KR100936914B1 - Magnet type medical instrument - Google Patents

Abstract

The present invention relates to a magnetic therapy device, and an object of the present invention is to provide a magnetic therapy device that is convenient to use continuously for a long time using water that is easy to block leakage as a cooling fluid of a cooling device.

In addition, another object of the present invention is to provide a magnetic therapy device provided to facilitate the adoption of the cooling device even when the coil unit and the main body of the coil unit and the main body is provided in a separate configuration.

To this end, the magnetic therapy device according to the present invention includes a coil unit in which a coil is provided to generate a magnetic field when an electric current is applied, and a cooling device provided to cool around the coil, wherein the cooling device is used as a cooling fluid. A guide tube for guiding the flow of water to be supplied to and recovered from the coil, cooling means provided in the middle of the guide tube to cool the water flowing along the guide tube, and a middle of the guide tube to pump the water. It is configured to include a pumping means provided.

Description

Magnetic therapy device {MAGNET TYPE MEDICAL INSTRUMENT}

The present invention relates to a magnetic therapy device, and more particularly, to a magnetic therapy device having a cooling device for cooling heat generated in a coil.

In general, the magnetic therapy device generates a magnetic field by applying a pulse current to the coil, and is a device for treating mental and nitriding or pain, such as depression, by stimulating human tissues such as the brain and joints with the generated magnetic field.

The magnetic therapy device includes a coil for generating a magnetic field, and a current of several thousand A flows in the coil in a short time within 1 ms to generate a magnetic field of a desired intensity around the coil.

At this time, a high heat of about 500W ~ 2MW is generated inside the coil. If the heat is not effectively cooled, the coil is overheated, the inductance value is changed, and the coil surrounding is excessively overheated to continue magnetic therapy. It can't be done.

Therefore, a conventional magnetic therapy device has a cooling device for cooling the coil. Most conventional cooling devices used in the magnetic therapy device use oil as a cooling fluid, and heat generated from the coil is transferred to the heat sink through the oil. And a heat dissipation structure.

However, in the case of such a conventional cooling device, since oil having a smaller particle size is used than water, it is inconvenient to pay close attention to blocking oil leakage, and in the case of oil, the magnetic therapy device is slowed down when it is cooled again in a heated state. Difficult to use continuously for a long time.

In addition, in the magnetic therapy device, the coil unit in which the coil is installed and the main body in which the transformer and the controller are installed are formed in one body, and the coil unit and the main body are connected to each other through a connecting cable so that the user can There is a detachable type that can be used freely in the state held in the hand. As described above, a cooling device employing oil and a heat sink is installed on the coil unit side in a complicated configuration, which makes it difficult to employ a detachable magnetic therapy device. .

The present invention is to solve this problem, an object of the present invention is to provide a magnetic therapy device that is convenient to use continuously for a long time using water that is easy to block leakage as the cooling fluid of the cooling device.

In addition, another object of the present invention is to provide a magnetic therapy device provided to facilitate the adoption of the cooling device even when the coil unit and the main body of the coil unit and the main body is provided in a separate configuration.

To this end, the magnetic therapy device according to the present invention includes a coil unit in which a coil is provided to generate a magnetic field when an electric current is applied, and a cooling device provided to cool around the coil, wherein the cooling device is used as a cooling fluid. A guide tube for guiding the flow of water to be supplied to and recovered from the coil, cooling means provided in the middle of the guide tube to cool the water flowing along the guide tube, and a middle of the guide tube to pump the water. It characterized in that it comprises a pumping means provided.

The cooling device further includes expansion means provided in the middle of the guide passage so as to be expandable to absorb a volume change of water flowing along the guide passage.

The apparatus further includes a main body to which power is connected, and a connection cable connecting the coil unit and the main body to apply a current to the coil, wherein the pumping means, the cooling means, and the expansion means are installed in the main body, and the guide tube includes the main body. It is characterized in that the wiring through the connection cable.

In addition, the coil unit further includes a case, wherein the case is provided with a coil accommodating part and a handle part in which the coil is received therein, and a partition wall for partitioning between the coil accommodating part and the handle part is provided in the case. One end and the other end of the guide tube is coupled to the partition wall to extend into the coil accommodating part via the handle part.

