Patent Description:
As people's desire to pursue beauty and their outing and social activities have increased, most women are more concerned with face cleansing to prevent skin troubles and pigmentation from occurring on their face due to their makeup and keep their skin healthy, and generally, soap or cleansers are used to cleanse and wash the face.

A multiplicity of pores are formed in the face, and accordingly, it is actually difficult to clearly remove waste or dead skin cells existing in the pores just through general face cleansing.

In specific, sebum, foreign substances, and the like accumulated in the pores of the face promote blackheads and skin troubles, thereby causing bad outer appearances. Recently, a pore cleansing machine with a rotary brush has been in the limelight among a variety of machines capable of solving such problems and enhancing conveniences of uses, and further, a market related to the pore cleansing machine has been also expanded.

A conventional technology for face cleansing is disclosed in <CIT>) entitled "Vibrating pore cleanser having ultraviolet sterilization function".

The conventional vibrating pore cleanser having an ultraviolet sterilization function includes: a handle having a motor and a battery built therein; a body coupled to one end of the handle and having a brush rotatably vibrating through the motor; and a cradle detachably coupled to the body so that when coupled to the body, the cradle is electrically connected to the battery to charge the battery and irradiates ultraviolet light onto the brush to sterilize the brush, wherein the end surface of the brush, which is formed by fine hairs, has a cross-shaped groove in such a way that the lengths of the fine hairs on the portion corresponding to the cross-shaped groove are shorter than those on the remaining portion thereof.

According to the conventional vibrating pore cleanser having the ultraviolet sterilization function, the brush of the body is sterilized through the ultraviolet light and thus dried through heat pipes disposed in the body, so that through the rotations and vibrations of the brush, the pores of the skin are cleansed. However, if the brush comes into direct contact with the skin and thus cleanses the pores of the skin for long hours, the brush itself may be contaminated with the foreign substances produced from the skin, so that the foreign substances have to be removed directly from the brush by a user, thereby causing many inconveniences of use.

Document <CIT> discloses a vibrating puff cleanser comprising a body having a head and a handle in which a vibrator vibrated by a motor and a battery are build, wherein the vibrator head comprises a lower body, a protruding detachable portion and a puff seated on top of the protruding detachable portion.

Accordingly, the present invention has been made in view of the above-mentioned problems occurring in the related art, and it is an object of the present invention to provide a vibrating puff cleanser that is configured to have a body having a head and a handle connected to the head, the head having a vibration head vibrated by a vibrator, a plurality of magnets as detachable means disposed on the vibration head, a puff seated onto a protruding detachable portion formed on top of a lower body of the vibration head, and a ring body having a metal ring detachably coupled to the magnets so that the ring body is easily detachably coupled to the outer periphery of the protruding detachable portion, whereby if the puff seated onto the protruding detachable portion is contaminated, it is easily separated between the protruding detachable portion and the ring body and thus exchanged with new one with ease.

To accomplish the above-mentioned object, according to the present invention, there is provided a vibrating puff cleanser including: a body having a head and a handle in which a vibrator vibrated by a motor and a battery are built, the head having a first ring-shaped support wall formed on one end thereof and a coupling groove formed at the inside of the first ring-shaped support wall to allow the underside of a vibration head to be coupled thereto; and the vibration head coupled to one end of the head and vibrated by the vibrator, wherein the vibration head may include: a lower body having a second ring-shaped support wall formed on the underside thereof so that the inner periphery of the second ring-shaped support wall is coupled to the outer periphery of the first ring-shaped support wall, a coupling groove portion formed inside the second ring-shaped support wall and having a coupling hole formed at the center thereof, a protruding detachable portion protruding from top thereof, and a plurality of top coupling means arranged in a shape of a ring on the outside from the coupling hole; underside coupling means having a coupling protruding portion protruding upward from the center of the coupling groove so that the top coupling means are detachably coupled to the lower outer periphery of the coupling protruding portion; a puff seated onto top of the protruding detachable portion; a ring body having a coupling hole whose inner periphery is coupled to the outer periphery of the protruding detachable portion; and detachable means disposed on the outer periphery of the underside of the lower body and detachably coupled to the ring body.

