KR101249387B1 - A complex stimulus apparatus by magnetization needle/Moxibustion using alternating magnetic fields of coil - Google Patents

Abstract

The present invention relates to a complex stimulation device by magnetization needle / moxibustion using the alternating magnetic field of the coil, by applying an alternating current to the coil wound on the cylindrical packaging member to magnetize the needle or moxibustion that is a conductive magnetic material to perform a complex stimulation It can be.
To this end, the present invention is a packaging member, surrounding the coil is wound on the outer surface of the hollow hollow cylindrical body and configured to generate an alternating magnetic field around the hollow cylindrical body by applying an alternating current to the coil from an external power supply It is composed of a conductive magnetic material so as to be magnetized by a magnetic field and is formed to be inserted in the longitudinal direction inside the cylindrical body of the packaging member, and a magnetized needle that applies complex stimulation by acupuncture stimulation, heat stimulation and magnetic field stimulation upon invasion or contact with the skin or Magnetization needle using alternating magnetic field of coil including magnetization moxibustion rod, power supply for applying alternating current to coil of packaging member, and control unit for controlling the direction, strength and frequency of alternating current applied to coil of packaging member at power supply / It provides a complex stimulation device by moxibustion and acupuncture stimulation through magnetization needle or It allows for treatment with the complex stimulus with the thermal effect and magnetic stimulation.

Description

Complex stimulus apparatus by magnetization needle / Moxibustion using alternating magnetic fields of coil}

The present invention relates to a complex magnetic stimulation device by magnetization needle / moxa that can be applied to the magnetic field stimulation in combination with acupuncture stimulation or heat stimulation by magnetizing the needle or moxibustion, more specifically the needle or moxibustion can be inserted By winding the coil on the hollow body and applying alternating current to the coil to magnetize the needle or moxibustion rod, the alternating coil can enhance the therapeutic effect by the combined stimulus by magnetic field stimulus as well as the thermal stimulus by saliva or moxibustion. The present invention relates to a complex stimulation device by magnetization needle / moxibustion using a magnetic field.

In general, acupuncture in oriental medicine uses a method of preventing or treating a disease by acupuncture stimulation method by stimulating acupuncture points in the acupuncture points, and recently, the treatment of heat caused by moxibustion is performed in parallel with acupuncture. Heat acupuncture is used to increase the therapeutic effect.

Thermal acupuncture is performed by applying heat to the saliva while most of the acupuncture points are inserted in the acupuncture points of the human body, etc., and are used for various therapeutic purposes by promoting the operation of blood donation in the acupuncture points. In particular, since there is no blood circulation, such as joints, the body temperature is easily lowered, causing pain and the like, and diseases such as arthritis occur. Therefore, the thermal acupuncture therapy is widely applied to all the treatments to be treated by giving a thermal stimulus with a thermal acupuncture point where there is no blood circulation or stagnant.

Moxibustion therapy has been used for the same reasons as heat acupuncture (invasive method) therapy, but is used as a method of applying heat to acupuncture points by a non-invasive method.

The thermal acupuncture and moxibustion are selectively used according to the treatment purpose and the treatment site.

However, the conventional thermal saliva or moxibustion therapy is prepared separately by moxibustion rods are bonded to the distal end of the saliva, and fired by heating the moxibustion rods, it is difficult to continuously heat stimulation and temperature control is impossible. In addition, since the heat is directly attached to the moxibustion rod, there is a risk of inconvenience and burns caused by smoke. In addition, there is a disadvantage in that the procedure is limited because the procedure is always possible in the vertical state, and there are many inconveniences such as difficulty in treatment after the procedure.

On the other hand, another well-known technique for heat treatment is a high-frequency deep warmer that heats the skin and the core using high-frequency electricity. Unlike other current types, this method uses high-frequency currents that do not stimulate the sensory and motor nerves. Whenever the direction of high-frequency currents changes, molecules constituting the body tissues vibrate and rub against each other, resulting in rotational, torsional, and collisional motions. It generates the heat of the living body. Therefore, it is possible to heat a specific part of the body tissue without causing discomfort or muscle contraction in the human body, and the high frequency energy converted into the biothermal energy increases the temperature of the body tissue to enhance the function of cells and increase blood flow. Play a role.

However, the temperature change that can be achieved by this high-frequency deep warmer can raise the temperature to about 2 ℃, which is considerably smaller than the temperature change caused by moxibustion, and can heat up to a depth of 10cm or more, but the stimulus depth cannot be controlled. In addition, there is a problem that the degree of temperature rise is different according to tissues, which is inconsistent with meridians / acupoints and stimulation thermal treatments.