In addition, the case is formed by the upper case and the lower case is coupled to each other, one of the contact portion of the upper and lower case is provided with a coupling projection, the other of the contact portion of the upper and lower case so that the projection is inserted The coupling groove is provided, the coupling groove is filled with silicon before the coupling protrusion is inserted, the end of the coupling protrusion is a silicon filled in the coupling groove in the process of the coupling protrusion is inserted into the coupling groove; It is characterized in that the inclined surface to guide toward the inner surface of the case is provided.

As described above, the magnetic therapy device according to the present invention uses water having a larger particle size than the oil as the cooling fluid, so that the operation of blocking the leakage of the cooling fluid is relatively easier than when using the oil. In addition, the water is cooled faster than the oil in the heated state because the cooling rate is fast, it is advantageous in using the magnetic therapy device continuously for a long time.

In addition, the magnetic therapy device according to the present embodiment is a guide tube for guiding the flow of water is wired through the connecting cable connecting between the coil unit and the main body, and only the both ends of the guide tube of the cooling device is installed on the coil unit, the coil While the configuration of the unit side cooling apparatus is simplified, the coil unit and the main body have an advantage of being easy to be employed in a separate type magnetic therapy device provided with a separate type.

Next, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the magnetic therapy device according to the present embodiment includes a coil unit 10 in which the coil 11 is installed, and a main body 20 in which a transformer (not shown) and a controller (not shown) are installed. It is provided, the coil unit 10 and the main body 20 is provided in a separate type separated from each other.

An external power source is connected to the main body 20, and the main body 20 and the coil unit 10 are connected through a connection cable 30 to apply a current to the coil 11 of the coil unit 10.

First of all, the coil unit 10 includes the coil 11 and a case 12 in which the coil 11 is embedded. The case 12 is formed by coupling the upper case 12A and the lower case 12B to each other, and the coil accommodating part in which the coil 11 is accommodated inside the opposite side of the connection cable 30 in the case 12. 12a is formed, and the connecting cable 30 is a handle portion 12b.

In the present embodiment, the coil accommodating portion 12a is provided with a pair of the coils 11 provided in a ring shape, one end of the power line 40 is connected to each coil 11, each power source The other end of the line 40 is connected to a transformer (not shown) inside the main body 20, and the power line 40 between the coil unit 10 and the main body 20 is accommodated in the connection cable 30. Are wired.

For reference, reference numeral 21 is a display provided on the outer surface of the main body to inform the user of the state of the magnetic therapy device, another reference numeral 13 is on the outer surface of the case 12 to block or allow the current is applied to the coil (11) It is a switch installed.

Therefore, when the magnetic therapy device having such a structure is used, the user first operates the switch 13 while holding the handle part 12b of the case 12. Then, a magnetic field is generated while a pulse current is applied to the coil 11 under the control of a controller (not shown) in the main body 20. In this state, the user receives the coil accommodating part 12a of the case 12. When you put on the pain area of the body to be treated, the magnetic field of the pain area through the magnetic field will be treated while being stimulated.

On the other hand, the magnetic therapy device according to the present embodiment is provided with a cooling device 50 for cooling the coil 11 when using the magnetic therapy device using water as a cooling fluid.

As shown in FIG. 2 and FIG. 3, the cooling device 50 includes a guide tube 51 for guiding the flow of water so that water used as a cooling fluid is supplied around the coil 11 and recovered. Cooling means 52 provided in the middle of the 51 to cool the water flowing along the guide tube 51, and pumping means 53 provided in the middle of the guide tube 51 to pump the water. It is configured by.

First of all, the guide tube 51 guides the flow of water to guide the water to be cooled and guides the water around the coil 11 and recovers it. Both ends are provided to communicate with the surroundings of the coil 11, and the guide tube 51 Between both ends of the) is extended into the main body 20 via the handle portion 12b of the case 12 and the connection cable 30. Accordingly, the power line 40 and the guide tube 51 are wired together in the connection cable 30.

When cooling the surroundings of the coil 11 using water, it is economical to intensively cool only the coil accommodating part 12a in which the coil 11 is accommodated, without having to cool the entire case 12 including the handle part 12b. Therefore, a partition wall 14 for partitioning between the coil accommodating part 12a and the handle part 12b is provided inside the case 12 between the coil accommodating part 12a and the handle part 12b. One end and the other end of the pipe 51 extends into the coil accommodating part 12a while being coupled to the partition wall 14 so as to penetrate the partition wall 14, and the power line 40 is also divided into the partition wall ( It is connected with the coil 11 in the state which passed 14).

