KR101488805B1

KR101488805B1 - Electrode Unit for High Frequency Treatment Apparatus

Info

Publication number: KR101488805B1
Application number: KR20140089066A
Authority: KR
Inventors: 박성배
Original assignee: (주)하늘마음바이오
Priority date: 2014-07-15
Filing date: 2014-07-15
Publication date: 2015-02-06
Also published as: WO2016010257A1

Abstract

The present invention relates to an electrode unit for a high-frequency therapy apparatus, in which a base pad in contact with a body is formed of a silicon material and a plurality of electrode plates are coupled to the base pad, So that it is possible to make contact with various body parts in a bent shape exactly and in contact with each other, thereby making it possible to use more conveniently and safely, and by mounting a separate electrode support plate for supporting the electrode plate with a base pad of silicon It is possible to prevent a gap between the electrode plate and the base pad from being widened when the base pad is bent or deformed, thereby stably maintaining the bonding structure of the electrode plate, preventing breakdown caused by foreign matter inflow, The electrode plate is made of an electrode terminal plate made of metal and an insulating coating It is possible to reduce a feeling of touch such as a cold feeling in the process of contacting the electrode plate with the body surface, to prevent damage such as scratching of the body surface by the electrode plate, and to prevent the electrode plate from being separated from the body surface The present invention provides an electrode unit for a high-frequency therapeutic apparatus which can prevent sparking or the like from occurring due to the reason that the use safety can be further improved.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electrode unit for a high-

The present invention relates to an electrode unit for a high frequency therapy apparatus. More specifically, the base pad contacting the body of a patient is formed of a silicone material, and by joining a plurality of electrode plates to the base pad, the shape and flexural deformation state of the base pad can be freely deformed, It is possible to make the electrode pad in contact with the body part accurately, thereby making it possible to use the electrode pad more easily and safely, It is possible to prevent the electrode plate and the base pad from spreading, thereby stably maintaining the bonding structure of the electrode plate, preventing malfunction caused by the inflow of foreign matter, And an insulating coating layer coated on the outside of the electrode terminal plate, It is possible to reduce a foreign body sensation such as a cold feeling in the process of contacting the body surface, to prevent damage such as scratching of the body surface by the electrode plate, and to prevent spark phenomenon And the electrode unit for a high-frequency therapeutic apparatus which can further improve the safety of use.

Recently, due to the change of diet culture and the lack of exercise, various kinds of adult diseases have become more interested in health. Accordingly, a variety of functions and types of health-related devices have been developed and widely used. Technological development of high-frequency therapy devices is under way with these devices.

Generally, electrotherapy is a method of treating the affected part by passing current directly through the body, which is also called electrotherapy. The electric therapy used for medical use has various functions and uses depending on the waveform of the frequency, the intensity of the electric current,

Such an electrotherapy apparatus can increase the internal temperature of the living body through the electric transfer method, and at the same time, allows vasodilation to occur that can maintain the biological phenomenon associated with the vitality of the living tissue. This increases blood circulation, improves nutrition and oxygen supply, and stimulates intracellular respiration and the release of toxic catabolin.

As one of such electric therapy apparatuses, a high frequency treatment apparatus which generates heat at the deep part of the body by using a high frequency power source is widely used and is being used. Generally, a high-frequency treatment device converts high-frequency power into body energy by converting high-frequency power into body energy, and promotes fat metabolism and muscle movement through heat generated by the converted living body energy, Skin care, hair stimulation or pain relief.

Since the high-frequency power supply has a very short vibration width when the body tissue is energized, the high frequency power supplied to the body tissue hardly causes ion movement in the body tissue and does not cause electrochemical reaction or electrolysis. When such a high frequency power source is energized in the body, heat is generated in the tissue, which is called deep heat. The reason why the deep heat is generated is that when the high frequency electric energy is applied to the body tissue, the molecules constituting the tissue vibrate each other as the polarity of the power source changes, Heat is generated.