On the other hand, the alternating magnetic field is a magnetic field in which the intensity of the magnetic field increases and decreases in a positive or negative direction with time and does not change. Among these alternating magnetic fields, a high frequency alternating magnetic field having a very short period has a longitudinal vibration in the magnetic body. Research results have been published that it is very effective to induce the electrical and physiological characteristics of the living body when applying a magnetic field stimulus to the living body using the alternating magnetic field by causing a repetitive phenomenon.

The technical problem to be achieved by the present invention is to insert a needle or a moxibustion rod into the packaging member of the hollow body, winding the coil on the outer circumferential surface of the packaging member, and then applying alternating current to generate an alternating magnetic field around the coil and by the alternating magnetic field. By magnetizing the needle or moxibustion rod in the packaging member, the magnetic needle / moxibustion using the alternating magnetic field of the coil enables the treatment of complex stimulation by the needle stimulation by the magnetized needle or the moxibustion rod and the thermal stimulus and the magnetic field stimulus. It is an object to provide a complex stimulation device.

Another technical problem to be achieved by the present invention is to adjust the direction, intensity and frequency of the alternating current applied to the coil, so that the direction of the magnetic lines of the magnetic field stimulation by the needle or moxibustion, the magnetization intensity, and the frequency of the stimulation can be controlled. An object of the present invention is to provide a complex stimulation apparatus by magnetization needle / moxibustion using alternating magnetic field of a coil that enables the treatment of complex stimulation by magnetization needle or magnetization moxibustion to various diseases and pains.

Another technical problem to be achieved by the present invention is by applying the entire surface of the packaging member with an insulating material, magnetization needle / moxibustion using the alternating magnetic field of the coil to enable the treatment of complex stimulation by magnetization needle or magnetization moxibustion safely without electric shock accident An object of the present invention is to provide a complex stimulation device.
Another technical problem to be achieved by the present invention is to allow the operator to adjust the direction of the magnetic field lines, the intensity of magnetization, and the frequency of stimulation with respect to the alternating magnetic field to be generated around the packaging member, N according to the magnetic field stimulation control unit It is an object of the present invention to provide a complex stimulation device by magnetization needle / moxibustion, which enables treatment by selecting one of the stimulation with repeated poles, the stimulation with repeated S poles, or the stimulation with alternating N and S poles. .

According to one embodiment of the present invention for achieving the above object, a coil is wound on an outer surface of a hollow hollow cylindrical body and alternately applied to the coil in an external power supply to alternate around the hollow cylindrical body. A packaging member configured to generate a magnetic field, and a conductive magnetic material configured to be magnetized by a surrounding magnetic field, and are formed to be inserted in a longitudinal direction inside the cylindrical body of the packaging member. A magnetization needle or magnetization stick that applies complex stimulation by magnetic field stimulation, a power supply for applying alternating current to the coil of the packaging member, and a control unit for controlling the direction, intensity and frequency of the alternating current applied to the coil of the packaging member from the power supply It is a complex stimulation device by magnetization needle / moxibustion using the alternating magnetic field of the coil to include.

According to another embodiment of the present invention for achieving the above object, the coil is wound on the outer surface of the hollow hollow cylindrical body and alternately applied to the coil in the external power supply to the periphery of the hollow cylindrical body A packaging member configured to generate a magnetic field, and a conductive magnetic material configured to be magnetized by a surrounding magnetic field, and are formed to be inserted in a longitudinal direction inside the cylindrical body of the packaging member. Magnetization needle or magnetization stick that applies complex stimulation by magnetic field stimulation, power supply for applying alternating current to coil of packaging member, direction of magnetic lines for alternating magnetic field to be generated around packaging member, strength of magnetization, and stimulation frequency Equipped with a number of controls that can be adjusted by the operator and controls the set values by each control Magnetization using the alternating magnetic field of the coil including a magnetic field stimulation control unit for transmitting to the negative, and a control unit for controlling the direction, intensity and frequency of the alternating current applied to the coil of the packaging member in the power supply with values set through the magnetic field stimulation control unit It is a composite stimulation device by saliva / moxibustion.

According to another embodiment of the present invention for achieving the above object, an alternating magnetic field of a coil formed by the packaging member of the magnetic pole device according to each embodiment of the present invention by applying the entire surface of the hollow cylindrical body with an insulating material It is a complex stimulation device by magnetization needle / moxibustion using.

According to the composite magnetic stimulation device by the magnetization needle / moxibustion of the present invention, a mixed stimulus can be made by mixing the needle stimulus, the thermal stimulus as well as the magnetic field stimulus by using the magnetic needle or the moxibustion rod magnetized by the alternating magnetic field generated around the packaging member. It will be able to induce a variety of electromagnetic properties, electrochemical properties, and electrophysiological properties in the surgical site or acupuncture points will be able to maximize the therapeutic effect.

