KR100816254B1 - Portable magnetic curer - Google Patents

Abstract

A portable magnetic therapy device having an improved structure is provided to allow a user to use it regardless of time and place, and to vary magnetic pulse output according to the type of lesion or symptom. A portable magnetic therapy device(100) comprises: a case(110) divided into two parts, that is, an upper case(112) having a magnetic pulse output hole formed at the end and a lower case(114) having an operation switch; a drive circuit(120) having a built-in circuit to generate a magnetic pulse; and at least one coil probe(130,131,132), each having a built-in wound coil. Further, each of the coil probes has an extension socket and an extension pin(130a), both being used for electric connection between adjacent coil probes. A probe connection socket(121) is provided for electrical connection with the extension pin of the coil probe(130).

Description

Portable magnetic curer

1 is a schematic diagram of a conventional magnetic therapy device.

2 is a schematic perspective view of a magnetic therapy device according to an embodiment of the present invention.

3 is a front view and a plan view of a coil probe according to an embodiment of the present invention.

4 is a schematic perspective view of a case according to an embodiment of the present invention.

5 is a circuit diagram showing an example of the circuit configuration of the drive circuit unit of the magnetic therapy device of the present invention.

6 and 7 are graphs comparing the magnetic pulse output by the magnetic therapy device of the present invention.

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

100: magnetic therapy device 110: case

120: drive circuit portion 122: inverter

123: thyristor 124: rechargeable battery

125: AC power 130,131,132: coil probe

130a, 131a, 132a: Expansion Pin 130b, 131b, 132b: Expansion Socket

130c, 132c: coil

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. It is about a therapeutic 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 electric 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 schematic diagram of a conventional magnetic therapy device, which is largely composed of a magnetic pulse generator 1 and a coil probe 2, and a coil wound several times inside the coil probe 2. When the coil probe 2 is brought close to a desired body part and a current is flown, a magnetic force penetrates into the human body to induce an electric field. However, such a conventional magnetic therapy device has a problem that the volume of the magnetic pulse generator 1 is large and the manufacturing cost is high, and it is not suitable for portable use. Moreover, there is a problem that it is difficult to variously change the shape of the coil probe.

Accordingly, the present invention is designed to be connected to an external AC power source in view of the above-described problems of the prior art, and at the same time, a built-in rechargeable battery in a drive circuit of a magnetic therapy device can be used to carry it easily regardless of time or place. To provide an improved portable magnetic therapy device.

In addition, the present invention provides a portable magnetic therapy device that is improved to control the output of the magnetic pulse in accordance with the type of the lesion or the degree of symptoms by providing a laminated terminal by connecting the connection terminal with the external element in the coil probe with a coil built-in To provide.

In order to solve the above technical problem, the present invention provides a magnetic therapy device having the following configuration. That is, in the magnetic therapy device for treating various lesions by projecting magnetic pulses on the human body to generate electromotive force, the lower case having an empty hollow part and having a predetermined length in the longitudinal direction is combined with the lower case. A case comprising an upper case formed with a hole for outputting magnetic pulses at one end, a driving circuit unit provided at a lower side inside the lower case, and including a circuit for generating magnetic pulses, and stacked and provided inside the case. It comprises a plurality of coil probes that are electrically connected to the circuit portion, each of the coil probes are provided with a coil wound several times, upper and lower end connection means for electrically connecting between adjacent coil probes Portable magnetic therapy device, characterized in that provided It is a ball.

Herein, an extension pin and an extension socket are selected as the connecting means of the coil probe, and it is preferable to connect the coil probes by inserting extension pins of the coil probe adjacent to the extension socket of one coil probe.
The driving circuit unit includes a rechargeable battery that receives current from an AC power source connected from the outside and charges the current.

Hereinafter, with reference to the accompanying drawings will be described in more detail the configuration and operation principle of the present invention. Since the shape of the electrical connection means or product described below is an example of the technical idea of the present invention, the technical idea of the present invention is not limited thereto.

Figure 2 is a schematic perspective view of a magnetic therapy device according to an embodiment of the present invention, Figure 3 is a front view and a plan view of a coil probe according to an embodiment of the present invention, Figure 4 is a case according to an embodiment of the present invention A schematic perspective view of the. First, the magnetic therapy apparatus 100 of the present invention comprises a case 110 which becomes a main body, a driving circuit unit 120 in which a circuit for generating magnetic pulses is embedded, and at least one coil probe 130, 131, and 132 in which a coil is embedded. do. The case 110 may be formed in one piece or separated into two parts, as shown in the upper and lower portions. In FIGS. 2 and 4, the upper case 112 and the lower case 114 form a pair to form the case 110. The outer circumferential portion of the lower case 114 is coupled to the upper and lower cases 112 and 114. A thread 114a is formed at the thread, and a thread (not shown) may be formed at the inner circumferential surface of the upper case 12 to correspond thereto. However, it will be apparent to those skilled in the art that the shape of the case may be variously modified as long as it has a hollow portion so as to have a plurality of coil probes 130, 131, and 132 embedded therein in the longitudinal direction. It is preferable that the driving circuit unit 120 is provided at one end of the case 110 and a hole 112b for outputting a magnetic pulse is formed at the other end surface. Unexplained reference numeral 114b is a switch for operating the magnetic therapy apparatus 100.

An end portion of the driving circuit unit 120 may be provided with a female connector 142b as a connection terminal to receive power from an external AC power source so that the male connector 140a of the AC line 140 may be coupled thereto.

