JP2004248746A - Brush and brush cleaning device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a highly safe brush cleaning device efficiently cleaning a brush. <P>SOLUTION: This brush cleaning device is provided with an irradiation case 3 storing a bristle planting part 4 of a tooth brush in an irradiation space part 14, a violet light emitting diode 7 emitting a short wavelength light to the irradiation space part of the irradiation case, a drive part driving the violet light emitting diode and a switch 24 detecting that the brush is stored in the irradiation space part. The short wavelength light emitted by the violet light emitting diode irradiates the bristles of the bristle planting part and excites photocatalyst to clean the brush. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to brushes such as a toothbrush and a hairbrush, and a brush purifier for purifying these brushes.
[0002]
[Prior art]
Brushes, for example, toothbrushes, are washed with water after brushing their teeth, but are then only shaken and drained, so that moisture remains on the surface of the hair and between the hairs after use. In addition, a small amount of food residue often remains, particularly at the root of hair. For this reason, various germs are easy to propagate, and even if it looks beautiful, it cannot always be said that hygiene is sufficient. For this reason, there has been proposed a portable toothbrush case that can be sterilized by irradiation of ultraviolet rays when the used toothbrush is stored.
[0003]
[Patent Document 1]
JP-A-5-184423 (FIG. 1)
[0004]
[Problems to be solved by the invention]
However, the conventional toothbrush case is sterilized by irradiation of ultraviolet rays, and ultraviolet rays may leak to the outside, and even if leaked, they are invisible. And ultraviolet rays have a problem in safety in terms of carcinogenicity and the like. In addition, when attempting to irradiate ultraviolet rays, it is difficult to reduce the size of the ultraviolet lamp because the size of the ultraviolet lamp is large, and there is a risk of a high voltage used in the ultraviolet lamp.
[0005]
It is also conceivable to use a photocatalyst that decomposes the residue attached to the hair of the toothbrush, but if the photocatalyst is coated on the surface of the hair, the abrasive grains of the toothpaste promote abrasion and there is a problem in durability, If it is added to the material of the hair, only the photocatalyst exposed on the surface functions and the cost is high, but the efficiency is low, and the strength of the hair is reduced, and neither of them can be put to practical use.
[0006]
The present invention has been proposed in view of the above circumstances, and an object of the present invention is to provide a brush which is highly safe and can efficiently purify, and a purifier for the brush.
[0007]
[Means for Solving the Problems]
The present invention has been proposed in order to achieve the above object, and the invention according to claim 1 is a brush in which a plurality of bristles are planted in a flocked portion of a handle,
The hair has a double structure in which a functional layer containing a photocatalyst is formed around a core material.
[0008]
Since the brush has a functional layer containing a photocatalyst on the surface of the hair, the brush has excellent wear resistance, and the photocatalyst of the functional layer receives light to exhibit a purifying action. Therefore, dirt attached to the surface of the hair or between the hairs can be decomposed, and the brush is purified. Since the photocatalyst is included only in the functional layer constituting the surface portion of the hair, the core material can sufficiently maintain the strength required for the brush hair, and the amount of expensive photocatalyst used is small. Do it.
[0009]
And the fluorescent part which emits fluorescence by the short wavelength light irradiated to a photocatalyst may be provided in the handle of the brush. With this configuration, the fluorescent portion emits fluorescence when the photocatalyst is irradiated with the short-wavelength light, so that it can be visually recognized that the photocatalyst exerts a purifying action by the fluorescence.
[0010]
Further, if a photocatalyst is added to the surface of the handle, the handle can be purified, which is more sanitary.
[0011]
An irradiation case capable of accommodating a bristle implantation portion of a brush in an irradiation space, a purple light emitting diode for irradiating a short wavelength light into the irradiation space of the irradiation case, and driving the purple light emitting diode And a driving unit,
The hair implantation portion of the brush is housed in the irradiation space, and the short wavelength light generated by the violet light emitting diode is irradiated on the hair of the hair implantation portion to excite and purify the photocatalyst added to the surface of the hair. This is a brush purifier.
The short-wavelength light generated by the violet light emitting diode is a kind of visible light unlike ultraviolet light, and has high safety. When this short-wavelength light is applied to the hair, the photocatalyst on the surface of the hair is excited to generate radicals, and the radicals purify the organic matter existing on and between the hairs by decomposing them into carbon dioxide and water. Sterilize with. Therefore, it is possible to purify more efficiently than the purifying action of the photocatalyst by natural light. Further, since the purple light emitting diode is small and consumes little power, it is advantageous for making the purifier compact and lightweight.