In addition, according to the complex stimulation device by the magnetization needle / moxibustion of the present invention, it is possible to actively control the alternating current applied to the coil by using the value set by the operator or the temperature value measured by the temperature sensor through the magnetic field stimulation control unit Since it is possible, the direction of the magnetic field lines, the strength of the magnetic field and the frequency of the stimulation of the treatment site or acupuncture points can be freely changed, and thus there is an advantage of enabling various treatments according to diseases, diseases, manifestations, and pain.

In addition, according to the composite magnetic stimulation device by the magnetization needle / moxibustion of the present invention, since the entire surface is used as a packaging member coated with an insulating material, there is an advantage of enabling the treatment by the composite stimulation by acupuncture or moxibustion safely without electric shock. have.
In addition, according to the composite stimulation device by the magnetization needle / moxibustion of the present invention, the direction of the magnetic field lines, the intensity of the magnetization, and the frequency of the stimulation to the alternating magnetic field to be generated around the packaging member can be adjusted by the operator, magnetic field stimulation According to the control unit, it is possible to select and treat one of the stimulation of repeating the N pole, the stimulation of the S pole, or the stimulation of alternating N and S poles, according to the disease, disease, symptom, and pain. Various treatments, ie custom treatments, are possible.

1 is a schematic configuration diagram of a complex stimulation apparatus by magnetization needle / moxibustion using an alternating magnetic field of a coil according to an embodiment of the present invention.
FIG. 2 is a detailed view illustrating and extracting the packaging member of FIG. 1. FIG.
3 is a waveform diagram of a magnetic field stimulation pattern that may be varied by the magnetic field stimulation controller of FIG. 1.
4A to 4D are detailed views illustrating the extract of the magnetization needle and the magnetization moxibustion rod of FIG. 1, respectively.
5A and 5B are detailed views illustrating the state in which the magnetization needle and the magnetization moxibustion rod are respectively inserted into the packaging member of FIG. 1.
6 is a reference diagram illustrating a state in which the complex stimulation device according to the present invention is connected and used by the multi-channel control system.
7 to 12 are graphs illustrating the change in meridians potential according to the change in the magnetic field.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the composite stimulation device by the magnetization needle / moxibustion using the alternating magnetic field of the coil according to the preferred embodiment of the present invention.

1 is a schematic configuration diagram of a complex stimulation apparatus by magnetization needle / moxibustion using an alternating magnetic field of a coil according to an embodiment of the present invention, by applying an alternating current to the winding coil 110 of the packaging member 120. A complex stimulation device according to an embodiment of the present invention, which is configured to magnetize a needle or a moxibustion with an alternating magnetic field generated around it, is illustrated.

As shown in Figure 1, the composite magnetic stimulation device according to the magnetization needle / moxibustion according to the present invention of the packaging member 120, the packaging member of the hollow cylindrical body in which the coil 110 is wound so as to apply an alternating current Magnetized needle 400 or magnetized steaming rod 400 of the conductive magnetic material inserted into the hollow body, the adhesive member 130 made of a skin-adhesive material, the temperature sensor 140 installed on the packaging member, the power supply unit 150, Magnetic field stimulation control unit 160, and the controller 200 for controlling the overall operation of the device and the alternating current applied to the coil.

FIG. 2 is a detailed view illustrating the packaging member of FIG. 1, and FIG. 3 illustrates a waveform diagram of a magnetic field stimulation pattern that may be varied by the magnetic field stimulation controller of FIG. 1.

As shown in FIG. 2, the packaging member 120 includes a first cylindrical member 121 configured as a hollow body and a second cylindrical member 122 spaced apart from the outer circumferential surface of the first cylindrical member by a predetermined distance. Each cylindrical member 121, 122 is composed of an entire surface of which is coated with an insulating material. A coil 110 is wound around the outer circumferential surface of the first cylindrical member 121, and an end portion of the coil 110 is provided with a power connection 111 that can be electrically detachably connected to the power supply 150. The first cylindrical member 121 is formed in the body of the cylindrical portion of the first space 121a having upper and lower ends, respectively, and having an inner diameter larger than the outer diameter of the needle or the moxibustion rod to insert the needle or the moxibustion rod. The second cylindrical member 122 has an outer circumferential surface of the first cylindrical member 121 in the form of surrounding the outside of the cylindrical portion of the first cylindrical member 121 to accommodate the coil wound on the first cylindrical member 121. Spaced at equal intervals from each other to form a second space 122a.

 One side of the adhesive member 130 is attached to the lower end of the packaging member 120, the other side is configured to attach the packaging member to the adhesive material is applied to the skin. The adhesive member 130 is preferably attached to the lower end of the packaging member 120 to prevent the packaging member from being in direct contact with the skin. In addition, the adhesive member 130 may be attached anywhere as long as the position where the packaging member can be fixed by bonding the skin to the skin irrespective of the position of the patient or the position of the affected part, that is, where the contact with the skin is possible. .

The temperature sensor 140 is installed inside the body of the packaging member 120, and measures the temperature of the coil or packaging member 120 and transmits the temperature to the controller 200.

