WO2020050536A1 - Tinea pedis treatment device - Google Patents

Abstract

The prevent invention provides a tinea pedis treatment device comprising: a lower case having a first space formed therein; a footplate for covering the lower case such that the first space of the lower case is partially shielded, the footplate being formed such that a foot can be placed thereon; an upper case disposed on the upper surface of the footplate and formed to have a second space formed therein such that the foot placed on the footplate can be inserted into the second space; a first light emission portion and a second light emission portion disposed on the upper surface of the lower case so as to emit light to the foot placed on the footplate; and a power supply portion for the first light emission portion and the second light emission portion. The first light emission portion comprises a first light source for emitting light in a first wavelength formed in the range of 400 nm to 450 nm, and a second light source for emitting light in a second wavelength formed in the range of 625 nm to 675 nm. The first light emission portion emits light in the first wavelength so as to eradicate tinea pedis fungus, and emits light in the second wavelength so as to massage the foot.

Description

Athlete's foot

The present invention relates to an athlete's foot treatment device, and more specifically, to form a scaffold to directly irradiate light of a wavelength capable of eradicating athlete's foot fungus to the toe part, effectively eradicating athlete's foot fungus of a toe part, It relates to an athlete's foot treatment device capable of improving blood circulation and immunity by irradiating light to the feet.

Athlete's foot is one of the skin diseases caused by a fungus that belongs to a type of fungus. As a treatment method for athlete's foot, there is a method of taking a drug or applying it to the skin. However, in the case of taking the drug, there is a problem that can burden the organ, so it is impossible to use it in patients with deteriorated liver function, its use for pregnant women is very limited, and due to the nature of the drug, there are many limits to use with other drugs. In many cases, even if you have ringworm, oral administration is not possible. When applied to the skin, the appearance is not good and there is a hassle of applying the drug frequently. Therefore, a recently used method is a method of killing athlete's foot fungus by irradiating ultraviolet rays. However, the conventional method of irradiating ultraviolet rays has a disadvantage of having a complicated structure to directly irradiate ultraviolet rays to a location where athlete's foot fungus is present.

The present invention effectively forms a scaffold to directly irradiate light of a wavelength capable of eradicating athlete's foot fungus on the toe portion, effectively eradicates athlete's foot fungus of the toe portion, and irradiates light of a specific wavelength to the foot for blood circulation and immunity It is an object of the present invention to provide an athlete's foot treatment device capable of improving.

According to an aspect of the present invention, the present invention is a lower case in which a first space is formed on the inner side, the first case of the lower case is covered with the lower case so as to be partially shielded, a footrest formed to put the foot, Is disposed on the upper surface of the scaffold, the second case is formed on the inside so that the foot placed on the scaffold is formed to be inserted into the second space, disposed on the upper surface of the lower case, the scaffold A first light irradiating unit for irradiating light to the lower portion of the toe of the foot placed on the lower case of the upper case, a second light irradiating unit for irradiating light to the upper portion of the toe of the foot placed on the footrest, and the agent It includes a light irradiation unit and a power supply for supplying energy for driving the second light irradiation unit, the scaffold is from the rear end of the foot It is formed up to the part before the toe of the foot, and the front side of the footboard formed in the part before the toe is formed in an inclined angle so that the first light irradiator directly irradiates the toe part, and the first light The irradiation unit includes a first light source for irradiating light of a first wavelength formed from 400 nm to 450 nm and a second light source for irradiating light of a second wavelength formed from 625 nm to 675 nm, and the second light irradiation unit is 400 nm to 450 nm It includes a third light source for irradiating light of the first wavelength formed by and a fourth light source for irradiating light of the second wavelength formed of 625nm to 675nm, and extinguish athlete's foot by irradiating light of the first wavelength And, it provides an athlete's foot treatment device that massages the foot by irradiating light of the second wavelength.