According to the present invention, desirably, the lower body may include a top lower body coupled to the ring body and an underside lower body having magnets for fixing the ring body and the underside coupling means coupled to the head.

According to the present invention, desirably, the top lower body may include the protruding detachable portion protruding from the center of the outer surface thereof and having a coupling protrusion formed on the outer periphery thereof, a central protrusion protruding from the center of the inner surface thereof and having a key formed thereon, a circular insertion protrusion spaced apart from the central protrusion by a given distance, a plurality of magnet coupling grooves formed along the circumference thereof to couple the magnets thereto, and a coupling protrusion stepped from the magnet coupling grooves.

According to the present invention, desirably, the underside lower body may include a central protruding groove formed at the center of the inner surface coupled to the top lower body and having a key groove formed thereon, an insertion protrusion distant from the central protrusion by a given distance, a plurality of magnet coupling grooves formed along the circumference thereof to couple the magnets thereto, a coupling protrusion formed along the circumference thereof and stepped with the plurality of magnet coupling grooves, and the second ring-shaped support wall formed on the underside thereof.

According to the present invention, desirably, the ring body may include a coupling insertion groove formed on the inner periphery of the coupling hole to insertedly couple the coupling protrusion formed on the outer periphery of the protruding detachable portion of the top lower body of the lower body thereto.

According to the present invention, desirably, the ring body may have a circular metal ring inserted into the inner periphery thereof.

According to the present invention, desirably, the detachable means may have a plurality of insertion holes formed on the underside of the lower body and the magnets insertedly coupled to the magnet coupling grooves and detachably coupled to the metal ring of the ring body.

According to the present invention, desirably, the magnets may have a magnetic field intensity with <NUM> to <NUM> gauss.

According to the present invention, desirably, the top coupling means may include first and second coupling members each having a coupling projection formed on the outside thereof, the first and second coupling members being arranged in a form of a circle inside the second ring-shaped support wall, and the underside coupling means may include a plurality of coupling holes formed on top of the coupling groove as the underside of the lower outer periphery of the coupling protruding portion to insert the first and second coupling members thereinto, so that the coupling projections of the first and second coupling members are inserted into both sides of each coupling hole and next locked onto the underside of the coupling hole.

According to the present invention, desirably, the top coupling means may include the first and second coupling members and a plurality of auxiliary coupling members each disposed vertically between the first and second coupling members adjacent to each other, and the underside coupling means may include auxiliary outside coupling members disposed on the outer periphery of the coupling protruding portion, each auxiliary outside coupling member being located between the coupling holes adjacent thereto and thus coupledly inserted between the auxiliary coupling members adjacent thereto.

According to the present invention, desirably, the ring body may have a plurality of grasping grooves formed on the outer periphery thereof.

According to the present invention, desirably, the lower body and the ring body may be made of a mixture of epoxy resin, germanium powder, silica powder, and moissanite powder, the mixture comprising <NUM> parts by weight of one of germanium powder, silica powder, and moissanite powder or mixed powder thereof per <NUM> parts by weight of epoxy resin.

According to the present invention, the vibrating puff cleanser includes the body having the head having the vibration head vibrated by the vibrator, the handle connected to the head, the plurality of magnets as the detachable means disposed on the vibration head, the puff seated onto the protruding detachable portion formed on top of the lower body of the vibration head, and the ring body having the metal ring detachably coupled to the magnets so that the ring body is easily detachably coupled to the outer periphery of the protruding detachable portion, whereby if the puff seated onto the protruding detachable portion is contaminated, it is easily separated between the protruding detachable portion and the ring body and thus exchanged with new one with ease.

Hereinafter, the present invention is disclosed with reference to the attached drawings.

Before the present invention is disclosed and described, it is to be understood that the disclosed embodiments are merely exemplary of the invention, which can be embodied in various forms. Those skilled in the art will envision many other possible variations within the scope of the present invention.

