JP6579641B1 - Electric potential treatment device, program, electric potential treatment system, and body condition detection device - Google Patents

Abstract

Provided is a means for a user to know the influence of an electric potential treatment device on a body. A potential therapy device displays a voltage of a signal output to a conductive sheet in contact with a user. The wearable device 20 measures the heart rate, body temperature, and blood pressure of the user of the potential therapy device 10. The wearable device 20 transmits information on the measured heart rate, body temperature, and blood pressure to the potential treatment device 10 in response to a request from the potential treatment device 10. The electric potential therapy device 10 displays information on the heart rate, body temperature, and blood pressure of the user transmitted from the wearable device 20. [Selection] Figure 1

Description

  The present invention relates to an electric potential treatment device, a program, an electric potential treatment system, and a body state detection device.

  2. Description of the Related Art An electric potential treatment device is known that improves a user's body condition by setting the user's body to a higher potential than the surrounding environment. A general electric potential treatment device includes an energization pad that is in contact with a part of a user's body on an insulating sheet, and applies a DC or AC voltage having a higher potential than the surrounding environment to the user's body by the energization pad. In Japan, the Ministry of Health, Labor and Welfare has certified headaches, stiff shoulders, insomnia, and relief from chronic constipation as potential treatment devices. For example, Patent Document 1 discloses a technique that discloses a technique related to a potential treatment device.

JP-A-1-58266

  In the state where the voltage is applied to the body by the potential therapy device, the body may change, but in the conventional potential therapy device, the user of the potential therapy device objectively observes the influence of the potential therapy device on his body. There was no way to know.

  The present invention provides a means for the user to know the effect of the potential therapy device on the body.

  The present invention is a potential treatment device for applying a higher potential to the user's body insulated from the surrounding environment than the surrounding environment, and receiving means for receiving body state data indicating the state of the body from an external device; There is provided an electric potential treatment device comprising display means for displaying information obtained from the state of the body indicated by the body state data received by the receiving means and the state of the potential applied to the body by the device itself.

  The present invention is also a potential treatment device for applying a higher potential than the surrounding environment to a user's body insulated from the surrounding environment, and receiving means for receiving body state data indicating the state of the body from an external device A potential treatment device comprising: body state data received by the reception unit; and transmission unit that transmits potential state data indicating a state of a potential applied to the body by the own device to a device different from the external device. I will provide a.

  In addition, the present invention also relates to a potential state data indicating a state of a potential applied to the body by the potential therapy device from a potential therapy device that applies a higher potential to the computer body than the surrounding environment to a user's body insulated from the surrounding environment. , A process of receiving physical state data indicating a detection result from a physical state detection device that detects the state of the body, a potential state indicated by the potential state data, and a state of the body indicated by the physical state data A program for executing processing for displaying information obtained from the state on a display device is provided.

  In addition, the present invention provides a potential applying unit that applies a higher potential to the user's body insulated from the surrounding environment than the surrounding environment, a body state detecting unit that detects the state of the body, and the body by the potential applying unit. There is provided an electric potential treatment system including display means for displaying information obtained from a state of potential application and the physical state detected by the physical state detection means.

  Further, the present invention is a body state detection device for detecting the state of a user's body, wherein a potential treatment device that applies a potential higher than that of the surrounding environment to the body that is insulated from the surrounding environment is configured to apply a potential to the body. There is provided a body state detection device including a receiving unit that receives potential state data indicating a state and a notification unit that performs notification according to information indicated by the potential state data received by the receiving unit.

  The present invention also relates to a potential treatment device for applying a higher potential to a user's body insulated from the surrounding environment than the surrounding environment, and receiving means for receiving body state data indicating the state of the body from an external device; There is provided an electric potential treatment device comprising: electric potential state changing means for changing an electric potential application state to the body according to information indicated by the physical state data received by the receiving means.

  According to the present invention, the user can know the influence of the potential treatment device on the body.

The figure which showed the structure of 1 A of electric potential treatment systems which concern on 1st Embodiment. The block diagram which showed the structure of the electric potential treatment device. The block diagram which showed the structure of the wearable device 20. FIG. The sequence diagram for demonstrating the operation example of 1st Embodiment. The figure which showed an example of the screen which the electric potential treatment device 10 displays. The figure which showed the structure of the electric potential treatment system 1B which concerns on 2nd Embodiment. The block diagram which showed the structure of the smart phone 30. FIG. The sequence diagram for demonstrating the operation example of 2nd Embodiment. The figure which showed the structure of 1 C of electric potential treatment systems which concern on 3rd Embodiment. The sequence diagram for demonstrating the operation example of 3rd Embodiment. The sequence diagram for demonstrating the operation example of 4th Embodiment. The sequence diagram for demonstrating the operation example of 5th Embodiment.

