KR101017023B1 - focusing type needle using variable electromagnetic field - Google Patents

Abstract

The present invention relates to a focused magnetic field needle device using a variable electromagnetic field, a variable magnetic field stimulator to generate a variable magnetic field and sound pressure around the needle bar and to enable a variety of stimulation according to the treatment purpose.

To this end, the present invention is provided with a needle rod coiled around the inside of the flexible cap having one side open for contact with the skin and equipped with a suction valve for the discharge of internal air, the negative pressure and the variable magnetic field around the needle bar At least one focused magnetic field stimulator for generating a light source; A coil power supply unit supplying operation power to the coils of the stimulators; A power control unit controlling an operation power applied to each coil from the coil power supply unit; A channel setting for selecting each stimulator, and a user interface for setting an operating power controlled by the power adjusting unit; A main control unit for determining and outputting a channel value for selecting each stimulator and a suction adjustment value or a coil power adjustment value required for the operation of each stimulator as a value set by the user interface unit. Provide a magnetic field focusing needle device.

Variable magnetic field, sound pressure, saliva, stimulus, focused

Description

Focusing type needle using variable electromagnetic field

The present invention relates to a magnetic field needle device using a variable electromagnetic field, and more particularly, to magnetically stimulate the acupuncture points or pain areas by using a magnetic field focused magnetic needle that can adjust the intensity, density or direction of the magnetic flux. The present invention relates to a focused magnetic field needle device using a variable electromagnetic field, which can be used to improve autonomic nerves or to treat neurological disorders through changes in metallic ions in blood through sound pressure and a variable magnetic field.

In general, the treatment method by acupuncture stimulation is a kind of treatment that has been down for thousands of years, and it is a method of inserting a needle into a painful area or inserting a needle into acupuncture points for fundamental treatment of a disease according to the operator's supervision. There is a method.

In other words, the treatment method by acupuncture stimulation is a treatment method that normally restores the organic elements by applying an auxiliary physiological action toward the body by acupuncture stimulation, and not only analgesic action but also various physiological defense functions in the human body. It can be said to be a method of treatment that can heal organic diseases by strengthening.

The treatment method by acupuncture stimulation includes a method of moving the needle inserted subcutaneously or intramuscularly up and down (Taking method), and by inserting the needle to a certain depth and holding it with a finger at about 90 ° to 160 ° (rotation method) And, the method and the method of leaving the needle needles soaked for a certain time after the suspension method and the salt immersion method (oil immersion method).

On the other hand, the magnetic field responds to various components dissolved in the blood and tissue cells of the human body, especially metals (hemoglobin, manganese, magnesium, iron, etc.) contained in the blood, promoting blood circulation, ionizing the blood, and autonomic nerves. , Strengthening immunity, pain relief, etc. will help in the treatment.

Therefore, when the human body is stimulated by using a magnetic field to create an electric current in the blood, which causes electrolyte dissociation, that is, ionization of the blood, and the control of the autonomic nerve is made well. The easy control of the autonomic nervous system helps to smooth the functions of organs such as the heart, digestive organs, respiratory organs and body temperature control, sweating, urination, defecation, as well as blood circulation under the control of the autonomic nerve.

Conventional magnet needles using magnetic fields are mostly used for non-contact method by attaching magnets, and they are mainly used for the purpose of treating wide lesions. In addition, the control of magnetic flux intensity and density is not considered at all. Therefore, precise control such as the strength and density of the magnetic flux is impossible. In addition, the conventional magnetic needle uses a very high magnetic field, and because of the large size and volume, there is a lot of power consumption problems. In particular, there is almost no way to focus and stimulate the magnetic field to confine the acupuncture points or pain areas.

The technical problem to be achieved by the present invention, by using a focused magnetic field stimulator to generate a variable magnetic field and sound pressure around the needle bar, a focused magnetic field needle device using a variable electromagnetic field to enable a variety of stimulation according to the treatment purpose It aims to provide.

Another technical problem to be achieved by the present invention is to allow the user to arbitrarily set the variable magnetic field and the sound pressure generated in the focused magnetic field stimulator, according to the treatment purpose or according to the user's intention, various stimulation by various sound pressure and variable magnetic field Magnetic field focusing needle device using a variable electromagnetic field made possible.