In the description, the thicknesses of the lines or the sizes of the components shown in the drawing may be magnified for the clarity and convenience of the description. Further, it should be noted that the parts corresponding to those of the drawings are indicated by corresponding reference numerals.

<FIG> is a perspective view showing a vibrating puff cleanser according to the present invention, <FIG> is an exploded perspective view showing the front side of the vibrating puff cleanser according to the present invention, <FIG> is an exploded perspective view showing the rear side of the vibrating puff cleanser according to the present invention, <FIG> is a schematic view showing a body of the vibrating puff cleanser according to the present invention, <FIG> is a perspective view showing the front side of a vibration head of the vibrating puff cleanser according to the present invention, <FIG> is a perspective view showing the rear side of the vibration head of the vibrating puff cleanser according to the present invention, <FIG> is a perspective view showing underside coupling means and top coupling means of a lower body of the vibrating puff cleanser according to the present invention, <FIG> is a schematic sectional view showing the coupled states of first and second coupling members to coupling holes of the vibrating puff cleanser according to the present invention, <FIG> is an exploded perspective view showing the front side of the vibration head of the vibrating puff cleanser according to the present invention, <FIG> is an exploded perspective view showing the rear side of the vibration head of the vibrating puff cleanser according to the present invention, <FIG> is a perspective view showing detachable means of the vibrating puff cleanser according to the present invention, <FIG> is a perspective view showing a head of the body of the vibrating puff cleanser according to the present invention, <FIG> is a sectional view showing a ring body of the vibrating puff cleanser according to the present invention, <FIG> is a schematic view showing a coupling insertion groove and a coupling protrusion of the vibrating puff cleanser according to the present invention, <FIG> and <FIG> are exploded perspective views showing front and rear sides of the vibrating puff cleanser according to the present invention, and <FIG> is a sectional view showing a coupled state among the ring body, the lower body, and the head of the vibrating puff cleanser according to the present invention.

Now, a vibrating puff cleanser according to the present invention will be explained in detail with reference to <FIG>.

The vibrating puff cleanser according to the present invention includes a body <NUM>, top coupling means <NUM>, a lower body <NUM>, underside coupling means <NUM>, a ring body <NUM>, a puff 70a, and detachable means <NUM>.

The body <NUM> includes a head 10a and a handle 10b in which a vibrator a vibrated by a motor m and a battery b are built.

In specific, a vibration head <NUM> as will be discussed later is coupled to one end of the head 10a, and the motor m and the vibrator a are built in the handle 10a.

Further, the motor m operates with the power received from the battery b, and the vibrator a, which is connected to the motor m operating, generates a vibration force.

The vibrator a generating the vibration force is coupled to the vibration head <NUM>, and accordingly, the vibration force of the vibrator a is transferred to the vibration head <NUM>, so that the vibration head <NUM> vibrates.

Further, the battery b is rechargeable and thus has a rechargeable terminal b1 connected thereto.

The rechargeable terminal b1 may be connected to a general smartphone charger.

The vibration head <NUM>, which includes the lower body <NUM>, the puff 70a, and the ring body <NUM>, is coupled to one end of the head 10a and thus vibrated by the vibrator a.

The vibration head <NUM>, which is coupled to the head 10a, receives the vibration force from the vibrator a and thus vibrates.

Further, the underside of the vibration head <NUM> is coupled to a coupling groove c formed on one end of the head 10a, so that the vibration head <NUM> is coupled to and separated from the coupling groove c.

In specific, a first ring-shaped support wall c1 is formed on one end of the head 10a, and accordingly, the underside of the vibration head <NUM> is coupled to the coupling groove c formed inside the first ring-shaped support wall c1 on one end of the head 10a, so that the vibration head <NUM> vibrating through the vibrator a is coupled to the head 10a.

When the head 10a and the vibration head <NUM> are coupled to each other, the outer periphery of the first ring-shaped support wall c1 is coupled to the inner periphery of a second ring-shaped support wall c2 formed on the underside of the lower body <NUM>.