[0012]
According to a fifth aspect of the present invention, in the brush purifier, the irradiation case is provided with a detection unit that detects that the flocked portion of the brush is housed in the irradiation space, and the driving unit includes Timer means for driving the purple light-emitting diode for a predetermined time based on the detection signal is provided, and when the flocked portion of the brush is stored in the irradiation space of the irradiation case, short-wavelength light generated by the purple light-emitting diode is applied to the hair of the flocked portion. May be configured to stop irradiation after irradiation for a predetermined time.
In this way, if the brush detecting means and the irradiation stopping timer means are provided, there is no need to operate the switch each time the brush is stored after use, and irradiation can be performed only for an appropriate time, so that the usability is good. It is.
[0013]
Then, the irradiation case is provided with a light emitting portion that emits a part of the short-wavelength light of the violet light emitting diode to the outside, and the short-wavelength light from the emitting portion allows the light emission of the violet light emitting diode to be seen from the outside. Good.
[0014]
Alternatively, a fluorescent portion may be provided on the handle of the brush, and a part of the short-wavelength light of the purple light emitting diode may be irradiated so that the drive of the purple light emitting diode can be seen by the fluorescence of the fluorescent portion.
[0015]
When the inner surface of the irradiation case is a mirror surface, the short-wavelength light of the violet light-emitting diode is reflected by the mirror surface, and the short-wavelength light can be irradiated to the surface of the hair from various angles.
[0016]
The brush according to claim 9, wherein a plurality of bristles are planted in the flocked portion of the handle,
The hair has a photocatalyst added to at least its surface,
The pattern includes, inside, a purple light emitting diode that irradiates short-wavelength light, and a driving unit that drives the purple light emitting diode,
The hair is irradiated with short-wavelength light generated by a violet light emitting diode to excite and purify a photocatalyst. Since this brush is an integral type having a handle provided with a purple light-emitting diode and a drive unit, it can be purified as it is without being housed in a case after use, and is easy to use.
[0017]
And this brush is provided with a light guide portion for guiding the short wavelength light generated by the violet light emitting diode to the surface of the flocked portion inside the handle, and irradiates the surface of the hair with the short wavelength light radiated from the light guide portion. Then, the photocatalyst may be excited. By providing the light guide section, short-wavelength light can be efficiently guided in a desired direction, so that irradiation efficiency can be increased and design flexibility can be increased.
[0018]
Further, the handle can be separated into a flocked portion side and a grip portion side provided with a purple light emitting diode and a driving portion therein, and a purple light emitting portion is connected to the flocked portion side and the grip portion side. A photoconductive portion for transmitting the short-wavelength light generated by the diode may be provided, and the flocked portion side may be replaceable. With this configuration, when the hair is fatigued or damaged, only the flocked portion can be replaced, and the grip portion provided with the purple light emitting diode and the driving portion can be continuously used, contributing to resource saving. Can and is economical.
[0019]
When a fluorescent portion that emits fluorescence by irradiating a part of the short-wavelength light generated by the violet light emitting diode is provided on the handle, it is possible to visually recognize the purification and to give a sense of security to the user. it can.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1A shows a toothbrush 1 which is a representative brush and a toothbrush 4 of the toothbrush 1 housed in an irradiation case 3 of a toothbrush purifier 2 (a brush purifier of the present invention) and the lid is opened. FIG. 2B is a plan view showing the state, FIG. 2B is a cross-sectional view showing a state in which the lid is closed, and FIG.
[0021]
The toothbrush 1 is composed of a stick-shaped synthetic resin handle 11 composed of a gripping portion 10 to be gripped by hand and a flocked portion 4 formed at a tip portion thereof, and bristles 6 planted in the flocked portion 4. A raised portion 12 is formed near the flocked portion so that a thumb can be easily hooked thereon, and a fluorescent portion 13 is provided on an inclined surface of the raised portion 12 on the flocked portion 4 side. As shown in FIG. 1C, the bristles 6 of the toothbrush 1 have a double structure in which a functional layer 6b containing a photocatalyst is formed around a core 6a.
[0022]
Since the core material 6a is required to have an appropriate strength (rigidity, elasticity, etc.) when used as the toothbrush 1, a wire made of a synthetic resin (for example, nylon) that does not contain a photocatalyst is used as in the related art. Thus, the strength required for the bristles 6 of the toothbrush 1 can be secured. On the other hand, the functional layer 6b is a photocatalyst-containing layer, and uses a material in which a synthetic resin contains a photocatalyst. For example, kneaded titanium dioxide powder as a photocatalyst in nylon is used as a material. Then, in order to form the functional layer 6b around the core material 6a, for example, it is possible to form a wire having a predetermined thickness by extruding using a composite nozzle and extending the same.