The power supply unit 150 is controlled by a power control signal provided from the control unit 200 and includes at least one AC power supply terminal for supplying AC power to generate an alternating magnetic field around the coil. In addition, the power supply unit 150 may include one or more DC power supply terminals for supplying DC power so that the coil can be directly used as a heating element.

The magnetic field stimulation control unit 160 includes a plurality of control units that can respectively adjust the direction of the magnetic field lines, the intensity of magnetization, and the stimulation frequency of the alternating magnetic field to be generated around the packaging member 120 by the operator. Each of these control units may include a direction control unit of the alternating current for changing the direction of the magnetic field lines, an intensity control unit of the alternating current for changing the magnetization intensity, and a frequency control unit of the alternating current for changing the stimulation frequency. As a result, the magnetic field stimulation controller 160 controls the direction of the magnetic force line set by the operator, the direction of the alternating current, the intensity of the alternating current, and the frequency values for the adjustment of the stimulation frequency and the stimulation frequency, which are set by the operator. It can be delivered.

The control unit 200 is connected to the temperature sensor 140, the power supply unit 150 and the magnetic field stimulation control unit 160, the direction of the magnetic force line, the intensity of magnetization, which is set by the operator through the magnetic field stimulation control unit 160 Control AC power or DC power applied to the coil from each AC power supply terminal or each DC power supply terminal by adjusting the power control signal output to the power supply unit 150 according to the stimulus frequency value and the temperature value detected from the temperature sensor As a result, the magnetic field may be combined with the acupuncture or thermal stimulation to the affected area or the acupuncture points. In particular, the control unit 200 can adjust the stimulation pattern by the magnetic field that can be induced in the affected part or the acupuncture points by adjusting the alternating current within a predetermined frequency range (1 ~ 30Hz) flowing through the coil, the stimulation pattern at this time As shown in FIG. 3, a pattern of any one of a stimulus in which the N pole is repeated, a stimulus in which the S pole is repeated, or a stimulus in which the N and S poles are alternately repeated in succession may be used.
In other words, when a current is applied to the coil, a magnetic field is generated around the coil, and the generated magnetic field is determined by the current direction, and when the magnetic field generation direction (magnetic flux direction) coincides with the polarity of the internal permanent magnet, the magnetic field is permanent. Push out the chiropractor connected to the magnet (repulsion) and pull it if the polarities are different (gravitation). Accordingly, as shown in FIG. 3, according to the setting of the magnetic field stimulation control unit, the control unit applies a pulse greater than zero (+ direction pulse) to the coil to generate the stimulus with the N pole repeated, and the S pole is repeated. Pulses less than zero (-direction pulses) are applied to generate a pulse, and pulses greater than zero (+ direction pulses) and pulses less than zero (-direction pulses) are generated to produce a stimulus where the N and S poles are alternately repeated. When alternating), the N and S poles are alternating.

4A to 4D are detailed views illustrating the extraction of the packaging member, the magnetization needle, and the magnetizing moxibustion rod of FIG. 1, respectively. FIGS. 5A and 5B illustrate a state in which the magnetization needle and the magnetization moxibustion rod are respectively inserted into the packaging member of FIG. 1. Illustrated detail.

As shown in FIGS. 4A to 4D, the magnetization moxibustion rod 300 or the magnetization needle 400 is made of a conductive magnetic material to be magnetized by a surrounding magnetic field, and the magnetization moxibustion rod 300 or the magnetization needle 400 is 5A and 5B are formed to be inserted in the longitudinal direction inside the cylindrical body of the packaging member 120 to apply a complex stimulus by acupuncture stimulation and heat stimulation and magnetic field stimulation upon contact or invasion of the skin do.

Meanwhile, the first cylindrical member 121 and the second cylindrical member 122 constituting the packaging member 120 may be selectively configured by any one of a nonmagnetic material and a ceramic material. When the packaging member 120 is a nonmagnetic material, the coil 110 wound around the first cylindrical member 121 may be formed of a resistor having a low resistance value. In addition, an AC power source having a current amount, a voltage, and a frequency controlled by the controller 200 is applied to the coil of the low resistance body. In addition, the controller 200 calculates a current amount, a voltage, and a frequency according to the temperature measured by the temperature sensor 140 or a target intensity of an alternating magnetic field to be generated around the coil, and as a result of the calculation, the power supply unit ( The AC power applied to the coil 110 from 150 may be controlled.

Meanwhile, the first cylindrical member 121 and the second cylindrical member 122 constituting the packaging member 120 may be formed of a first ceramic material having a high thermal conductivity and a second ceramic material having a low thermal conductivity, respectively. In this case, the coil 110 wound on the outer circumferential surface of the first cylindrical member 121 is composed of a resistor having a high resistance value. In addition, a DC power source having a current amount and a voltage controlled by the controller 200 is applied to the coil 110 of the high resistor. In addition, the control unit 200 calculates the amount of current and the voltage according to the temperature measured by the temperature sensor 140 or the target heating temperature of the coil, and applies the result to the coil 110 from the power supply unit 150 as a result of the calculation. It is also possible to control the DC power supply.