[First Embodiment]
FIG. 1 is a diagram showing a potential treatment system 1A according to the first embodiment of the present invention. The potential treatment system 1A includes at least a potential treatment device 10 and a wearable device 20. The insulating sheet 12 is a material having insulating properties, and is laid, for example, under the legs of a wooden chair. The conductive sheet 11 is a material having conductivity. The conductive sheet 11 is laid on the seat surface of a wooden chair, for example, and is connected to the potential treatment device 10.

  The potential treatment device 10 is a device that outputs a high-voltage signal to a connected conductive sheet 11 and makes a user sitting on the conductive sheet 11 have a higher potential than the surrounding environment. The potential therapy device 10 is an example of a potential therapy device according to the present invention. The wearable device 20 is a device for measuring a user's physical condition, and has a band for wearing on a wrist. The wearable device 20 is an example of a body state detection device according to the present invention, and is also an example of an external device according to the present invention. Wearable device 20 has various sensors, and measures heart rate, body temperature, blood pressure, acceleration, etc. as a user's physical condition, for example. The wearable device 20 is connected to the potential treatment device 10 by wireless communication, and transmits information indicating the measured physical state of the user to the potential treatment device 10.

  FIG. 2 is a block diagram showing the configuration of the potential treatment device 10. The operation unit 101 has a plurality of buttons for operating the potential treatment device 10. The communication unit 102 is a module that performs wireless communication. The communication unit 102 performs communication of BLE (Bluetooth Low Energy), which is one of the extended uses of Bluetooth (registered trademark), for example, and communicates with the wearable device 20. Note that the communication performed by the communication unit 102 is not limited to Bluetooth communication, and may be another short-range wireless communication method. The display 103 is a liquid crystal display and displays various information.

  The power supply unit 105 has a power cord connected to a household 100 V outlet, and supplies power to each unit of the potential treatment device 10. The high voltage circuit 106 is a circuit that generates a high voltage signal for setting the user at a higher potential than the surrounding environment, and generates a signal having a voltage of 1000 V to 9000 V, for example. The high voltage circuit 106 is connected to the conductive sheet 11 that outputs the generated signal. Note that the signal generated by the high voltage circuit 106 is not limited to a DC signal, and may be an AC signal. The high voltage circuit 106 is an example of a potential applying unit according to the present invention. The secondary battery 104 is charged with power supplied from the power supply unit 105. The secondary battery 104 supplies power to each part of the potential treatment device 10 when the power supply unit 105 is not connected to an outlet.

  The control unit 100 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), and a RAM (Random Access Memory). The control unit 100 controls each unit by the CPU executing a program stored in the ROM. In the control unit 100, the CPU executes a program to realize a transmission / reception unit 1001 that transmits / receives information to / from other devices, a display control unit 1002 that displays information on the display 103, and a voltage control unit 1003.

  The transmission / reception unit 1001 controls the communication unit 102 to communicate with the wearable device 20 and receives various information transmitted from the wearable device 20. The transmission / reception unit 1001 controls the communication unit 102 to transmit various messages to other devices. Examples of information received by the transmission / reception unit 1001 include information indicating the user's heart rate, information indicating the user's body temperature, information indicating the user's blood pressure, and information indicating the acceleration of the wearable device 20. The transmission / reception unit 1001 is an example of a reception unit and a transmission unit according to the present invention.

  The display control unit 1002 controls the display 103 so that various types of information are displayed on the display 103. Under the control of the display control unit 1002, the display 103 displays, for example, the user's heart rate, the user's body temperature, the user's blood pressure, the voltage of the signal generated by the high voltage circuit 106, and the like. The display 103 that displays information under the control of the display control unit 1002 is an example of a display unit according to the present invention.

  The voltage control unit 1003 controls the voltage of the signal generated by the high voltage circuit 106. The voltage control unit 1003 is an example of a potential state changing unit according to the present invention.