The high-frequency power source can heat specific parts of the body tissue without causing discomfort or contraction in the body, and the generated heat of the heart can increase the temperature of the tissue to increase the function of the cell and increase the blood flow . As a result, the metabolism and muscle movement of the body are promoted, and the effect of obesity treatment, muscle strengthening, skin care, hair stimulation or pain relief can be obtained.

A general high frequency treatment device includes a high frequency power generator for generating a high frequency power source and a reference power source, a therapeutic electrode contacting the body and supplying high frequency power from the high frequency power generator to the affected area, and a high frequency power source And a reference electrode supplied with a reference power from a high frequency power generator so as to be energized as a part of the body.

The reference electrode is formed to be wider in the form of a pad so as to be in contact with the body, and the treatment electrode is likewise formed or formed to have a narrow contact area in the form of a probe. The reference electrode and the treatment electrode are in contact with each other to face each other to face each other to generate deep heat in the body. However, since the reference electrode and the treatment electrode do not come into close contact with the skin of the body, normal treatment becomes difficult. In addition, the reference electrode and the treatment electrode may be detached from the body due to the movement of the patient during the treatment, and in this case, a spark due to the high voltage is generated and the patient's skin is damaged. In addition, there is a problem in that the treatment range of the high frequency treatment device is severely limited because the nurse or the therapist must perform the treatment process very difficult for the patient himself to perform.

Korean Patent No. 10-764759

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior arts, and it is an object of the present invention to provide a base pad, which is made of a silicone material and contacts a body of a patient, Shape, and flexural deformation of the electrode unit, so that it can be brought into close contact with various body parts of a bent shape, thereby providing a convenient and safe use of the electrode unit for a high frequency therapy apparatus.

It is another object of the present invention to provide a semiconductor device which can prevent a spreading between an electrode plate and a base pad during a bending deformation of a base pad by mounting a separate electrode support plate capable of supporting the electrode plate, The present invention provides an electrode unit for a high frequency therapy apparatus which can stably maintain a bonding structure of an electrode plate and can prevent a failure caused by a foreign matter flowing into a space between the electrode plate and the base pad.

It is a further object of the present invention to provide a plasma display panel in which a plurality of electrode plates are each formed of a metal electrode terminal plate and an insulating coating layer coated on the outside thereof, It is possible to prevent damage such as scratching of the surface of the body by the electrode plate even if the user moves during use and to prevent the sparking due to the electrode plate being separated from the body surface, And an electrode unit for a high-frequency therapeutic apparatus.

The present invention relates to an electrode unit for a high frequency therapy apparatus in which a reference electrode to which a reference power supply is supplied and a treatment electrode to which a high frequency power supply is supplied come into contact with the body to generate deep heat, A base pad on which a band latching portion is formed; And an electrode plate coupled to a side surface of the base pad so as to be spaced apart from each other and being supplied with a reference power source or a high frequency power source and being applied as a reference electrode or a treatment electrode, The electrode unit for a high-frequency therapeutic apparatus is formed of a material and can be brought into close contact with the body.

The base pad may include a main pad of silicon material to which the electrode plate is coupled at one side, and a pad cover of silicon material which is coupled to the other side of the main pad.

A plurality of electrode support plates having the same size and shape as those of the electrode plate are coupled to the other side of the main pad at positions corresponding to the electrode plate, and the electrode plate and the electrode support plate are connected to the main pad And the main pad is maintained in a flat state by an adhesive force between the electrode plate and the electrode support plate in a region where the main plate is in contact with the electrode plate and the electrode support plate.

Also, the plurality of electrode plates are connected to each other in series through a plurality of connection cables, and both ends of the connection cables can be coupled to the coupling bolts.

In addition, an electrode seating groove may be formed on one side of the main pad so that the electrode plate may be inserted into the electrode pad, and the electrode plate may be rotationally restrained by the electrode seating groove in a state of being inserted into the electrode seating groove. have.

