a processing unit 43, a terminal-side communication unit 44, an output unit 45, and an input unit 46. The short-range wireless reception unit 41 receives the beacon signal transmitted from the short-range wireless transmission unit 33 of the wireless transmission device 3.

  The storage unit 42 is configured by, for example, a storage medium used as a RAM, a ROM, or the like. The storage unit 42 stores application programs, parameters, various data (not shown), and state information DB D2. The state information DB D2 includes identification information Ii included in the beacon signal transmitted from the short-range wireless transmission unit 33 of the wireless transmission device 3, and state information Io (not shown in FIG. 2) indicating the operating state of the electrical device. It is a database managed in association with each other. The configuration of the status information DB D2 will be described later with reference to FIG.

  The processing unit 43 is configured by, for example, a CPU (Central Processing Unit), and controls the operation of each unit in the communication terminal 4 by executing an application program read from the storage unit 42. When the short-range wireless receiving unit 41 receives the beacon signal, the processing unit 43 extracts the identification information Ii included in the beacon signal, and the state information Io corresponding to the identification information Ii is the state information in the storage unit 42. Read from DB D2. The process of reading the state information Io corresponding to the identification information Ii from the state information DB D2, that is, the process of analyzing the state of the electrical device using the state information Ii, and in the following description, this process Is also referred to as an analysis process of the state of the electrical equipment. Further, the processing unit 43 outputs the state information Io read from the storage unit 42 to the output unit 45 and / or the terminal side communication unit 44. Further, the processing unit 43 performs processing corresponding to the content of the instruction input from the input unit 46, control of communication with the outside by the terminal side communication unit 44, and the like. The terminal-side communication unit 44 performs wireless or wired communication with an external device such as a base station, an access point, or a personal computer.

  The output unit 45 outputs the state information Io read from the state information DB D2 in the storage unit 42 by the processing unit 43. The output unit 45 notifies the state information Io and / or information on the electrical device from which the state information Io is acquired. Note that the information output by the output unit 45 includes not only characters and images, but also vibrations and alarms of the communication terminal 4 and generation of voice messages.

  The input unit 46 receives a user operation. This input unit 46 is a processing unit that displays the contents of operation input performed by screen touch (tap) in addition to operation input performed on buttons and switches (not shown) arranged in the casing of the communication terminal 4. Output to 43. In the communication terminal 4, the input unit 46 and the output unit 45 are used as a touch panel display in which an operation surface and a display surface are overlapped.

[Configuration of electromagnetic wave sensor]
Next, the configuration of the electromagnetic wave sensor 31 will be described with reference to FIG. FIG. 3 is a block diagram showing the internal configuration of the electromagnetic wave sensor. As shown in FIG. 3, the electromagnetic wave sensor 31 includes an antenna 31a, a resonance circuit 31b, and a current detection unit 31c as a detection unit.

  The antenna 31a includes, for example, a loop antenna formed as a pattern on a substrate and an inductor (coil) (both not shown), and receives electromagnetic waves. The resonance circuit 31b is a circuit composed of a capacitor and an inductor. When the antenna 31a receives an electromagnetic wave, an electric current flows in the resonance circuit 31b due to electrical resonance. The current detection unit 31c detects a current flowing through the resonance circuit 31b, and generates and outputs a detection signal corresponding to the detected current level. The configuration of the electromagnetic wave sensor 31 is not limited to the above configuration, and any configuration may be used as long as it can detect an electromagnetic wave emitted from an electric device whose operation status is to be acquired.

[Configuration example of identification information DB and status information DB]
Next, referring to FIG. 4 and FIG. 5, the identification information DB D1 stored in the storage unit 32 (see FIG. 2) of the wireless transmission device 3 and the state information stored in the storage unit 42 of the communication terminal 4 The data structure of DB D2 will be described. FIG. 4 shows the data structure of the identification information DB D1, and FIG. 5 shows the data structure of the state information DB D2.

  First, the data structure of the identification information DB D1 will be described with reference to FIG. As described above, the identification information DB D1 is a database that manages the threshold Th for determining the level of the electromagnetic wave received by the electromagnetic wave sensor 31 (see FIG. 2) and the identification information Ii in association with each other.

  The identification information DB D1 illustrated in FIG. 4A includes fields of “measured value of sensor” and “identification information Ii”. In the “sensor measurement value” field, two electromagnetic wave level ranges shown as “threshold Th or more” and “less than threshold Th” are stored.

  In the “identification information Ii” field, identification information Ii associated with the electromagnetic wave level stored in the “sensor measurement value” field is stored. In the example shown in FIG. 4A, the identification information Ii “I1” is associated with the item “measured value of sensor” of “threshold Th or more”, and the identification information “I2” is associated with the item “less than threshold Th”. Ii is associated.

  For example, by setting the electromagnetic wave level measured during the operation of the washing machine 2 (see FIG. 1) to the threshold Th, the measured value of the electromagnetic wave equal to or higher than the threshold Th measured during the operation of the washing machine 2 and the washing The measured value of the electromagnetic wave less than the threshold Th measured while the machine 2 is stopped can be identified by different identification information Ii (I1 or I2). In other words, the operating state (state) of the washing machine 2 can be divided into two states of “operating” and “stopped”.

  The number of threshold values Th stored in the identification information DB D1 is not limited to one, and a plurality of threshold values Th may be set. FIG. 4B shows an example in which two threshold values, a threshold Th1 and a threshold Th2, are used. In the identification information DB D1A shown in FIG. 4B, the identification information Ii of “I1 ′” is associated with the item “threshold value Th1 or more” of the “sensor measurement value”, The item is associated with identification information Ii of “I2 ′”, and the item of “less than threshold Th2” is associated with identification information Ii of “I3 ′”.

  As the threshold Th1, for example, a value capable of distinguishing the “dehydrating” state and the “washing” state of the washing machine 2 is set, and as the threshold Th2, the “washing” state and “stopping” of the washing machine 2 are set. Is set to a value that can be distinguished from the state of "." By setting the threshold value Th1 and the threshold value Th2 to such values, the measured value of the electromagnetic wave equal to or higher than the threshold value Th1 measured during the dehydrating operation of the washing machine 2 and the threshold value Th2 measured during the washing operation of the washing machine 2 The three values of identification information Ii, I1 ′, I2 ′ and I3 ′, are the above measured values of electromagnetic waves below the threshold Th1 and measured values of electromagnetic waves below the threshold Th2 measured while the washing machine 2 is stopped. Can be identified by That is, the state of the washing machine 2 can be classified into three states of “dehydrating”, “washing”, and “stopped”.