As described above, since the photocatalyst of the hair 6 is kneaded into the functional layer 6b on the surface, it is possible to prevent a reduction in the purification function due to abrasion, and to use a small amount of the photocatalyst.
[0023]
The fluorescent portion 13 is formed by molding a material in which a fluorescent agent that emits fluorescence by short-wavelength light applied to a photocatalyst is included in a synthetic resin into a substantially hemispherical shape.
[0024]
Next, the toothbrush purifier 2 (hereinafter simply referred to as a purifier) will be described.
This purifier 2 is an embodiment of a type in which only the flocked portion 4 of the toothbrush 1 is stored while the handle 11 is kept outside, and an irradiation space formed into a size and shape capable of storing the flocked portion 4 of the brush. An irradiation case 3 in which an irradiation space 14 is formed, a violet light emitting diode 7 for irradiating short-wavelength light into an irradiation space 14 of the irradiation case 3, and a driving unit 8 for driving the violet light emitting diode 7. .
[0025]
The irradiation case 3 is a substantially rectangular box-like body having the lid 5 as a part. The interior is partitioned by a partition wall 15 so that the mechanism room 21 for storing the drive unit 8 and the flocked portion 4 of the toothbrush 1 are stored. The irradiation cavity 14 to be formed is formed. Then, the lid 5 connected to the case body portion 16 in which the irradiation space 14 and the mechanism chamber 21 are formed via a hinge portion 17 formed on one side of the case body portion 16 is made openable and closable. A locking portion 18 is formed on the other side (the side opposite to the hinge portion 17) of the lid 16 and the lid 5 so that the locking can be performed in a closed state by the locking portions 18, 18. Further, a light-transmitting portion 25 is formed in a partition wall 15 between the mechanism room 21 in which the driving portion 8 is housed and the irradiation space 14, and the portion through which the handle 11 of the toothbrush 1 penetrates also serves as a light emitting portion. When the notch 19 is formed and the lid 5 is closed, the handle 11 passed through the notch 19 for penetrating the handle is prevented from interfering with the lid 5, and the lid 5 is securely closed.
[0026]
As shown in FIG. 2, the drive unit 8 is schematically configured by providing a battery 22 as a power supply and a reed switch 24 operated by the magnetic force of a magnet Mg attached to the lid 5 on the substrate 8a. In the embodiment, control is performed by a microchip 8b having a built-in timer means. Then, when the lid 5 is closed and the switch 24 is turned on, the current from the battery 22 is supplied to the purple light emitting diode 7 to drive the light emission, and after the time set in the timer means elapses, the current is cut off and the light emission is stopped. can do.
[0027]
The purple light emitting diode 7 is a diode that generates visible light having a short wavelength of 370 to 380 nm (382 to 384 nm in peak emission), and is hardly affected by the ambient temperature and does not require an inverter circuit. As shown in FIG. 1A, the purple light-emitting diode 7 is disposed in the mechanism room 21 with the light-emitting portion facing a light-transmitting portion 25 provided on the partition wall 15. The translucent section 25 is arranged at a position where the short-wavelength light (purple light) from the violet light emitting diode 7 can be evenly radiated to the hairs in a state where the flocking section 4 of the toothbrush 1 is stored in the irradiation space 14. Is established. The translucent section 25 may be a window in which glass or transparent plastic is fitted, as long as a through hole is formed in the partition wall 15 as long as short-wavelength light can pass therethrough.
[0028]
In order to use the purifier 2 having such a configuration, as shown in FIG. 1A, the flocked portion 4 of the toothbrush 1 is stored in the irradiation space 14 with the lid 5 opened. When the flocking portion 4 is stored in this manner, the tip of the bristle 6 faces the light transmitting portion 25. When the lid 5 is closed in this state, the reed switch 24 is turned on by the magnetic force of the magnet Mg, and the short-wavelength light generated by the violet light-emitting diode 7 is projected through the light-transmitting portion 25 into the irradiation space 14 and flocks. The hair 6 of the part 4 is irradiated. The inner surface surrounding the irradiation space 14 is a mirror surface including the lid 5, and the short-wavelength light emitted from the light transmitting unit 25 is reflected by the mirror surface. Therefore, the bristle 6 is not only directly irradiated with the short-wavelength light from the light transmitting portion 25, but also irradiated with the short-wavelength light reflected by the mirror surface from another direction. For this reason, irradiation unevenness hardly occurs.