According to another aspect of the present invention, the present invention is a lower case having a first space formed therein, the first case of the lower case is covered with the lower case so as to be partially shielded, a footrest formed to put the foot, Is disposed on the upper surface of the scaffold, the second case is formed on the inside so that the foot placed on the scaffold is formed to be inserted into the second space, disposed on the upper surface of the lower case, the scaffold A first light irradiating unit for irradiating light to the bottom portion of the placed foot, a second light irradiating unit disposed on a lower surface of the upper case, and irradiating light to a back portion of the foot placed on the footrest, and the first light It includes a power supply for supplying energy for driving the irradiation unit and the second light irradiation unit, the scaffold is from the rear end of the foot It is formed up to the part before the toe, and the front side of the scaffold formed in the part before the toe is formed in an inclined angle so that the first light irradiation part directly irradiates the toe part, and the first light irradiation part , The lower portion of the toe includes a first light source for irradiating light of a first wavelength formed from 400 nm to 450 nm and a second light source for irradiating light of a second wavelength formed from 625 nm to 675 nm. A fifth light source that irradiates light of a third wavelength so that the wavelength after the light irradiated from the first light irradiation unit passes through the scaffold is 400 nm to 450 nm, and the light irradiated from the first light irradiation unit is applied to the scaffold. And a sixth light source that irradiates light of a fourth wavelength so that the wavelength after passing is formed from 625 nm to 675 nm, and the second light irradiation unit is the first wave formed from 400 nm to 450 nm. It comprises a third light source for irradiating the light and a fourth light source for irradiating the light of the second wavelength formed of 625nm to 675nm, and irradiating light of the first wavelength and the third wavelength to eradicate athlete's foot, An athlete's foot treatment device for massaging the foot by irradiating light of the second wavelength and the fourth wavelength is provided.

According to another aspect of the present invention, the present invention is formed to cover the lower case so that the first case of the lower case, the first case of the lower case is completely or partially shielded, the foot is placed on the inner side The scaffold, which is disposed on the upper surface of the scaffold, has a second space formed inside so that the foot placed on the scaffold is formed to be inserted into the second space, and is disposed on the upper surface of the lower case, A first light irradiating unit for irradiating light to the bottom portion of the foot placed on the scaffold, a second light irradiating unit disposed on the lower surface of the upper case, and irradiating light to a back portion of the foot placed on the scaffolding and the first It includes a light irradiation unit and a power supply for supplying energy for driving the second light irradiation unit, wherein the first light irradiation unit, the first light irradiation unit It includes a first light source for irradiating light of the first wavelength so that the wavelength of light after irradiation is passed through the scaffold is 400nm to 450nm and a second light source for irradiating light of the second wavelength to be formed of 625nm to 675nm, ,

The second light irradiation unit includes a third light source that irradiates light of a third wavelength formed between 400 nm and 450 nm and a fourth light source that irradiates light of a fourth wavelength formed between 625 nm and 675 nm, and the first wavelength And an athlete's foot treatment device that exterminates athlete's foot fungus by irradiating light of the third wavelength and massages the foot by irradiating light of the second and fourth wavelengths.

The athlete's foot treatment device according to the present invention has the following effects.

First, since the side of the scaffold is inclined at a certain angle, the light irradiating unit irradiating the toe portion can efficiently irradiate the toe, so the efficiency of eradicating athlete's foot is high.

Second, by adjusting the inclined angle of the side of the footrest according to the size or shape of the foot, the light irradiation unit can efficiently irradiate light on the toes.

Third, by irradiating light of a wavelength having a foot massage effect, there is also an effect of improving blood circulation and immunity in addition to eradicating athlete's foot.

1 is a perspective view of an athlete's foot treatment device according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view taken along line II-II of the athlete's foot treatment device according to FIG. 1.

3 is a cross-sectional view taken along line III-III of the athlete's foot treatment device according to FIG.

Figure 4 is a cross-sectional view of the athlete's foot treatment device according to another embodiment of the present invention.

5 is a cross-sectional view of the athlete's foot treatment device according to another embodiment of the present invention.

6 is a schematic diagram showing a wavelength change of light irradiated from the first light irradiation unit of FIGS. 4 and 5.

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings.

1 to 3, the athlete's foot treatment device 100 according to an embodiment of the present invention includes a lower case 110, a footrest 120, an upper case 130 and a power supply 140. The lower case 110 is formed in a shape in which an upper portion is opened to have a first space inside the lower case 110. Of course, the lower case 110 has the first space therein and can be changed to another structure capable of mounting the scaffold 120 on the upper surface of the lower case 110. The scaffold 120 is disposed on the lower case 110. The scaffold 120 is arranged to partially shield the lower case 110. Even if the scaffold 120 is disposed on the upper portion of the lower case 110, the first space is maintained between the lower case 110 and the scaffold 120.