Here, one end and the other end of the guide tube 51 are bent in opposite directions to face one side and the other side of the coil receiving portion 12a, respectively, and are supplied into the coil receiving portion 12a through one end of the guide tube 51. Water is provided to be easily circulated while being recovered back to the guide tube 51 through the other end.

In addition, between the partition wall 14 and the inner surface of the case 12 or in the partition wall 14 where the power line 40 and the guide tube 51 pass, the water of the cooling device 50 is coiled. The sealing process is performed so as not to leak toward the handle part 12b while being supplied into the receiving part 12a, and on the outer surface of the power line 40 or the inner wall of the case 12 extending into the coil receiving part 12a. In this case, it is waterproofed to prevent water penetration.

In addition, the pumping means 53 and the cooling means 52 constituting the cooling device 50 is installed in the middle of the guide tube 51 inside the main body 20.

The pumping means 53 is provided as a conventional pump to pump water under the control of the controller (not shown) in the middle of the guide tube 51, so that the pumped water is guide tube 51 and the coil accommodating part 12a. It is possible to circulate inside, and a radiator is employed as the cooling means (52).

In addition, the water circulating in the guide tube 51 and the inner space of the coil accommodating part 12a absorbs heat generated from the coil 11 or changes in volume while being cooled by the cooling means 52. Cooling device 50 is a midway of the guide tube 51 inside the main body 20 so as to absorb the welding changes of the water generated during the cooling process of the coil 11 to perform the cooling action of the cooling device 50 more smoothly. It is further provided with expansion means (54) installed in.

The expansion device 54 is capable of contraction and expansion, can be provided through heat-resistant synthetic resin, and may be provided with a metal material forming a fixed predetermined space within the range to accommodate the maximum volume of water. Do.

Therefore, since the magnetic therapy device according to the present embodiment is configured to use water having a larger particle size than the oil as the cooling fluid, it is relatively easier to block the leakage of the cooling fluid than when the oil is used. In addition, the water is cooled faster than the oil in the heated state because the cooling rate is fast, the magnetic therapy device is advantageous compared to the conventional in the continuous use for a long time.

In addition, the magnetic therapy device according to the present embodiment is a guide tube 51 for guiding the flow of water is wired through the connection cable 30 connected between the coil unit 10 and the main body 20, the coil unit 10 Since only the both ends of the guide pipe 51 of the cooling device 50 is installed on the side, the coil unit 10 and the main body 20 are provided separately as the configuration of the cooling device 50 on the coil unit 10 side is simplified. The detachable magnetic therapy device is easily adopted.

Next will be described the operation of the magnetic therapy device according to this embodiment configured as described above.

First, when the user operates the switch 13 while holding the handle portion 12b of the case 12, the coil 11 is controlled by a controller (not shown) in the main body 20. As the pulse current is applied, a magnetic field is generated, and at the same time, the pumping means 53 performs a pumping action, and the cooling device 50 also starts to drive.

Therefore, in this state, the user places the coil receiving portion 12a of the case 12 on the pain area of the body to be treated to stimulate and treat the human tissue of the pain area through a magnetic field.

In the magnetic field generation process, the coil 11 is overheated, and heat generated in the coil 11 is cooled by the cooling device 50.

That is, when the pumping means 53 performs the pumping operation, the water of the cooling device 50 is circulated along the guide tube 51 and the coil accommodating part 12a. At this time, the water supplied into the coil accommodating part 12a through one end of the guide tube 51 absorbs heat generated from the coil 11, and the absorbed heat is again through the other end of the guide tube 51. Water recovered in the guide tube 51 is discharged in the process of passing through the cooling means (52). Therefore, the heat generated in the coil 11 is continuously cooled throughout the operation time of the magnetic therapy device as this process is repeated repeatedly.

In addition, the case 12 of the coil unit 10 is formed by coupling the upper case 12A provided at the upper side and the lower case 12B provided at the lower side, wherein the upper case 12A and the lower case 12B. ) Is provided with a structure for more effectively sealing between the upper case 12A and the lower case 12B for the purpose of blocking water leakage.