In addition, when a coil of a high resistance body is wound around the packaging member 120, the controller 200 controls the DC power applied from the power supply to the coil at predetermined time intervals so that the coil generates heat around the coil and generates heat around the coil. The alternating magnetic field can also control the temperature of the heat loss body.

4A to 4D illustrate a magnetization needle 400 (see FIG. 4A) and a magnetization moxibustion rod 300 (see FIGS. 4B to 4D) inserted into the first cylindrical member 121 of the complex stimulation device according to the present invention. As a perspective view, the magnetized needle 400 may penetrate the skin and apply complex stimulation by acupuncture and magnetic field stimulation to the acupuncture points of the human body. The composite stimulus by the thermal stimulus and the magnetic field stimulus can be applied. The magnetization needle 400 that can be used in the composite stimulation device of the present invention is not limited to a specific form or material, and generally will be sufficiently applicable as long as it is composed of a magnetic material as a form of a needle. In the case of the magnetized moxibustion rod 300 is easy to the internal space of the first cylindrical member 121, as shown in Figure 4b to 4d in order to enable the heating by the alternating magnetic field generated around the coil itself or the coil itself. It would be desirable to have a skin contact 302 so that a rod-shaped package insert 301 that can be inserted therein can be formed thereon and properly adhered to the affected area. An adhesive member 303 is attached to the lower edge of the skin contact portion 302. Particularly, the magnetization needle 400 or the magnetization moxibustion rod 300 may be made of a material capable of rising to a high temperature in response to an external magnetic field generated by a coil and maintaining the same at a constant temperature. For example, it is a duplex stainless steel, a nickel-copper alloy, an iron-nickel alloy, iron, and the like, which are magnetic bodies causing a phase transition at a specific temperature.

5A and 5B are diagrams illustrating a state in which the magnetization needle 400 and the magnetization moxibustion rod 300 are inserted into the packaging member 120 of FIG. 1 and applied to the affected part, respectively, as shown in FIG. 5A. When the 400 is inserted, magnetic field stimulation by alternating magnetic fields generated around the coil, acupuncture stimulation by saliva, and the like may be applied to the acupuncture points or the affected part, and as shown in FIG. 5B, the magnetization moxibustion rod 300 is inserted. Magnetic field stimulation caused by alternating magnetic fields and thermal stimulation caused by moxibustion generated around the coil may be applied to the acupuncture points or affected areas.

6 is a reference diagram illustrating a state in which the complex stimulation apparatus according to the present invention is connected to and used in a multi-channel control system, and includes a multi-channel having a plurality of channels capable of controlling the amount of current, voltage, and frequency by the controller 200. 5A and 5B illustrate a form in which a plurality of packaging members 120 into which the magnetization needle 400 or the magnetization moxibustion rod 300 is inserted are simultaneously connected to the control system.

7 to 12 are graphs illustrating changes in meridians potential according to changes in a magnetic field, respectively. FIG. 7 illustrates pulse stimulation in which the N pole and the S pole are alternating (a) frequency 0.5 Hz, coil applied current 20 mA, (b) Frequency 0.5Hz, coil applied current 45mA, (c) Frequency 0.5Hz, coil applied current 70mA, (d) Frequency 1Hz, coil applied current 20mA 8 is a graph showing the measured S pole pulse stimulation (a) frequency 0.5 Hz, coil applied current 20 mA, (b) frequency 0.5 Hz, coil applied current 45 mA, (c) frequency 0.5 Hz, coil applied current 70 mA, ( d) When the frequency is 1Hz and the coil applied current is applied separately by 20mA, a graph measuring the change of the meridians potential for each of them, Figure 9 is a (N) frequency 0.5Hz, coil applied current 20mA, (b) frequency 0.5 Hz, coil applied current 45 mA, (c) frequency 0.5 Hz, coil applied current 70 mA, (d) frequency In the case of applying 1Hz and 20mA of coil applied current separately, the graph shows the change of meridians potential for each of them, and FIG. 10 shows a single pole of the N pole (a) coil applied current 20mA, (b) coil applied current 45mA. , (c) is a graph measuring the change in the meridians potential when applied separately by applying a coil applied current of 70mA, Figure 11 is a single pole of the pole pole (a) coil applied current 20mA, (b) coil applied current 45mA, ( c) Graphs measuring changes in meridians potential when applied separately by applying coil current of 70 mA, and FIGS. 12A and 12B are graphs illustrating changes in meridians potentials for handwriting stimulation and magnetic field stimulation, respectively. .