  In addition, in the example demonstrated with reference to FIG. 4A and FIG. 4B, it is assumed with respect to the level of electromagnetic waves less than threshold value Th or the level of electromagnetic waves less than threshold value Th2, which is assumed to be measured while the washing machine 2 is stopped. Although the identification information Ii is associated, the present invention is not limited to this. The identification information Ii may not be associated with the electromagnetic wave level measured while the washing machine 2 is stopped. Further, the identification information DB may be set so that the short-range wireless transmission unit 33 of the wireless transmission device 3 does not transmit the beacon signal including the identification information Ii while the washing machine 2 is stopped.

  The identification information DB D1B illustrated in FIG. 4C includes three fields of “sensor measurement value”, “identification information Ii”, and “operation of the short-range wireless transmission unit”. Information on whether or not the short-range wireless transmission unit 33 transmits the identification information Ii is stored in the “operation of the short-range wireless transmission unit” field. In the identification information DB D1B, the field “I1 ″” is associated with the “threshold value Th or more” field of the “sensor measurement value”, whereas the field “less than the threshold Th” is associated with the field “less than the threshold Th”. Is not associated with the identification information Ii.

  Furthermore, in the field of “operation of the short-range wireless transmission unit” in the identification information DB D1B, information on the operation “send identification information” is stored in the item corresponding to “the threshold value Th or more” of the “sensor measurement value”. On the other hand, in the item corresponding to “less than threshold Th”, operation information “do nothing” is stored. “Do nothing” means that the short distance wireless transmission unit 33 does not transmit the identification information Ii.

  By configuring the identification information DB D1B in this way, when an electromagnetic wave less than the threshold Th is measured by the electromagnetic wave sensor 31 in a state where the washing machine 2 is stopped, for example, “operation of the short-range wireless transmission unit” The item “do nothing” is selected in this field. That is, the short-range wireless transmission unit 33 does not transmit a beacon signal including the identification information Ii. On the other hand, when the electromagnetic wave sensor 31 measures an electromagnetic wave that is equal to or greater than the threshold Th during the operation of the washing machine 2, the identification information Ii whose value is I1 ″ from the short-range wireless transmission unit 33 of the wireless transmission device 3. A beacon signal including is transmitted.

  In the identification information DB D1, the identification information DB D1A, and the identification information DB D1B, when the detection signal is not supplied from the electromagnetic wave sensor 31, that is, the electromagnetic wave sensor 31 does not detect the electromagnetic wave (not detected). ) The case is not assumed, but the case of non-detection may also be specified. For example, when the electromagnetic wave sensor 31 does not detect an electromagnetic wave, the identification information DB is defined so that the identification signal Ii indicating that the operation of the electric device is stopped is transmitted from the short-range wireless transmission unit 33. May be.

  Next, the data structure of the state information DB D2 will be described with reference to FIG. As described above, the state information DB D2 associates the identification information Ii transmitted from the short-range wireless transmission unit 33 (see FIG. 2) of the wireless transmission device 3 with the state information Io indicating the state of the electrical device. It is a database to be managed. The value of the identification information Ii in the state information DB D2 shown in FIG. 5A corresponds to the value of the identification information Ii stored in the identification information DB D1 shown in FIG. 4A, and the identification in the state information DB D2A shown in FIG. 5B. The value of the information Ii corresponds to the value of the identification information Ii stored in the identification information DB D1A shown in FIG. 4B.

  In the “identification information Ii” field shown in FIGS. 5A and 5B, the value of the identification information Ii transmitted from the short-range wireless transmission unit 33 of the wireless transmission device 3 is stored, and in the “state information Io” field, Stores state information Io of the electrical equipment corresponding to the identification information Ii.

  In the field of “identification information Ii” of the state information DB D2 shown in FIG. 5A, identification information Ii whose value is “I1” and identification information Ii whose value is “I2” are stored. In the “status information Io” field, “in operation” is stored as the status information Io corresponding to the identification information Ii1 whose value is “Ii”, and “stopped” is stored as the status information Io corresponding to the identification information Ii2. Has been.

  In the field of “identification information Ii” of the state information DB D2A shown in FIG. 5B, three identification information Ii of “I1 ′”, “I2 ′”, and “I3 ′” is stored. In the field of “status information Io”, “dehydrating” is stored as status information Io corresponding to identification information Ii of “I1 ′”, and “laundry” is set as status information Io corresponding to identification information Ii of “I2 ′”. “Middle” is stored, and “Stopped” is stored as the status information Io corresponding to the identification information Ii of “I3 ′”.

  By configuring the state information DB D2 or the state information DB D2A in this manner, the processing of the communication terminal 4 based on the identification information Ii included in the beacon signal transmitted from the short-range wireless transmission unit 33 of the wireless transmission device 3 The unit 43 (see FIG. 2) can acquire the state information Io of the electric equipment.

[Electric device status notification system status notification processing]
Next, the contents of the state notification process by the state notification system 1 of the electric device according to the first embodiment will be described with reference to FIG. FIG. 6 is a sequence diagram showing the operation of each unit constituting the state notification system 1 of the electrical equipment.

  First, when an electromagnetic wave detection signal is generated and output by the electromagnetic wave sensor 31 (see FIG. 2) of the wireless transmission device 3 (step S1), the short-range wireless transmission unit 33 stores identification information Ii corresponding to the detection signal. It is acquired from the identification information DB D1 of the unit 32 (step S2). Then, a beacon signal including the identification information Ii is transmitted from the short-range wireless transmission unit 33 of the wireless transmission device 3 (step S3).

  Subsequently, when the beacon signal is received by the short-range wireless reception unit 41 (see FIG. 2) of the communication terminal 4 (step S4), the reception unit identifies the beacon signal by the processing unit 43 of the communication terminal 4. Information Ii is extracted (step S5). Similarly, the processing unit 43 acquires the state information Io associated with the identification information Ii extracted in step S5 from the state information DB D2 in the storage unit 42 (step S6). Subsequently, the state information Io read in step S6 is displayed on the screen of the output unit 45 of the communication terminal 4 (step S7).

  For example, if the electromagnetic wave sensor 31 detects an electromagnetic wave level equal to or higher than the threshold value Th (see FIG. 4A) in step S1, the short-range wireless transmission unit 33 of the wireless transmission device 3 transmits the communication terminal 4 in step S3. A beacon signal including identification information Ii whose value corresponding to the level of the electromagnetic wave equal to or greater than the threshold Th is “I1” is transmitted to the short-range wireless reception unit 41. Then, in the communication terminal 4 that has received the beacon signal in step S4, the “in operation” state information Io (see FIG. 5A) previously associated with the identification information Ii is read and read in step S6. The state information Io is displayed on the screen of the output unit 45 in step S7.

