JP5916685B2 - Potential therapy device - Google Patents

Description

  The present invention relates to an electric potential treatment device for applying electric potential treatment by applying a high voltage to the body of a therapist (patient).

For example, the potential treatment devices disclosed in the following Patent Documents 1, 2, and 3 include a high voltage generation circuit that generates a high voltage, and gives a high voltage generated by the high voltage generation circuit to a therapist. Therefore, I am trying to give potential treatment.
These electric potential treatment devices are generally provided with an output (display) device for displaying various information such as the voltage value given to the therapist and the elapsed treatment time. In some cases, a liquid crystal display device is mounted as the display device.
However, there is no electric potential treatment device in which a touch panel for receiving the operation of the treatment device is attached to the liquid crystal display device, and the operation of the treatment device is performed by, for example, an operation switch (for example, a push button, It is common to use a rotary switch.

For example, home appliances have many merits such as being able to operate while looking at the display content of the liquid crystal display device, and those equipped with a liquid crystal display device to which a touch panel is attached are widely used. Yes.
However, since the potential therapy device has a special feature of having a high voltage generation circuit, when a liquid crystal display device with a touch panel is mounted, a treating person who is being treated with a high voltage (under treatment) When a person touching the touch panel touches the touch panel with a maximum potential equal to the high voltage generated by the high voltage generator circuit, the potential difference between the therapist and the touch panel (liquid crystal display device) Vibration (vibration) may occur.
The occurrence of such electric discharge and vibration may give the therapist a sense of incongruity (buzzing feeling) and anxiety, and may cause failure of the touch panel and the liquid crystal display device. In general, the operation is performed with operation switches arranged at different positions and insulated.

Japanese Patent No. 4246664 Japanese Patent No. 4508744 JP 2000-189525 A

  Since the conventional potential treatment device is configured as described above, a touch panel having many merits such as being able to operate directly on the liquid crystal screen while viewing the display contents of the liquid crystal display device is attached to the liquid crystal display device. There were problems such as not being able to.

  The present invention has been made in order to solve the above-described problems. An electric potential treatment device mounted with a liquid crystal display device with a touch panel that does not generate discharge or vibration even when a therapist touches the touch panel. The purpose is to obtain.

  An electric potential treatment device according to the present invention boosts a power supply voltage or a voltage having a different frequency generated from the power supply voltage, and generates a high voltage that is a voltage after the boosting, and the voltage generating means A liquid crystal display device to which a conductive electrode plate to which a high voltage is applied is covered with an insulating material and a touch panel for receiving an operation of a treatment device are attached, and the liquid crystal display device itself and the touch panel A liquid crystal display device that is installed in an electrically ungrounded state, and the power supply means keeps electrical insulation between the voltage generating means and the liquid crystal display device. Is to supply.

  In the potential treatment device according to the present invention, the power supply means is constituted by an insulation transformer, a power supply voltage or a high voltage is applied to the primary side of the insulation transformer, and the secondary side of the insulation transformer is connected to the liquid crystal display device. It is what has been done.

  In the electric potential treatment device according to the present invention, the power supply means is constituted by a battery, and the battery supplies power to the liquid crystal display device.

  In the electric potential treatment device according to the present invention, the power supply means is composed of a non-contact power transmitter, and when the non-contact power transmitter is applied with a power supply voltage or a high voltage, it generates power, and the liquid crystal display device The electric power is supplied to the device.

  In the electric potential treatment device according to the present invention, the power supply means includes a light emitting element that emits light when a power supply voltage or a DC voltage is applied, and a solar cell that converts light emitted from the light emitting element into electricity. The electric energy converted by the solar cell is supplied to the liquid crystal display device.

  According to the present invention, there is an effect that it is possible to obtain an electric potential treatment device equipped with a liquid crystal display device with a touch panel that does not generate discharge or vibration even when a therapist touches the touch panel.

It is a block diagram which shows the electric potential therapeutic device by Embodiment 1 of this invention. It is a block diagram which shows the electric potential therapeutic device by Embodiment 2 of this invention. It is a block diagram which shows the electric potential therapeutic device by Embodiment 3 of this invention. It is a block diagram which shows the electric potential therapeutic device by Embodiment 4 of this invention.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing an electric potential treatment device according to Embodiment 1 of the present invention.
In FIG. 1, a power supply circuit 1 is a circuit that is connected to a commercial power supply and outputs a power supply voltage of, for example, 100 V supplied from the commercial power supply to the primary side of the high voltage generation circuit 2 and the isolation transformer 7.
The high voltage generation circuit 2 is a circuit that boosts the power supply voltage output from the power supply circuit 1 to a voltage necessary for potential treatment (for example, an effective value of 300 V to 9000 V) and generates a high voltage that is a voltage after the boosting. .
Here, it is assumed that the high voltage generation circuit 2 boosts the power supply voltage output from the power supply circuit 1, but a voltage of a different frequency generated from the power supply voltage may be boosted.
The power generation circuit is composed of the power supply circuit 1 and the high voltage generation circuit 2.