In more detail, as shown in FIG. 4, a coupling protrusion 61 is formed on the outer lower edge of the upper case 12A, and the lower case 12B is in contact with the outer lower edge of the upper case 12A. A coupling groove 62 is formed at an outer upper edge so that the coupling protrusion 61 is inserted and coupled, and the coupling groove 62 is formed in the coupling groove 62 in the process of coupling the upper case 12A and the lower case 12B. 63 is filled, and the cylinder 12 is filled in the coupling groove 62 in the process of the coupling protrusion 61 is inserted into the coupling groove 62 at the end of the coupling protrusion 61, the case 12 The inclined surface 61a which guides toward an inner surface is provided.

Therefore, the coupling protrusion 61 of the upper case 12A is inserted into the coupling groove 62 of the lower case 12B when the upper case 12A and the lower case 12B are coupled to the coupling groove 62. Since the filled silicon 63 is guided toward the inner surface of the case 12 along the inclined surface 61a, the upper case 12A and the lower case 12B completely fill the gap between the upper case 12A and the upper case 12A. ) And the lower case 12B can be more effectively sealed. In addition, when the silicon 63 is guided toward the inner surface of the case 12 by the inclined surface 61a, the silicon 63 overflows toward the outer surface of the case 12 and thus there is no problem of impairing the aesthetics of the case.

In a state in which the upper case 12A and the lower case 12B are coupled to each other to be completely sealed, the user may not operate any one of the two coils 11 installed in the case 12. It may be difficult to determine the abnormality of the non-operating coil 11. Therefore, by installing an LED indicator (not shown) on the outer surface of the case 12 to inform the operation of each coil 11, even if the user does not open the case 12, the user can check the abnormality of each coil 11 case (12) It is preferable that it is provided so that it can be easily understood from the outside.

1 is a perspective view showing the overall structure of a magnetic therapy device according to an embodiment of the present invention.

Figure 2 is a cross-sectional view showing the internal structure of the coil unit in the magnetic therapy device according to an embodiment of the present invention.

Figure 3 is an overall view of the magnetic therapy apparatus according to an embodiment of the present invention, showing the components installed inside the body of the configuration of the cooling device.

FIG. 4 is a cross-sectional view illustrating main parts of the portion “A” of FIG. 2, and illustrates a state before the upper case and the lower case are coupled to each other.

FIG. 5 is a cross-sectional view illustrating main parts of the portion “A” of FIG. 2, wherein the upper case and the lower case are coupled to each other.

* Description of the symbols for the main parts of the drawings *

10: coil unit 11: coil

12: case 20: main body

30: connecting cable 50: cooling device

51: guide tube 52: cooling means

53: pumping means 54: expansion means

Claims (5)

In the magnetic therapy device having a coil unit in which a coil is provided to generate a magnetic field upon application of current, and a cooling device provided to cool the surroundings of the coil. The cooling device includes a guide tube for guiding the flow of water so that water used as a cooling fluid is supplied around the coil and withdrawn, cooling means for cooling the water flowing along the guide tube in the middle of the guide tube; A magnetic therapy device comprising pumping means provided in the middle of the guide tube to pump water, and expansion means provided in the middle of the guide tube so as to be expandable to absorb a volume change of water flowing along the guide tube. . delete The method of claim 1, Further comprising a main body connected to the power supply, and a connection cable connecting the coil unit and the main body to apply a current to the coil, The pumping means, the cooling means and the expansion means is installed in the main body, the guide tube is characterized in that the wiring through the inside of the connecting cable. The method of claim 3, wherein The coil unit further includes a case, The case is provided with a coil accommodating part and a handle part accommodated therein, In the case is provided a partition wall for partitioning between the coil receiving portion and the handle portion, One end and the other end of the guide tube is coupled to the partition wall so as to extend into the coil receiving portion through the handle portion inside. The method of claim 4, wherein The case is formed by combining the upper case and the lower case, A coupling protrusion is provided at any one of the contact portions of the upper and lower cases, and a coupling groove is provided at the other of the contact portions of the upper and lower cases so as to insert the protrusion. The coupling groove is filled with silicon before the coupling protrusion is inserted, the inclined surface for guiding the silicon filled in the coupling groove toward the inner surface of the case in the process of the coupling protrusion is inserted into the coupling groove at the end of the coupling protrusion. Magnetic therapy device characterized in that provided.

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