[Display example of status information]
Next, a display example of the state information Io of the electric device will be described with reference to FIG. FIG. 7 is an explanatory diagram illustrating a display example of the state information Io of the electrical device. 7A and 7C are explanatory diagrams illustrating display examples when the state of the washing machine 2 as an electric device is “in operation”, and FIG. 7B is a state in which the state of the washing machine 2 is “stopped”. It is explanatory drawing which shows the example of a display in a case.

  As shown in FIGS. 7A to 7C, an electrical device information display area 45 a, an image display area 45 b, and a status information display area 45 c are displayed on the output unit 45 of the communication terminal 4. In the electric equipment information display area 45a, information related to the electric equipment such as the model number of the electric equipment is displayed. 7A to 7C show an example in which the model number of the washing machine 2 as the electric device is “D-001”. The information shown in the electric equipment information display area 45a is not limited to the model number of the electric equipment, and for example, the product name of the electric equipment, the name registered by the user, or the like may be displayed.

  In the image display area 45b indicated by a broken line, an image showing an electrical device is shown. Moreover, in the example shown to FIG. 7A-FIG. 7C, the status information Io of the washing machine 2 as an electric equipment is also shown by the picture. That is, FIG. 7A and FIG. 7C display a picture of the washing machine with the lid closed indicating that the washing machine 2 is operating, and FIG. 7B shows that the washing machine 2 is stopped. A picture of the washing machine with the lid opened is displayed.

  In the status information display area 45c, the status of the electrical device specified by the status information Io is indicated by characters. In the example shown in FIG. 7A indicating that the washing machine 2 is operating, the characters “in operation” are displayed, and in the example illustrated in FIG. 7B indicating that the washing machine 2 is stopped, “Stop” The characters “medium” are displayed.

  In the example shown in FIG. 7C, in the state information display area 45c, the “operation time”, that is, the continuation of the state in which the washing machine 2 is in operation, together with the characters “in operation” indicating that the washing machine 2 is in operation. Time is shown as “HH: MM”. The information on “driving time” can be calculated by the processing unit 43 using information such as the time when the short-range wireless reception unit 41 (see FIG. 2) of the communication terminal 4 receives the beacon signal, for example.

  The “driving time” is the time from the start of the washing machine 2 to the end of the operation. The operation start time of the washing machine 2 is obtained as the time when the short-range wireless reception unit 41 first receives a beacon signal including identification information Ii corresponding to the level of electromagnetic waves detected during the operation of the washing machine 2. Can do. The processing unit 43 records this time in the storage unit 42 as “operation start time”. Further, the operation end time of the washing machine 2 is obtained as the time when the short-range wireless reception unit 41 receives a beacon signal including the identification information Ii corresponding to the level of the electromagnetic wave detected while the washing machine 2 is stopped. Can do. The processing unit 43 records this time in the storage unit 42 as “operation end time”.

  Until the end of the operation of the washing machine 2 is detected, the processing unit 43 of the communication terminal 4 displays the elapsed time from the operation start time as the “operation time” in the state information display area 45c of the output unit 45. And the process part 43 complete | finishes the count of the elapsed time from driving | operation start time at the timing which detected the driving | operation completion of the washing machine 2. FIG. At this time, the processing unit 43 may display the “operation end time” information in the state information display area 45 c of the output unit 45.

  When the identification information DB D1B shown in FIG. 4C is used as the identification information DB, a beacon signal including the identification information Ii is not transmitted from the wireless transmission device 3 while the washing machine 2 is stopped. In this case, the time at which the short-range wireless reception unit 41 first received the beacon signal, or the time at which the short-range wireless reception unit 41 has received the beacon signal again after a predetermined time has elapsed since it has stopped receiving the beacon signal, What is necessary is just to record as "operation start time".

  Further, when the washing machine 2 is stopped, when the identification information DB is defined so as to transmit the identification information Ii indicating that the washing machine 2 is stopped, the value of the identification information Ii included in the beacon signal is The time at which the signal indicating “stopped” is changed to one corresponding to the electromagnetic wave level may be recorded as “operation start time”. As the “operation end time”, the time when the value of the identification information Ii changes from that corresponding to the level of the sensor value to that indicating “stopped” may be recorded.

  By accumulating the information on the “drive start time” and “drive end time” recorded by the above-described method, the “drive time” that is the time from the “drive start time” to the “drive end time” is It can also be recorded as an operation record of the machine 2.

  In addition, the determination of the “operation time” can be performed by using both information on the level of the electromagnetic wave included in the identification information Ii and information on the time during which the supply of the beacon signal including the identification information Ii is continued. . For example, when the short-range wireless reception unit 41 continues to receive a beacon signal including identification information Ii indicating that the electromagnetic wave level is a predetermined value or more for 60 minutes, the washing machine 2 is operating for 60 minutes. Can be determined. In this case, the 60 minutes is the “operation time”.

  In the electrical device state notification system 1 of the first embodiment, the identification information Ii corresponding to the level of the electromagnetic wave emitted from the electrical device is transmitted as a beacon signal from the short-range wireless transmission unit 33 of the wireless transmission device 3, Received by the short-range wireless reception unit 41 of the communication terminal 4. Then, the state information Io corresponding to the identification information Ii included in the beacon signal is acquired by the processing unit 43 of the communication terminal 4, and the acquired state information Io is displayed on the screen of the output unit 45.

  Therefore, for example, when the operation of the electric device starts or stops, a notification that notifies the user is displayed on the screen of the output unit 45 of the communication terminal 4 owned by the user. That is, according to the electrical device state notification system 1 of the present embodiment, the user of the communication terminal 4 can easily and immediately know the state of the electrical device.

  Further, according to the electrical device state notification system 1 of the first embodiment, since the state of the electrical device is notified by the communication terminal 4, the user of the communication terminal 4 leaves the place where the electrical device is disposed. Even if the user is in a living room, for example, in the living room, the user can grasp the state of the electrical device.

  Moreover, according to the state notification system 1 of the electrical device of the first embodiment, wireless transmission is performed by placing the wireless transmission device 3 including the electromagnetic wave sensor 31 in the vicinity of the electrical device from which information regarding the state is desired. The state information Io of the electrical device is notified to the user via the communication terminal 4 that has received the beacon signal transmitted from the device 3. Therefore, the user does not need to perform troublesome processing such as disassembling the control circuit of the electrical device for which information on the state is to be acquired and incorporating the function of the wireless transmission device 3, and the wireless transmission device 3 is arranged in the vicinity of the electrical device. By simply doing this, it is possible to easily know the state of the electrical device via the communication terminal 4.