The lower body <NUM> has the second ring-shaped support wall c2 formed on the underside thereof.

The inner periphery of the second ring-shaped support wall c2 is thus coupled to the outer periphery of the first ring-shaped support wall c1.

A coupling groove portion 21a is formed inside the second ring-shaped support wall c2 and has a coupling hole d formed at the center thereof.

The coupling hole d is connected to a vibration transfer shaft s exposed from the center of a coupling protruding portion 21b protruding upward from the center of the coupling groove c.

Further, the lower body <NUM> has a protruding detachable portion 21c protruding from top thereof.

Furthermore, the lower body <NUM> has the top coupling means <NUM> arranged in a shape of a ring on the outside from the coupling hole d.

The lower body <NUM> includes a top lower body <NUM> and an underside lower body <NUM>.

The top lower body <NUM> has a central protrusion 51a protruding from the center of one side thereof and having a key 51b.

Further, the top lower body <NUM> has the protruding detachable portion 21c protruding from the other side thereof.

The top lower body <NUM> has a circular insertion protrusion 51c spaced apart from the central protrusion 51a by a given distance, a plurality of magnet coupling grooves 51d formed along the circumference thereof to couple magnets <NUM> thereto, and a coupling protrusion 51e stepped from the magnet coupling grooves 51d.

Further, the underside lower body <NUM> has a central protruding groove 52a formed at the center of the inner surface coupled to the top lower body <NUM> and having a key groove 52b formed thereon, an insertion protrusion 52c distant from the central protrusion 52a by a given distance, a plurality of magnet coupling grooves 52d formed along the circumference thereof to couple the magnets <NUM> thereto, and a coupling protrusion 52e formed along the circumference thereof and stepped with the plurality of magnet coupling grooves 52d, and the top coupling means <NUM> are disposed on top of the underside lower body <NUM>.

If it is desired that the top lower body <NUM> and the underside lower body <NUM> are coupled to each other, first, the magnets <NUM> are insertedly fixed to the magnet coupling grooves 52d, and the key 51b corresponds to the key hole 52b to insert the central protrusion 51a with the key 51b of the top lower body <NUM> into the central protrusion 52a with the key hole 52b of the underside lower body <NUM>, so that the insertion protrusion 51c of the top lower body <NUM> is inserted into the coupling protrusion 52e of the underside lower body <NUM> and the coupling protrusion 52e of the underside lower body <NUM> is coupled to the coupling protrusion 51e formed on the circumference of the top lower body <NUM>, thereby firmly coupling the top lower body <NUM> and the underside lower body <NUM> to each other.

Further, the outer periphery of the first ring-shaped support wall c1 and the underside coupling means <NUM> are detachably coupled to the inner periphery of the second ring-shaped support wall c2 of the underside lower body <NUM> and the top coupling means <NUM>.

Furthermore, the top coupling means <NUM> are arranged in the shape of a ring on the outside from the coupling hole d.

The top coupling means <NUM> are coupled to the underside coupling means <NUM> of the head 10a of the body <NUM>.

In specific, the top coupling means <NUM> are detachably coupled to the underside coupling means <NUM> disposed on the lower outer periphery of the coupling protruding portion 21b protruding upward from the center of the coupling groove c.

The top coupling means <NUM> have first and second coupling members i1 and i2 each having a coupling projection i formed on the outside thereof.

The underside coupling means <NUM> have a plurality of coupling holes j formed on top of the coupling groove c as the underside of the lower outer periphery of the coupling protruding portion 21b to insert the first and second coupling members i1 and i2 thereinto.

Further, the coupling projections i of the first and second coupling members i1 and i2 are inserted into both sides of each coupling hole j and next locked onto the underside of the coupling hole j.

Moreover, the top coupling means <NUM> include a plurality of auxiliary coupling members k each disposed vertically between the first and second coupling members i1 and i2 adjacent to each other.

Further, the underside coupling means <NUM> have auxiliary outside coupling members n disposed on the outer periphery of the coupling protruding portion 21b, and each auxiliary outside coupling member n is located between the coupling holes j adjacent thereto and thus coupledly inserted between the auxiliary coupling members k adjacent thereto.