At least one coil probe (130, 131, 132) is provided and each of the coil probe (130, 131, 132) is a coil (132c) wound several times is built-in and the extension socket (130b, 131b, 132b) which is an electrical connection terminal at the upper and lower ends; Expansion pins 130a, 131a, and 132a are provided, respectively. The extension sockets 130b, 131b, and 132b and the extension pins 130a, 131a, and 132a are for electrical connection between adjacent coil probes or the driving circuit unit 120. Here, the connecting means has a form in which the expansion socket and the expansion pin are inserted into each other and electrically coupled, but the shape may be changed within the range in which the electrical connection for the above-described purpose is possible. Reference numeral 121 is a probe connection socket for electrical connection with the expansion pin (130a) of the coil probe 130.

The circuit configuration and operation principle of the driving circuit unit 120 will be described with reference to the drawings. 5 is a circuit diagram illustrating an example of a circuit configuration of a driving circuit unit of the magnetic therapy apparatus of the present invention. As shown, the driving circuit unit 120 of the present invention is configured around a single-phase full bridge inverter 122, and the inverter 122 operates by zero voltage switching. The circuit has two operation modes, a bypass mode and a back-up mode even when the power is cut off. That is, in the bypass mode, the thyristor 123 is in an ON state, and power is almost directly transferred from the AC power supply 125 to the coil 130c as a load, and the uninterruptible power current waveform is improved and the battery 124 is charged. Will be In this bypass mode, the output voltage is determined by the supply voltage. In the backup mode, the thyristor 123 is in an OFF state, and the uninterruptible power supply receives DC power from the battery 124 to supply AC power to the coil 130c. At this time, the output voltage maintains a constant voltage and a constant frequency. If the battery 124 is in a trickle charge state and this fine charge current is small and ignored, all of the power introduced from the power supply side is transferred to the load side. The inverter 122 supplies reactive power of the load, and no reactive power flows to the power supply side. In case of power failure, the battery 124 receives power to generate AC power, and when power is restored, power is supplied from the commercial power supply to the load. In the case of power failure, the power supply side is short-circuited with many connected loads, so when it is determined that the power failure is made, the thyristor 123 cuts off the power supply side.

That is, the circuit of the driving circuit unit 120 receives power primarily from the AC power supply 125, which is a commercial power supply, and supplies the coil 130c to generate magnetic force in the coil and to charge the battery 124 at the same time. do. If the battery is full during use of the magnetic therapy device 100 to maintain a micro-charged state. When the AC power is not supplied due to a power failure during the use of the magnetic therapy device, the charged internal battery 124 supplies power to the coil 130c to generate magnetism. In addition, after the built-in battery 124 of the magnetic therapy device 100 is charged, the coupling of the AC wire 140 in the magnetic therapy device 100 is carried and used. In other words, when the shoulder is stiff or joints are taken out of the pocket immediately so that you can easily use.

Experimental Results of Magnetic Therapy Devices

6 and 7 are graphs comparing the magnetic pulse output by the magnetic therapy device of the present invention. In this experiment, the length and diameter of the magnetic therapy apparatus 100 were set to 150 mm and 15 mm, respectively. The coil probes 130 were tested in a state of stacking one to ten coils, respectively, and the coils of the coils of the coil probes 130 were wound. The rotation speed was 10 times. 6 and 7 illustrate a case in which magnetic pulses are projected by using a magnetic therapy device on the foot and the hand, respectively, and as the number of wound coils increases, that is, as the number of stacked coil probes increases, the magnetic field for stronger therapy It can be seen that a pulse output occurs.

Specifically, the results of the experiments, in the case of stacking 10 coils from the number of coil probes 130, each treatment pulse 0.5, 075, 1, 1.3, 1.6, 2, 2.3, 2.6, 2.9, 3 kA Was measured. As shown in FIG. 7, the output of the treatment pulse was the maximum when the distance between the magnetic therapy apparatus 100 and the human body was set to 5 cm and rapidly decreased while exceeding about 12 cm.

In the above-described embodiment of the present invention, the case where the coil probe is a circular shape has been described as an example, but the shape of the coil probe may be variously changed into a triangle, a square, a star shape, or a radial shape as necessary. This is because magnetic pulses of different waveforms are formed depending on the shape of the coil probe.

Magnetic therapy device according to the present invention is equipped with a rechargeable battery inside the size can be reduced to the desired size design is suitable for portable.

In addition, since the structure can be laminated to a plurality of coil probes there is an advantage that the magnetic pulse output can be easily adjusted according to the various lesions of the body as needed.

In addition, the device is small in volume and its configuration is simple to reduce manufacturing costs, and the coil probes of various shapes or combinations of various shapes can be used in combination with various body lesions. It can be applied in various ways for physical therapy.

Claims (3)

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 case consisting of a lower case having a hollow hollow portion therein and a lower case having a predetermined length in a longitudinal direction, and an upper case formed with a hole for outputting magnetic pulse at one end thereof; A driving circuit unit provided at a lower side inside the lower case and including a circuit for generating a magnetic pulse; And It is provided in the case and laminated and configured to include a plurality of coil probes electrically connected to the driving circuit unit, Each coil probe is provided with coils wound several times, and upper and lower ends of the coil probes are provided with connection means for electrically connecting adjacent coil probes. The method of claim 1, An expansion pin and an extension socket are selected as connection means of the coil probe, and the portable magnetic therapy apparatus is connected between coil probes by inserting extension pins of a coil probe adjacent to an extension socket of one coil probe. The method of claim 1, The driving circuit unit is a portable magnetic therapy device, characterized in that it comprises a rechargeable battery for charging the current by receiving a current from an AC power source connected from the outside.

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