[0029]
When the bristle 6 is irradiated with short-wavelength light, the titanium dioxide (photocatalyst) of the functional layer 6b exposed on the surface of the bristle 6 is excited to promote the purifying action. That is, when the titanium dioxide is irradiated with short wavelength light, it generates OH radicals, so that the oxidizing power is extremely large, and the organic matter is decomposed into carbon dioxide and water. Therefore, food debris (organic matter) attached to the surface of the hair 6 or the handle 11 or existing between the hairs 6 can be decomposed into carbon dioxide and water. In addition, since the oxidizing power is strong, a sterilizing effect can be expected. In the present embodiment, if a photocatalyst is added to a portion of the handle 11 housed in the irradiation case 3, the purifying action can be exerted on the portion. As a method of adding a photocatalyst to the handle 11, coating, kneading, coating, or the like can be used.
[0030]
While such a purifying action (decomposition and sterilization of organic substances) is being performed, short-wavelength light is emitted from the light emitting portion of the irradiation case 3 and is irradiated on the fluorescent portion 13, whereby the fluorescent portion 13 emits fluorescence. . Therefore, the user can visually confirm that the purifying action is being performed by the fluorescence of the fluorescent portion 13, and a sense of security can be obtained. Then, when a predetermined time (for example, 5 minutes) set in the timer means in the microchip 8b elapses, the light emission of the purple light emitting diode 7 stops.
[0031]
In this embodiment, the reed switch is used, but the switch in the present invention is not limited to this, and a known switch such as a micro switch or a push button switch can be used. The drive unit 8 is not limited to the one controlled by the microchip. For example, when the operation unit of the switch 24 provided in the irradiation case 3 is manually turned on, the power is supplied from the battery 22 to the purple light emitting diode 7. It may be configured such that the purifying action (light emission) is performed and the light emission is stopped when the operation is turned off. With such a configuration, it can be provided at a low cost because the structure is simple.
[0032]
Next, the toothbrush purifier 2 shown in FIG. 3 will be described.
The purifier 2 is an embodiment of a type in which the entire toothbrush 1 including the handle 11 is housed, and is an irradiation case including a box-shaped case main body 31 and a lid 5 which are openably and closably connected via a hinge 30. 3, an irradiation cavity 14 formed substantially in the shape of a toothbrush in the case body 31 of the irradiation case 3, a purple light emitting diode 7 for irradiating short-wavelength light into the irradiation cavity 14, and the purple light emitting diode 7. And a driving unit 8 for driving.
[0033]
The irradiation case 3 is a substantially rectangular box-like body having the lid 5 as a part. The interior is partitioned by a partition wall 15 so that the mechanism room 21 for storing the drive unit 8 and the flocked portion 4 of the toothbrush 1 are stored. The irradiation cavity 14 is formed so that the toothpaste tube 33 can be stored in the remaining cavity of the case body 31. The irradiation cavity 14 is elongated in one width direction so as to accommodate the slender handle cavity 14a for accommodating the handle 11 of the toothbrush 1 and the leading end of the handle cavity 14a for the flocked portion 4. The inner surface is a mirror surface so that short wavelength light from the violet light emitting diode 7 is reflected. Note that the mirror surface may be a flat surface, but may be formed in a so-called diamond shape in which small flat surfaces are continuous to cause irregular reflection.
[0034]
The driving unit 8 has the same configuration as that of the above-described embodiment, and the violet light emitting diode 7 is provided toward the flocked portion 14b. Although not shown in the drawings, the purple light-emitting diode 7 may be provided on the side wall of the pattern space 14a.
[0035]
In order to use the purifier 2 having such a configuration, as shown in FIG. 3A, the toothbrush 1 is stored in the irradiation space 14 with the lid 5 opened, and the lid 5 is closed. When the lid 5 is closed, the switch 24 is turned on by the action of the magnet Mg attached to the lid 5, whereby the violet light emitting diode 7 emits short-wavelength light and the timer is started. The short-wavelength light generated by the violet light-emitting diode 7 is projected into the irradiation space 14 and irradiated onto the hair 6 and the handle 11 directly or after being reflected on a mirror surface.
[0036]
When the hair 6 and the handle 11 are irradiated with short-wavelength light, the functional layer 6b exposed on the surface of the hair 6 and the titanium dioxide (photocatalyst) added to the handle 11 are excited to promote the purifying action. . Therefore, food debris (organic matter) attached to the surface of the hair 6 or the handle 11 or existing between the hairs 6 can be decomposed into carbon dioxide and water. In addition, it can be sterilized by oxidizing power.
[0037]
After a lapse of a predetermined time set in the timer means, for example, 5 minutes, light emission of the purple light emitting diode 7 is automatically stopped.
