JP3207517U - Skin cleaning brush - Google Patents

Abstract

Provided is a skin cleansing brush that can effectively reduce the waste on the surface of the skin and exhibit an anti-aging effect by exerting a reducing ability. A brush for cleaning the surface of a skin by bringing foamed bristles into contact with the skin, and a hydrogen generating unit containing a hair planting part in which hair material is implanted and a hydrogen generator that generates hydrogen when wet A communication hole is formed between the flocked portion and the hydrogen generating portion to guide hydrogen generated in the hydrogen generating portion to the hair material base of the flocked portion. [Selection] Figure 7

Description

  The present invention relates to a skin cleaning brush.

  In recent years, along with the remarkable development of dermatology, beauty awareness has increased, and many cosmetics and cosmetic tools having various functions have been proposed.

  However, the basics of beauty are ideal on the premise that the skin is clean. Efficient removal of dirt and waste accumulated on the skin surface every day is necessary for maintaining beautiful and healthy skin. It is extremely important.

  Accordingly, various cleaning tools have been proposed in order to efficiently remove wastes and the like on the skin surface.

  Of these, brush-type cleaning tools are widely used because they can not only provide a sufficient cleaning effect, but also can be expected to have a massage effect on the skin with the hair tips (for example, patents). (See Reference 1.)

JP 2007-236715 A

  However, although the conventional brush-type cleaning tool has seen a certain solution for removing dirt on the skin surface, it is still difficult to say that it can still exhibit a sufficient effect from the viewpoint of anti-aging.

  In other words, wrinkles and sagging that occur with aging are thought to be one of the causes of intracellular oxidative stress that constitutes the skin, and conventional brush-type cleaning tools cannot obtain a redox effect, and the skin We could not expect prevention or improvement of aging.

  This invention is made | formed in view of such a situation, Comprising: The skin washing brush which exhibits the reducing ability and can anticipate the anti-aging effect, removing the waste on the skin surface efficiently is provided.

  In order to solve the above-described conventional problems, in the skin cleaning brush according to the present invention, (1) a brushed part in which a hair material is implanted in a brush that cleans the skin surface by bringing foamed hair tips into contact with the skin And a hydrogen generator containing a hydrogen generator that generates hydrogen when wet, and between the flocked part and the hydrogen generating part, the hydrogen generated by the hydrogen generating part is inserted into the flocked part. A communication hole leading to the hair material base was formed.

The skin cleaning brush according to the present invention is also characterized by the following points.
(2) The hair material is planted in the planted part as a bundle of hair bundled with a plurality of hairs. In the planted part, a hair region in which the hair bundle is implanted and the hair bundle are implanted. The communication hole includes an end surface communication hole that communicates with a collection end surface of the hair bundle planted in the hair area, and a near communication that communicates with the hairless area in the vicinity of the hair bundle. It consisted of holes.
(3) The hydrogen generator includes at least two transition metals having different ionization tendencies, and is a sintered body that generates hydrogen by a potential difference between different metals caused by water wetting.
(4) A center electrode disposed at the center of the flocked portion and an outer edge electrode disposed at the outer edge of the flocked portion, wherein the center electrode and the outer edge electrode are electrically connectable to the hydrogen generator. Configured.
(5) The hair region and the hairless region are arranged concentrically with the center electrode as the center.
(6) The hydrogen generator is an aggregate of sintered grains, and the hydrogen generating unit is capable of moving the sintered grains therein.

  In the skin cleaning brush according to the present invention, in the brush that cleans the skin surface by bringing the foamed hair tip into contact with the skin, the hair planting part in which the hair material is implanted, and the hydrogen generator that generates hydrogen when wet with water. A hydrogen generation part housed therein, and a communication hole for guiding hydrogen generated in the hydrogen generation part to the hair material base part of the flocking part is formed between the flocking part and the hydrogen generating part. It is possible to provide a skin cleansing brush that can effectively reduce surface waste and exhibit an anti-aging effect by exhibiting reducing ability.

  Further, the hair material is planted in the planted part as a bundle of hairs in which a plurality of hairs are bundled. In the planted part, a hair region in which the hair bundle is implanted and the hair bundle are implanted. A non-hairless region is formed, and the communication hole includes an end surface communication hole that communicates with a collection end surface of the hair bundle planted in the hair region, and a nearby communication hole that communicates with the hairless region near the hair bundle. In this way, the hydrogen water generated by the water present in the hydrogen generation part and the generated hydrogen reaches the flocked part through the end face communication hole, and infiltrates to the middle of the hair bundle by capillary action through the collecting end face. The foam formed by hydrogen water can be generated. In addition, gaseous hydrogen diffuses from the neighboring communication holes, so that hydrogen can be included in the bubbles, and hydrogen can efficiently reach the skin.