  As a result, the user waits for the replacement timing of an existing electrical device or waits for the replacement timing in order to purchase a new type of electrical device such as a network home appliance that has a function of notifying the state of the electrical device in advance. Therefore, it is not necessary to purchase a new electric device. In other words, the user can introduce the state notification function of the electric device immediately and without much cost at the timing when the user wants to introduce the state notification function of the electric device.

  In the first embodiment, the example in which the electric device is applied to the washing machine 2 has been described. However, the present invention is not limited to this. If it is an electric device that has an electric motor (motor) that generates an electromagnetic wave in accordance with its operation, it can be applied to various electric devices such as an air conditioner, an air cleaner, a television receiver, a vacuum cleaner, or a fan. It is. For example, when the electric device is applied to an air conditioner, the communication terminal 4 can notify the user of the operation state (operation mode) such as “weak operation” or “strong operation”.

  Moreover, although the example which performs notification of the state of the electric equipment (washing machine 2) specified by the state information Io and the operation start time is given in the first embodiment, it is obtained by analyzing these pieces of information. Further information may be notified to the user. For example, when it is found from the state information Io of the washing machine 2 that the washing machine 2 is in operation, the operation patterns such as “washing”, “dehydrating”, “stopping” due to drainage, etc. are analyzed, By referring to the operation start time, it is possible to predict the operation course that the washing machine 2 is currently executing (in other words, a programmed series of operation contents) and the operation end time. By notifying the estimated time for the end of operation of the washing machine 2 as described above, the convenience for the user can be further improved. In addition, about the information used in order to analyze the information regarding the state of an electric equipment, such as an operation pattern and driving time in the example of the above-mentioned washing machine 2, storage part 32 of wireless transmission device 3, storage part 42 of communication terminal 4, Alternatively, it may be stored in an external device memory or the like so that it can be referred to as appropriate.

  In addition, even an apparatus that does not have an electric motor can be applied to the electric apparatus of the present invention as long as it is an apparatus that generates an electromagnetic wave with an operation, such as an AC adapter. Furthermore, as long as the device generates an electromagnetic wave in accordance with the operation, the electric device of the present invention can be applied not only to home appliances but also to industrial devices.

<Variation 1 of the first embodiment>
Next, an electrical equipment state notification system 1A according to Modification 1 of the first embodiment of the present invention will be described with reference to FIG. In this example, the analysis process of the state of the electrical device performed by the communication terminal 4 in the first embodiment described above is performed in the wireless transmission device 3A.

  FIG. 8 is a block diagram showing an internal configuration of the electrical equipment state notification system 1A. As shown in FIG. 8, the electrical apparatus state notification system 1A of this example includes a wireless transmission device 3A and a communication terminal 4A. In the wireless transmission device 3A of this example, the configuration differs from the wireless transmission device 3 of the first embodiment in that the processing unit 34 is included, and the storage unit 32 is not the identification information DB D1, but the state information. It is a point provided with DB D2B. The state information DB D2B is a database that manages a threshold value for determining the level of the electromagnetic wave level detected by the electromagnetic wave sensor 31 and the state information Io of the electrical device in association with each other.

  When the electromagnetic wave detection signal is supplied from the electromagnetic wave sensor 31, the processing unit 34 of the wireless transmission device 3 </ b> A receives the state information Io corresponding to the level of the electromagnetic wave included in the detection signal as the state information DB in the storage unit 32. Read from D2B and supply the read state information Io to the short-range wireless transmission unit 33. The short-range wireless transmission unit 33 includes the state information Io supplied from the processing unit 34 in the beacon signal, and transmits the beacon signal including the state information Io by short-range wireless communication.

  Here, the data structure of the state information DB D2B will be described with reference to FIG. The state information DB D2B includes fields of “measured value of sensor” and “state information Io”. In the “sensor measurement value” field, similarly to the example described with reference to FIG. 4A, the electromagnetic wave level is divided into two ranges of “threshold value Th” or “less than threshold value Th” and stored. ing.

  In the “state information Io” field, state information Io associated with the electromagnetic wave level stored in the “sensor measurement value” field is stored. In the example shown in FIG. 9, “in operation” state information Io is associated with an item “measured value of sensor” of “threshold Th or more”, and “under stop” is associated with an item of “less than threshold Th”. State information Io is associated.

  Returning to FIG. 8 again, the description will be continued. The communication terminal 4A shown in FIG. 8 is different from the communication terminal 4 in the first embodiment in that the storage unit 42 does not have a database such as the state information DB D2. The short-range wireless reception unit 41 of the communication terminal 4A receives the beacon signal transmitted from the short-range wireless transmission unit 33 of the wireless transmission device 3A. In addition, the processing unit 43 extracts the state information Io from the beacon signal received by the short-range wireless reception unit 41 and displays the state information Io on the screen of the output unit 45.

  By configuring the electrical apparatus state notification system 1A in this way, when the electromagnetic wave sensor 31 of the wireless transmission device 3A detects an electromagnetic wave level lower than the threshold Th, for example, the processing unit 34 of the wireless transmission device 3A. Thus, the “stopped” state information Io corresponding to the electromagnetic wave level less than the threshold Th is read from the state information DB D2. A beacon signal including state information Io indicating “stopped” is transmitted from the short-range wireless transmission unit 33 of the wireless transmission device 3A to the short-range wireless reception unit 41 of the communication terminal 4A.

  Upon receiving the beacon signal transmitted from the short-range wireless transmission unit 33 of the wireless transmission device 3A, the short-range wireless reception unit 41 of the communication terminal 4A supplies the received beacon signal to the processing unit 43. The processing unit 43 extracts the state information Io indicating “stopped” included in the beacon signal, and supplies the extracted state information Io to the output unit 45. The output unit 45 displays the state information Io supplied from the processing unit 43 on the screen.

  In the electrical device status notification system 1A of this example, electrical device status information Io is transmitted from the wireless transmission device 3A to the communication terminal 4A, and the status information Io is displayed on the screen of the output unit 45 of the communication terminal 4A. Is displayed. Therefore, according to the state notification system 1A of the electrical device of this example, the communication terminal 4A only needs to perform only the process of displaying the state information Io on the screen of the output unit 45. Therefore, for example, even in the communication terminal 4A having a low processing capability, the state information Io of the electric device can be immediately displayed without increasing the processing load so much. In addition, the communication terminal 4A in this example does not need to store the state information DB D2 as shown in FIG. 5A in the storage unit 42, so that the storage capacity of the storage unit 42 can be saved.

<Modification 2 of the first embodiment>
Next, an electrical equipment state notification system 1B according to Modification 2 of the first embodiment of the present invention will be described with reference to FIG.