  FIG. 3 is a block diagram showing the configuration of the wearable device 20. The communication unit 202 is a module that performs wireless communication. The communication unit 202 performs communication of BLE, which is one of the extended uses of Bluetooth, and performs communication with the potential treatment device 10. Note that the communication performed by the communication unit 202 is not limited to Bluetooth communication, and may be another short-range wireless communication method. The touch panel 203 has a liquid crystal display and displays various information. Further, the touch panel 203 detects a position touched by a user with a finger. The sensor unit 205 includes a sensor that measures the user's heart rate, a sensor that measures the user's body temperature, a sensor that measures the blood pressure of the user, an acceleration sensor that measures acceleration, and the like. The sensor unit 205 outputs measurement results of various sensors to the control unit 200. The secondary battery 204 supplies power to each part of the wearable device 20. The speaker 206 outputs a sound corresponding to the signal output from the control unit 200.

  The control unit 200 includes a CPU, a ROM, and a RAM. The control unit 200 controls each unit according to an operation performed on the touch panel 203 when the CPU executes a program stored in the ROM. In the control unit 200, the CPU executes a program to realize a transmission / reception unit 2001 having a function of transmitting / receiving information, and a notification unit 2002 that notifies the user.

  The transmission / reception unit 2001 transmits information indicating the heart rate, body temperature, blood pressure, and acceleration measured by the sensor unit 205 to the potential therapy device 10. Further, the transmission / reception unit 2001 receives a message transmitted from another device. The transmission / reception unit 2001 is an example of a reception unit and a transmission unit according to the present invention. The notification unit 2002 controls the touch panel 203 so that the measurement result of the sensor unit 205 is displayed on the liquid crystal display. The touch panel 203 that displays information under the control of the notification unit 2002 is an example of a notification unit according to the present invention.

  Next, an operation example of the first embodiment will be described with reference to the sequence diagram of FIG. Note that steps SA3 to SA5 shown in the sequence diagram of FIG. 4 are performed in a state where the potential treatment device 10 and the wearable device 20 have established a Bluetooth communication connection. That is, before step SA3, the potential therapy device 10 and the wearable device 20 perform processing for establishing a Bluetooth communication connection. Further, after step SA5, a process of disconnecting the Bluetooth communication connection established between the potential therapy device 10 and the wearable device 20 is performed. Since the operations associated with the establishment and disconnection of these connections are known, the description thereof is omitted.

  The user wears the wearable device 20 on the wrist and sits down on a chair with the conductive sheet 11 on the seating surface. A user seated on the chair performs an operation to instruct the start of treatment on the operation unit 101. When an operation to instruct the start of treatment is performed, the control unit 100 (voltage control unit 1003) controls the high voltage circuit 106 and outputs a high voltage signal to the conductive sheet 11 (step SA1). The control unit 100 (display control unit 1002) controls the display 103 to display the voltage of the signal output from the high voltage circuit 106 (step SA2).

  Next, the control unit 100 controls the communication unit 102 to transmit a request message for requesting transmission of information to the wearable device 20 (step SA3). When the communication unit 202 receives the request message, the control unit 200 (transmission / reception unit 2001) displays information indicating the heart rate measured by the sensor of the sensor unit 205 (hereinafter referred to as heart rate information) and information indicating the body temperature (hereinafter referred to as “heart rate information”). The body temperature information), information indicating blood pressure (hereinafter referred to as blood pressure information), and information indicating acceleration (hereinafter referred to as acceleration information) are transmitted to the potential treatment device 10 by controlling the communication unit 202 (step SA4). ). Heart rate information, body temperature information, blood pressure information, and acceleration information are examples of body condition data according to the present invention.

  The control unit 100 (transmission / reception unit 1001) receives heart rate information, body temperature information, blood pressure information, and acceleration information transmitted from the wearable device 20 (step SA5). When receiving the heart rate information, the body temperature information, the blood pressure information, and the acceleration information, the control unit 100 (display control unit 1002) controls the display 103, and receives the received information in a region other than the region where the voltage is displayed. A graph is displayed (step SA6). Here, the control unit 100 may display the heart rate, body temperature, and blood pressure in a graph, or may display only the items selected by the user among the heart rate, body temperature, and blood pressure in a graph.

  The potential treatment device 10 and the wearable device 20 repeatedly execute the processing of Step SA3 to Step SA6 at a predetermined cycle. FIG. 5 is a diagram illustrating an example of a screen displayed on the display 103. The control unit 100 controls the display 103 each time it newly receives heart rate information, body temperature information, and blood pressure information, and displays changes in heart rate, body temperature, and blood pressure as a graph.

  The controller 100 controls the high voltage circuit 106 and stops outputting the signal to the conductive sheet 11 when a predetermined time has elapsed since the operation for instructing the start of treatment has been performed (step SA100).

  As described above, according to the first embodiment, since the potential treatment device 10 displays information indicating the state of the user's body in a high potential state, the user has an influence on the body. Can know.