  Further, if the hydrogen generator is a sintered body that contains at least two kinds of transition metals having different ionization tendencies and generates hydrogen by a potential difference between different metals caused by water wetting, it generates hydrogen chemically. Compared with the case of making it, the production | generation of a by-product can be suppressed and the contamination by the by-product of skin washing brush itself can be prevented.

  Further, a central electrode disposed at the center of the flocked portion and an outer edge electrode disposed at an outer edge of the flocked portion, wherein the central electrode and the outer edge electrode are configured to be electrically connectable to the hydrogen generator. In this case, the potential difference generated in the hydrogen generator can be reflected in the hair material or foam implanted in the hair transplantation part, and a weak current can be applied to the skin to promote skin activation.

  Further, if the hair region and the hairless region are arranged concentrically with the center electrode as a center, avoiding a short circuit in the vicinity of the root of the hair bundle, from the center electrode to the outer edge electrode in the vicinity of the hair bundle tip A substantially uniform potential gradient can be formed, and more efficient skin activation can be promoted.

  In addition, the hydrogen generator is an aggregate of sintered grains, and the hydrogen generator can move the sintered grains within the interior by moving the brush of the present application during skin cleaning. Each of the sintered grains, each functioning as a potential generator, randomly rolls in the hydrogen generator, and a random potential difference can be generated over time between the central electrode and the outer edge electrode. Therefore, the random fluctuation of the potential difference can give an appropriate stimulus to the deep part of the skin and cause fine movement due to a weak current, compared with the case where a constant voltage that does not fluctuate is applied. Can be further promoted.

It is explanatory drawing which shows the external appearance of the skin washing brush which concerns on this embodiment. It is a disassembled perspective view which shows the structure of a skin washing brush. It is a disassembled perspective view which shows the structure of a ceramic ball cartridge. It is sectional drawing which shows the structure of a ceramic ball cartridge. It is a disassembled perspective view which shows the structure of a washing brush main body. It is explanatory drawing which shows the hair transplant part of a skin washing brush. It is sectional drawing which shows the structure of a skin washing brush.

  The present invention provides a brush that cleans the skin surface by bringing a lathered hair tip into contact with the skin.

  In particular, the skin cleaning brush according to the present embodiment is characterized by including a hair-planting part in which a hair material is implanted, and a hydrogen generation part in which a hydrogen generator that generates hydrogen when wet is contained, A communicating hole is formed between the flocked portion and the hydrogen generating portion to guide hydrogen generated in the hydrogen generating portion to the hair material base of the flocked portion.

  Accordingly, it is possible to provide a skin cleansing brush that can effectively reduce the waste on the skin surface while exhibiting the reducing ability derived from hydrogen generated by the hydrogen generator, and can be expected to have an anti-aging effect. .

  Hereinafter, the skin cleaning brush according to the present embodiment will be specifically described with reference to the drawings.

  FIG. 1 is a perspective view showing an appearance of a skin cleaning brush A according to the present embodiment. In addition, although the hair | bristle bundle which the skin washing | cleaning brush A has below is illustrated as a cylinder for convenience of explanation below, in reality, it is formed by gathering very fine hairs with good touch.

  As shown in FIGS. 1A and 1B, the skin cleaning brush A includes a hemispherical dome-shaped lid portion 11 on an upper portion of a housing 10 having a substantially flat egg shape in appearance. 10 is provided with a brush portion 12 composed of a plurality of hair bundles 12a, and has a shape that fits comfortably in the palm of the user's hand when used. In addition, the hole shown with the code | symbol 14 is an insertion hole which penetrates the string for suspending the skin washing brush A to a predetermined | prescribed hook etc.

  As shown in FIG. 1A, a water injection hole 11 a is formed in the lid portion 11 so that water can be injected into the inside of the housing 10. Moreover, this water injection hole 11a can be opened and closed by operating the cover part 11, and is used as a closed state as shown in FIG.1 (b). In addition, about the structure of this cover part 11 or the water injection hole 11a, it explains in full detail later.

