KR100846091B1 - Band type magnetic therapy device - Google Patents

Abstract

The present invention relates to a band-type magnetic therapy device, and to change the shape and structure of the coil probe of the magnetic therapy device, which was a conventional simple circular or "8" shaped coil probe, to treat nerves and muscles of the neck, chest, arms and legs, and the like. The present invention relates to a band-type magnetic therapy device having an improved structure for more convenient application.

In the present invention, a magnetic therapy device for treating various lesions by generating magnetic force in the body by projecting a magnetic pulse to the human body, connected to an AC power source is connected to the driving circuit unit and the driving circuit unit for outputting the power for magnetic pulse generation To generate a magnetic pulse, a casing having a long strip shape in the longitudinal direction, a magnetic generating coil which is provided in the casing and wound several times, and a fastening means provided in the casing to connect one end of the casing to the other end thereof. It provides a band-type magnetic therapy device comprising a coil probe consisting of.

Driving circuit, coil probe, magnetic generating coil, casing, fastening means, unit circulation coil, connector, snubber circuit, converter, inverter, transformer, filter

Description

Band type magnetic curer

1 is a view showing an example of a conventional magnetic therapy device.

2 is a block diagram of a magnetic therapy device according to an embodiment of the present invention.

3 is a graph showing an operating waveform of the driving circuit of the magnetic therapy device of FIG.

4 is a circuit diagram for explaining the operation principle of the driving circuit of the magnetic therapy device of FIG.

5 is an exemplary view showing various modifications of the coil probe of the present invention.

6A and 6B are graphs showing waveform changes of output magnetic pulses according to coil shapes.

The present invention relates to a magnetic therapy device for treating various lesions by outputting magnetic pulses to the human body to generate induced electromotive force in the human body, and more specifically, it is designed in a belt or band type to be easily attached to the neck, waist, limbs, and the like. It relates to an improved magnetic therapy device.

Recently, various applications of electric or magnetic stimulators for treating various body diseases such as viewpoint fever, neuralgia, and low back pain by flowing current in the human body are expected to increase further. Typically, such electromagnetic stimulation therapy is an electrical stimulation method or a magnetic stimulation method, the former is a method of stimulating nerve cells in the electrode area by applying an electric current in the body after attaching the electrode directly to the human body, the latter to the coil wound around the electromagnet or iron core It is a method of stimulating nerve cells by generating induced electromotive force in the human body by projecting a magnetic force generated by flowing an electric current to the human body.

Recently, the magnetic stimulation method has attracted much attention due to the advantages of better penetration effect and no pain or discomfort caused by the electrical stimulation method. As such, the magnetic stimulator induces an electric field inside the human body by using a magnetic field that changes in time to allow stimulation of contactless, non-invasive, deep and wide areas. The range of applications is wide, ranging from muscle disease to rehabilitation.

1 is a view showing an example of a conventional magnetic therapy device. This shows the configuration of the electronic therapy device disclosed in the "electronic therapy device" Patent No. 1986-0001942 filed with the Republic of Korea Patent Office Patent No. 1, the coil on the ring (1) is mounted on the leg (2) of the leg and the pulse generator (3 ), A pulse current is supplied to the coil 1 to generate magnetic pulses. Such a conventional electronic therapy device is not suitable for use in other parts of the body such as the neck or the waist, and has a problem in that it cannot generate various types of magnetic pulses effective for treating various lesions because only a certain type of magnetic pulses are output. Because the shape of the magnetic pulse also varies depending on the symptoms or treatment area because the treatment effect is excellent.

In view of the above-described conventional problems, the present invention is to provide a band-type magnetic therapy device whose shape is improved to be easily attached to a desired portion of the body, such as neck, waist, hands and feet to be magnetic therapy.

In addition, in the present invention, the shape of the magnetic pulse showing the most excellent therapeutic effect according to the target disease or lesion is different, and according to the disease or symptom to be treated, coil coils having unit shapes of coils having various shapes can be easily replaced. To provide a self-healing device with improved structure.

In order to solve the above technical problem, in the present invention, a magnetic therapy device for treating various lesions by projecting a magnetic pulse to the human body to generate electromotive force, which is connected to an AC power source for outputting the power for magnetic pulse generation It is connected to the drive circuit and the drive circuit to generate a magnetic pulse, the longitudinally long strip-shaped casing, the self-generating coil provided in the casing and wound several times and one end of the casing is connected to the other end In order to comprise a coil probe consisting of a fastening means provided in the casing, wherein the drive circuit is a converter for rectifying the AC power applied from the AC power source to the DC power, connected to the converter to convert the DC power AC power Inverter for switching to, the converter and the inverter Provided is a band-type magnetic therapy device comprising a snubber circuit connected therebetween, a transformer connected to the inverter to boost the voltage, and a filter connected to the output side of the transformer to remove noise.

The magnetic generating coil is preferably formed by interconnecting at least two unit circulation coils.

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Preferably, a connector for electrical connection between the driving circuit unit and the coil probe is provided in the driving circuit unit and the coil probe, respectively.