According to an embodiment of the present invention for achieving the above object, the coil is wound inside the flexible cap having one side open for contact with the skin and a suction valve for discharging the internal air. At least one focused magnetic field stimulator for generating sound pressure and a variable magnetic field around the needle bar; A coil power supply unit supplying operation power to the coils of the stimulators; A power control unit controlling an operation power applied to each coil from the coil power supply unit; A channel setting for selecting each stimulator, and a user interface for setting an operating power controlled by the power adjusting unit; And a main controller configured to determine and output a channel value for selecting each stimulator and a suction adjustment value or a coil power adjustment value required for the operation of each stimulator as a value set by the user interface unit. Magnetic field focusing needle device.

According to another embodiment of the present invention for achieving the above object, a coil is wound inside the flexible cap having one side open for contact with the skin and equipped with a suction valve for the discharge of the internal air. At least one focused magnetic field stimulator for generating sound pressure and a variable magnetic field around the needle bar; A coil power supply unit supplying operation power to the coils of the stimulators; A suction control unit configured to suck the internal air of the cap through the suction valve to adjust a negative pressure of a space surrounded by the flexible cap and the skin; A user interface unit for setting a channel for selecting each stimulator and setting a sound pressure adjusted by the suction controller; A main control unit for determining and outputting a channel value for selecting each stimulator and a suction adjustment value or a coil power adjustment value required for the operation of each stimulator as a value set by the user interface unit. Magnetic field focusing needle device.

According to another embodiment of the present invention for achieving the above object, the coil is wound around the inside of the flexible cap having one side is opened for contact with the skin and equipped with a suction valve for the discharge of the internal air At least one focused magnetic field stimulator for generating a sound pressure and a variable magnetic field around the needle bar; A coil power supply unit supplying operation power to the coils of the stimulators; A power control unit controlling an operation power applied to each coil from the coil power supply unit; A suction control unit configured to suck the internal air of the cap through the suction valve to adjust a negative pressure of a space surrounded by the flexible cap and the skin; A user interface unit for setting a channel for selecting each stimulator, setting each operating power controlled by the power controller, and setting a sound pressure controlled by the suction controller; A main control unit for determining and outputting a channel value for selecting each stimulator and a suction adjustment value or a coil power adjustment value required for the operation of each stimulator as a value set by the user interface unit. Magnetic field focusing needle device.

According to the present invention, the electromagnetic properties of the treated acupoints are changed according to the magnetic flux density, magnetic field strength, and magnetic direction of the alternating magnetic field, affect the neurotransmission process at the pain site, improve blood flow, and improve the effects of nerve stimulation / treatment or It can be improved.

Hereinafter, the configuration and operation of the needle device according to each embodiment of the present invention with reference to the accompanying drawings in detail as follows.

1 is a block diagram showing a preferred embodiment of a magnetic field focusing needle device using a variable electromagnetic field of the present invention, the needle device according to the most preferred embodiment of the present invention, the user interface unit 10, the main control unit 110 , A coil power supply unit 120, a power control unit 130, a cushion control unit 140, and a plurality of focused magnetic field stimulators 300-1 to 300-n.

The user interface unit 10 is configured to enable a channel setting for selecting each stimulator, a setting of an operating power controlled by the power adjusting unit, and a key input for setting a sound pressure adjusted by the suction adjusting unit.

The main controller 110 determines and outputs a channel value for selecting each stimulator as a value set by the user interface unit, a suction adjustment value and a coil power adjustment value required for the operation of each stimulator.

The coil power supply unit 120 supplies operating power to the coils of the stimulators, and the power control unit 130 controls the operating power applied to the coils from the coil power supply unit.

The suction adjustment unit 140 adjusts the sound pressure of the space surrounded by the flexible cap and the skin by sucking the air inside the cap through the suction valve.

A plurality of focused magnetic field stimulators (300-1 ~ 300-n) are connected in parallel to the suction control unit 140 and the coil power supply unit 120, respectively, the sound pressure is adjusted through the suction control unit 140, the coil The variable magnetic field is adjusted through the power supply 120.

Although not illustrated in the drawings, the needle device according to an embodiment of the present invention includes a user interface unit 10, a main control unit 110, a coil power supply unit 120, a power control unit 130, and a plurality of focused magnetic field stimulators. (300-1 to 300-n), in which case the user interface unit 10 is capable of setting a channel for the selection of each stimulator, and a key input for setting the operating power controlled by the power control unit. The main controller 110 determines a channel value for selecting each stimulator and a coil power adjustment value required for the operation of each stimulator as a value set by the user interface unit.