  As shown in FIG. 2, a cartridge housing space 15 is formed in the housing 10 located below the lid portion 11, and the ceramic ball cartridge 13 is detachable in the cartridge housing space 15. Is housed in.

  The ceramic ball cartridge 13 functions as a hydrogen generator, and contains a plurality of ceramic balls 16 as hydrogen generators that generate hydrogen when wet.

  Specifically, as shown in FIG. 3, the ceramic ball cartridge 13 includes an upper cover 17, an inflow water derivative 18, a ceramic ball 16, and a bottom plate 19 formed by combining a plurality of members. It is formed by accommodating a large number of ceramic balls 16 in an internal space formed by closing the bottom opening of the top cover 17 with a bottom plate 19.

  The upper cover 17 is a substantially cylindrical member having a top surface 17a. A reaction water inflow portion 17b protrudes upward at a substantially central portion of the top surface 17a so that reaction water for wetting the ceramic balls 16 accommodated therein can be introduced.

  Moreover, the peripheral part of the top surface 17a forms a peripheral wall 17c as a rising shape, and the reaction water injected by the user through the water injection hole 11a of the lid part 11 accumulates on the top surface 17a, and the reaction water flows in. It is configured to smoothly flow to the inlet 17d formed on the peripheral surface of the portion 17b.

  As shown in FIG. 4, the inflowing water derivative 18 distributes the reaction water (indicated by white arrows) flowing in from the inflow port 17d substantially evenly to the ceramic balls 16 accommodated therein. It is a member for guiding. The inflowing water derivative 18 also has a role for preventing the ceramic balls 16 from spilling out of the ceramic ball cartridge 13 through the inflow port 17d.

  Returning to the explanation of FIG. 3, the ceramic balls 16 are sintered grains containing at least two kinds of transition metals having different ionization tendencies, and contact with the reaction water causes water wetting to cause a potential difference between different metals. To produce hydrogen. That is, the plurality of ceramic balls 16 function as hydrogen generators housed in the hydrogen generator. Further, as will be described later, the ceramic ball 16 also functions as a potential difference generator for generating a potential difference.

  The ceramic balls 16 are filled so that a slight gap is generated in the internal space of the ceramic ball cartridge 13. In other words, the ceramic ball 16 is accommodated in an amount that can move within the ceramic ball cartridge 13.

  The bottom plate 19 is configured by fitting the cartridge electrode ring 20, the mesh plate 21, and the central closing body 22 concentrically (see FIG. 4).

  As shown in FIG. 3, the cartridge electrode ring 20 is an annular member made of metal or a resin plated with metal, and the ceramic balls 16 in a state where a potential difference is generated (water is wet). Direct contact with the ceramic ball 16 or electrical connection with the ceramic ball 16 through water functions as an electrode unit for transmitting the electric potential of the ceramic ball 16 to the brush unit 12 described above.

  Further, on the outer surface of the side wall 20a of the cartridge electrode ring 20, a fitting convex portion 20b convex outward in the radial direction is formed along the circumferential surface. When the bottom plate 19 is coupled to the upper cover 17 as shown in FIG. 4, the fitting convex portion 20 b is engaged with the concave portion 17 e formed on the inner peripheral surface of the upper cover 17, thereby It serves to prevent the bottom plate 19 from falling off. For convenience of explanation, the ceramic balls 16 are not shown in FIG.

  The mesh plate 21 is a flat plate having a substantially donut shape in plan view having an opening at the center, and a plurality of lead-out holes 21a penetrating the front and back are formed. The lead-out holes 21a lead out hydrogen generated in the ceramic balls 16 to the outside of the ceramic ball cartridge 13, or hydrogen water generated when a part of the hydrogen generated in the ceramic balls 16 is dissolved in the reaction water. It is a hole for exuding. Further, the outlet hole 21a also has a role of discharging excess water out of the reaction water flowing in via the inflow port 17d.

  The central closing body 22 is a member for closing the opening of the central portion of the mesh plate 21 and preventing the contained ceramic ball 16 from deviating from the ceramic ball cartridge 13.

  Further, as shown in FIG. 3, a notch 22 a is formed in a part of the peripheral edge of the central closing body 22. The cutout portion 22a forms an electrode exposure hole 22b (see FIG. 4) for exposing a central pole projection piece 33c of the central electrode portion 33a described later in a fitted state with the mesh plate 21.