A first light irradiation unit 111 is formed on the upper surface of the lower case 110. The first light irradiation unit 111 is formed of a laser diode (Laser Diode). However, the present invention is not limited to this, and the first light irradiation unit 111 can be changed. The first light irradiation unit 111 includes a first light source 111a and a second light source 111b. The first light source 111a irradiates light of a first wavelength corresponding to 400 nm to 450 nm, and the second light source 111 b irradiates light of a second wavelength corresponding to 625 nm to 675 nm. The first light source 111a and the second light source 111b are alternately arranged at a predetermined distance from the scaffold 120. However, the present invention is not limited to this, and the arrangement of the first light source 111a and the second light source 111b may be changed. The first light irradiator 111 is placed on the bottom of the protruding toe when the foot is placed on the scaffold 120 and the toe protrudes out of the side of the scaffold 120, and is irradiated with light. The first light irradiation unit 111 is electrically connected to the power supply unit 140. Therefore, light is irradiated to the lower portion of the toe of the foot placed on the scaffold 120 using the electric energy supplied from the power supply unit 140.

The scaffold 120 is disposed on the lower case 110. That is, the scaffold 120 covers the lower case 110 so that the first space of the lower case 110 is partially shielded, but the upper portion of the lower case 110 is not interfered with the first light irradiation unit 111. Is mounted on. The scaffold 120 is formed in a flat plate shape so that a person can put their feet on it. However, the front side of the scaffold 120 is formed to be inclined at a 45 degree angle with other parts of the scaffold 120. This is to allow the toe portion protruding out of the side of the footrest 120 to receive light irradiated from the first light irradiation unit 111 vertically. However, the present invention is not limited to this, and the shape of the scaffold 120 can be changed.

The inclined angle of the side of the footrest 120 can be adjusted to 45 degrees in excess of 0 degrees. A plurality of hinges (not shown) are formed on the front and rear boundary surfaces of the footrest 120. The angle of the side of the footrest 120 can be adjusted by rotation of the hinge (not shown). That is, while the hinge (not shown) rotates, the front side of the scaffold 120 can be tilted to 45 degrees in excess of 0 degrees in the direction of the upper case 130.

In this embodiment, the front side of the scaffold 120 is inclined at 45 degrees with the other parts of the scaffold 120, but an angle that can adjust the inclined angle of the front side of the scaffold 120 according to people's foot shape, etc. An adjustment unit (not shown) may be further added. The angle adjusting unit (not shown) may be electrically or mechanically connected to the hinges (not shown). Through the angle adjusting unit (not shown), the first light irradiator 111 is simply adjusted to the side of the footrest 120 at an angle at which light is best irradiated to the toes, thereby adding light to the toes. By shining well, it is possible to improve the efficiency of eradicating athlete's foot.

The upper case 130 is disposed on the footrest 120. The upper case 130 is mounted on the upper side of the scaffold 120 to have a second space inside. The second space is a space where the foot can be placed on the footrest 120. The upper case 130 is formed of the same material as the lower case 110. However, since the upper case 130 has less weight to be supported than the lower case 110, it may be formed of a material that is lighter and weaker in rigidity than the lower case 110. The upper case 130 may be formed integrally with the lower case 110. At this time, a binding member may be added to one side of the upper case 130 so that the upper case 130 can be opened and closed in a state combined with the lower case 110.

A second light irradiation unit 131 is formed on the lower surface of the upper case 130. The second light irradiation unit 131 is formed of a laser diode. However, the present invention is not limited thereto, and the second light irradiation unit 131 may be changed. The second light irradiation unit 131 includes a third light source 131a and a fourth light source 131b. The third light source 131a irradiates light corresponding to a wavelength of 400 nm to 450 nm, and the fourth light source 111 b irradiates light corresponding to a wavelength of 625 nm to 675 nm. The third light source 131a and the fourth light source 131b are alternately arranged at a predetermined distance from the scaffold 120. However, the present invention is not limited to this, and the arrangement of the third light source 131a and the fourth light source 131b may be changed. The second light irradiation unit 131 is placed on the foot of the footrest 120, when the toe is protruding out of the side of the footrest 120, it is disposed on the protruding toe to irradiate light. The second light irradiation unit 131 is electrically connected to the power supply unit 140. Therefore, light is irradiated to the back and toenail portions of the feet placed on the scaffold 120 using the electric energy supplied from the power supply unit 140.