A method of generating a high voltage by the high voltage generation circuit 2 is not particularly limited, but generally a transformer boosting method can be used.
In the transformer boosting method, if the high voltage generation circuit 2 mounts a transformer and an AC voltage waveform of about several tens of volts to 100V is input to the primary side of the transformer, a high voltage of 9000 V or less from the secondary side of the transformer. Can be generated.
The high voltage generation circuit 2 is mounted with a current limiting resistor that suppresses the output current to a predetermined reference current or less, and outputs the generated high voltage to the energizing mat 3 through the current limiting resistor.

The energizing mat 3 is a mat in which a conductive electrode plate to which a high voltage generated by the high voltage generating circuit 2 is applied is covered with an insulating material, and the energizing mat 3 is laid under a therapist who receives a potential treatment. .
As the conductive electrode plate of the energizing mat 3, for example, a carbon electrode made of carbon cloth or carbon fiber can be used.
As an insulating material of the energizing mat 3, for example, vinyl chloride can be used.
In addition, the conductive electrode plate sandwiched between the insulating materials and the pressure-resistant outer periphery becomes the energizing mat 3, and by insulating the conductive electrode plate inside and the therapist, a high potential can be safely applied to the therapist. Potential therapy can be performed.
The insulating sheet 4 is a sheet that is laid between the current-carrying mat 3 and the floor and blocks the current flowing from the current-carrying mat 3 to the ground. The insulating sheet 4 is used to suppress a decrease in the voltage applied to the therapist, and the material of the insulating sheet 4 is easy to process, such as vinyl chloride.

The liquid crystal display device 5 is installed in an electrically ungrounded state (or the touch panel 6 attached to the surface is installed in an electrically ungrounded state) and is currently given to the therapist. It is a device that displays various information such as the voltage value and the elapsed treatment time. The liquid crystal display device 5 is a unit device composed of, for example, a dot matrix type liquid crystal display, a microcomputer that drives the liquid crystal display, a storage device, a control circuit, a backlight circuit, and the like.
The liquid crystal display device 5 also includes a control IC that transmits an electrical signal (coordinate information indicating the contact position of the therapist) output from the touch panel 6 to the control circuit.
The touch panel 6 is a man-machine interface that receives operation of the treatment device, and is attached to the surface of the liquid crystal display device 5.
That is, the touch panel 6 is a thin transparent panel that is attached to the surface of the liquid crystal display device 5. For example, when a therapist touches the surface of the touch panel 6 with a fingertip, the touch panel 6 is an electric that indicates the X coordinate and Y coordinate of the touched position. Processing for outputting a signal to the control IC in the liquid crystal display device 5 is performed.

  The isolation transformer 7 has a primary side connected to the power supply circuit 1 (or high voltage generation circuit 2) and a secondary side connected to the liquid crystal display device 5. The isolation transformer 7 is connected to the power supply circuit 1 and the high voltage generation circuit 2. Power supply means for supplying power to the liquid crystal display device 5 is configured in a state where the electrical insulation of the liquid crystal display device 5 is maintained.

Next, the operation will be described.
The power supply circuit 1 is connected to a commercial power supply, and outputs, for example, a power supply voltage of 100 V supplied from the commercial power supply to the primary side of the high voltage generation circuit 2 and the isolation transformer 7.
When the high voltage generation circuit 2 receives the power supply voltage from the power supply circuit 1, the high voltage generation circuit 2 boosts the power supply voltage to a voltage necessary for potential treatment (for example, an effective value of 300V to 9000V), and the boosted voltage (hereinafter referred to as “high voltage”). Voltage)).
When the high voltage generating circuit 2 generates a high voltage, it outputs the high voltage to the energizing mat 3. For example, in the Pharmaceutical Affairs Law, when a high voltage is applied to the therapist for the purpose of ensuring the safety of the therapist. Since it is stipulated that leakage current (for example, current flowing from the treatment device to the ground through the therapist) to be below a certain reference value, the generated high voltage is reduced via the current limiting resistor mounted inside. Output to the energizing mat 3.

The energizing mat 3 is composed of an internal conductive electrode plate and an insulating material covering the conductive electrode plate. The conductive electrode plate of the energizing mat 3 has a high voltage output from the high voltage generating circuit 2. Is applied.
Since the therapist gets on the energizing mat 3 to which a high voltage is applied when receiving the potential treatment (in the example of FIG. 1, the therapist stands on the energizing mat 3, but sitting or sleeping) A high potential is applied to the body of the therapist.
In addition, since the insulating sheet 4 is laid between the energizing mat 3 and the floor, and the conductive electrode plate of the energizing mat 3 is covered with an insulating material, the current flowing from the energizing mat 3 to the ground is interrupted, and the treatment is performed. A decrease in applied voltage is suppressed.