  Next, the structure of the main body part excluding the ceramic ball cartridge 13 in the skin cleaning brush A according to the present embodiment will be described. FIG. 5 is an exploded perspective view showing the configuration of the cleaning brush main body 30.

  The skin cleaning brush A is composed of the above-described ceramic ball cartridge 13 and a cleaning brush main body 30 that houses the ceramic ball cartridge 13. As shown in FIG. 5, the cleaning brush main body 30 includes the lid portion 11. And the housing 10, the housing cup 31, the outer edge electrode body 32, and the central electrode body 33.

  The lid portion 11 includes an inner lid body 34 that is coupled to the housing 10 and an outer lid body 35 that is rotatably disposed above the inner lid body 34.

  The inner lid body 34 is a member whose main role is closing the large hole portion 10a of the housing 10, and has a substantially hemispherical dome-like appearance.

  Below the peripheral edge portion of the inner lid body 34, there are a plurality of locking pieces 34 a constituting a so-called bayonet lock by engaging with an inner flange 10 b formed in a large hole portion 10 a of the casing 10 described later ( In this embodiment, three places) are formed.

  That is, the inner lid body 34 is detachable from the housing 10, and the inner lid body 34 is disposed in the upper opening of the large hole portion 10 a and rotated in a predetermined circumferential direction, whereby the inner lid body 34 is arranged. Is locked while being held in the housing 10 so that the ceramic ball cartridge 13 accommodated in the housing 10 is not easily dropped from the upper opening.

  Further, for example, when exchanging the ceramic ball cartridge 13, the lock is released by rotating the inner lid 34 in a locked state with respect to the housing 10 in the circumferential direction opposite to that for locking, Replacement is performed by removing the inner lid 34 from the housing 10 and opening the upper opening.

  In addition, a rotation knob 34b is provided on a part of the peripheral edge of the inner lid 34 so as to protrude outward in the radial direction. The turning knob 34 b is a part for the user to abut a fingertip or the like when the inner lid 34 is turned in the circumferential direction with respect to the housing 10.

  The dome-shaped portion of the inner lid body 34 is formed with a substantially fan-shaped inner lid hole 34c having a central portion cut out in plan view. The inner lid hole 34c is a hole for the user to inject water when the skin cleaning brush A is used.

  Further, an outer lid body mounting hole 34d is formed in the dome-shaped top portion of the inner lid body 34 so that the outer lid body 35 can be pivotably attached to the inner lid body 34.

  The outer lid body 35 is a member having a hemispherical dome-like appearance that can be superimposed on the inner lid body 34, and for opening and closing the inner lid hole 34c formed in the inner lid body 34 by rotating. It is a member.

  On the top back surface side of the outer lid body 35, a shaft body 35a with a claw that can be inserted into the outer lid body mounting hole 34d of the inner lid body 34 is disposed. A return claw 35d is formed at the front end of the claw-equipped shaft body 35a to prevent easy dropout from the outer lid attachment hole 34d. The outer lid 35 is superimposed on the inner lid 34 and combined. As a result, the shaft body 35a with the claw is inserted into the outer lid body mounting hole 34d and locked by the locking claw, and the circumferential movement of the outer lid body 35 with respect to the inner lid body 34 is allowed, but the The movement of the shaft body 35a in the axis detachment direction is restricted.

  Further, an outer lid hole 35 b having substantially the same shape as the inner lid hole 34 c of the inner lid body 34 is formed in the dome-shaped portion of the outer lid body 35. The outer lid hole 35b is a hole for forming the water injection hole 11a by rotating the outer lid body 35 with respect to the inner lid body 34 to coincide with the formation position of the inner lid hole 34c.

  That is, the water injection hole 11a is formed by matching the inner lid hole 34c of the inner lid body 34 with the outer lid hole 35b of the outer lid body 35, and the user can inject reaction water into the skin cleaning brush A. It becomes possible. Further, after water injection, for example during use, the dome of the outer lid body 35 is rotated by rotating only the outer lid body 35 with respect to the inner lid body 34 in a state where the water injection hole 11a is formed. The inner lid hole 34c is covered and closed by the shaped portion.

  A plurality of anti-slip strips 35 c are radially formed in the vicinity of the upper edge of the outer lid body 35 to prevent the fingers from slipping when the user rotates the outer lid body 35.

  As described above, the housing 10 is a member having a substantially flat egg shape in appearance, and has a large hole portion 10a penetrating the front and back. The large hole portion 10a is a portion where the cartridge housing space 15 is formed by mounting the housing cup 31 described below.