  FIG. 10 is a block diagram showing the internal configuration of the electrical device status notification system 1B. As shown in FIG. 10, the electrical device state notification system 1 </ b> B of this example includes a wireless transmission device 3, a communication terminal 4 </ b> A, and an analysis server 5. In the electrical equipment state notification system 1B, the analysis server 5 performs processing for analyzing the state of the electrical equipment.

  The wireless transmission device 3 in this example has the same configuration as the wireless transmission device 3 (see FIG. 2) of the first embodiment, and the identification information DB D1 (see FIG. 4A) is stored in the storage unit 32. Has been. 10 shows an example in which the identification information DB in the storage unit 32 is the identification information DB D1 shown in FIG. 4A, but the type of the identification information DB stored in the storage unit 32 is not limited to this. . For example, other identification information DBs such as the identification information DB D1A illustrated in FIG. 4B and the identification information DB D1B illustrated in FIG. 4C may be stored in the storage unit 32.

  The communication terminal 4A has the same configuration as that of the communication terminal 4A of Modification 1 (see FIG. 8). The terminal-side communication unit 44 of the communication terminal 4 </ b> A is used as an interface with the network N when the processing unit 43 transmits and receives information to and from the analysis server 5. As the network N, for example, a wireless LAN (Local Area Network) is used. The terminal-side communication unit 44 transmits the state information Ii received from the wireless transmission device 3 by the short-range wireless reception unit 41 to the analysis server 5 and the state information Io received from the analysis server 5 via the network N. This is supplied to the processing unit 43.

  The analysis server 5 includes a server side communication unit 51 and a storage unit 52. The server-side communication unit 51 is connected to the terminal-side communication unit 44 of the communication terminal 4A via the network N, and transmits / receives information to / from the terminal-side communication unit 44 of the communication terminal 4A.

  The storage unit 52 is configured by a large-capacity storage device such as an HDD (Hard Disk Drive), and includes a state information DB D2 (see FIG. 5A). 10 illustrates an example in which the state information DB stored in the storage unit 52 is the state information DB D2 illustrated in FIG. 5A. However, the type of the state information DB stored in the storage unit 52 is the same. It is not limited. Another state information DB such as the state information DB D1B illustrated in FIG. 5B may be stored in the storage unit 52.

  In the electrical apparatus state notification system 1B of this example, when an electromagnetic wave emitted from the washing machine 2 as an electrical apparatus is detected by the electromagnetic wave sensor 31 of the wireless transmission apparatus 3, the short-range wireless transmission unit 33 of the wireless transmission apparatus 3 is detected. A beacon signal including identification information Ii corresponding to the level of electromagnetic waves emitted from the washing machine 2 is transmitted to the short-range wireless reception unit 41 of the communication terminal 4A.

  In the communication terminal 4A, when the short-range wireless reception unit 41 receives the beacon signal, the processing unit 43 extracts the identification information Ii from the beacon signal. The identification information Ii extracted by the processing unit 43 is supplied to the terminal side communication unit 44 and transmitted to the server side communication unit 51 of the analysis server 5 by the terminal side communication unit 44.

  When the server side communication unit 51 of the analysis server 5 receives the identification information Ii transmitted from the terminal side communication unit 44 of the communication terminal 4A, the server side communication unit 51 refers to the state information DB D2 stored in the storage unit 52 and receives the received identification information. The status information Io corresponding to the information Ii is acquired. Then, the server side communication unit 51 transmits the acquired state information Io to the terminal side communication unit 44 of the communication terminal 4A via the network N.

  When the terminal side communication unit 44 of the communication terminal 4 </ b> A receives the state information Io transmitted from the server side communication unit 51 of the analysis server 5, the terminal side communication unit 44 supplies the received state information Io to the processing unit 43. The processing unit 43 supplies the status information Io supplied from the terminal side communication unit 44 to the output unit 45 and displays the status information Io on the screen of the output unit 45.

  In the electrical device state notification system 1B of this example, since the analysis server 5 performs the process of analyzing the state of the electrical device, the processing load in the communication terminal 4A is similar to the effect obtained by the modification 1 shown in FIG. And the processing load of the wireless transmission device 3 can be reduced.

<Second Embodiment>
Next, an electrical equipment state notification system 1C according to a second embodiment of the present invention will be described with reference to FIGS.

[Entire configuration of electrical equipment status notification system]
First, with reference to FIG. 11, an overall configuration of an electrical equipment state notification system 1 </ b> C according to the present embodiment will be described. FIG. 11 is a schematic diagram showing the overall configuration of the electrical equipment state notification system 1C. As shown in FIG. 11, the electrical device status notification system 1C of the present embodiment is a wireless transmission device 3 as a status notification device (status notification unit) attached to the side surface 2a of the washing machine 2 as an electrical device. A network device 6 as a network device unit and a communication terminal 4B are provided. The wireless transmission device 3 detects an electromagnetic wave emitted from the washing machine 2 and transmits a beacon signal including identification information Ii corresponding to the detected level of the electromagnetic wave to the network device 6.

  The network device 6 is a device capable of performing both short-range wireless communication and network communication, and is disposed within a range where a radio wave of a beacon signal transmitted from the wireless transmission device 3 reaches. When the network device 6 receives the beacon signal transmitted from the wireless transmission device 3, the network device 6 extracts the identification information Ii included in the received beacon signal, and sends the extracted identification information Ii to the communication terminal 4B via the network N. Send. The connection means to the network N by the network device 6 may be either wired communication or wireless communication. Wireless communication may be performed via an access point or a modem.

  The communication terminal 4B is connected to the network N by wireless communication such as mobile communication or wireless LAN. When the communication terminal 4B receives the beacon signal transmitted from the network device 6, the communication terminal 4B extracts the identification information Ii included in the received beacon signal and acquires the state information Io of the electrical device corresponding to the extracted identification information Ii. The acquired state information Io is displayed on the screen of the output unit 45. Alternatively, the communication terminal 4B accumulates the acquired state information Io or notifies the outside.

  In the electrical device status notification system 1C of the present embodiment, the wireless transmission device 3 and the network device 6 are installed in the house where the washing machine 2 as the electrical device is installed (the range is indicated using a one-dot chain line in FIG. 11). However, the communication terminal 4B may be located at any place inside or outside the house.

[Configuration of electrical equipment status notification system]
Next, the configuration of an electrical equipment state notification system 1C according to the second embodiment will be described with reference to FIG. FIG. 12 is a block diagram showing the internal configuration of the electrical device status notification system 1C.