The insulation transformer 7 is installed to supply power to the liquid crystal display device 5 while maintaining electrical insulation between the power supply circuit 1 and the high voltage generation circuit 2 and the liquid crystal display device 5. The secondary side is connected to the power supply circuit 1 and the secondary side is connected to the liquid crystal display device 5.
When the power supply voltage output from the power supply circuit 1 is applied to the primary side, the insulation transformer 7 generates an electromotive force on the secondary side by electromagnetic induction and supplies the power to the liquid crystal display device 5.
As a result, the liquid crystal display device 5 can display various information such as the voltage value currently given to the therapist and the elapsed treatment time.

In the first embodiment, the touch panel 6 is attached to the surface of the liquid crystal display device 5, and the therapist operates the treatment device (for example, the treatment device) with the touch panel 6 while viewing the display content of the liquid crystal display device 5. ON / OFF, variable of high voltage value, setting of treatment time, etc.) can be performed, and operability and convenience can be improved.
However, as described above, the liquid crystal display device 5 (or the touch panel 6) is electrically insulated from the power supply circuit 1 and the high voltage generation circuit 2 and floats without being grounded (insulated from the surroundings). Therefore, even if the therapist touches the touch panel 6 attached to the surface of the liquid crystal display device 5 while the high voltage is applied to the body, the treatment person and the touch panel 6 No discharge or vibration (vibration) occurs due to the potential difference.

  As apparent from the above, according to the first embodiment, the liquid crystal display device 5 with the touch panel 6 installed in an electrically ungrounded state is provided, and the insulating transformer 7 includes the power supply circuit 1 and the high voltage. Since electric power is supplied to the liquid crystal display device 5 while maintaining electrical insulation between the generator circuit 2 and the liquid crystal display device 5, discharge and vibration are generated even when the therapist touches the touch panel 6. There is an effect that it is possible to mount the liquid crystal display device 5 with the touch panel 6 having no touch.

That is, since the liquid crystal display device 5 (or the touch panel 6) is installed in an electrically ungrounded state, even if a therapist who has applied a high voltage touches the touch panel 6, "therapist (high potential), liquid crystal It is possible to prevent an electrical energization route of “display device 5 (or touch panel 6) and ground” from being formed, and the insulating transformer 7 to electrically connect the power supply circuit 1, the high voltage generation circuit 2, and the liquid crystal display device 5. Therefore, even if a therapist who has applied a high voltage touches the touch panel 6, “therapist, the touch panel 6, the liquid crystal display device 5, the power supply circuit 1, the high voltage generation circuit 2, and the energization mat 3”. Or a route of “therapist (high potential), touch panel 6, liquid crystal display device 5, power supply circuit 1, commercial power supply” is prevented from forming an electrical energization route.
As described above, in the first embodiment, when the therapist (high potential) touches the touch panel 6, there is provided means for suppressing the formation of an energization route through which a current based on the high potential of the therapist flows. Therefore, there is an effect that it is possible to mount the liquid crystal display device 5 with the touch panel 6 in which no discharge or vibration occurs.

Embodiment 2. FIG.
FIG. 2 is a block diagram showing a potential treatment device according to Embodiment 2 of the present invention. In the figure, the same reference numerals as those in FIG.
The battery 8 constitutes a power supply means, and is a power source that supplies power to the liquid crystal display device 5.

In the first embodiment, the insulating transformer 7 supplies power to the liquid crystal display device 5 while maintaining electrical insulation between the power supply circuit 1 and the high voltage generation circuit 2 and the liquid crystal display device 5. However, even if the battery 8 is used in place of the insulating transformer 7, the liquid crystal display device 5 is maintained in a state in which electrical insulation between the power supply circuit 1 and the high voltage generation circuit 2 and the liquid crystal display device 5 is maintained. Can be powered.
Therefore, in the second embodiment, similarly to the first embodiment, the liquid crystal display device 5 with the touch panel 6 that does not generate discharge or vibration even when the therapist touches the touch panel 6 can be mounted. There is an effect.