Although not shown in the present embodiment, a display unit displaying one side of the upper case 130 so that the operating states of the first light irradiation unit 111 and the second light irradiation unit 131 can be recognized through time or hearing. (Not shown) may be further included. The display unit (not shown) makes it easy to see whether the athlete's foot treatment device 100 is irradiating light having a wavelength for eradicating athlete's foot or irradiating a wavelength for massage. However, the present invention is not limited to this, and the display unit (not shown) may be disposed at another position of the lower case 110 or the upper case 130 that is judged to be easily recognized through visual or auditory sense.

The athlete's foot treatment device 100 according to the present embodiment is configured to irradiate light of the first wavelength from the first light source 111a and the third light source 131a, and then the second light source 111b and the fourth light source ( 131b) may further include a control unit (not shown) capable of adjusting the time for irradiating the light of the second wavelength. The control unit (not shown) is electrically connected to the first light irradiation unit 111 and the second light irradiation unit 131. Using the control unit (not shown), the irradiation time of the first wavelength for eradicating athlete's foot and the irradiation time of the second wavelength for foot massage can be easily adjusted.

The athlete's foot treatment device 100 according to the present embodiment irradiates light of the first wavelength from the first light source 111a and the third light source 131a to eradicate the athlete's foot fungus, and the first wavelength After stopping the irradiation of the light, the second light source 111b and the fourth light source 131b are irradiated with the light of the second wavelength to massage the feet to increase blood circulation and immunity. Alternatively, the second light source 111b and the fourth light source 131b are irradiated with the light of the second wavelength to massage the foot, and after stopping the irradiation of the light of the second wavelength, the first light source 111a ) And the third light source 131a irradiates light of the first wavelength to eradicate athlete's foot fungus. However, the present invention is not limited to this, and the irradiation order or the irradiation time of the first wavelength and the second wavelength can be changed.

Clinical studies have shown that light having a wavelength of 400nm to 450nm corresponding to the first wavelength has an effect of killing athlete's foot, and light having a wavelength of 625nm to 675nm corresponding to the second wavelength has an effect on increasing blood circulation and immunity, and It has been confirmed through analysis of related data. That is, the light of the first wavelength and the second wavelength corresponding to the visible light region have been proven to eradicate athlete's foot fungi and increase blood circulation and immunity, respectively.

4, the athlete's foot treatment device 200 according to another embodiment of the present invention includes a lower case 210, a footrest 220, an upper case 230 and a power supply (not shown). A first light irradiation unit 211 is formed on an upper portion of the lower case 210, and a second light irradiation unit 231 is formed on a lower portion of the upper case 230. The athlete's foot treatment device 200 according to FIG. 4 has a portion such as a sole and a foot, as well as a position where the first light irradiation part 211 and the second light irradiation part 231 illuminate the toe portion as compared with the athlete's foot treatment device 100 according to FIG. 1 There is a difference in that they are all arranged up to the position to illuminate. Therefore, other parts other than the above differences are similar to the athlete's foot treatment device 100 according to FIG. 1, and thus description thereof will be omitted.

The first light irradiation unit 211 includes a first light source 211a, a second light source 211b, a fifth light source 211c, and a sixth light source 211d. Also, the second light irradiation unit 231 includes a third light source 231a and a fourth light source 231b. The first light irradiation unit 211 is disposed on the entire lower portion of the scaffold 220. In addition, the second light irradiation unit 231 is disposed on the entire lower surface of the upper case 230 to illuminate the foot or the like. That is, the first light irradiator 211 and the second light irradiator 231 are disposed not only in the portion that illuminates the toes of the foot mounted on the scaffold 220, but also in the portion that illuminates the bottom and back of the foot. By doing so, it is possible to obtain the effect of eradicating athlete's foot and massaging the power generation body.