  In the above operation example, the wearable device 20 transmits heart rate information, body temperature information, and blood pressure information in response to a request message from the potential treatment device 10, but the configuration for transmitting these pieces of information is as described above. The configuration is not limited. For example, after the potential treatment device 10 and the wearable device 20 establish a connection, the wearable device 20 may transmit heart rate information, body temperature information, and blood pressure information to the potential treatment device 10 in a predetermined cycle. In the case of this configuration, the potential therapy device 10 updates the graph on the display 103 every time information is transmitted from the wearable device 20.

  Moreover, in this invention, the control part 100 may change the voltage of the signal output to the electrically conductive sheet 11 according to progress of time. For example, the control unit 100 may control to output a 6000V signal for 10 minutes, and then control to output a 1000V signal for 20 minutes, and may repeat this control a plurality of times.

  In the configuration in which the potential therapy device 10 changes the voltage of the signal output to the conductive sheet 11, the change in voltage over time may be displayed as a graph on the display 103. When displaying the change in voltage in the form of a graph using the potential treatment device 10, a graph of change in voltage may be displayed separately from the graph of heart rate, body temperature, and blood pressure. The change in voltage may be displayed superimposed on the heart rate, body temperature, blood pressure graph, with the axis representing time and the vertical axis representing voltage and heart rate / body temperature / blood pressure. Further, a graph of heart rate, body temperature, blood pressure and a graph of voltage change may be alternately displayed at a predetermined cycle.

  In the present invention, information displayed on the display 103 includes information indicating the state of the user's body received by the potential treatment device 10 from the wearable device 20 and the state of the potential applied to the user's body by the potential treatment device 10. Various types of information may be displayed as long as the information is obtained from the information indicating. For example, even when the control unit 100 calculates the user's calorie consumption during the period when the high voltage signal is output to the conductive sheet 11 from the received heart rate information, and the calculated calorie consumption is displayed on the display 103. Good. When calculating calorie consumption, body temperature information may also be used. Further, the control unit 100 may calculate and display the calorie consumption estimated to have increased during the period in which the signal is output to the conductive sheet 11.

[Second Embodiment]
FIG. 6 is a diagram showing a potential treatment system 1B according to the second embodiment of the present invention. The potential treatment system 1B is different from the potential treatment system 1A of the first embodiment in that the smartphone 30 is included. In the following description, the same components as those in the first embodiment will be denoted by the same reference numerals and description thereof will be omitted, and differences from the first embodiment will be mainly described.

  FIG. 7 is a block diagram showing a configuration according to the present invention in the smartphone 30. The communication unit 302 is a module that performs wireless communication. The communication unit 302 performs BLE communication, which is one of the extended uses of Bluetooth, and performs communication with the potential treatment device 10. Note that the communication performed by the communication unit 302 is not limited to Bluetooth communication, and may be another short-range wireless communication method. The operation unit 301 has a plurality of buttons for operating the smartphone 30. The touch panel 303 has a liquid crystal display and displays a GUI (Graphical User Interface) for operating the smartphone 30. Further, the touch panel 303 detects a position touched by the user with a finger. The storage unit 305 stores an application program executed by the control unit 300.

  The control unit 300 includes a CPU, a ROM, and a RAM. The control unit 300 controls each unit in accordance with an operation performed on the touch panel 303 when the CPU executes a program stored in the ROM. In the control unit 300, the CPU executes an application program to transmit / receive information to / from other devices, and a display control unit to display information received from the potential treatment device 10 on the touch panel 303. 3002 is realized.

  The transmission / reception unit 3001 receives information indicating the heart rate, body temperature, blood pressure, and acceleration of the user transmitted from the potential therapy device 10. The transmission / reception unit 3001 is an example of a reception unit and a transmission unit according to the present invention. The display control unit 3002 controls the touch panel 303 and displays information transmitted from the potential treatment device 10 on the touch panel 303. The touch panel 303 that displays information under the control of the display control unit 3002 is an example of a display unit according to the present invention.

  Next, an operation example of the second embodiment will be described with reference to the sequence diagram of FIG. Steps SB6 and SB7 shown in the sequence diagram of FIG. 8 are performed in a state where the potential treatment device 10 and the wearable device 20 establish a Bluetooth communication connection. Steps SB3, SB8, SB9, and SB101 are performed in a state where the potential treatment device 10 and the smartphone 30 have established a Bluetooth communication connection.