Embodiment 3 FIG.
FIG. 3 is a block diagram showing an electric potential treatment device according to Embodiment 3 of the present invention. In the figure, the same reference numerals as those in FIG.
The non-contact power transmitter 9 constitutes a power supply means, and generates power when the non-contact power transmitter 9 receives a power supply voltage (or a high voltage from the high voltage generation circuit 2) from the power circuit 1. This is a device that supplies power to the liquid crystal display device 5.
That is, the non-contact power transmitter 9 is a device that performs wireless power feeding, and there are mainly two types of wireless power feeding: “electromagnetic induction” and “magnetic resonance”.
The electromagnetic induction method is a method in which a magnetic field is generated in the power transmission side coil by the power supply voltage output from the power supply circuit 1, and the power reception side coil receives the magnetic field to generate electric power.
On the other hand, the magnetic field resonance method is a method in which two coils resonate at a specific frequency, and electric power is transmitted to the power receiving side coil through the magnetic field generated by the power transmitting side coil.

Since the non-contact power transmitter 9 is not electrically connected to the coil on the power transmission side and the coil on the power reception side, similarly to the insulating transformer 7 in FIG. 1, the power supply circuit 1, the high voltage generation circuit 2, and the liquid crystal display device Power can be supplied to the liquid crystal display device 5 while maintaining electrical insulation with the liquid crystal display device 5.
Therefore, in the third embodiment, similarly to the first embodiment, the liquid crystal display device 5 with the touch panel 6 that does not generate discharge or vibration even when the therapist touches the touch panel 6 can be mounted. There is an effect.

Embodiment 4 FIG.
FIG. 4 is a block diagram showing a potential treatment device according to Embodiment 4 of the present invention. In the figure, the same reference numerals as those in FIG.
The light emitting element 10 is a member that emits light when a power supply voltage is applied from the power supply circuit 1, and corresponds to, for example, a high-intensity LED, a light bulb, a discharge arc tube, and the like.
Here, it is assumed that the light-emitting element 10 emits light toward the solar cell 11 when a power supply voltage is applied from the power supply circuit 1. The light may be emitted toward the solar cell 11 upon application or application of a high voltage from the high voltage generation circuit 2.
The solar cell 11 converts the light emitted from the light emitting element 10 into electricity, and supplies the liquid crystal display device 5 with electric power that is energy of the electricity.
In addition, the power supply means is comprised from the light emitting element 10 and the solar cell 11. FIG.

Next, the operation will be described.
The light emitting element 10 emits light toward the solar cell 11 when receiving a power supply voltage from the power supply circuit 1.
When the solar cell 11 receives the light emitted from the light emitting element 10, the solar cell 11 converts the light into electricity and supplies the liquid crystal display device 5 with electric power that is energy of the electricity.
Since the light emitting element 10 and the solar cell 11 are not electrically connected, the electrical insulation between the power supply circuit 1 and the high voltage generation circuit 2 and the liquid crystal display device 5 is performed similarly to the insulation transformer 7 of FIG. The power can be supplied to the liquid crystal display device 5 while maintaining the above.
Therefore, in the fourth embodiment, similarly to the first embodiment, the liquid crystal display device 5 with the touch panel 6 that does not generate discharge or vibration even when the therapist touches the touch panel 6 can be mounted. There is an effect.

1 Power supply circuit (voltage generation means)
2 High voltage generation circuit (voltage generation means)
3 Energizing mat 4 Insulating sheet 5 Liquid crystal display device 6 Touch panel 7 Insulating transformer (power supply means)
8 batteries (power supply means)
9 Non-contact power transmitter (power supply means)
10 Light emitting element (power supply means)
11 Solar cell (power supply means)

Claims (5)

A power circuit connected to a commercial power source;
A high voltage generating circuit that boosts voltages of different frequencies generated from the power supply voltage supplied from the power supply circuit and generates a high voltage that is a voltage after the boost;
A current carrying mat in which a conductive electrode plate to which a high voltage generated by the high voltage generation circuit is applied is covered with an insulating material;
A liquid crystal display device to which a touch panel for receiving an operation of the treatment device is attached, and the liquid crystal display device itself and the touch panel are installed in an electrically ungrounded state; and
A potential therapy device comprising: a power supply unit that supplies power to the liquid crystal display device while maintaining electrical insulation between the power supply circuit, the high voltage generation circuit, and the liquid crystal display device.   The power supply means is composed of an insulating transformer, the power supply voltage or the high voltage is applied to the primary side of the insulating transformer, and the secondary side of the insulating transformer is connected to the liquid crystal display device. The electric potential treatment device according to claim 1, wherein   2. The electric potential treatment device according to claim 1, wherein the power supply means includes a battery, and the battery supplies power to the liquid crystal display device.   The power supply means includes a contactless power transmitter, and when the contactless power transmitter is applied with the power supply voltage or the high voltage, it generates power and supplies the power to the liquid crystal display device. The electric potential treatment device according to claim 1, wherein: The power supply means
A light emitting element that emits light when the power supply voltage or DC voltage is applied;
A solar cell that converts light emitted from the light emitting element into electricity,
The electric potential treatment device according to claim 1, wherein electric energy converted by the solar cell is supplied to the liquid crystal display device.

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