  Further, an inner flange 10b is formed on the inner peripheral surface of the large hole portion 10a, and a bayonet lock structure is constructed by engaging with the engaging piece 34a of the inner lid body 34.

  The housing cup 31 is composed of a bottomed substantially cylindrical cup body 31a and a large number of hair bundles 12a planted on the outer bottom surface of the cup body 31a, and the outer bottom surface on which the hair bundles 12a are planted. The brush part 12 is constructed by using the flocking part 40 as a hair.

  The cup body 31a has a plurality of through holes 31b penetrating front and back at the bottom. The through hole 31b is a hole that functions as a communication hole that guides hydrogen or hydrogen water generated by the ceramic ball cartridge 13 serving as a hydrogen generation unit to the bristle base of the brush unit 12.

  A central electrode body exposure hole 31c is formed in the center of the bottom of the cup body 31a. The central electrode body exposure hole 31c is a hole for allowing a part of the central electrode body 33 (central pole protruding piece 33c) to face the cup body 31a when the housing cup 31 and the central electrode body 33 are combined. is there.

  In addition, a plurality of outer electrode mounting portions 31d (three in this embodiment) are formed on the peripheral wall portion of the cup body 31a.

  The outer edge electrode mounting portion 31d is a portion where an outer edge pole projecting piece 32b of the outer edge electrode body 32 to be described later is locked and mounted, and a conductive elastic body disposed so as to straddle the wall of the outer edge electrode mounting portion 31d. It functions as a portion for transmitting the potential of the cartridge electrode ring 20 of the ceramic ball cartridge 13 to the outer edge electrode body 32 via 31e.

  Further, a plurality of flocked holes 31f (see FIG. 6) are drilled on the back surface of the cup body 31a, and the hair material is planted by press-fitting the hair bundle 12a into the flocked holes 31f. The brush part 12 is constructed.

  The outer edge electrode body 32 is a member having a substantially ring shape in appearance and is made of metal or resin plated with metal.

  The outer edge electrode body 32 includes an annular ring body 32a, and is a member for constituting an outer edge electrode on the periphery of the flocked portion by being coupled to the housing cup 31.

  Further, on the upper surface of the ring body 32a, an outer edge pole protruding piece 32b protrudes at a position corresponding to the outer edge electrode mounting portion 31d of the housing cup 31. The outer edge pole projecting piece 32b functions as a locking claw for locking the outer edge electrode body 32 to the storage cup 31, and also provides the potential difference of the ceramic ball 16 accommodated in the ceramic ball cartridge 13 to the cartridge electrode ring 20. And it functions as a site | part for transmitting to the ring body 32a via the conduction | electrical_connection elastic body 31e.

  The central electrode body 33 is configured by planting the hair bundle 12a on the back surface of the central electrode section 33a having a substantially cylindrical shape in appearance, which closes the central electrode body exposure hole 31c of the housing cup 31. This is a part that functions as a central electrode.

  The central electrode portion 33a has a plurality of through holes 33b penetrating front and back. The through-hole 33 b is a hole that functions as a communication hole that guides hydrogen generated in the ceramic ball cartridge 13 or hydrogen water to the bristle base of the brush portion 12.

  A central pole projection piece 33c projects upward from the upper portion of the central electrode portion 33a. The central pole protrusion 33 c functions as a locking piece for locking the central electrode body 33 to the storage cup 31 when the central electrode body 33 is mounted in the central electrode body exposure hole 31 c of the storage cup 31. At the same time, it is exposed in the ceramic ball cartridge 13 through the electrode exposure hole 22b formed in the bottom of the ceramic ball cartridge 13 accommodated in the cartridge accommodation space 15, and the potential difference of the ceramic ball 16 is transmitted to the central electrode portion 33a. It also has a role to do.

  Here, the structure of the hair transplant part 40 of the skin cleaning brush A is demonstrated, referring FIG. FIG. 6 is an explanatory view showing a state in which the skin cleaning brush A is viewed from the back side. For convenience of explanation, the hair bundle 12a is omitted.

  As shown in FIG. 6, the flocking portion 40 concentrically connects the central electrode body 33, the housing cup 31, and the outer edge electrode body 32 from the center portion to the outside so as to close the large hole portion 10 a of the housing 10. It is configured by arranging in.