  The user wears the wearable device 20 on the wrist and sits down on a chair with the conductive sheet 11 on the seating surface. A user seated on the chair performs an operation to instruct the start of treatment on the operation unit 101. When an operation to instruct the start of treatment is performed, the control unit 100 controls the high voltage circuit 106 and outputs a high voltage signal to the conductive sheet 11 (step SB1). The control unit 100 (display control unit 1002) controls the display 103 to display the voltage of the signal output from the high voltage circuit 106 (step SB2).

  Next, the control unit 100 (transmission / reception unit 1001) controls the communication unit 102 to transmit voltage information indicating the voltage of the signal output from the high voltage circuit 106 to the smartphone 30 (step SB3). Control unit 300 (transmission / reception unit 3001) receives voltage information (step SB4). The control unit 300 (display control unit 3002) controls the touch panel 303 to display the voltage indicated by the received voltage information (step SB5).

  Further, the control unit 100 controls the communication unit 102 and transmits a request message for requesting transmission of information to the wearable device 20 (step SB6). When the communication unit 202 receives the request message, the control unit 200 (transmission / reception unit 2001) causes the heart rate information indicating the heart rate measured by the sensor of the sensor unit 205, the body temperature information indicating the body temperature, the blood pressure information indicating the blood pressure, and the acceleration information. Is transmitted to the potential treatment device 10 by controlling the communication unit 202 (step SB7).

  When the communication unit 102 receives heart rate information, body temperature information, and blood pressure information, the control unit 100 (transmission / reception unit 1001) transfers the heart rate information, body temperature information, and blood pressure information transmitted from the wearable device 20 to the smartphone 30 ( Step SB8).

  Control unit 300 (transmission / reception unit 3001) receives heart rate information, body temperature information, and blood pressure information transmitted from potential treatment device 10 (step SB9). When receiving the heart rate information, the body temperature information, and the blood pressure information, the control unit 300 (display control unit 3002) displays the received information as a graph in a region different from the region where the voltage is displayed (step SB10). . Here, the controller 300 may simultaneously display the heart rate, body temperature, and blood pressure in a graph, or may display only the items selected by the user among the heart rate, body temperature, and blood pressure in a graph.

  The potential treatment device 10, the wearable device 20, and the smartphone 30 repeatedly execute the processing of Step SB3 to Step SB10 at a predetermined cycle.

  The control unit 100 controls the high voltage circuit 106 and stops outputting the signal to the conductive sheet 11 when a predetermined time has elapsed since the operation for instructing the start of treatment has been performed (step SB100). After stopping the output of the signal to the conductive sheet 11, the control unit 100 transmits an end message instructing the end of display to the smartphone 30 (step SB101). When the communication unit 302 receives the end message, the control unit 300 (display control unit 3002) controls the touch panel 303 to end the display of the displayed voltage, heart rate, body temperature, and blood pressure, and the treatment is ended. Is displayed (step SB102).

  According to the second embodiment, the user can confirm the information of his / her body such as the voltage of the signal output from the potential therapy device 10, the heart rate, the body temperature, and the blood pressure with the smartphone 30.

[Third Embodiment]
FIG. 9 is a diagram showing a potential treatment system 1C according to the third embodiment of the present invention. The potential treatment system 1C is different from the potential treatment system 1B of the second embodiment in that the smartphone 30 communicates with the potential treatment device 10 and the wearable device 20. In the following description, the same components as those in the first embodiment and the second embodiment will be denoted by the same reference numerals, and the description thereof will be omitted. The description will focus on differences from the first embodiment and the second embodiment.

  An operation example of the third embodiment will be described with reference to the sequence diagram of FIG. Note that steps SC3, SC4, and SC101 shown in the sequence diagram of FIG. 10 are performed in a state in which the smartphone 30 establishes a Bluetooth communication connection with the potential treatment device 10. Steps SC6 to SC8 are performed in a state where the smartphone 30 has established a Bluetooth communication connection with the wearable device 20.

  The user wears the wearable device 20 on the wrist and sits down on a chair with the conductive sheet 11 on the seating surface. A user seated on the chair performs an operation to instruct the start of treatment on the operation unit 101. When an operation to instruct the start of treatment is performed, the control unit 100 controls the high voltage circuit 106 and outputs a high voltage signal to the conductive sheet 11 (step SC1). The control unit 100 (display control unit 1002) controls the display 103 and displays the voltage of the signal output from the high voltage circuit 106 (step SC2).

  Next, the control part 100 controls the communication part 102, and transmits the voltage information which shows the voltage of the signal which the high voltage circuit 106 is outputting to the smart phone 30 (step SC3). When communication unit 202 receives voltage information, control unit 300 (transmission / reception unit 3001) receives voltage information (step SC4). Control unit 300 (display control unit 3002) controls touch panel 303 so that the voltage indicated by the received voltage information is displayed, and displays the voltage indicated by the voltage information (step SC5).