In addition, a cover seating groove is formed on the other side of the main pad so that the pad cover can be inserted into the cover, and a support plate receiving groove is formed on the bottom surface of the cover seating groove so that a plurality of the electrode supporting plates can be inserted And the electrode support plate may be rotatably restrained by the support plate receiving groove in a state where the electrode support plate is inserted into the support plate receiving groove.

The electrode plate may include an electrode terminal plate of a conductive material closely fitted to the main pad, and an insulating coating layer coated on the exposed surface of the electrode terminal plate.

The electrode terminal plate may be made of aluminum.

The insulating coating layer may be formed by nylon coating the electrode terminal plate.

According to the present invention, the base pad contacting the body of a patient is formed of a silicone material, and a plurality of electrode plates are coupled to the base pad, whereby the shape and the flexural deformation state of the base pad can be freely deformed, It can be brought into close contact with various body parts in an accurate manner, thereby making it possible to use the body more conveniently and safely.

Further, by attaching a separate electrode support plate that can support the electrode plate with the base pad of silicon material interposed therebetween, it is possible to prevent the gap between the electrode plate and the base pad from being widened during the bending deformation of the base pad, Can be stably maintained and the failure caused by the foreign matter flowing into the space between the electrode plate and the base pad can be prevented.

In addition, by forming a plurality of electrode plates each of a metal electrode terminal plate and an insulating coating layer coated on the outer surface thereof, it is possible to reduce a foreign substance feeling such as a cold feeling during the contact of the electrode plate with a body surface, It is possible to prevent damage such as scratching of the surface of the body by the electrode plate and to prevent the spark phenomenon or the like caused due to separation of the electrode plate from the body surface, .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing the configuration of an electrode unit for a high frequency therapy apparatus according to an embodiment of the present invention;
FIG. 2 is a conceptual diagram illustrating an exemplary use of an electrode unit for a high frequency therapy apparatus according to an embodiment of the present invention;
3 is a front exploded perspective view schematically showing a detailed configuration of an electrode unit for a high frequency therapy apparatus according to an embodiment of the present invention,
4 is a bottom exploded perspective view schematically showing a detailed structure of an electrode unit for a high frequency therapy apparatus according to an embodiment of the present invention,
5 is a cross-sectional view schematically showing an internal structure of an electrode unit for a high frequency therapy apparatus according to an embodiment of the present invention,
6 is a conceptual view schematically showing a deformation state of an electrode unit for a high frequency therapy apparatus according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a view schematically showing the configuration of an electrode unit for a high-frequency therapy apparatus according to an embodiment of the present invention. FIG. 2 is a cross-sectional view schematically illustrating the use of an electrode unit for a high frequency therapy apparatus according to an embodiment of the present invention. It is a conceptual diagram.

An electrode unit for a high frequency therapy apparatus according to an embodiment of the present invention is an electrode unit that can be used as a reference electrode or a treatment electrode of a high frequency therapeutic device, and includes an electrode pad 200 and a base pad 100, A separate fixing band 300 may be coupled to the body 100 so as to be mounted on the body.

1, the high-frequency therapy apparatus includes a high-frequency power generator 30 for generating a high-frequency power source and a reference power source, a treatment electrode 10 for contacting the body and applying high-frequency power from the high- And a reference electrode 20 which receives a reference power from a high frequency power generator so as to be energized as a part of the body in contact with the body and a high frequency power applied to the affected part.

The electrode unit according to an embodiment of the present invention may be applied to both the reference electrode 20 and the treatment electrode 10, but the following description will be made on the basis of what is applied to the treatment electrode 10 for convenience of explanation.

The base pad 100 is formed on one side so that the electrode plate 200 can be coupled thereto, and is formed to be in close contact with a part of the body. In addition, band-stopping portions 101 are formed at both ends so that the fixing band 300 can be coupled. 1, the band locking part 101 may be formed in the form of a through-hole as shown in FIG. 1. In addition, a fixing band 300 such as a simple guide bar or a projection may be fixed Or the like. A separate cable guide 102 may be formed on the base pad 100 to guide a power cable or the like for supplying power to the electrode plate 200.