  The receiving cup 31 and the central electrode body 33 are formed with a plurality of through holes 31b and 33b so that hydrogen and hydrogen water generated by the ceramic ball cartridge 13 are evenly diffused into the flocked portion 40. Has been.

  Further, in the hair planting portion 40, a hair region 41 in which the hair bundle 12a is densely planted and an annular hairless region 42 in which the hair bundle 12a is not planted are formed. As shown, a hair region 41 surrounded by a broken line and a hairless region 42 shown by shading are arranged concentrically around the central electrode body 33.

  Further, through holes 31b and 33b are formed at the positions of the flock holes 31f and flock holes 33f formed in the hair region 41, and the hair bundles planted in the flock holes 31f and flock holes 33f are formed. Hydrogen and hydrogen water can be supplied to the collective end face of 12a.

  The skin cleaning brush A having such a configuration will be described in a comprehensive manner based on the usage state. First, the user applies a fingertip to the anti-slip strip 35c of the lid 11 to rotate the outer lid 35, As shown in FIG. 1A, the outer lid hole 35b is aligned with the inner lid hole 34c of the inner lid body 34 to form the water injection hole 11a, from which the reaction water is injected.

  The injected reaction water is stored in the top surface 17a of the upper cover 17 which is the upper part of the ceramic ball cartridge 13, as indicated by the white arrow in FIG. 4, and is passed through the inlet 17d of the reaction water inflow portion 17b. Through the ceramic ball cartridge 13.

  The reaction water flowing into the ceramic ball cartridge 13 comes into contact with the ceramic ball 16 and the ceramic ball 16 becomes wet.

  The ceramic balls 16 in a wet state are subjected to water electrolysis by generating a potential difference between different kinds of metals constituting the sintered body to generate hydrogen. Moreover, a part of hydrogen will melt | dissolve in reaction water, and hydrogen water will produce | generate.

  These hydrogen and hydrogen water exude into the cartridge housing space 15 through the mesh plate 21 of the ceramic ball cartridge 13, and as shown in FIG. 7, the through hole 31b of the housing cup 31 and the through hole 33b of the central electrode body 33. To reach the brush part 12.

  Then, if bubbles are formed in the brush portion 12 with a predetermined cleaning material or the like, bubbles rich in hydrogen can be formed, and wastes on the skin surface can be efficiently removed by the hair bundle 12a. It is possible to exert an anti-aging effect on the skin by demonstrating the reducing ability.

  Further, the skin cleaning brush A according to the present embodiment is characterized in that the potential difference generated in the ceramic ball 16 is applied to skin activation. In particular, the ceramic ball cartridge 13 contains a plurality of ceramic balls 16 each functioning as a potential generator. The potential of a predetermined ceramic ball 16 and the potential of other ceramic balls 16 are different from each other. Depending on the contact state of the ceramic balls 16, etc., each has a different potential. In other words, when the aggregate of ceramic balls 16 is viewed as one hydrogen generator, a potential difference is also generated between the ceramic balls 16 present at different positions.

  This potential is transmitted through the two routes of the central electrode route and the outer edge electrode route, causing a potential difference between the central electrode body 33 and the outer edge electrode body 32, and transmitted to the skin through the hair material and the foam. It encourages activation.

  More specifically, the potential difference generated in the vicinity of the center of the aggregate of the ceramic balls 16 in the wet state is a central pole projecting piece of the central electrode body 33 exposed from the electrode exposure hole 22b as a first route. 33c is transmitted to the central electrode portion 33a. That is, a potential is transmitted to the central electrode body 33 by the above-described central electrode route. The ceramic ball 16 and the central pole projection piece 33c may be brought into conduction by being in contact with each other, or may be indirectly conducted through injected water or the like.

  On the other hand, as a second route, the ceramic ball 16 in a wet state inside the ceramic ball cartridge 13 is in contact with the cartridge electrode ring 20 in the vicinity of the outside of the assembly, and in the vicinity of the outside of the assembly of the ceramic balls 16. The potential is transmitted to the cartridge electrode ring 20.

  The cartridge electrode ring 20 is electrically connected to the outer edge pole projecting piece 32b of the outer edge electrode body 32 through the conductive elastic body 31e in the cartridge housing space 15, and the outer edge electrode body 32 is also in the vicinity of the potential outside the ceramic ball 16. And substantially the same potential.