  The control unit 300 (transmission / reception unit 3001) that has received the voltage information controls the communication unit 302 and transmits a request message for requesting transmission of information to the wearable device 20 (step SC6). When the communication unit 202 receives the request message, the control unit 200 (transmission / reception unit 2001) communicates heart rate information indicating the heart rate measured by the sensor of the sensor unit 205, body temperature information indicating body temperature, and blood pressure information indicating blood pressure. The unit 202 is controlled and transmitted to the smartphone 30 (step SC7).

  Control unit 300 (transmission / reception unit 3001) receives heart rate information, body temperature information, and blood pressure information transmitted from wearable device 20 (step SC8). When controller 300 receives heart rate information, body temperature information, and blood pressure information, controller 300 displays the received information as a graph in a region other than the region where the voltage is displayed (step SC9). Here, the controller 300 may simultaneously display the heart rate, body temperature, and blood pressure in a graph, or may display only the items selected by the user among the heart rate, body temperature, and blood pressure in a graph.

  The potential treatment device 10, the wearable device 20, and the smartphone 30 repeatedly execute the processes of Step SC3 to Step SC9 at a predetermined cycle.

  The controller 100 controls the high voltage circuit 106 and stops outputting the signal to the conductive sheet 11 when a predetermined time has elapsed since the operation for instructing the start of treatment has been performed (step SC100). After stopping the output of the signal to the conductive sheet 11, the control unit 100 transmits an end message instructing the end of display to the smartphone 30 (step SC101). When the communication unit 302 receives the end message, the control unit 300 (display control unit 3002) controls the touch panel 303 to end the display of the displayed voltage, heart rate, body temperature, and blood pressure, and the treatment is ended. Is displayed (step SC102).

  Also in the third embodiment, the user can confirm the information of his / her body such as the voltage of the signal output from the potential treatment device 10, the heart rate, the body temperature, and the blood pressure with the smartphone 30 at hand.

  In the third embodiment, the potential therapy device 10 may start outputting a signal to the conductive sheet 11 in response to an instruction from the smartphone 30, and the potential therapy device 10 to the conductive sheet 11 in response to an instruction from the smartphone 30. The output of the signal may be stopped.

  Further, in the case where the potential therapy device 10 starts outputting signals in response to an instruction from the smartphone 30, the smartphone 30 requests voltage information from the potential therapy device 10 at a predetermined cycle, and at a predetermined cycle. You may request the wearable device 20 for heart rate information, body temperature information, and blood pressure information. In this case, the smartphone 30 displays information transmitted in response to the request on the touch panel 303.

[Fourth Embodiment]
FIG. 1 is a diagram showing a potential therapy system 1D according to a fourth embodiment of the present invention. The potential treatment system 1D is different from the potential treatment system 1A of the first embodiment in that the wearable device 20 notifies the user that a signal is output to the conductive sheet 11. In the following description, the same components as those in the first embodiment will be denoted by the same reference numerals and description thereof will be omitted, and differences from the first embodiment will be mainly described.

  FIG. 11 is a sequence diagram for explaining an operation example of the fourth embodiment. Note that steps SD3 and SD5 to SD7 shown in the sequence diagram of FIG. 11 are performed in a state where the potential treatment device 10 and the wearable device 20 establish a Bluetooth communication connection.

  The user wears the wearable device 20 on the wrist and sits down on a chair with the conductive sheet 11 on the seating surface. A user seated on the chair performs an operation to instruct the start of treatment on the operation unit 101. When an operation to instruct the start of treatment is performed, the control unit 100 controls the high voltage circuit 106 and outputs a high voltage signal to the conductive sheet 11 (step SD1). The control unit 100 (display control unit 1002) controls the display 103 to display the voltage of the signal output from the high voltage circuit 106 (step SD2).

  The control unit 100 (transmission / reception unit 1001) controls the communication unit 102 and transmits a message indicating that a signal is output to the conductive sheet 11 to the wearable device 20 (step SD3). When the communication unit 202 receives the message, the control unit 200 outputs a sound signal to the speaker 206 (step SD4). Thereby, a sound is output from the speaker 206, and the user can know that the potential therapy device 10 is outputting a signal. The sound output from the speaker 206 may be output for a predetermined time.