The electrode plate 200 is made of a conductive material so that power can be supplied in the form of a simple plate, and a plurality of electrode plates 200 are coupled to one side of the base pad 100 to be spaced apart from each other. A plurality of electrode plates 200 are supplied with a reference power source or a high frequency power source, and the plurality of electrode plates 200 may be applied as a reference electrode or a treatment electrode by receiving such power.

The fixing band 300 is coupled to the supporting plate 100 by the band locking part 110 and may be formed of a soft material such as a fabric and can be easily wound around the body. In particular, when the body is wound, it may be formed of an elastic material so as to be tightly wound by elastic force. The fixing band 300 may be formed as a single band in the form of a closed curve, but may be configured such that a male and female velcro 310 and 320, which are formed in a string having a predetermined length and can be coupled to each other at both ends, are mounted. In this case, the male and female velcro fasteners 310 and 320 can be connected to each other to form a closed curve.

According to this structure, the base pad 100 is placed on the body surface so that the electrode plate 200 contacts the body surface. In this state, the fixing band 300 is wound around the body circumference as shown in FIG. 2 The electrode plate 200 and the base pad 100 can be brought into close contact with the body by joining the rear and male velcro fasteners 310 and 320. [

After the electrode plate 200 and the base pad 100 are closely fixed to the surface of the body P through the fixing band 300 as described above, the reference electrode 20 is formed on the opposite surface to the electrode plate 200 When the high frequency power source and the reference power source are supplied to each other, deep heat is generated in the mutually opposed region P1 inside the body. The reference electrode 20 may be configured such that the electrode plate 22 is simply coupled to the support pad 21 as shown in FIG.

At this time, the electrode plate 200 is brought into close contact with the surface of the body P and stable contact with the surface of the body P is required. Therefore, the electrode unit for a high-frequency therapeutic apparatus according to an embodiment of the present invention is formed of a silicone material so that the base pad 100 can be deformed smoothly.

That is, in the electrode unit for a high-frequency therapeutic apparatus according to an embodiment of the present invention, the base pad 100 is formed of a silicone material so that its shape can be flexibly deformed, . In addition, a plurality of electrode plates 200 coupled to one side of the base pad 100 can be brought into close contact with the body surface together with the base pad 100, so that a normal and safe operation is possible.

Particularly, since the base pad 100 and the electrode plate 200 can be fixed in a state of being in intimate contact with the body surface through the fixing band 300, even if the patient's movement occurs during the procedure, The contact state can be maintained as it is without being easily detached from the surface. As a result, the occurrence of sparks due to the detachment of the electrode plate 200 is prevented, and the high frequency treatment can be performed more safely. In addition, since the base pad 100 and the electrode plate 200 can be fixed in contact with the body even if a separate operator does not fix the electrode plate, the patient can be more conveniently used by himself / herself.

In the electrode plate 200 coupled to the base pad 100, a high-frequency power is supplied from the high-frequency power generator 30 through the power cable 400 so as to be applied to the treatment electrode 10. At this time, 400 is equipped with a switch connector 410 to supply and cut off high frequency power and a switch cable 510 is connected to the switch connector 410. At the end of the switch cable 510, an operation switch 500 capable of operating the switch connector 410 is mounted. That is, as the operation switch 500 is operated by the user, it is possible to manipulate supply and cutoff of the high frequency power supply through the power cable 400.

For example, the operation switch 500 can be manufactured as a push button type. When the button of the operation switch 500 is depressed, the switch connector 410 operates in a connected state, The switch connector 410 is operated in a cutoff state and the high frequency electric power is supplied to the electrode plate 200 through the power cable 400 in a state where the high frequency power is supplied to the electrode plate 200, May be blocked from being supplied.

Since the operation switch 500 can be separately extended from the electrode plate 200 through the separate switch cable 510, the user can operate the operation switch 500 himself and adjust the power supply state. Therefore, since the patient himself or herself can control the supply and cutoff of the RF power according to the state of the deep heart, the patient can use the electrode unit conveniently even if a separate operator is not on the side.