Although not illustrated in the drawings, the needle device according to another embodiment of the present invention includes a user interface unit 10, a main control unit 110, a coil power supply unit 120, a suction control unit 140, and a plurality of focused magnetic field stimulators. 300-1 to 300-n, in which case, the user interface 10 may set a channel for selection of each stimulator and a key input for setting a sound pressure adjusted by the suction controller. The main controller 110 determines a channel value for selecting each stimulator and a suction adjustment value necessary for the operation of each stimulator as a value set by the user interface unit.

2 is an operation flowchart performed by the main control unit in the magnetic field focusing needle device using the variable electromagnetic field of the present invention, and initializing an output port at the same time as supplying power and setting a default value for each stimulator control (S101-S105). And checking whether there is a period reset by the timer, and controlling the strength and direction of the current applied to the coils of each stimulator according to the reset period (S107-S109), and whether the stimulation mode selection is performed for each channel. And checking and resetting the stimulator control value to the selected value to perform suction control and coil control to the set value (S111-S115).

3 is a perspective view illustrating an internal configuration example of the focused magnetic field stimulator of FIG. 1, and illustrates an example of a needle bar supporting member 301, a needle bar 302, and a coil 303.

The needle bar support member 301 has a flat plate shape and is a member for supporting the needle bar 302 and the coil 303 to be wound on the needle bar.

The needle bar 302 is made of an object that is magnetized while a current flows in a winding coil, and a peak is formed at a free end of one side and a fixed end of the other side is fixed by the needle support member 301, and a coil around It is configured to be wound a number of times.

The coil 303 is connected to the coil power supply 120 so that power can be supplied from the outside, and the tip of the needle bar 302 is exposed to be spirally wound around the coil.

The plurality of focused magnetic field stimulators 300-1 to 300-n configured as described above may have different winding numbers of coils, and the operating power applied to the coils of the stimulators may be the power control unit 130. It is configured to be adjusted differently by each.

In addition, the operating power controlled by the power control unit 130 may be applied to change at least one of the strength, density, and direction of the magnetic field generated around the needle bar. In this case, at least one of the voltage, current, and frequency may be varied, the direction of the voltage or current may be varied, or the intensity of the voltage or current may be varied.

In addition, the operation power source is variable so that the N pole and the S pole of the variable magnetic field formed around the needle bar alternately, or the N pole or the S pole of the variable magnetic field formed around the needle bar is periodically generated or formed around the needle bar. The N pole or the S pole of the variable magnetic field may be varied to be generated continuously.

4 is a cross-sectional view illustrating an example of coating the outside of the focused magnetic field stimulator of FIG. 3 with an insulating member, and each focused magnetic field stimulator 300 according to the present invention exposes the free end of the needle bar. The entire outer circumferential surface of the coil wound on is surrounded by an insulating member 304 and coated.

5 is applied to the coil of the focused magnetic field stimulator configured as shown in Figure 3 by applying various types of current (20mA, 45mA, 70mA, 100mA, 120mA, 140mA), respectively, and measured and recorded the magnetic flux density generated around the needle bar Simulation Results As a graph, the horizontal axis of the graph is the measurement position (mm) and the vertical axis of the graph is the magnetic flux density (T).

FIG. 6 is a cross-sectional view illustrating a state in which the focused magnetic field stimulator of FIG. 1 is coupled to the flexible cap 305, the flexible cap 305 having one side open for contact with the skin and a coil in a central portion thereof. A needle bar 302 wound around 303 is positioned, and a suction valve 307 is installed at the rear to discharge internal air. And the suction valve 307 is connected to the air outlet pipe 320 for discharging the internal air to the outside, the air outlet pipe 320 is connected to the suction control unit 140. In addition, an electrode pad 306 is installed inside the flexible cap 305 so that the power line 310 connected to the coil power supply 130 may be connected to the inside of the flexible cap 305. The power supply is configured to the coil 303 of the.

FIG. 7 is a reference diagram illustrating an alternating magnetic field that may be generated in acupuncture points or pain when alternating power is applied to the focused magnetic field stimulator of FIG. 1, and FIG. 8 is a simultaneous stimulation or alternation using a multi-channel stimulator. It is a reference figure illustrated to demonstrate the individual stimulus operation by a magnetic field.

Referring to the operation according to the present invention configured as described above are as follows.