The composite magnetic pole device according to the present invention constituted as described above is made of a non-magnetic material and a first ceramic material having a high thermal conductivity and a second ceramic material having a low thermal conductivity. The case of configuring the first cylindrical member 121 and the second cylindrical member 122 can be described separately.

First, when the packaging member 120 is formed of a nonmagnetic material, the coil 110 wound around the outer circumferential surface of the first cylindrical member 121 is formed of a resistor having a low resistance value. Therefore, the alternating magnetic field as illustrated in FIGS. 7 through 9 is applied to the coil of the low resistance body by applying an AC power whose current amount, voltage, and frequency are controlled by the controller 200. When the magnetization needle 400 or the magnetization moxibustion rod 300, which is a large magnetic body, is inserted into the alternating magnetic field, the magnetic field change occurs at a very high speed, and thus the magnetization needle 400 or the magnetization moxibustion rod 300 is magnetized by the magnetic field. Heat is generated. Therefore, when the magnetization needle 400 is inserted into the packaging member 120, magnetic field stimulation by alternating magnetic fields generated around the coil, needle stimulation by saliva, etc., may be applied to the acupuncture points or the affected part. On the other hand, when the magnetizing moxibustion rod 300 is inserted into the packaging member 120, magnetic field stimulation by alternating magnetic fields generated around the coil, thermal stimulation by moxibustion, etc. may be applied to the menstrual blood or the affected part.

In addition, the control unit 200 according to the temperature measured by the temperature sensor 140, or according to the target intensity of the alternating magnetic field to be generated around the coil by the value set through the magnetic field stimulation control unit 160 and By calculating the frequency it is possible to control the AC power applied to the coil 110 from the power supply unit 150 as a result of the calculation, even in this case, magnetic field stimulation by alternating magnetic fields generated around the coil, needle stimulation by saliva, Or heat stimulation by moxibustion or the like can be applied to the acupuncture points or affected areas.

Meanwhile, when the first cylindrical member 121 and the second cylindrical member 122 of the packaging member 120 are formed of a first ceramic material having a high thermal conductivity and a second ceramic material having a low thermal conductivity, the first cylindrical member ( Since the coil 110 wound on the outer circumferential surface of the 121 is composed of a resistor having a high resistance value, and the coil 110 of the high resistor is applied with a DC power source in which a current amount and a voltage are controlled by the controller 200, the coil itself is It acts as a heating element. Therefore, heat is indirectly transferred to the saliva by a coil acting as a heating element, and thermal stimulation by heat, and acupuncture stimulation by saliva can be applied to acupuncture points or affected areas.

In addition, the controller 200 calculates the amount of current and the voltage according to the temperature measured by the temperature sensor 140 or the target heating temperature of the coil, and is applied to the coil 110 from the power supply unit 150 as a result of the calculation. Since the DC power source can be controlled, even in this case, saliva stimulation by saliva or heat stimulation by moxibustion can be applied to the menstrual blood or the affected part.

On the other hand, when the coil of the high resistance body is wound, the control unit 200 controls the DC power applied from the power supply to the coil at a predetermined time interval to control the self-heating of the coil and the alternating magnetic field generated around the coil. It is also possible to control the temperature of the heat loss body.

In the above, the present invention has been illustrated and described with respect to certain preferred embodiments. However, the present invention is not limited only to the above-described embodiments, and those skilled in the art to which the present invention pertains may variously change without departing from the spirit of the technical idea of the present invention described in the claims below. Could be done.

110: coil 111: power connection
120: packaging member 121,122: cylindrical member
121a, 122a: space 130,303: adhesive member
140: temperature sensor 150: power supply
160: magnetic field stimulation control unit 200: control unit
300: magnetized moxibustion rod 301: package insert
302: skin contact 400: magnetization saliva

Claims (19)