Next, a detailed configuration of the electrode unit for a high frequency therapy apparatus according to an embodiment of the present invention will be described in detail with reference to FIGS. 3 to 6.

3 is a front exploded perspective view schematically showing a detailed configuration of an electrode unit for a high-frequency therapy apparatus according to an embodiment of the present invention, and Fig. 4 is a schematic perspective view showing a detailed configuration of an electrode unit for a high- 5 is a cross-sectional view schematically illustrating an internal structure of an electrode unit for a high-frequency electric therapy apparatus according to an embodiment of the present invention. FIG. 6 is a cross-sectional view of a high frequency treatment instrument electrode according to an embodiment of the present invention. Fig. 8 is a conceptual diagram schematically showing a deformation state of the unit. Fig.

3 to 6, a base pad 100 according to an embodiment of the present invention includes a main pad 110 of silicon material to which an electrode plate 200 is coupled on one side, The pad cover 120 may be formed of a silicone material. A cover seating groove 112 may be formed on the other side of the main pad 110 to allow the pad cover 120 to be inserted and seated.

In this case, a plurality of electrode plates 200 are coupled to one side of the main pad 110, and a plurality of electrode plates 200 having the same size and shape as those of the electrode plate 200 are formed on the other side opposite to the main pad 110, A plurality of support plates 210 are coupled to the electrode plate 200 at corresponding positions. The electrode plate 200 and the electrode support plate 210 are disposed to correspond to each other with the main pad 110 interposed therebetween. At this time, the electrode plate 200 and the electrode support plate 210 are connected to the main pad 110 And are tightly coupled to each other through separate coupling bolts 220 in close contact with each other. 5 and 6) in which the main pad 110 is in contact with the electrode plate 200 and the electrode support plate 210 by the adhesion force between the electrode plate 200 and the electrode support plate 210 And is configured to maintain a flat state.

Therefore, the electrode plate 200 is stably held in contact with the base pad 100 by tightly coupling with the electrode support plate 210 with the main pad 110 interposed therebetween.

In more detail, the base pad 100 according to an exemplary embodiment of the present invention is formed of a silicon material and can be flexibly deformed freely. On the other hand, since the electrode plate 200 is formed of a metal plate of a conductive material, The base pad 100 is deformed by bending and the electrode plate 200 is not deformed by bending in the process of contacting the base pad 100 with the curved body surface due to such difference The electrode plate 200 is separated from the base pad 100 in an excessive amount. If the gap between the base pad 100 and the electrode plate 200 is widened, foreign matter may flow into the gap between the base pad 100 and the electrode plate 200, which may cause a failure during long-term use. The electrode plate 200 and the electrode support plate 210 may be separated from each other by attaching a separate electrode support plate 210 to the opposite surface of the main pad 110 to which the electrode plate 200 is coupled, The main pad 110 can be prevented from being deformed and maintained in a flat state by the adhesion between the electrode plate 200 and the electrode support plate 210 in the region M contacting the main pad 110, It is possible to prevent the problem that the main body 200 is worn or separated from the main pad 110, that is, the base pad 100, or the like.

At this time, a plurality of electrode seating grooves 111 are formed on one side of the main pad 110 so that a plurality of electrode plates 200 can be inserted into the main pad 110. The electrode plates 200 are respectively inserted into the electrode seating grooves 111 And is rotatably restrained by the electrode seating groove 111 in a state of being inserted and fixed. That is, the electrode plate 200 may be rotated with the coupling bolt 220 as a central axis in a state where the electrode plate 200 is coupled to the base pad 100, for example, The electrode plate 200 can be rotationally confined by the electrode seating groove 111 by engaging the electrode plate 200 in a state where the electrode plate 200 is inserted and seated.

The cover mounting groove 112 may be formed on the other side of the main pad 110 so that the pad cover 120 may be inserted into the cover mounting groove 112, And the electrode plate 200 is rotatably restrained by the support plate seat groove 113 in a state where the electrode plate 200 is inserted into the support plate seat groove 113, . Since this is the same principle as the above-described electrode seating groove 111, detailed description thereof will be omitted.