[0038]
As described above, according to the purifier 2 of the present embodiment, after using the toothbrush 1, the user simply stores the toothbrush 1 in the irradiation case 3 and closes the lid 5, and cleans the toothbrush 1 without performing a switch operation. It can be performed. Therefore, there is no trouble and the usability is extremely good.
[0039]
In addition, when the part 5a of the lid 5 corresponding to the flocked space 4b is molded with a fluorescent material, the part 5a of the lid 5 itself fluoresces due to short-wavelength light in the irradiation space 14, so that the purifying action is visually displayed. can do. Further, a display device that emits light simultaneously with the driving of the purple light emitting diode 7 may be provided.
[0040]
Further, in this embodiment, the closing of the lid 5 is detected by the switch 24 to indirectly detect that the flocked portion 4 of the toothbrush 1 is accommodated in the irradiation space 14, but the detecting means in the present invention is Not limited to this. For example, a photocoupler including a light emitting diode and a light receiving diode may be provided in the irradiation cavity 14 (not shown), and the handle 11 of the toothbrush 1 may be configured to directly detect light by blocking light from the light emitting diode. .
[0041]
Next, the toothbrush 1 shown in FIG. 4 will be described.
This toothbrush 1 is of a type including a purple light emitting diode 7 for irradiating short-wavelength light and a driving unit 8 for driving the purple light emitting diode 7 inside a handle 11. A photocatalyst is added to at least the surface of the provided plurality of hairs. In addition, as a method of adding a photocatalyst to the hair 6, in addition to coating the above-described functional layer 6 b, there are coating, kneading, and the like. In the case of the present embodiment, the functional layer 6 b is preferable, but other methods are used. Is also good.
[0042]
The handle 11 of the toothbrush 1 is separable into a flocked portion side 11a and a gripping portion side 11b having a purple light emitting diode 7 and a driving portion 8 provided therein. A photoconductive portion for transmitting short-wavelength light generated by the violet light emitting diode 7 is provided at a connection portion with the side 11b, and the flocked portion 11a is replaceable.
[0043]
The handle 11 on the gripper side 11b has a button-type battery 22, which is the main part of the drive unit 8, provided with a switch 24 on the slope on the tip side of the raised part 12 on which a finger is hung. A hole 40 is opened at the center of the tip to be a connection part, and a shaft 41 made of a transparent material, which also serves as a photoconductive portion and a connection portion, is fitted into the hole 40 with the first half protruding outside. The violet light emitting diode 7 is provided toward the rear end surface (light introduction surface) 41b of the shaft 41. Note that the handle 11 on the grip portion side 11b may be formed of a colored plastic or the like, but may be formed of a transparent plastic to be a skeleton type and the surface thereof may be coated with a photocatalyst.
[0044]
The handle 11 on the flocked portion 11a is formed of a light-transmissive material such as transparent plastic, and a connection hole 42 is formed in a rear end surface serving as a connection portion, into which a front half of the shaft 41 is fitted. It is configured such that short-wavelength light passing through the inside is introduced into the inside from the bottom surface of the connection hole 42. The hair 6 is planted on one surface of the flocked portion 4 of the handle 11, and a light refraction portion 43 for refracting short-wavelength light passing through the inside of the handle 11 toward the hair is provided on the other surface. .
[0045]
For example, as shown in FIG. 6, the light refracting portion 43 forms a concave portion having a triangular cross section, and the short-wavelength light introduced from the rear end of the shaft 41 (the bottom surface of the connection hole 42) is used as the inclined surface 44 of the concave portion. The hair is totally reflected and refracted toward the hair side, and the refracted short-wavelength light irradiates the surface from the root of the hair to purify the surface of the hair 6 and is emitted from the surface of the handle 11 of the hair implantation part 4. The short wavelength light is configured to clean the surface of the shaft 41 or to decompose the organic matter accumulated at the root of the hair 6. The recess is formed so as to gradually become deeper from the rear end side to the front end side. The handle 11 on the flocked side is provided with a fluorescent portion 13 that emits fluorescence by irradiating a part of the short-wavelength light generated by the purple light-emitting diode 7.
[0046]
Specifically, a fluorescent plastic lump 13 containing a fluorescent agent is provided on an inclined surface of a portion gradually reduced in diameter from the connection portion toward the flocking portion side 11a with its lower end portion depressed inside. The inclined lower end surface 13 'of the plastic lump 13 faces the connection portion side. Therefore, a part of the short-wavelength light from the connection portion side is introduced into the fluorescent plastic lump 13 from the inclined surface 13 ′, whereby the fluorescent plastic lump 13 emits fluorescent light and can be visually displayed to the user.