However, the light irradiated from the first light irradiation unit 211 disposed under the scaffold 220 changes in wavelength while passing through the scaffold 220 having a different refractive index from air. Therefore, the first light source (211a) that eradicates athlete's foot while directly illuminating the toe portion of the foot mounted on the scaffold (220) emits light having a wavelength of 400nm to 450nm, but the fifth light source (211c) is the scaffold ( 220), the wavelength of light to be irradiated must be determined in consideration of the changing wavelength. This is also the case for foot massage. Therefore, for the massage of the foot, the second light source 211b may emit light having a wavelength of 625nm to 675nm, but the sixth light source 211d is irradiated in consideration of a wavelength change generated when passing through the scaffold 220 The wavelength of the light that needs to be determined must be determined. That is, after the light irradiated from the fifth light source 211c and the sixth light source 211d passes through the scaffold 220, the fifth light source may be 400 nm to 450 nm wavelength and 625 nm to 675 nm wavelength, respectively. 211c) and the wavelength of the sixth light source 211d and the material of the scaffold 220 should be determined.

The second light irradiation unit 231 directly irradiates light to the back and toenails of the foot. Therefore, the third light source 231a for eradicating athlete's foot fungus emits light having a wavelength of 400nm to 450nm, and the fourth light source 231b for massaging the foot emits light having a wavelength of 625nm to 675nm. The light irradiated from the first light irradiation unit 211 disposed under the scaffold 220 passes through the scaffold 220 and is irradiated to the foot is specifically illustrated in FIG. 6A.

5, the athlete's foot treatment device 300 according to another embodiment of the present invention includes a lower case 310, a footrest 320, an upper case 330 and a power supply (not shown). A first light irradiation unit 311 is formed on an upper portion of the lower case 310, and a second light irradiation unit 331 is formed on a lower portion of the upper case 330. The athlete's foot treatment device 300 according to FIG. 5 has a difference in that all of the footrest 320 is formed to the toe of the foot mounted on the footrest 320 when compared to the athlete's foot treatment device 200 according to FIG. 4. . Therefore, parts other than the above differences are similar to the athlete's foot treatment device 200 according to FIG. 4, and thus, description thereof will be omitted.

The first light irradiation unit 311 includes a first light source 311c and a second light source 311d. In addition, the second light irradiation unit 331 includes a third light source 331a and a fourth light source 331b. The second light irradiation unit 311 directly irradiates the back and toenail parts of the foot. Therefore, the third light source 331a irradiates light having a wavelength of 400nm to 450nm for eradicating athlete's foot, and the fourth light source 331b irradiates light having a wavelength of 625nm to 675nm for massage of the foot.

However, the light irradiated from the first light irradiation unit 311 disposed under the scaffold 320 changes the wavelength while passing through the scaffold 320 having a different refractive index from air. In this embodiment, unlike the athlete's foot treatment device 200 according to FIG. 4, since the scaffold 320 is formed on the entire lower surface of the foot, the position of the first light irradiation part 311 is not distinguished, and the refractive index of the scaffold is considered. The wavelength of light irradiated from the first light source 311c and the second light source 311d may be determined. That is, the light irradiated from the first light source 311c passes through the scaffold 320 and becomes light having a wavelength of 400 nm to 450 nm, and the light irradiated from the second light source 311d passes through the scaffold 320. After that, the light is 625nm to 675nm wavelength. The light irradiated from the first light irradiation unit 311 disposed under the scaffold 320 passes through the scaffold 320 and is irradiated to the foot is specifically illustrated in FIG. 6B. That is, after the light irradiated from the first light source 311c and the second light source 311d passes through the scaffold 320, the first light source may be 400 nm to 450 nm wavelength and 625 nm to 675 nm wavelength, respectively. 311c) and the wavelength of the second light source 311d and the material of the scaffold 320 should be determined.