delete A packaging member wound on an outer surface of the hollow hollow cylindrical body and configured to generate an alternating magnetic field around the hollow cylindrical body by applying an alternating current to the coil from an external power supply;
It is composed of a conductive magnetic material so as to be magnetized by a surrounding magnetic field, and is formed to be inserted in the longitudinal direction inside the cylindrical body of the packaging member, and applies complex stimulation by acupuncture stimulation, heat stimulation, and magnetic field stimulation in the invasive state of the skin. Magnetization saliva;
A power supply unit applying an alternating current to the coil of the packaging member;
The control unit for controlling the direction of the magnetic field of the alternating magnetic field to be generated around the packaging member, the intensity of magnetization, and the frequency of the stimulation by the operator, and transmits the setting value by the control unit to the control unit, the direction of the magnetic line Magnetic field stimulation control unit configured to select one of the stimulation is repeated N pole, the stimulus is repeated S pole, or the stimulus is repeated alternating N and S poles according to the stimulus according to; And
The direction, intensity, and frequency of the alternating current applied to the coil of the packaging member by the power supply unit are controlled by the values set through the magnetic field stimulation controller, and 0 is set when the magnetic pole of the magnetic field stimulation controller is repeated. Generates an alternating current with a larger pulse waveform, and generates an alternating current with a pulse waveform less than zero when the magnetic pole is adjusted in the magnetic field stimulation control unit, and the N and S poles in the magnetic field stimulation control unit. And a control unit for generating an alternating current having a pulse waveform alternating a pulse greater than zero and a pulse smaller than zero when the alternating stimulus is set, and applying it to the coil of the packaging member. Complex stimulation device by magnetization needle using alternating magnetic field. The method of claim 2,
The packaging member is a composite stimulation device by a magnetization needle using an alternating magnetic field of the coil, characterized in that formed by applying the entire surface of the hollow cylindrical body with an insulating material. The method of claim 2,
An adhesive material that is adhered to the skin is applied to one surface, the other surface is attached to the lower end of the packaging member to prevent the packaging member from coming into direct contact with the skin; alternating magnetic field of the coil further comprises a Complex stimulation device by magnetization needle using. The method of claim 2,
And a temperature sensor installed at the packaging member to measure a temperature of the coil or the packaging member.
And the control unit controls the current output from the power supply unit according to the value set by the operator and the temperature value detected by the temperature sensor. The method of claim 3,
The packaging member may include a first space in which upper and lower ends are respectively opened to insert the needle, and a first space having an inner diameter larger than the outer diameter of the needle is formed inside the body of the cylindrical portion, and the coil is wound on the outer circumferential surface of the body. Cylindrical member;
And a second cylindrical member formed of a hollow cylindrical body that surrounds the outside of the cylindrical portion of the first cylindrical member, and spaced apart from the outer circumferential surface of the first cylindrical member at equal intervals.
The first cylindrical member and the second cylindrical member is made of any one of a nonmagnetic material or a ceramic material,
Composite stimulation device by the magnetization needle using the alternating magnetic field of the coil, characterized in that the coil consisting of a resistor is wound on the outer peripheral surface of the first cylindrical member. The method according to claim 6,
The resistance value of the coil wound around the outer circumferential surface of the first cylindrical member when the first cylindrical member and the second cylindrical member of the packaging member is made of nonmagnetic material is such that the first cylindrical member and the second cylindrical member of the packaging member are ceramics. When lower than the resistance value of the coil wound on the outer peripheral surface of the first cylindrical member,
When the first cylindrical member and the second cylindrical member of the packaging member are made of a nonmagnetic material, an alternating current is applied to the coil to generate an alternating magnetic field around the coil to heat the magnetization needle by the alternating magnetic field. Complex stimulation device by a magnetization needle using an alternating magnetic field of the coil, characterized in that the configuration. The method according to claim 6,
When the first cylindrical member and the second cylindrical member of the packaging member are made of ceramic, the first cylindrical member is made of a first ceramic material, the second cylindrical member is made of a second ceramic material, and the first ceramic material is The thermal conductivity of is higher than that of the second ceramic material,
The resistance value of the coil wound around the outer circumferential surface of the first cylindrical member when the first cylindrical member and the second cylindrical member of the packaging member is made of ceramic is such that the first cylindrical member and the second cylindrical member of the packaging member are made of nonmagnetic material. When the resistance is higher than the resistance value of the coil wound on the outer peripheral surface of the first cylindrical member,
In the case where the first cylindrical member and the second cylindrical member of the packaging member are made of ceramic, DC coil is applied to the coil to heat the magnetization needle, which is a heat loss body, by direct heating of the coil itself. Complex stimulation device by magnetization needle using alternating magnetic field of coil. The method of claim 5,
The control unit is a complex stimulation device by the magnetization needle using the alternating magnetic field of the coil, characterized in that for controlling the DC power applied to the coil from the power supply in accordance with the temperature measured by the temperature sensor. The method of claim 2,
The magnetizing moxibustion rod has a rod-shaped package inserting portion which can be inserted into an inner space of the first cylindrical member, and a skin contact portion having an adhesive member attached to a lower edge so as to be attached to the affected part. Complex stimulation device by magnetization needle using the alternating magnetic field of the coil. A packaging member wound on an outer surface of the hollow hollow cylindrical body and configured to generate an alternating magnetic field around the hollow cylindrical body by applying an alternating current to the coil from an external power supply;