[0047]
In the above-described embodiment, the handle 11 on the flocking portion side 11a is made of a transparent material and the light refraction portion 43 is provided, and the handle 11 itself is used as the light guide. However, the light guide of the present invention is not limited to this. For example, an optical fiber bundle may be provided as a light guide in the direction of the shaft 41 inside the handle 11 on the flocked portion side 11a, and the tip may be directed to the bristle side. With this configuration, the surface of the hair or handle 11 can be irradiated with short-wavelength light from the photoconductive portion on the connection portion side from within the optical fiber.
[0048]
As described above, if the purple light-emitting diode 7 and the driving unit 8 are provided inside the handle 11 of the toothbrush 1, the purification can be performed by simply operating the operation unit 23 of the switch 24 after use. In addition, if the hair is detachable from the flocked portion 11a, it can be replaced with a new one when the hair is damaged, which can contribute to resource saving and is economical.
[0049]
The purifier 2 shown in FIG. 7 is for a hairbrush. The irradiation case 3 is capable of accommodating the flocked portion 4 of the hairbrush 1 in the irradiation space 14, and the short-wavelength light is supplied to the irradiation space 14 of the irradiation case 3. The basic configuration of including the violet light emitting diode 7 to irradiate and the driving unit 8 for driving the violet light emitting diode 7 is the same as in the above embodiments.
[0050]
The irradiation case 3 of the purifier is of a type in which the hair brush 1 is stored in an upright state, and is rotatable by a case base 45 having a substantially L-shaped cross section and a hinge portion 46 provided below the case base 45. The opening / closing case 47 is connected, and the hair brush 1 is stored in the opening / closing case 47 side with the flocked portion facing down. Then, the battery 22 which is a part of the driving unit 8 is stored in the bottom of the case base 45, and the substrate 8a of the driving unit 8 is stored in the vertically elongated mechanism room 21 partitioned by the partition wall 15, and the substrate 8a The purple light-emitting diodes 7, 7 attached to the upper and lower parts are fixed toward the irradiation space 14. A suction cup 48 is provided on the back surface of the case base 45 so that the suction cup 48 can be fixed to the wall surface of the washroom, and a jack 49 of an AC adapter is provided on the lower portion of the side surface so that it can be used with a commercial power supply.
Note that the same reference numerals are given to the fluorescent unit 13, the switch 24, and the like, and the description is omitted.
[0051]
In order to use such a purifier 2, as shown in FIG. 7A, the upper part of the opening / closing case 47 is pulled forward and opened, and the hair brush 1 is opened with the flocked portion 4 facing downward. 47 and then close. When the opening / closing case 47 is closed, the switch 24 provided on the case base 45 side is turned on, whereby the violet light emitting diodes 7, 7 emit short-wavelength light and the timer means is started. The short-wavelength light generated by the violet light-emitting diode 7 is projected into the irradiation space 14 and irradiated onto the hair 6 directly or after being reflected on a mirror surface.
[0052]
When the bristle 6 is irradiated with short-wavelength light, the titanium dioxide (photocatalyst) of the functional layer 6b exposed on the surface of the bristle 6 is excited to promote the purifying action. Therefore, dirt (organic matter) attached to the surface of the hair 6 or existing between the hairs 6 can be decomposed into carbon dioxide and water. In addition, it can be sterilized by oxidizing power.
[0053]
Then, after a predetermined time set in the timer means, for example, 5 minutes, the light emission of the purple light emitting diode 7 is automatically stopped.
In this way, the dirt can be decomposed and purified by simply putting the hair brush 1 into the purifier 2, and the hair brush 1 can be kept clean at all times.
[0054]
In the above embodiments, the toothbrush 1 and the hairbrush 1 have been described as examples, but the brush according to the present invention is not limited to this. For example, a nail brush may be used. In short, any brush may be used as long as the brush 6 is planted on the handle 11.
[0055]
【The invention's effect】
As described above, according to the present invention, the following effects can be obtained.
According to the invention of claim 1, since the hair has a double structure in which a functional layer containing a photocatalyst is formed around a core material, the hair has excellent abrasion resistance and the photocatalyst of the functional layer receives light. Exhibits a purifying action. Therefore, dirt attached to the surface of the hair or between the hairs can be decomposed, and the brush is purified. Since the photocatalyst is included only in the functional layer constituting the surface portion of the hair, the core material can sufficiently maintain the strength required for the brush hair, and the amount of expensive photocatalyst used is small. Do it.