  The wireless transmission device 3 of the present embodiment has the same configuration as that of the wireless transmission device 3 (see FIG. 2) of the first embodiment, and the identification information DB D1 (see FIG. 4A) is stored in the storage unit 32. It is remembered. 12 shows an example in which the identification information DB stored in the storage unit 32 is the identification information DB D1 shown in FIG. 4A, but the identification information DB stored in the storage unit 32 is not limited to this example. This is as described above.

  The network device 6 includes a short-range wireless reception unit 61, a storage unit 62, a processing unit 63, and a device-side communication unit 64. Upon receiving the beacon signal transmitted from the short-range wireless transmission unit 33 of the wireless transmission device 3, the short-range wireless reception unit 61 supplies the received beacon signal to the processing unit 63. The storage unit 62 is configured by a storage medium used as a RAM, a ROM, or the like, for example, and stores identification information It of the communication terminal 4B. The identification information It of the communication terminal 4B is information that can specify the communication terminal 4B as a communication partner. For example, the mail address set in the communication terminal 4B or the IP (Internet Protocol) of the communication terminal 4B. It consists of an address.

  The processing unit 63 is configured by a CPU or the like, for example, and controls the operation of each unit in the network device 6. When receiving the beacon signal from the short-range wireless reception unit 61, the processing unit 63 extracts the identification information Ii included in the beacon signal. In addition, the processing unit 63 reads the identification information It of the communication terminal 4B stored in the storage unit 62. Then, the identification information Ii extracted from the beacon signal and the identification information It of the communication terminal 4B read from the storage unit 62 are supplied to the device side communication unit 64.

  The device side communication unit 64 transmits and receives information to and from the communication terminal 4B connected via the network N. The connection to the network N by the device side communication unit 64 is realized by, for example, wired communication or wireless communication. The device-side communication unit 64 specifies the communication terminal 4B based on the identification information It of the communication terminal 4B supplied from the processing unit 63, and transmits the identification information Ii supplied from the processing unit 63 to the communication terminal 4B.

  The communication terminal 4B includes a storage unit 42, a processing unit 43, a terminal side communication unit 44, an output unit 45, and an input unit 46. The configuration of the communication terminal 4B is a configuration in which the short-range wireless reception unit 41 is deleted from the configuration of the communication terminal 4 of the first embodiment described with reference to FIG. When the terminal side communication unit 44 of the communication terminal 4B receives the identification information Ii transmitted from the device side communication unit 64 of the network device 6, the terminal side communication unit 44 supplies the received identification information Ii to the processing unit 43. The processing unit 43 refers to the state information DB D2 stored in the storage unit 42, and acquires the state information Io of the electrical equipment corresponding to the identification information Ii. In addition, the processing unit 43 supplies the acquired state information Io to the output unit 45 and displays the state information Io on the screen of the output unit 45.

[Electric device status notification system status notification processing]
Next, the contents of the state notification process performed by the electrical device state notification system 1C will be described with reference to FIG. FIG. 13 is a sequence diagram showing operations in respective units constituting the electrical device state notification system 1C.

  First, when an electromagnetic wave detection signal is generated and output by the electromagnetic wave sensor 31 (see FIG. 12) of the wireless transmission device 3 (step S11), the short-range wireless transmission unit 33 stores identification information Ii corresponding to the detection signal. It is acquired from the identification information DB D1 in the unit 32 (step S12). Then, a beacon signal including the identification information Ii is transmitted from the short-range wireless transmission unit 33 of the wireless transmission device 3 (step S13).

  When the beacon signal including the identification information Ii is received by the short-range wireless reception unit 61 of the network device 6 (step S14), the processing unit 63 of the network device 6 extracts the identification information Ii from the beacon signal (step S15). . Subsequently, the processing unit 63 similarly performs a process of specifying a communication terminal that is a transmission destination of the identification information Ii (step S16). That is, the processing unit 63 reads the identification information It of the communication terminal 4B stored in the storage unit 62, thereby specifying the communication terminal 4B that is the transmission destination of the identification information Ii. The device side communication unit 64 of the network device 6 transmits the identification information Ii to the communication terminal 4B specified by the processing unit 63 (step S17).

  In addition, after the process which specifies the communication terminal of step S16, you may perform the process etc. which convert the format of the identification information Ii as needed. As processing for converting the format of the identification information Ii, for example, processing for converting the format of the identification information Ii transmitted using a protocol for short-range wireless communication into a protocol for network communication (for example, IP), or packetization Or you may perform the process which encapsulates.

  When the identification information Ii is received by the terminal side communication unit 44 of the communication terminal 4B (step S18), triggered by this reception, the processing unit 43 of the communication terminal 4B causes the state information Io associated with the identification information Ii to be received. Is acquired from the state information DB D2 in the storage unit 42 (step S19). Subsequently, the state information Io acquired in step S18 is displayed on the screen of the output unit 45 of the communication terminal 4B (step S20).

  In the electrical device state notification system 1 </ b> C of this embodiment, the identification information Ii transmitted as a beacon signal from the wireless transmission device 3 is transmitted to the communication terminal 4 </ b> B via the network device 6. And the status information Io of the electric equipment corresponding to the identification information Ii is acquired and displayed by the communication terminal 4B. Therefore, the identification information Ii is transmitted to the communication terminal 4B by the network device 6 even when the communication terminal 4B is located where the radio wave of the beacon signal emitted from the wireless transmission device 3 does not reach, for example, outside the house. Therefore, the communication terminal 4B can acquire the state information Io of the electric device. Thereby, for example, the user of the communication terminal 4 </ b> B outside the house (outing) can immediately know that the washing operation by the washing machine 2 has been completed.

  In the electrical device status notification system 1C of the present embodiment, the communication terminal 4B connects to the network N using wireless communication such as mobile communication or wireless LAN, and the identification information Ii transmitted from the network device 6 Receive. Therefore, for example, even the communication terminal 4B that does not have a function of performing short-range wireless communication conforming to a standard such as Bluetooth can receive notification of the state information Io of the electrical device.

  Therefore, for example, by attaching the wireless transmission device 3 of the present embodiment to an electrical device in the residence where the elderly lives, and providing the elderly caregiver with the communication terminal 4, the residence of the elderly and the caregiver of the elderly Even when the house is separated, the caregiver can grasp the state (usage status) of the electrical equipment in the elderly's home.

  In the electrical device status notification system 1C, a wireless transmission device 3 is provided for each of a plurality of electrical devices in the house, and a plurality of types of identification information Ii transmitted from the plurality of wireless transmission devices 3 are provided. One network device 6 may be configured to receive.