In this embodiment, the first light source 311c and the third light source 331a are irradiated with light of the first wavelength and light of the third wavelength, respectively, to eradicate athlete's foot fungus present in the foot, After stopping the irradiation of the light of the 1 wavelength and the light of the third wavelength, the light of the second wavelength and the light of the fourth wavelength are irradiated from the second light source 311d and the fourth light source 331b, respectively. Massage the foot. Alternatively, the second light source 311d and the fourth light source 331b are irradiated with light of the second wavelength and light of the fourth wavelength to massage the foot, respectively, and the light of the second wavelength and the fourth. After stopping the irradiation of light having a wavelength, the first light source 311c and the third light source 331a irradiate light of the first wavelength and light of the third wavelength, respectively, to eradicate athlete's foot fungus present on the foot. do. However, the present invention is not limited to this, and the order and time for irradiating light of the first to fourth wavelengths can be changed.

The athlete's foot treatment device 200 according to FIG. 4 and the athlete's foot treatment device 300 according to FIG. 5 have a wavelength of 400 nm to 450 nm after light emitted from the first light irradiation units 211 and 311 passes through the scaffolds 220 and 320. Since only the wavelengths of the first light irradiation units 211 and 311 need to be adjusted to become light or light having a wavelength of 625nm to 675nm, a simple structure can be manufactured. That is, it does not require an additional device for obtaining a special effect on the scaffold (220, 320), it can also reduce the inconvenience of making a hole or the like through which light can pass. Therefore, the athlete's foot treatment apparatus 200 and 300 according to FIGS. 4 and 5 has an advantage in that the structure is simple, but the efficiency of eradication of athlete's foot is high, and additionally, a massage function can be provided.

Although the present invention has been described with reference to the embodiments shown in the drawings, these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

Using the present invention, in addition to eradicating athlete's foot, it is possible to provide an athlete's foot treatment device capable of improving blood circulation and immunity.

Claims (8)

1. A lower case in which a first space is formed inside;

   A scaffold formed to cover the lower case so that a part of the first space of the lower case is partially shielded;

   An upper case disposed on an upper surface of the scaffold, and having a second space formed therein so that the foot placed on the scaffold can be inserted into the second space;

   Is disposed on the upper surface of the lower case, the first light irradiation unit for irradiating light to the lower portion of the toe of the foot placed on the footrest;

   It is disposed on the lower surface of the upper case, the second light irradiation unit for irradiating light to the upper portion of the toe of the foot placed on the scaffold; And

   It includes a power supply for supplying energy for driving the first light irradiation unit and the second light irradiation unit,

   The scaffold is formed from the rear end of the foot to the part before the toe of the foot, and the front side of the scaffold formed on the part of the toe is formed in an inclined set angle so that the first light irradiator directly irradiates the toe part. So that

   The first light irradiation unit includes a first light source for irradiating light of a first wavelength formed from 400 nm to 450 nm and a second light source for irradiating light of a second wavelength formed from 625 nm to 675 nm, and the second light irradiation unit Is a third light source for irradiating light of the first wavelength formed from 400 nm to 450 nm and a fourth light source for irradiating light of the second wavelength formed from 625 nm to 675 nm,

   Athlete's foot treatment device that exterminates athlete's foot fungus by irradiating light of the first wavelength and massages the foot by irradiating light of the second wavelength.
2. The method according to claim 1,

   After irradiating light of the first wavelength from the first light source and the third light source to eradicate athlete's foot fungus present in the foot, and stopping the irradiation of light of the first wavelength, the second light source and the fourth light source Or massage the foot by irradiating light of the second wavelength, or irradiating light of the second wavelength from the second light source and the fourth light source to massage the foot, and irradiating light of the second wavelength After stopping, the athlete's foot treatment device for eradicating athlete's foot bacteria present in the foot by irradiating light of the first wavelength from the first light source and the third light source.
3. The method according to claim 1,

   The lower case or the upper case.

   Athlete's foot treatment device further comprising an angle adjusting unit for adjusting the inclined angle of the side of the footrest.
4. The method according to claim 1,

   The lower case or the upper case,

   Athlete's foot treatment device further comprising a display unit for displaying the first light irradiation unit and the second light irradiation unit to recognize the operating state through visual or auditory.
5. A lower case in which a first space is formed inside;

   A scaffold formed to cover the lower case so that a part of the first space of the lower case is partially shielded;

   An upper case disposed on an upper surface of the scaffold, and having a second space formed therein so that the foot placed on the scaffold can be inserted into the second space;

   Is disposed on the upper surface of the lower case, a first light irradiation unit for irradiating light to the bottom portion of the foot placed on the scaffold;