[0056]
According to the second aspect of the present invention, since the fluorescent portion that emits fluorescence by the short-wavelength light applied to the photocatalyst is provided on the handle of the brush, the fluorescent portion emits fluorescence when the short-wavelength light is applied to the photocatalyst. Therefore, it can be visually recognized that the photocatalyst exerts a purifying action by this fluorescence, and a sense of security can be given to the user.
[0057]
According to the invention of claim 3, an irradiation case capable of accommodating the flocked portion of the brush in the irradiation space, a purple light emitting diode for irradiating short-wavelength light into the irradiation space of the irradiation case, and driving the purple light emitting diode And a driving unit for storing the brush in the irradiation space, and irradiating the hair of the hair with short-wavelength light generated by the violet light emitting diode to excite the photocatalyst added to the surface of the hair. Can be purified.
And short wavelength light has high safety unlike ultraviolet light.
In addition, since the purple light emitting diode is small and has low power consumption, the purifier can be reduced in size and weight.
[0058]
According to the invention of claim 5, the irradiation case is provided with detection means for detecting that the flocked portion of the brush is accommodated in the irradiation space, and the driving unit is configured to detect a state in which the brush is implanted based on a detection signal from the detection means. Since there is provided a timer means for driving the purple light emitting diode for a predetermined time, when the flocked portion of the brush is stored in the irradiation space of the irradiation case, the short wavelength light generated by the purple light emitting diode is irradiated on the hair of the flocked portion for a predetermined time. The irradiation can be stopped automatically later. Therefore, there is no need to operate the switch every time the used brush is stored, and irradiation can be performed only for an appropriate time, so that the usability is good.
[0059]
According to the invention of claim 6, since the light emitting section for emitting a part of the short-wavelength light of the violet light emitting diode to the outside is provided in the irradiation case, the short-wavelength light from the emitting section causes the violet light emitting diode to emit the light from the outside. Light emission can be seen. Therefore, it can be visually recognized that the purifying action is being performed.
[0060]
According to the invention of claim 7, since the fluorescent portion is provided on the handle of the brush and a part of the short-wavelength light of the violet light emitting diode is irradiated so that the drive of the violet light emitting diode can be seen by the fluorescence of the fluorescent portion, The execution of the purifying action is easier to understand.
[0061]
According to the invention of claim 8, since the inner surface of the irradiation case is a mirror surface, the short-wavelength light of the violet light emitting diode is reflected by the mirror surface, and the short-wavelength light is irradiated to the hair surface from various angles. And irradiation efficiency can be improved.
[0062]
According to the ninth aspect of the present invention, a photocatalyst is added to the surface of the bristles of the brush, and the handle includes, inside, a purple light emitting diode that irradiates short-wavelength light and a driving unit that drives the purple light emitting diode. By irradiating the hair with short-wavelength light generated by the violet light emitting diode, the photocatalyst can be excited and purified. Since this brush is an integral type having a handle provided with a purple light emitting diode and a driving unit, it can be purified as it is without being housed in a case after use, and the usability is good.
[0063]
According to the invention of claim 10, a light guide portion for guiding the short-wavelength light generated by the violet light-emitting diode to the surface of the flocked portion is provided inside the handle, and the short-wavelength light radiated from the light guide portion is applied to the hair. Since the photocatalyst is excited by irradiating the surface, short-wavelength light can be efficiently guided in a desired direction, so that the irradiation efficiency can be increased. Also, the degree of freedom in design can be increased.
[0064]
According to the eleventh aspect of the present invention, the handle can be separated into the flocked portion side and the grip portion side, so that when the hair is damaged, the flocked portion side can be replaced with a new one. Therefore, it can contribute to resource saving and is economical.
[0065]
According to the twelfth aspect of the present invention, since the fluorescent portion that emits fluorescence by irradiating a part of the short-wavelength light generated by the violet light emitting diode is provided on the handle, it is possible to visually recognize that the purification is being performed, and to the user. It can give a sense of security.
[Brief description of the drawings]
FIG. 1A is a plan view showing a state in which a flocked portion of a toothbrush is stored in an irradiation case of a toothbrush purifier and a lid is opened, FIG. 1B is a cross-sectional view showing a state in which the lid is closed, and FIG. c) is a cross-sectional view of the hair.
FIG. 2A is a plan view of a purple light emitting diode and a driving unit thereof, and FIG. 2B is a front view of the purple light emitting diode and a driving unit thereof.
FIG. 3A is a plan view showing a state where a lid of a toothbrush purifier of a type that stores the entire toothbrush is opened, and FIG. 3B is a cross-sectional view showing a state where the lid is closed.