First, when power is supplied, the main control unit 110 initializes the output port connected to the suction control unit 140 and the power control unit 130, and then initializes each of the focused magnetic field stimulators to a predetermined default value. . In this state, the main control unit 110 confirms whether a key is input through the user interface unit 10. Through this key input, a channel setting for selecting each stimulator, a setting of an operating power adjusted step by step in the power control unit, and a setting of a sound pressure stepped in the suction control unit can be made.

Therefore, the main controller 110 checks whether the stimulation period is reset using the timer or the voltage, the current, the frequency, or the direction of the voltage and the current are gradually applied to the coil of the stimulator through the key input. . A channel value for selecting each stimulator, a stepped adjustment value for the operation of each stimulator, and a coil power adjustment value are determined and output. That is, the main control unit 110 adjusts the suction valve 307 through the suction adjustment unit 140 according to the check result to adjust the sound pressure inside the flexible cap 305 to a desired state pressure and at the same time, the power control unit Desired through the voltage, current, frequency of the variable, or the direction of the voltage and current, or the intensity of the voltage and current applied to the coil of the stimulator for each channel from the coil power supply 120 through 130 Suction and coil control is performed to generate a magnetic field of desired intensity, density and direction in the stimulator of the channel.

The present invention is a magnetic field-focused acupuncture device which can stimulate the negative pressure and variable magnetic field at the acupuncture point or pain area and can improve the neurostimulation treatment effect while being applied as an alternative to oriental medicine treatment. Depending on the direction, it is possible to change the electromagnetic properties of the treatment acupoints, and also to affect the neurotransmission process in the pain area or to improve the therapeutic effect by improving blood flow, nerve stimulation.

In addition, the present invention is not only possible to selectively adjust the stimulus intensity pattern, etc. for each channel according to the treatment purpose by varying the voltage, current, frequency, or the direction or intensity of the voltage or current, as well as the voltage applied to the coil By varying the current and frequency in several stages, simultaneous stimulation is possible for each channel, enabling efficient treatment of neurostimulation.

In addition, the present invention is to make the structure of the stimulator in the flat form, such as ECG electrode, and can improve the therapeutic effect through the simultaneous magnetic stimulation of the multiple channels by the variable magnetic field and sound pressure using skin adhesion, needle and coil by sound pressure using a flexible cap Will be.

The present invention is not limited to the above described and illustrated in the drawings, and of course, more modifications and variations are possible to those skilled in the art within the scope of the following claims.

1 is a block diagram showing a preferred embodiment of a magnetic field focusing needle device using a variable electromagnetic field of the present invention.

2 is an operation flowchart performed by the main control unit in the magnetic field focusing needle device using the variable electromagnetic field of the present invention.

FIG. 3 is a perspective view illustrating an internal configuration example of the focused magnetic field stimulator of FIG. 1.

4 is a cross-sectional view illustrating an example in which the outside of the focused magnetic field stimulator of FIG. 3 is coated with an insulating member.

FIG. 5 is a graph showing simulation results of measuring and recording magnetic flux densities generated around needle rods by applying various types of currents to coils of the focused magnetic field stimulator configured as shown in FIG. 3.

6 is a cross-sectional view illustrating a state in which the focused magnetic field stimulator of FIG. 1 is coupled to the flexible cap 305.

7 is a reference diagram illustrating an alternating magnetic field that may be generated in acupuncture points or pain when alternating power is applied to the focused magnetic field stimulator of FIG. 1.

FIG. 8 is a reference diagram for explaining an individual stimulus operation by a simultaneous stimulus or an alternating magnetic field using a multi-channel stimulator.

<Explanation of symbols for the main parts of the drawings>

10: user interface unit 110: main control unit

120: coil power supply unit 130: power control unit

140: Suction control unit 300,300-1 ~ 300-n: focused magnetic field stimulator

301: needle bar support member 302: needle bar

303: coil 304: insulation member

305: flexible cap 306: electrode pad

307: suction valve 310: power line

320: air outlet pipe

Claims (15)