  Wearable device 20 may notify the user that potential therapy device 10 is outputting a signal by blinking touch panel 203. Further, a vibration motor may be provided in the wearable device 20 and the vibration motor may be controlled according to the received message to notify the user that the potential treatment device 10 is outputting a signal.

  In addition, the control unit 100 controls the communication unit 102 and transmits a request message for requesting transmission of information to the wearable device 20 (step SD5). When the communication unit 202 receives the request message, the control unit 200 (transmission / reception unit 2001) displays the heart rate information indicating the heart rate measured by the sensor of the sensor unit 205, the body temperature information indicating the body temperature, the blood pressure information indicating the blood pressure, and the acceleration. The indicated acceleration information is transmitted to the potential treatment device 10 by controlling the communication unit 202 (step SD6).

  Control unit 100 (transmission / reception unit 1001) receives heart rate information, body temperature information, blood pressure information, and acceleration information transmitted from wearable device 20 (step SD7). When receiving the heart rate information, the body temperature information, the blood pressure information, and the acceleration information, the control unit 100 controls the display 103 and displays the received information as a graph in a region other than the region where the voltage is displayed ( Step SD8). Here, the control unit 100 may simultaneously display the heart rate, body temperature, and blood pressure as a graph, or may display only the item selected by the user from the heart rate, body temperature, and blood pressure as a graph.

  The potential therapy device 10 and the wearable device 20 repeatedly execute the processing of step SD3 to step SD8 at a predetermined cycle.

  The controller 100 controls the high voltage circuit 106 and stops outputting the signal to the conductive sheet 11 when a predetermined time has elapsed since the operation for instructing the start of treatment has been performed (step SD100).

  According to the fourth embodiment, the user can know at hand by the wearable device 20 that the potential therapy device 10 is outputting a signal.

[Fifth Embodiment]
FIG. 1 is a diagram showing an electric potential treatment system 1E according to a fifth embodiment of the present invention. The potential treatment system 1E is different from the potential treatment system 1A of the first embodiment in that the signal output to the conductive sheet 11 is controlled according to the user's movement. In the following description, the same components as those in the first embodiment will be denoted by the same reference numerals and description thereof will be omitted, and differences from the first embodiment will be mainly described.

  FIG. 12 is a sequence diagram for explaining an operation example of the fifth embodiment. Note that steps SE3 to SE5, SE7, and SE8 shown in the sequence diagram of FIG. 12 are performed in a state where the potential treatment device 10 and the wearable device 20 have established a Bluetooth communication connection. Moreover, since the process of step SE1 to step SE6 is the same as the process of step SA1 to step SA6, description thereof is omitted.

  When the acceleration sensor of the sensor unit 205 measures acceleration, the control unit 200 (transmission / reception unit 2001) transmits acceleration information indicating the measured acceleration to the potential therapy device 10 (step SE7). The control unit 100 (transmission / reception unit 1001) receives the acceleration information transmitted from the wearable device 20 (step SE8). The control unit 100 determines the state of the user from the acceleration indicated by the received acceleration information (step SE9). When it is determined from the acceleration information that the user is moving, the control unit 100 (voltage control unit 1003) controls the high voltage circuit 106 and stops outputting the signal to the conductive sheet 11 (step SE10).

  According to the present embodiment, it is possible to prevent the signal from being continuously output when the user moves away from the conductive sheet 11.

  In the fifth embodiment, when the control unit 100 determines from the acceleration information that the user's movement has been completed, the high voltage circuit 106 may be controlled to restart the output of the signal to the conductive sheet 11. Moreover, in 5th Embodiment, the control part 100 may determine a user's gesture from acceleration information, and may change the voltage of the signal output to the conductive sheet 11 according to the determined gesture. In the fifth embodiment, the signal output from the control unit 1100 to the conductive sheet 11 may be changed. For example, the signal may be changed from direct current to alternating current according to gestures, or may be changed from alternating current to direct current. May be.

  Further, the potential treatment device 10 may change the voltage of the signal output to the conductive sheet 11 according to at least one of the received heart rate information, body temperature information, and blood pressure information. For example, when the heart rate indicated by the heart rate information exceeds a predetermined threshold, the potential therapy device 10 may change the voltage of the signal to be output or stop outputting the signal. In addition, when the body temperature indicated by the body temperature information exceeds a predetermined threshold, the potential therapy device 10 may change the voltage of the signal to be output or stop outputting the signal. Further, when the blood pressure indicated by the blood pressure information exceeds a predetermined threshold, the potential therapy device 10 may change the voltage of the signal to be output or stop outputting the signal.