The reason why the underside coupling means <NUM> have the coupling holes j and the auxiliary outside coupling members n and the top coupling means <NUM> have the first and second coupling members i1 and i2 and the auxiliary coupling members k is because the underside coupling means <NUM> having the coupling holes j and the auxiliary outside coupling members n are stably coupled to the top coupling means <NUM> having the first and second coupling members i1 and i2 and the auxiliary coupling members k so that the coupling protruding portion 21b of the head 10a is stably kept to a coupled state to the coupling groove portion 21a, without any movement, and if necessary, the coupling protruding portion 21b of the head 10a is easily separated from the coupling groove portion 21a.

The puff 70a is disposed on top of the coupling protruding portion 21b and then fitted to the inner periphery of a coupling hole <NUM> of the ring body <NUM> as will be discussed later, so that the puff 70a is coupled to the outer periphery of the protruding detachable portion 21c. The ring body <NUM> is easily detachably coupled to the protruding detachable portion 21c by means of the detachable means <NUM> having the magnets <NUM> disposed on the vibration head <NUM>.

Accordingly, the puff 70a is disposable so that if the puff 70a is contaminated by the skin, the ring body <NUM> is easily and quickly separated from the protruding detachable portion 21c, and after a new puff 70a is located on top of the protruding detachable portion 21c, next, the ring body <NUM> is easily and quickly coupled to the protruding detachable portion 21c. Accordingly, the puff 70a can be exchanged with new one in convenient and simple manners.

The puff 70a is made of cotton, sponge, NBR foam, rubycell sponge, polyester, nylon, latex, polyurethane, NBR, a flocking material, and the like.

The ring body <NUM> has the coupling hole <NUM> whose inner periphery is coupled to the outer periphery of the protruding detachable portion 21c after the puff 70a has been seated onto top of the protruding detachable portion 21c.

The ring body <NUM> has a metal ring g inserted into the inner periphery thereof.

In a process of molding the ring body <NUM> by a mold, the metal ring g is pre-inserted into the mold before the molding, and next, the ring body <NUM> is made by means of insert injection molding.

Further, the underside of the metal ring g is exposed to the underside of the ring body <NUM> and easily detachable to the magnets <NUM> of the detachable means <NUM>.

In addition, the metal ring g is seated onto the inner periphery of a ring-shaped seating groove g1 formed inside the ring body <NUM>.

Accordingly, the underside of the metal ring g is exposed to the underside of the ring-shaped seating groove g1 and easily detachable to the magnets <NUM> of the detachable means <NUM>.

Further, the ring body <NUM> has a coupling insertion groove e1 formed on the inner periphery of the coupling hole <NUM>, and the top lower body <NUM> of the lower body <NUM> has a coupling protrusion e2 formed on the outer periphery of the protruding detachable portion 21c and thus coupled to the coupling insertion groove e1.

The reason why the ring body <NUM> has the coupling insertion groove e1 formed on the inner periphery of the coupling hole <NUM> and the top lower body <NUM> of the lower body <NUM> has the coupling protrusion e2 formed on the outer periphery of the protruding detachable portion 21c and thus coupled to the coupling insertion groove e1 is because the coupling protrusion e2 formed on the outer periphery of the protruding detachable portion 21c is stably coupled to the coupling insertion groove e1 formed on the inner periphery of the coupling hole <NUM> of the ring body <NUM> so that the inner periphery of the coupling hole <NUM> of the ring body <NUM> is coupled to the outer periphery of the protruding detachable portion 21c, without any movement, and accordingly, the puff 70a coupled between the coupling hole <NUM> of the ring body <NUM> and the protruding detachable portion 21c is stably fixed to top of the protruding detachable portion 21c and comes into contact with the user's skin, thereby being prevented from escaping from top of the protruding detachable portion 21c while being moved by vibrations.

Further, the ring body <NUM> has a plurality of grasping grooves z formed on the outer periphery thereof.