Hereinafter, with reference to the accompanying drawings will be described in more detail the configuration and operation of the present invention. It will be apparent to those skilled in the art that the configuration of the circuit described below is only one example for implementing the technical idea of the present invention.

2 is a block diagram of a magnetic therapy device according to an embodiment of the present invention. First, the magnetic therapy apparatus 100 of the present invention is composed of a long band-shaped coil probe 130 incorporating a driving circuit unit 110 having a large driving circuit and a magnetic generating coil 135. The driving circuit unit 110 includes a driving circuit for outputting a magnetic pulse from the coil probe 130. The coil probe 130 has a casing 131 and a self-generating coil 135 formed by winding several times inside the casing 131. The number and shape of the coils of the self-generating coil are varied as will be described later with reference to FIG. 5. Can be changed. In addition, the magnetic generating coil 135 may be configured such that a plurality of unit circulation coils 135a, 135b, 135c, and 135d are connected to each other. The coil probe 130 is to be wound around the neck or limb of the human body, and fastening means 132 and 133 are provided to facilitate attachment to the human body. For example, the fastening means 132 and 133 may be formed of a buckle or the like used in a velcro or a waistband to wind the band-shaped coil probe 130 around the neck and then connect one end to the other end to fix the band-shaped coil probe 130.

The coil probe 130 and the driving circuit unit 110 may be provided with a connector 160 for electrically connecting each other. This is a configuration for easily replacing the coil probe 130 of various shapes as needed. That is, when a coil probe having a different shape according to the disease or lesion to be treated is required, the connector 160 may be simply disconnected and the connector of the other coil probe may be connected to the driving circuit unit 110.

Since the coil probe 130 is a band type, it is preferable that the coil probe 130 is made of a flexible material to wrap around the neck, waist, arms, legs, wrists, and ankles.

As shown in the drawing, the driving circuit in the driving circuit unit 110 may include a converter 111, a snubber circuit 115, an inverter 116, and a filter 117.

Hereinafter, the operation principle of the driving circuit unit 110 will be described in detail with reference to an exemplary circuit diagram. 3 is a graph showing an operation waveform of the driving circuit of the magnetic therapy device of FIG. 2 and FIG. 4 is a circuit diagram for explaining the operation principle of the driving circuit of the magnetic therapy device of FIG.

As shown, the current flowing through the input boost inductor Lb when the lossless snubber circuit 115 is applied to the primary DC link stage in the main circuit of the full bridge converter 111 in transition from the boost mode to the powering mode. By providing a low impedance path, the main switching device can control zero voltage switching while reducing switching losses, parasitic vibration and EMI at turn-off. The lossless snubber circuit consisting of one snubber capacitor (Cr), two snubber diodes (Dp, Dr) and one snubber inductor (Lr) is connected to the primary DC link terminal in the main circuit of the full bridge converter 111. By application, the main switching element is capable of zero voltage switching. The switching operation of the driving circuit of the driving circuit unit 110 is divided into five modes, and it is assumed that the charging voltage Vcr of the snubber capacitor Cr is initially charged at −V _Lb in “mode 0”. 4A and 4E are circuit diagrams corresponding to modes 0 to 4, respectively.

In case of "Mode 0 (t ₀ -t ₁ )", when switching element SW1 is turned on at t ₀ , a short circuit is made from rectifier diode-> step-up inductor (Lb)-> switching element SW1, SW4 from AC input power Vac. While forming, energy is accumulated in the boost inductor Lb, and the current ILb rises. At this time, the sum current of the discharge current Icr of the snubber capacitor Cr flowing through the snubber inductor Lr and the snubber diode Dr through the switching elements SW1 and SW4 simultaneously with the boost inductor current I _Lb It starts to flow through the main switching elements SW1 and SW4.

In the case of "Mode 1 (t ₁ -t ₂ )", when the resonant current Icr of the snubber capacitor Cr becomes 0 at t ₁ , the switching elements SW1 and SW4 are switched from the AC power supply Vac and the boost inductor Lb. Only the current I _Lb supplied flows to store energy in the boost inductor Lb. During this mode, the primary winding of the high-order transformer Tr is short-circuited through the switching elements SW1 and SW4, so that the primary voltage of the high frequency transformer Tr becomes zero and energy is transferred to the secondary output of the high frequency transformer Tr. Therefore, only the secondary leakage energy of the high frequency transformer Tr is reset while charging through the output capacitor Co, and the energy stored in the output capacitor Co is discharged to the magnetic generating coil 135 as a load.