  Further, in the electrical device state notification system 1C of the present embodiment, an example is given in which the communication terminal 4B performs processing for analyzing the state of the electrical device, but the present invention is not limited to this example. Similarly to the first modification of the first embodiment described with reference to FIG. 8, the wireless transmission device 3 </ b> A may perform processing for analyzing the state of the electrical device. By storing DB D2 (see FIG. 5A), the network device 6 may perform analysis processing of the state of the electrical device.

<Modification Example 1 of Second Embodiment>
Next, an electrical equipment state notification system 1D according to Modification 1 of the second embodiment of the present invention will be described with reference to FIG. FIG. 14 is a block diagram illustrating an internal configuration of the electrical device state notification system 1D. As shown in FIG. 14, the electrical device state notification system 1 </ b> D of this example includes a wireless transmission device 3, a network device 6, a communication terminal 4 </ b> B, and a management server 7. In the electrical device state notification system 1D, the network device 6 and the communication terminal 4B communicate with each other via the management server 7.

  The wireless transmission device 3 shown in FIG. 14 has the same configuration as the wireless transmission device 3 (see FIG. 2) of the first embodiment, and the identification information DB D1 (see FIG. 4A) is stored in the storage unit 32. It is remembered. 14 illustrates an example in which the identification information DB stored in the storage unit 32 is the identification information DB D1 illustrated in FIG. 4A, but the identification information DB stored in the storage unit 32 is not limited to this example. This is as described above. The short-range wireless transmission unit 33 of the wireless transmission device 3 generates a beacon signal including an identification signal Ii corresponding to the electromagnetic wave level of the washing machine 2 and transmits the beacon signal to the network device 6.

  The network device 6 has the same configuration as the network device 6 (see FIG. 12) of the second embodiment, and extracts the identification information Ii included in the beacon signal transmitted from the wireless transmission device 3. To the management server 7.

  The management server 7 includes a server side communication unit 71 and a storage unit 72. The server side communication unit 71 manages transmission / reception of information performed between the network device 6 connected to the network N and the communication terminal 4B. The storage unit 72 is configured by a large-capacity storage device such as an HDD, and includes a device / terminal DB D3. The device / terminal DB D3 is a database that manages the identification information It specifying the network device 6 and the identification information It specifying the communication terminal 4B. The identification information It of the network device 6 is made up of, for example, an IP address, and the identification information It of the communication terminal 4B is made up of, for example, an IP address or a mail address. When the identification information Ii is transmitted from the network device 6, the server-side communication unit 71 refers to the device / terminal DB D3 in the storage unit 72, acquires the identification information It of the communication terminal 4B, and acquires the acquired identification information. The communication terminal 4B is specified by It, and the identification information Ii is transmitted to the communication terminal 4B.

  The communication terminal 4B has the same configuration as that of the communication terminal 4B (see FIG. 12) of the second embodiment, and the state information DB D2 is stored in the storage unit 42. When the terminal side communication unit 44 of the communication terminal 4 </ b> B receives the identification information Ii transmitted from the device side communication unit 64 of the network device 6 via the management server 7, the terminal side communication unit 44 supplies the received identification information Ii to the processing unit 43. .

  The processing unit 43 refers to the state information DB D2 in the storage unit 42, and acquires the state information Io of the electrical device corresponding to the identification information Ii. In addition, the processing unit 43 transmits the acquired state information Io to the output unit 45 and displays the state information Io on the screen of the output unit 45.

  In the electrical device status notification system 1D of this example, the management server 7 manages the identification information It specifying the network device 6 and the identification information It specifying the communication terminal 4B. Therefore, even when the network device 6 and the communication terminal 4B are not paired, the network device 6 can also be used when the network device 6 does not know the identification information It indicating the destination of the communication terminal 4B as the communication partner. Can transmit the identification information Ii to the communication terminal 4B.

  In the electrical device status notification system 1D, when the management server 7 receives the identification information Ii transmitted from the network device 6, the management server 7 does not immediately transmit the identification information Ii to the communication terminal 4B. You may make it store in the memory | storage part 72 grade | etc.,. When processing in this way, the communication terminal 4B accesses the management server 7 at, for example, the timing when the radio wave condition is improved, and manages the identification information Ii transmitted from the network device 6 and stored in the storage unit 72. It can be received from the server 7.

  For example, when there is a separate push notification server that can perform push notification to the communication terminal 4B, the management server 7 requests the push notification server to perform push notification to the communication terminal 4B. A request may be transmitted.

<Modification 2 of the second embodiment>
Next, an electrical equipment state notification system 1E according to Modification 2 of the second embodiment of the present invention will be described with reference to FIG.

  FIG. 15 is a block diagram showing an overall configuration of an electrical equipment state notification system 1E. As shown in FIG. 15, the electrical device state notification system 1 </ b> E of this example includes a wireless transmission device 3, a network device 6, a communication terminal 4 </ b> B, and a management / analysis server 8. In the electrical equipment state notification system 1E, the management / analysis server 8 has a state information DB D2 (see FIG. 5A) and a equipment / terminal DB D3 (see FIG. 14), and analyzes the state of the electrical equipment, and It manages the identification information It of the network device 6 and the identification information It of the communication terminal 4B.

  When receiving the identification information Ii transmitted from the network device 6, the management / analysis server 8 refers to the device / terminal DB D3 and acquires the identification information It of the communication terminal 4B that is the transmission destination of the identification information Ii. Further, the management / analysis server 8 refers to the state information DB D2 to acquire the state information Io corresponding to the identification information Ii, and transmits the acquired state information Io to the communication terminal 4B specified by the identification information It. .

  In the electrical device status notification system 1E of this example, the management / analysis server 8 manages the correspondence information between the identification information It of the communication terminal 4B, the identification information It of the network device 6, and the identification information Ii and the status information Io. Is done. Therefore, as in the first modification of the second embodiment, the network device 6 communicates with the network device 6 via the management / analysis server 8 even when the network device 6 does not have information specifying the destination of the communication partner. The identification information Ii can be transmitted to the terminal 4B. In addition, the network device 6 and the communication terminal 4B do not need to perform an analysis process of the state of the electric device, so that the processing load on the network device 6 and the communication terminal 4B can be reduced.

<Modification 3 of the second embodiment>
Next, an electrical equipment state notification system 1F according to Modification 3 of the second embodiment of the present invention will be described with reference to FIG.

  FIG. 16 is a block diagram showing the overall configuration of the electrical device status notification system 1F. As shown in FIG. 16, the state notification system 1 </ b> F of this example includes a wireless transmission device 3, a network device 6, a communication terminal 4 </ b> B, an analysis server 5, and a management server 7. That is, the electrical device state notification system 1E includes both the analysis server 5 that analyzes the state of the electrical device, and the management server 7 that manages the identification information It of the network device 6 and the identification information It of the communication terminal 4B.