  And in the brush part 12 in which foaming was performed at the time of use of the skin washing brush A, the hydrogen water etc. which exist on the hair material surface by the capillary phenomenon of the hair bundle 12a planted in the center electrode body 33 or the hair bundle 12a, etc. The outer edge electrode body 32 is also electrically connected to the foam by moisture or the like, and a circuit is formed through the foam in contact with the skin, so that the weakness corresponding to the potential difference and the electromotive force of the ceramic ball 16 is formed. An electric current (microcurrent) flows to the skin, and the activation of the skin is promoted.

  The potential difference between the outer edge electrode body 32 and the center electrode body 33 is constantly fluctuating depending on the wetness and contact state of the ceramic ball 16 accommodated in the ceramic ball cartridge 13, and the fluctuation of this potential difference is applied to the skin. On the other hand, it becomes an appropriate stimulus and induces the inherent resilience of the skin, thereby making the skin's homeostasis more consistent.

  In addition, since the ceramic ball 16 is movable in the ceramic ball cartridge 13, the ceramic ball 16 moves when the user moves the skin cleaning brush A at the time of cleaning, and the potential change is further remarkable. can do.

  Further, the outer edge electrode body 32 is provided in an area where the user can touch with the finger when the user grips the housing 10, and when the user touches the outer edge electrode body 32 with the fingertip during cleaning, the human body The potential difference between the ground electrode and the center electrode body 33 can be further changed.

  Moreover, since the hairless part 42 is formed in the hair transplant part 40, the electrical short circuit between the hair area | region 41 of the hair transplant part 40 center and the hair region 41 of the outer vicinity of the hair transplant part 40 is carried out. It is possible to suppress, and a weak current can flow up to the hair tip.

  As described above, according to the skin cleaning brush A according to the present embodiment, in the brush that cleans the skin surface by bringing the lathered hair tip into contact with the skin, the hair transplanted portion in which the hair material is implanted, and the water A hydrogen generation unit containing a hydrogen generator that generates hydrogen by wetting, and the hydrogen generated in the hydrogen generation unit between the flocking unit and the hydrogen generation unit. Since the communication hole leading to the base is formed, it is possible to provide a skin cleaning brush that can effectively reduce the waste on the skin surface and exhibit a reducing ability and expect an anti-aging effect.

  Finally, the description of each embodiment described above is an example of the present invention, and the present invention is not limited to the above-described embodiment. For this reason, it is a matter of course that various modifications can be made in accordance with the design and the like as long as they do not deviate from the technical idea according to the present invention other than the embodiments described above.

DESCRIPTION OF SYMBOLS 12 Brush part 12a Hair bundle 13 Ceramic ball cartridge 16 Ceramic ball 20 Cartridge electrode ring 21a Lead-out hole 30 Cleaning brush main body 31b Through hole 31f Flocking hole 32 Outer edge electrode body 33 Central electrode body 33b Through hole 33f Flocking hole 40 Flocking part 41 Hair Area 42 Hairless area A Skin cleansing brush

Claims (6)

In a brush that cleans the skin surface by bringing the lathered hair into contact with the skin,
A flocked part in which the hair material is planted;
A hydrogen generator containing a hydrogen generator that generates hydrogen when wet,
A skin cleaning brush, characterized in that a communicating hole is formed between the bristles and the hydrogen generator to guide hydrogen generated in the hydrogen generator to a bristle base of the flock. The hair material is planted in the planted part as a bundle of hairs in which a plurality of hairs are bundled. In the planted part, a hair region in which the hair bundle is implanted, and a hair group in which the hair bundle is not implanted. The hair region is formed,
The communication hole is composed of an end surface communication hole that communicates with a collection end surface of a hair bundle planted in the hair region, and a nearby communication hole that communicates with the hairless region in the vicinity of the hair bundle. 1. A skin cleaning brush according to 1.   The hydrogen generator is a sintered body that contains at least two kinds of transition metals having different ionization tendencies and generates hydrogen by a potential difference between different metals caused by water wetting. The skin cleansing brush described.   A central electrode disposed at the center of the flocked portion, and an outer edge electrode disposed at an outer edge of the flocked portion, wherein the central electrode and the outer edge electrode are configured to be electrically connectable to the hydrogen generator. The skin cleaning brush according to claim 3.   The skin cleaning brush according to claim 4, wherein the hair region and the hairless region are arranged concentrically with the central electrode as a center.   The skin according to claim 4 or 5, wherein the hydrogen generator is an aggregate of sintered grains, and the hydrogen generator is capable of moving the sintered grains therein. Cleaning brush.