At least one coiled winding needle inside a flexible cap having one side open for contact with the skin and a suction valve for discharging internal air, thereby generating a negative pressure and a variable magnetic field around the needle. Focused magnetic field stimulator; A coil power supply unit supplying operation power to the coils of the stimulators; A power control unit controlling an operation power applied to each coil from the coil power supply unit; A channel setting for selecting each stimulator, and a user interface for setting an operating power controlled by the power adjusting unit; A main controller configured to determine and output a channel value for selecting each stimulator and a suction adjustment value or a coil power adjustment value required for the operation of each stimulator as a value set by the user interface unit. Magnetic field focusing needle device using electromagnetic field. At least one coiled winding needle inside a flexible cap having one side open for contact with the skin and a suction valve for discharging internal air, thereby generating a negative pressure and a variable magnetic field around the needle. Focused magnetic field stimulator; A coil power supply unit supplying operation power to the coils of the stimulators; A suction control unit configured to suck the internal air of the cap through the suction valve to adjust a negative pressure of a space surrounded by the flexible cap and the skin; A user interface unit for setting a channel for selecting each stimulator and setting a sound pressure adjusted by the suction controller; A main controller configured to determine and output a channel value for selecting each stimulator and a suction adjustment value or a coil power adjustment value required for the operation of each stimulator as a value set by the user interface unit. Magnetic field focusing needle device using electromagnetic field. At least one coiled winding needle inside a flexible cap having one side open for contact with the skin and a suction valve for discharging internal air, thereby generating a negative pressure and a variable magnetic field around the needle. Focused magnetic field stimulator; A coil power supply unit supplying operation power to the coils of the stimulators; A power control unit controlling an operation power applied to each coil from the coil power supply unit; A suction control unit configured to suck the internal air of the cap through the suction valve to adjust a negative pressure of a space surrounded by the flexible cap and the skin; A user interface unit for setting a channel for selecting each stimulator, setting each operating power controlled by the power controller, and setting a sound pressure controlled by the suction controller; And a main controller configured to determine and output a channel value for selecting each stimulator and a suction adjustment value or a coil power adjustment value required for the operation of each stimulator as a value set by the user interface unit. Magnetic field focusing needle device using electromagnetic field. The method according to any one of claims 1 to 3, Magnetic field focusing needle using a variable electromagnetic field, characterized in that the number of windings of the coil wound on the needle bar of each stimulator. The method according to any one of claims 1 to 3, Magnetic field focusing needle device using a variable electromagnetic field, characterized in that the operating power applied to the coil of each stimulator is configured to be differently controlled by the power control unit. The method according to any one of claims 1 to 3, The magnetic field lasting needle device using a variable electromagnetic field, characterized in that the operating power is applied to vary at least one of the intensity, density, and direction of the variable magnetic field. The method according to any one of claims 1 to 3, The operating power source is a magnetic field focusing needle device using a variable electromagnetic field, characterized in that at least one of voltage, current, frequency is variable. The method according to any one of claims 1 to 3, The operating power source is a magnetic field focusing needle device using a variable electromagnetic field, characterized in that the direction of the voltage or current is variable. The method according to any one of claims 1 to 3, The operating power source is a magnetic field focusing needle device using a variable electromagnetic field, characterized in that the intensity of the voltage or current is variable. The method according to any one of claims 1 to 3, The operation power source is a magnetic field focusing needle device using a variable electromagnetic field, characterized in that the N pole and the S pole of the variable magnetic field formed around the needle bar is alternating. The method according to any one of claims 1 to 3, The operation power source is a magnetic field focusing needle device using a variable electromagnetic field, characterized in that the N pole, or S pole of the variable magnetic field formed around the needle bar is periodically generated. The method according to any one of claims 1 to 3, The operation power source is a magnetic field focusing needle device using a variable electromagnetic field, characterized in that the variable N-pole or S-pole of the variable magnetic field formed around the needle is continuously generated. The stimulator of any one of claims 1 to 3, wherein A needle support member having a flat plate shape and positioned inside the central portion of the flexible cap to support the needle bar; A tip is formed at a free end of one side and a fixed end of the other side is fixed by the needle support member; A coil spirally wound around the needle bar; Magnetic field focusing needle using a variable electromagnetic field characterized in that it comprises a; insulating member surrounding the entire outer circumferential surface of the coil wound on the needle bar and coated to insulate the outside of the winding coil. The method of claim 13, Magnetic field focusing needle device using a variable electromagnetic field characterized in that the free end of the needle bar is coated so as to be exposed from the insulating member. The method of claim 13, The needle bar is a magnetic field focusing needle device using a variable electromagnetic field, characterized in that made of an object that is magnetized while the current flows in the winding coil.

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