A magnetizing moxibustion rod which is composed of a conductive magnetic material so as to be magnetized by a peripheral magnetic field, and is formed to be inserted in the cylindrical body of the packaging member in a longitudinal direction, and applies a complex stimulus by thermal stimulation and magnetic field stimulation upon invasion or contact with the skin;
A power supply unit applying an alternating current to the coil of the packaging member;
The control unit for controlling the direction of the magnetic field of the alternating magnetic field to be generated around the packaging member, the intensity of magnetization, and the frequency of the stimulation by the operator, and transmits the setting value by the control unit to the control unit, the direction of the magnetic line Magnetic field stimulation control unit configured to select one of the stimulation is repeated N pole, the stimulus is repeated S pole, or the stimulus is repeated alternating N and S poles according to the stimulus according to; And
The direction, intensity, and frequency of the alternating current applied to the coil of the packaging member by the power supply unit are controlled by the values set through the magnetic field stimulation controller, and 0 is set when the magnetic pole of the magnetic field stimulation controller is repeated. Generates an alternating current with a larger pulse waveform, and generates an alternating current with a pulse waveform less than zero when the magnetic pole is adjusted in the magnetic field stimulation control unit, and the N and S poles in the magnetic field stimulation control unit. And a control unit for generating an alternating current having a pulse waveform alternating a pulse greater than zero and a pulse smaller than zero when the alternating stimulus is set, and applying it to the coil of the packaging member. Complex stimulation device by magnetization moxibustion using alternating magnetic field. The method of claim 11,
The packaging member is a composite magnetic stimulation device by the magnetic moxibustion using the alternating magnetic field of the coil, characterized in that formed by applying the entire surface of the hollow cylindrical body with an insulating material. The method of claim 11,
An adhesive material that is adhered to the skin is applied to one surface, the other surface is attached to the lower end of the packaging member to prevent the packaging member from coming into direct contact with the skin; alternating magnetic field of the coil further comprises a Complex stimulation device by magnetization moxibustion using. The method of claim 11,
And a temperature sensor installed at the packaging member to measure a temperature of the coil or the packaging member.
The control unit controls the current output from the power supply in accordance with the value set by the operator and the temperature value detected by the temperature sensor complex stimulation device by the magnetization moxibustion using the alternating magnetic field of the coil. The method of claim 12,
The packaging member may include a first space in which upper and lower ends are respectively opened to insert the moxibustion rod, and a first space having an inner diameter larger than the outer diameter of the moxibustion rod is formed inside the body of the cylindrical portion, and the coil is wound on the outer circumferential surface of the body. Cylindrical member;
And a second cylindrical member formed of a hollow cylindrical body that surrounds the outside of the cylindrical portion of the first cylindrical member, and spaced apart from the outer circumferential surface of the first cylindrical member at equal intervals.
The first cylindrical member and the second cylindrical member is made of any one of a nonmagnetic material or a ceramic material,
Composite stimulation device by the magnetization needle using the alternating magnetic field of the coil, characterized in that the coil consisting of a resistor is wound on the outer peripheral surface of the first cylindrical member. 16. The method of claim 15,
The resistance value of the coil wound around the outer circumferential surface of the first cylindrical member when the first cylindrical member and the second cylindrical member of the packaging member is made of nonmagnetic material is such that the first cylindrical member and the second cylindrical member of the packaging member are ceramics. When lower than the resistance value of the coil wound on the outer peripheral surface of the first cylindrical member,
When the first cylindrical member and the second cylindrical member of the packaging member are made of a nonmagnetic material, an alternating current is applied to the coil to generate an alternating magnetic field around the coil to heat the magnetizing moxibustion rod by the alternating magnetic field. Composite stimulation device by magnetization moxibustion using alternating magnetic field of the coil, characterized in that the configuration. 16. The method of claim 15,
When the first cylindrical member and the second cylindrical member of the packaging member are made of ceramic, the first cylindrical member is made of a first ceramic material, the second cylindrical member is made of a second ceramic material, and the first ceramic material is The thermal conductivity of is higher than that of the second ceramic material,
The resistance value of the coil wound around the outer circumferential surface of the first cylindrical member when the first cylindrical member and the second cylindrical member of the packaging member is made of ceramic is such that the first cylindrical member and the second cylindrical member of the packaging member are made of nonmagnetic material. When the resistance is higher than the resistance value of the coil wound on the outer peripheral surface of the first cylindrical member,
When the first cylindrical member and the second cylindrical member of the packaging member is made of ceramic, DC coil is applied to heat the magnetization moxibustion rod which is a heat loss body by direct heating of the coil itself. Complex stimulation device by magnetization moxibustion using alternating magnetic field of coil. 15. The method of claim 14,
The control unit is a composite stimulation device by the magnetization moxibustion using the alternating magnetic field of the coil, characterized in that for controlling the DC power applied from the power supply to the coil in accordance with the temperature measured by the temperature sensor. The method of claim 11,
The magnetizing moxibustion rod has a rod-shaped package inserting portion which can be inserted into an inner space of the first cylindrical member, and a skin contact portion having an adhesive member attached to a lower edge so as to be attached to the affected part. Complex stimulation device by magnetization moxibustion using alternating magnetic field of the coil.

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