4 and 5, the plurality of electrode plates 200 are sequentially connected to each other through a plurality of connection cables 230. At this time, the connection cables 230 are connected to the electrode plates 200 and the coupling bolts 220 coupled to the coupling bolts 220. In this case, the power cable 400 connected to the high frequency power generator 30 may be guided along the cable guide portion 102 of the base pad 100 and connected to one of the plurality of electrode plates 200. With this structure, the high frequency power can be supplied to all of the plurality of electrode plates 200.

The electrode plate 200 includes an electrode terminal plate 201 of a conductive material which is tightly coupled to the main pad 110 and an insulating coating layer 202 coated on the exposed surface of the electrode terminal plate 201 . At this time, the electrode terminal plate 201 may be formed of an aluminum material, and the insulating coating layer 202 may be formed by nylon coating the electrode terminal plate 201.

Since the electrode plate 200 is formed of the metallic electrode terminal plate 201 and the insulating coating layer 202 formed on the external surface thereof, the electrode plate 200 is reduced in contact impurities such as a cold feeling during the contact of the electrode plate 200 with the body surface. It is possible to prevent damage such as scratching of the surface of the body by the electrode plate 200 and to prevent the electrode plate 200 from being detached from the body surface It is possible to prevent the spark phenomenon and the like and to further improve the safety of use.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

100: base pad 110: main pad
111: electrode seating groove 113: supporting plate seating portion
120: Pad cover 200: Electrode plate
210: electrode supporting plate 220: coupling bolt
230: connecting wire

Claims

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A high frequency electrode unit for a high frequency therapy device, comprising: a reference electrode to which a reference power supply is supplied; and a treatment electrode to which a high frequency power supply is supplied,
A base pad having a band-catching portion formed at both ends thereof so that a separate fixing band can be coupled thereto; And
A plurality of electrode pads connected to one side surface of the base pad so as to be spaced apart from each other and adapted to be a reference electrode or a treatment electrode,
Wherein the base pad is formed of a silicone material so as to be deformed in a flexible manner,
The base pad
A main pad of silicon material to which the electrode plate is coupled at one side and a pad cover of silicon material which is coupled to the other side of the main pad,
A plurality of electrode support plates having the same size and shape as the electrode plates are coupled to the other side of the main pad at positions corresponding to the electrode plates,
Wherein the electrode plate and the electrode support plate are tightly coupled to each other through separate coupling bolts so as to be in intimate contact with the main pads positioned therebetween,
Wherein the main pad maintains a flat state by an adhesive force between the electrode plate and the electrode support plate in an area where the main plate is in contact with the electrode plate and the electrode support plate.

The method of claim 3,
Wherein the plurality of electrode plates are connected in series to each other through a plurality of connection cables, and both ends of the connection cables are connected to the coupling bolts, respectively.

The method according to claim 3 or 4,
The main pad has an electrode seating groove formed on one side of the main pad so that the electrode plate can be inserted thereinto, and the electrode plate is rotatably restrained by the electrode seating groove while being inserted into the electrode seating groove. Electrode unit for high frequency treatment.

6. The method of claim 5,
A cover seating groove is formed on the other side surface of the main pad so that the pad cover can be inserted and seated,
The electrode support plate is rotatably restrained by the support plate seating groove in a state where the electrode support plate is inserted into the support plate seat groove, so that a plurality of electrode support plates can be inserted and seated on the bottom surface of the cover seat groove, And the electrode unit is connected to the electrode unit.

The method according to claim 3 or 4,
The electrode plate
An electrode terminal plate of a conductive material tightly coupled to the main pad; and an insulating coating layer coated on the exposed surface of the electrode terminal board.

8. The method of claim 7,
Wherein the electrode terminal plate is made of an aluminum material.

9. The method of claim 8,
Wherein the insulating coating layer is formed on the electrode terminal plate by nylon coating.