FIG. 4 is a side view of a toothbrush provided with a purple light emitting diode and a driving unit inside a handle.
5 is an enlarged sectional view of a connection portion of the toothbrush shown in FIG.
FIG. 6 is an enlarged side view of a flocked portion of the toothbrush shown in FIG.
7A is a side view of the hair brush purifier with the open / close case opened, FIG. 7B is a cross-sectional view of the hair brush purifier with the open / close case closed, and FIG. FIG. 2 is a front view of the hair brush purifier in a state where is closed.
[Explanation of symbols]
1 Toothbrush (hair brush)
2 Purifier for toothbrush (purifier for hairbrush)
3 Irradiation case
4 Flocking part
5 Lid
6 hair
6a core material
6b Functional layer
7. Purple light emitting diode
8 Driver
10 gripper
11 patterns
12 ridge
13 Fluorescent part
14 Irradiation space
14a Pattern blank
14b Empty part for flocking
15 Partition wall
16 Case body
17 Hinge
18 Locking part
19 Notch for pattern penetration (light emission part)
20 Through hole
21 mechanism room
22 batteries
23 Operation section
24 switches
25 Transparent part
30 Hinge
31 Case body
33 Toothpaste tube
40 holes
41 axes
42 Connection hole
43 Light refraction part
44 Slope
45 case base
46 Hinge
47 opening and closing case
48 Sucker
49 AC Adapter Jack

Claims (12)

In a brush with multiple hairs planted in the flocked part of the handle,
A brush, wherein the bristles have a double structure in which a functional layer containing a photocatalyst is formed around a core material. 2. The brush according to claim 1, wherein the handle includes a fluorescent portion that emits fluorescent light by short-wavelength light applied to a photocatalyst. 3. The brush according to claim 1, wherein a photocatalyst is added to at least a surface of the handle. An irradiation case capable of accommodating the flocked portion of the brush in the irradiation space, a violet light emitting diode that irradiates short-wavelength light into the irradiation space of the irradiation case, and a driving unit that drives the violet light emitting diode,
The hair implantation part of the brush is housed in the irradiation space, and the short wavelength light generated by the purple light emitting diode is irradiated on the hair of the hair implantation part to excite and purify the photocatalyst added to the surface of the hair. Purifier for brush. The irradiation case has a detection unit for detecting that the flocked portion of the brush is accommodated in the irradiation space,
The driving unit includes a timer unit that drives the violet light emitting diode for a predetermined time based on a detection signal from the detection unit,
The method according to claim 4, wherein when the flocked portion of the brush is housed in the irradiation space of the irradiation case, the short-wavelength light generated by the purple light emitting diode is applied to the hair of the flocked portion for a predetermined time, and then the irradiation is stopped. The brush purifier according to the above. The irradiation case has a light emitting portion that emits a part of the short-wavelength light of the violet light emitting diode to the outside, and the short-wavelength light from the emitting portion makes the light emission of the violet light emitting diode visible from outside. The brush purifier according to claim 4 or 5, wherein 7. The driving of the violet light emitting diode is made visible by irradiating a part of the short wavelength light of the violet light emitting diode to the fluorescent part provided on the handle of the brush, by the fluorescence of the fluorescent part. The brush purifier according to any one of the above. The brush according to any one of claims 4 to 7, wherein the inner surface of the irradiation case has a mirror surface, and the mirror surface reflects the short-wavelength light of the violet light emitting diode to irradiate the surface of the hair. Purifier. In a brush with multiple hairs planted in the flocked part of the handle,
The hair has a photocatalyst added to at least its surface,
The pattern includes, inside, a purple light emitting diode that irradiates short-wavelength light, and a driving unit that drives the purple light emitting diode,
A brush, which irradiates hair with short-wavelength light generated by a violet light emitting diode to excite and purify a photocatalyst. Inside the handle, a light guide for guiding the short-wavelength light generated by the violet light emitting diode to the surface of the flocked portion is provided, and the surface of the hair is irradiated with the short-wavelength light emitted from the light guide to excite the photocatalyst. The brush according to claim 9, wherein: The handle can be separated into a flocked portion side and a purple light emitting diode and a grip portion provided with a drive portion therein, and a purple light emitting diode is provided at a connection portion between the flocking portion side and the grip portion side. The brush according to claim 9 or 10, wherein a photoconductive portion for transmitting the generated short-wavelength light is provided, and the flocked portion side is replaceable. The brush according to any one of claims 9 to 11, wherein a fluorescent portion that emits fluorescence by irradiating a part of the short wavelength light generated by the purple light emitting diode is provided on the handle.

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