[Modification]
As mentioned above, although embodiment of this invention was described, this invention is not limited to embodiment mentioned above, It can implement with another various form. For example, the present invention may be implemented by modifying the above-described embodiment as follows. In addition, you may combine each of embodiment mentioned above and the following modifications.

  In the embodiment described above, the wearable device 20 is configured to be worn on the wrist with a band, but the wearing method is not limited thereto. For example, the structure which a wearable device 20 affixes on a body with an adhesive sheet may be sufficient. In the above-described embodiment, the wearable device 20 that the user wears on the body is used as an example of the body state detection unit that detects the state of the user's body. Not limited to wearable devices. For example, a stationary sphygmomanometer or a heart rate monitor of a type in which a cuff is wound around the wrist may be used instead of the wearable device 20.

  In the above-described embodiment, the smartphone 30 is used as an example of an apparatus that communicates with the potential therapy device 10 and the wearable device 20. However, the smartphone 30 is used as an example of a device that communicates with the potential therapy device 10 and the wearable device 20. The type of device that displays voltage or the like is not limited to a smartphone. For example, instead of the smartphone 30, a tablet terminal or a PC (Personal Computer) that does not have a telephone function may be used.

  In the embodiment described above, the program executed by the smartphone 30 is distributed in a state of being recorded on a non-volatile recording medium such as a flash memory, and is executed after being read from the recording medium by a computer such as the smartphone 30. Also good. Moreover, the program which the smart phone 30 performs in embodiment mentioned above may be distributed in the form downloaded to computers, such as the smart phone 30, from a server apparatus via networks, such as the internet and a mobile communication network, for example.

DESCRIPTION OF SYMBOLS 1A-1E ... Potential treatment system, 10 ... Potential treatment device, 11 ... Conductive sheet, 12 ... Insulating sheet, 20 ... Wearable device, 30 ... Smartphone, 100 ... Control part, 101 ... Operation part, 102 ... Communication part, 103 ... Display 104 104 Secondary battery 105 Power supply unit 106 High voltage circuit 200 Control unit 202 Communication unit 203 Touch panel 204 Secondary battery 205 Sensor unit 206 Speaker 300 Control unit 301 ... Operation unit 302 ... Communication unit 303 ... Touch panel 305 ... Storage unit 1001 ... Transmission / reception unit 1002 ... Display control unit 1003 ... Voltage control unit 2001 ... Transmission / reception unit 2002 ... Notification unit 3001 ... Transmission / reception unit, 3002 ... Display control unit

Claims (6)

An electric potential treatment device that applies a higher electric potential to a user's body insulated from the surrounding environment than the surrounding environment,
Receiving means for receiving physical condition data indicating the physical condition from an external device;
A potential treatment device comprising: display means for displaying information obtained from the state of the body indicated by the body condition data received by the receiving means and the state of the potential applied to the body by the device itself. An electric potential treatment device that applies a higher electric potential to a user's body insulated from the surrounding environment than the surrounding environment,
Receiving means for receiving physical condition data indicating the physical condition from an external device;
A potential treatment device comprising: body state data received by the reception unit and transmission unit that transmits potential state data indicating a state of a potential applied to the body by the own device to a device different from the external device. On the computer,
A process of receiving potential state data indicating a state of a potential applied to the body by the potential therapeutic device from a potential therapeutic device that applies a higher potential than the surrounding environment to a user's body insulated from the surrounding environment;
A process of receiving physical condition data indicating a detection result from the physical condition detection device for detecting the physical condition;
The program for performing the process which displays the information obtained from the state of the electric potential which the said electric potential state data shows, and the said physical state which the said body state data shows on a display apparatus. An electric potential applying means for applying an electric potential higher than that of the surrounding environment to a user's body insulated from the surrounding environment;
A body state detection means for detecting the state of the body;
A potential treatment system comprising: display means for displaying information obtained from a state of potential application to the body by the potential application means and the state of the body detected by the body condition detection means. A body condition detection device for detecting a user's body condition,
Receiving means for receiving potential state data indicating a state of potential application to the body from a potential treatment device that applies a higher potential than the surrounding environment to the body in an insulated state from the surrounding environment;
A body state detection apparatus comprising: notification means for performing notification according to information indicated by the potential state data received by the reception means. An electric potential treatment device that applies a higher electric potential to a user's body insulated from the surrounding environment than the surrounding environment,
Receiving means for receiving physical condition data indicating the physical condition from an external device;
An electric potential treatment device comprising: electric potential state changing means for changing an electric potential application state to the body according to information indicated by the physical state data received by the receiving means.

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