   A second light irradiation unit disposed on a lower surface of the upper case and irradiating light to a back portion of the foot placed on the scaffold; And

   It includes a power supply for supplying energy for driving the first light irradiation unit and the second light irradiation unit,

   The scaffold is formed from the rear end of the foot to the part before the toe of the foot, and the front side of the scaffold formed on the part of the toe is formed in an inclined set angle so that the first light irradiator directly irradiates the toe part. So that

   The first light irradiation unit, a lower portion of the toe includes a first light source for irradiating light of a first wavelength formed of 400nm to 450nm and a second light source for irradiating light of a second wavelength formed of 625nm to 675nm In the lower portion of the scaffold, a fifth light source that irradiates light of a third wavelength so that the wavelength after the light irradiated from the first light irradiation part passes through the scaffold is 400 nm to 450 nm, and the first light irradiation part It includes a sixth light source for irradiating light of the fourth wavelength so that the wavelength after the light passing through the scaffold is formed from 625nm to 675nm,

   The second light irradiation unit includes a third light source for irradiating light of the first wavelength formed from 400 nm to 450 nm and a fourth light source for irradiating light of the second wavelength formed from 625 nm to 675 nm,

   Athlete's foot treatment device that exterminates athlete's foot fungus by irradiating light of the first wavelength and the third wavelength, and massages the foot by irradiating light of the second wavelength and the fourth wavelength.
6. The method according to claim 5,

   The first light source and the third light source are irradiated with light of the first wavelength, and the fifth light source is irradiated with light of the third wavelength to eradicate athlete's foot fungus, and the first wavelength and the After stopping the irradiation of light of the third wavelength, the second light source and the fourth light source are irradiated with the light of the second wavelength, and the sixth light source is irradiated with the light of the fourth wavelength to massage the foot or , The second light source and the fourth light source to irradiate the light of the second wavelength, the sixth light source to irradiate the light of the fourth wavelength to massage the foot, the second wavelength and the fourth wavelength After stopping the irradiation of the light, the first light source and the third light source are irradiated with the light of the first wavelength, and the fifth light source is irradiated with the light of the third wavelength to eradicate athlete's foot bacteria present in the foot Athlete's foot treatment device.
7. A lower case in which a first space is formed inside;

   A scaffold formed to cover the lower case so that the first space of the lower case is partially or partially shielded, so that a foot is placed;

   An upper case disposed on an upper surface of the scaffold, and having a second space formed therein so that the foot placed on the scaffold can be inserted into the second space;

   Is disposed on the upper surface of the lower case, a first light irradiation unit for irradiating light to the bottom portion of the foot placed on the scaffold;

   A second light irradiation unit disposed on the lower surface of the upper case and irradiating light to a back portion of the foot placed on the scaffold; And

   It includes a power supply for supplying energy for driving the first light irradiation unit and the second light irradiation unit,

   The first light irradiation unit, the first light source irradiating the light of the first wavelength so that the light after the light irradiated from the first light irradiation unit passes through the scaffold is formed to 400nm to 450nm and 625nm to 675nm A second light source for irradiating light of 2 wavelengths,

   The second light irradiation unit includes a third light source that irradiates light of a third wavelength formed between 400 nm and 450 nm and a fourth light source that irradiates light of a fourth wavelength formed between 625 nm and 675 nm,

   Athlete's foot treatment device that exterminates athlete's foot fungus by irradiating light of the first wavelength and the third wavelength, and massages the foot by irradiating light of the second wavelength and the fourth wavelength.
8. The method according to claim 7,

   The first light source and the third light source respectively irradiate light of the first wavelength and light of the third wavelength to eradicate athlete's foot bacteria present in the foot, and the light of the first wavelength and the third wavelength After stopping the irradiation of light, the second light source and the fourth light source respectively irradiate light of the second wavelength and light of the fourth wavelength to massage the foot, or from the second light source and the fourth light source. After irradiating the light of the second wavelength and the light of the fourth wavelength to massage the foot, and stopping the irradiation of the light of the second wavelength and the light of the fourth wavelength, the first light source and the third Athlete's foot treatment device to eradicate athlete's foot bacteria present in the foot by irradiating light of the first wavelength and light of the third wavelength from a light source, respectively.

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