  In the electrical device state notification system 1F configured as described above, the identification information Ii transmitted from the network device 6 passes through the management server 7 and the communication terminal 4B as indicated by the route represented by the solid line. May be transmitted to the analysis server 5 or may be directly transmitted from the management server 7 to the analysis server 5 as indicated by a route represented by a broken line. In any case, acquisition of the state information Io corresponding to the identification information Ii is performed in the analysis server 5, and the acquired state information Io is transmitted from the analysis server 5 to the communication terminal 4B.

  In the electrical apparatus state notification system 1F of this example, the analysis server 5 and the management server 7 are provided independently, so that the processing load on the server can be distributed to two servers. Moreover, even if the owner of the analysis server 5 and the owner of the management server 7 are different, the state notification function of the electric device can be realized.

The present invention is not limited to the above-described embodiments, and various other application examples and modifications can of course be taken without departing from the gist of the present invention described in the claims.
For example, in the above-described embodiment, the configuration of the apparatus and the system is described in detail and specifically in order to explain the present invention in an easy-to-understand manner, and is not necessarily limited to one having all the configurations described. Further, a part of the configuration of an embodiment can be replaced with the configuration of another embodiment, and the configuration of another embodiment can be added to the configuration of an embodiment. Moreover, it is also possible to add, delete, or replace another configuration for a part of the configuration of each embodiment.
In addition, control lines or information lines indicated by arrows in the figure indicate what is considered necessary for the explanation, and do not necessarily indicate all control lines and information lines on the product. Actually, it may be considered that almost all the components are connected to each other.

  DESCRIPTION OF SYMBOLS 1,1A-1F ... Status notification system, 2 ... Washing machine, 3, 3A ... Wireless transmission device, 4, 4A, 4B ... Communication terminal, 5 ... Analysis server, 6 ... Network equipment, 7 ... Management server, 8 ... Management Analysis server 31 ... Electromagnetic sensor 32 ... Storage unit 33 ... Short range wireless transmission unit 34 ... Processing unit 41 ... Short range wireless reception unit 42 ... Storage unit 43 ... Processing unit 44 ... Terminal side communication 45, output unit, 46, input unit, 51 ... server side communication unit, 52 ... storage unit, 61 ... short-range wireless reception unit, 62 ... storage unit, 63 ... processing unit, 64 ... device side communication unit, 71 ... Server side communication unit, 72 ... Storage unit

Claims (11)

An electromagnetic wave sensor disposed near an electric device having an electric motor, detecting an electromagnetic wave emitted by the electric motor and outputting a detection signal;
Upon receiving the detection signal from the electromagnetic wave sensor, a short-range wireless transmission unit that transmits a beacon signal including identification information corresponding to the detection signal by short-range wireless communication;
An apparatus for notifying the state of an electric device. The state notification of the electrical device according to claim 1, wherein the short-range wireless transmission unit transmits identification information indicating that the detection signal is not supplied when the detection signal is not supplied from the electromagnetic wave sensor. apparatus. The electromagnetic wave sensor outputs a detection signal corresponding to the level of electromagnetic waves emitted by the electric motor,
The state notification device for an electric device according to claim 1, wherein the short-range wireless transmission unit transmits a beacon signal including the identification information corresponding to the detection signal. The electromagnetic wave sensor is
An antenna for receiving electromagnetic waves generated by the electric motor;
A resonance circuit electrically connected to the antenna and electrically resonating when the antenna receives electromagnetic waves;
A detection unit for detecting a current flowing in the resonance circuit;
The state notification device for an electric device according to any one of claims 1 to 3. An electrical equipment status notification system including an electrical equipment status notification device and a communication terminal,
The state notification device of the electrical equipment is
An electromagnetic wave sensor disposed near an electric device having an electric motor, detecting an electromagnetic wave emitted by the electric motor and outputting a detection signal;
Upon receiving the detection signal from the electromagnetic wave sensor, a short-range wireless transmission unit that transmits a beacon signal including identification information corresponding to the detection signal by short-range wireless communication;
With
The communication terminal is
A short-range wireless receiving unit that receives the beacon signal and acquires identification information included in the beacon signal;
An output unit that outputs state information of the electric device according to the identification information acquired by the short-range wireless reception unit;
A state notification system for electrical equipment, comprising: An analysis server connected to the network and storing the identification information and the state information of the electrical device in association with each other;
The communication terminal is
Further comprising a terminal-side communication unit that communicates with the analysis server via the network and acquires the state information of the electrical device according to the identification information;
The state notification system for an electric device according to claim 5. An electrical device status notification system including an electrical device status notification device and a network device,
The state notification device includes:
An electromagnetic wave sensor disposed near an electric device having an electric motor, detecting an electromagnetic wave emitted by the electric motor and outputting a detection signal;
Upon receiving the detection signal from the electromagnetic wave sensor, a short-range wireless transmission unit that transmits a beacon signal including identification information corresponding to the detection signal by short-range wireless communication;
With
The network device is:
A short-range wireless receiving unit that receives the beacon signal and acquires identification information included in the beacon signal;
A device-side communication unit that transmits the identification information via a network;
A state notification system for electrical equipment, comprising: A communication terminal capable of communicating with the network device via the network;
The communication terminal is
A terminal-side communication unit that receives the identification information transmitted from the network device via the network;
An output unit that outputs state information of the electrical device according to the identification information;
The state notification system for an electrical device according to claim 7. An analysis server connected to the network and storing the identification information and the state information of the electric device in association with each other;
The communication terminal is
The state notification system for an electric device according to claim 8, wherein the state information of the electric device according to the identification information is acquired by communicating with the analysis server on the network via the terminal-side communication unit. Connected to the network, stores a correspondence relationship between the network device and the communication terminal that is the transmission destination of the identification information by the network device, and manages transmission and reception of information between the network device and the communication terminal A management server;
The device-side communication unit of the network device transmits the identification information to the management server via a network,
The electrical server status notification system according to claim 8 or 9, wherein the management server transmits the received identification information to a communication terminal serving as the transmission destination. An electromagnetic wave sensor that is disposed in the vicinity of an electric device having an electric motor, detects an electromagnetic wave emitted by the electric motor and outputs a detection signal, and triggered by receiving the supply of the detection signal from the electromagnetic wave sensor. A state notification unit having a short-range wireless transmission unit that transmits a beacon signal including identification information according to short-range wireless communication;
A network device unit that includes the short-range wireless reception unit that receives the beacon signal and acquires identification information included in the beacon signal, and a device-side communication unit that transmits the identification information via a network;
A state notification device for an electrical device, comprising:

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