The reason why the plurality of grasping grooves z are formed on the outer periphery of the ring body <NUM> is because the user's fingers are easily inserted into the grasping grooves z to allow the ring body <NUM> to be easily detachably coupled to the protruding detachable portion 21c.

The detachable means <NUM> are disposed on the outer periphery of the lower body <NUM> and detachably coupled to the metal ring g disposed inside the ring body <NUM>.

Further, the detachable means <NUM> have the plurality of magnet coupling grooves 51d formed on the underside of the lower body <NUM>.

The magnets <NUM> are inserted into the magnet coupling grooves 51d and thus detachably coupled to the metal ring g disposed inside the ring body <NUM>.

Further, the magnets <NUM> desirably have a magnetic field intensity with <NUM> to <NUM> gauss.

Accordingly, the reason why the magnets <NUM> have a magnetic field intensity with <NUM> to <NUM> gauss is because the magnetic force of the magnets <NUM> is kept to <NUM> to <NUM> gauss so that the ring body <NUM> made of the metal material is easily quickly detachably coupled to the outer periphery of the protruding detachable portion 21c of the lower body <NUM>.

In specific, the magnetic force is generated from the magnets <NUM> of the lower body <NUM> to allow the ring body <NUM> with the metal ring g to be easily quickly detachably coupled to the outer periphery of the protruding detachable portion 21c of the lower body <NUM>, so that the puff 70a, which is coupled between the protruding detachable portion 21c and the ring body <NUM>, is quickly and conveniently exchanged with new one.

Further, the magnets <NUM> are neodymium permanent magnets with a high magnetic force and cylindrical, but they may be freely selected from the shapes of circle, square, pentagon, and polygon. The number of magnets <NUM> may be one or more according to the purpose and selection of the user for the vibrating puff cleanser.

The puff 70a is placed on the protruding detachable portion 21c of the lower body <NUM> and then fixed to the protruding detachable portion 21c of the lower body <NUM> through the ring body <NUM>. In this case, the plurality of magnets <NUM> (three to six magnets) with the magnetic field intensity of <NUM> to <NUM> gauss are coupled to the lower body <NUM>, and the ring body <NUM> has the metal ring g disposed at the inside thereof by means of insert injection molding. In this case, the metal ring g is not exposed to the outside of the ring body <NUM>, thereby ensuring a good outer appearance, and through the plurality of magnets <NUM>, the ring body <NUM> coupled to the lower body <NUM> is prevented from escaping from the lower body <NUM>. Further, the ring body <NUM> is grasped by the user's fingers so that it can be easily detachably coupled to the lower body <NUM>.

Furthermore, if the ring body <NUM> in which the metal ring g is built is attached to the lower body <NUM> through the magnets <NUM>, the metal ring g has a magnetic force because of the magnets <NUM> and thus generates a magnetic field, so that the magnetic forces of the magnets <NUM> fixed to the lower body <NUM> serve to stimulate the acupuncture points and blood vessels of the skin through the magnetic field generated from the metal ring g, without being directly exposed to the skin, thereby providing gentle flow of blood, blood circulation promotion, and improvement of skin elasticity.

Further, the surfaces of the magnets <NUM> do not come into direct contact with the user's skin, thereby preventing the magnetic forces generated from the magnets <NUM> from being brought into direct contact with the human body. This prevents the plated layers of the magnets <NUM> from being oxidized due to sweat or secretions produced when the magnets <NUM> come into direct contact with the skin of the body, and when damaged portions of the magnets <NUM> come into contact with the skin of the body, further, skin rash or toxicity of the magnets <NUM> is prevented from occurring.

Moreover, the magnets <NUM> have the magnetic field intensity of <NUM> to <NUM> gauss, and accordingly, the coupling force between the lower body <NUM> and the ring body <NUM> is enhanced, so that unless an external force is applied to the ring body <NUM>, the ring body <NUM> does not escape from the lower body <NUM>, and through the application of an external force to the ring body <NUM>, contrarily, the ring body <NUM> is easily detached from the lower body <NUM>. In addition, the magnetic force is generated from the metal ring g built in the ring body <NUM> by means of insert injection molding, and accordingly, the magnetic force of the ring body <NUM>, which comes into contact with the skin, has a magnetic field intensity of <NUM> to <NUM> gauss good for the skin.