In the case of "Mode 2 (t ₂ -t ₃ )", when switching element SW4 is turned off at the time t ₂ and switching element SW2 is turned on at the same time, the energy stored in the input boosting inductor Lb is changed to the switching element SW1-. > High frequency transformer (Tr)-> Transmitted through the low impedance path of snubber capacitor (Cr) and diode (Dp) rather than the high impedance path of switching element SW2 and charging voltage (Vcr) of snubber capacitor (Cr) is + V Start to discharge at _Lb. At this time, the switching elements SW4 and SW2 are turned off and turned on in the zero voltage state. In addition, when the voltage of the snubber capacitor Cr discharges and decreases to 0, the sum of the input voltage V _in and the reverse voltage V _Lb of the input boosting inductor Lb is changed through the switching element SW1, the high frequency transformer Tr, and the switching element SW2. It is gradually applied and starts to flow to transfer energy to the secondary side of the high frequency transformer (Tr). At this time, the output diodes D ₅ and D ₆ are turned on in the zero voltage zero current state, so no diode reverse recovery loss and voltage stress are generated. This mode also ends when the snubber capacitor Cr is fully recharged from 0 to -V _Lb.

In the case of "Mode 3 (t ₃ -t ₄ )", the charging voltage Vcr of the snubber capacitor Cr is recharged to -V _Lb at t ₃ where the discharge current Icr of the snubber capacitor Cr becomes 0. The sum voltage V _in + V _{Lb of} (V _in ) and the voltage V _Lb induced in the boost inductor Lb is applied to the high frequency transformer Tr so that the secondary side of the high frequency transformer Tr and the output capacitor Co are applied. Smooth through the supply of energy to the coil 135 is a load.

In the case of "mode 4 (t ₄ -t ₅ )", when switching element SW1 is turned off at the time t ₄ and switching element SW3 is turned on at the same time, the rectifying diode from the AC input power (Vac) as in "mode 0" The energy is accumulated in the boost inductor Lb by forming a short circuit through the boost inductor Lb and the switching elements SW3 and SW2, and the snubber inductor Lr and the snubber diode Dr through the switching elements SW3 and SW2. ), The discharge current Icr flows through the path of the snubber capacitor Cr, and the energy of the snubber inductor Lr accumulated by the discharge current Icr is the charge voltage Vcr of the snubber capacitor Cr. Is charged from -V _Lb to + V _Lb , and this mode ends when the discharge current (Icr) becomes zero.

The driving circuit of the driving circuit unit 110 outputs magnetic pulses from the coil probe 130 while repeating the aforementioned modes 0 to 4.

5 is an exemplary view showing various modifications of the coil probe of the present invention, and FIGS. 6A and 6B are graphs illustrating changes in output magnetic pulses according to coil shapes. In the coil probe of the present invention, as shown in (a), one circulation coil may form the coil probe 130, and as shown in (b) to (h), a plurality of unit circulation coils are connected to each other so that one coil probe is used. 130 may be formed. In addition, the shape of the unit circulation coil may be formed in various ways, such as square, oval, circular, radial, triangle, star, hexagon, etc., as necessary. As the magnetic generating coil 135 embedded in the coil probe 130 is composed of a large number of unit circulation coils, the output of the magnetic pulses is stronger, and the shapes of the magnetic pulses are different depending on the shape thereof. Therefore, in the case of using the band-type magnetic therapy apparatus 100 according to the present invention, after determining the shape of the appropriate magnetic pulse as shown in FIGS. 6A and 6B according to the disease or lesion to be treated, the magnetic pulse can be output. What is necessary is just to connect the coil probe 130 in which the coil was built, to the said drive circuit part 110. Then, if you want to treat other patients or to treat other conditions of different sites, it is enough to replace the coil probe 130 with a unit circulation coil having a shape that outputs a magnetic pulse corresponding thereto.

As described above, the band-type magnetic therapy apparatus 100 according to the present invention has a general purpose for various neurological diseases, muscle diseases, etc., because only the coil probe 130 needs to be replaced simply according to symptoms or lesions.

According to the band-type magnetic therapy device according to the present invention, since the coil probe is a long band-shaped band type, it can be conveniently attached to other body parts such as neck, waist, arm, leg, wrist and ankle. Therefore, the user can conveniently concentrate on other things while the coil probe is attached to the neck or the like.

In addition, according to the present invention is provided with a connector for the electrical connection between the coil probe and the drive circuit portion is easy to replace the coil probe having a coil of a different shape, the coil of the desired shape according to the disease or lesion of the treatment The coil probe can be easily switched to maximize the therapeutic effect.

Claims (5)

In the magnetic therapy device for treating various lesions by generating an electromotive force in the body by projecting a magnetic pulse on the human body, A driving circuit unit connected to an AC power source and outputting power for generating magnetic pulses; And Connected to the drive circuit to generate a magnetic pulse, the casing having a long longitudinal band in the longitudinal direction, the magnetic generating coil provided in the casing and wound several times and to connect one end of the casing to the other end; It comprises a coil probe consisting of a fastening means provided in the casing, The drive circuit unit is a converter for rectifying the AC power applied from the AC power source into DC power, an inverter connected to the converter to convert the DC power into AC power, a snubber circuit connected between the converter and the inverter; And a filter connected to the inverter to boost the voltage and a filter connected to the output side of the transformer to remove noise. The method of claim 1, The magnetic generating coil is a band-type magnetic therapy device, characterized in that formed with at least two circulation coils are interconnected. The method of claim 1, And a connector for electrically connecting the driving circuit unit and the coil probe to the driving circuit unit and the coil probe, respectively. delete delete

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