Further, the lower body <NUM> and the ring body <NUM> are made of a mixture of epoxy resin, germanium powder, silica powder, and moissanite powder, and in specific, the mixture comprises <NUM> parts by weight of one of germanium powder, silica powder, and moissanite powder or mixed powder thereof per <NUM> parts by weight of epoxy resin. Germanium emits negative ions to thus release the pain of the body and prevent occurrence of diseases through improvement of immunity, silica as silicon dioxide emits a large quantity of far infrared to promote blood circulation, and moissanite as phosphate minerals helps lactic acid dissolution to provide fatigue recovery, blood flow speed improvement through alkalinization of blood, and aging delay through capture of free radical. As a result, the negative ions emitted from the germanium powder, silica powder, and moissanite powder used for the lower body <NUM> and the ring body <NUM> serve to improve the flow of blood and the elasticity of skin.

In specific, the magnetic force generated from the magnets <NUM> and the far infrared emitted from the germanium powder, silica powder, and moissanite powder used for the lower body <NUM> and the ring body <NUM> serve to improve the flow of blood and the elasticity of skin.

As mentioned above, the vibrating puff cleanser according to the present invention includes the body <NUM> having the head 10a having the vibration head <NUM> vibrated by the vibrator a, the handle 10b connected to the head 10a, the plurality of magnets <NUM> as the detachable means <NUM> disposed on the vibration head <NUM>, the puff 70a seated onto the protruding detachable portion 21c formed on top of the lower body <NUM> of the vibration head <NUM>, and the ring body <NUM> having the metal ring g detachably coupled to the magnets <NUM> so that the ring body <NUM> is easily detachably coupled to the outer periphery of the protruding detachable portion 21c, so that if the puff 70a seated onto the protruding detachable portion 21c is contaminated, it is easily separated between the protruding detachable portion 21c and the ring body 70a and thus exchanged with new one with ease.

The disclosed embodiments are merely exemplary of the invention, which can be embodied in various forms. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one of ordinary skill in the art to variously employ the present invention in virtually any appropriately detailed structure.

Claim 1:
A vibrating puff cleanser comprising:
a body (<NUM>) having a head (10a) and a handle (10b) in which a vibrator (a) vibrated by a motor (m) and a battery (b) are built, the head (10a) having a first ring-shaped support wall (c1) formed on one end thereof and a coupling groove (c) formed at the inside of the first ring-shaped support wall (c1) to allow the underside of a vibration head (<NUM>) to be coupled thereto; and
the vibration head (<NUM>) coupled to one end of the head (10a) and vibrated by the vibrator (a),
wherein the vibration head (<NUM>) comprises:
a lower body (<NUM>) having a second ring-shaped support wall (c2) formed on the underside thereof so that the inner periphery of the second ring-shaped support wall (c2) is coupled to the outer periphery of the first ring-shaped support wall (c1), a coupling groove portion (21a) formed inside the second ring-shaped support wall (c2) and having a coupling hole (d) formed at the center thereof, a protruding detachable portion (21c) protruding from top thereof, and a plurality of top coupling means (<NUM>) arranged in a shape of a ring on the outside from the coupling hole (d);
underside coupling means (<NUM>) having a coupling protruding portion (21b) protruding upward from the center of the coupling groove (c) so that the top coupling means (<NUM>) are detachably coupled to the lower outer periphery of the coupling protruding portion (21b);
a puff (70a) seated onto top of the protruding detachable portion (21c);
a ring body (<NUM>) having a coupling hole (<NUM>) whose inner periphery is coupled to the outer periphery of the protruding detachable portion (21c); and
detachable means (<NUM>) disposed on the outer periphery of the underside of the lower body (<NUM>) and detachably coupled to the ring body (<NUM>).