KR101451763B1 - Atomize apparatus for minute particles and therapy apparatus for skin improvement comprising the same - Google Patents

Abstract

The present invention relates to an apparatus for spraying minute particles and a skin care therapeutic apparatus comprising the same. The present invention includes a finishing part which has a connection pipe and at least one terminal inside; a particle forming part which is installed at the finishing part, is filled with a solution, and receives a fluid; a main body which is installed at the finishing part and is connected to the particle forming part; a spraying part which is connected to the main body; and a line part which is arranged in the finishing part and has one side which is connected to the terminal. When a composite cable is connected to the finishing part, the composite cable is simultaneously connected to the connection pipe of the finishing part and at least one terminal and performs the supply of fluids to the particle forming part and the supply of currents to the at least one terminal at the same time.

Description

TECHNICAL FIELD The present invention relates to a fine particle spraying apparatus and a skin improvement treatment apparatus including the same,

The present invention relates to a fine particle spraying apparatus and a skin improvement treatment apparatus comprising the same.

The skin is affected by age, environment, and season, and its condition is not constant. Since natural defenses by sweat and sebum do not keep the condition of the skin at the optimal condition, the lotion is applied to supplement the nutrients for moisturizing, nutrition, whitening, and wrinkle improvement of the skin. The user wears the required lotion on his or her face using his / her hands. In this case, the lotion more than necessary is used, and the lotion can not effectively penetrate the skin.

In order to solve these problems, a spray device having various structures has been developed and used, and such a spray device may be used to treat spots, acne, non-lipids, scalp, and the like. However, the conventional spraying apparatus has a complicated structure and has a problem of low storage and ease of use.

Registered Utility Model No. 20-0326036 (Aug. 29, 2003) Utility Model Registration No. 20-0277184 (May 22, 2002)

The present invention relates to a microparticle spraying device capable of effectively infiltrating microparticles into skin to supply necessary nutrients to the skin, treat spots, nipples and the like, improve storage and ease of use, The present invention provides a skin improvement treatment apparatus.

The fine particle spraying apparatus according to an embodiment of the present invention includes a finishing part having a connection pipe and at least one terminal formed therein, a particle mounting part mounted on the finishing part, A main body connected to the particle forming part, a spray part connected to the main body, and a wiring part disposed inside the finishing part and having one side connected to the at least one terminal, Wherein when the composite cable is connected to the finishing unit, the composite cable is simultaneously connected to the connection pipe of the finishing unit and the at least one terminal, so that supply of the fluid to the particle formation unit and supply of current to the at least one terminal are simultaneously .

The at least one terminal may include a first terminal and a second terminal.

The wiring portion may include a first wiring connected to the laser supplying portion, one end of which is connected to the first terminal and the other end is connected to the spraying portion, and a second wiring connected to the low voltage electrode whose one end is connected to the second terminal, And the first terminal, the second terminal, the first wiring, and the second wiring are located inside the finish portion, and the composite cable, which is a single line, The first terminal and the second terminal may be electrically connected to each other.

The atomizing unit may include a body rotatably coupled to an opening of the body and having a spray hole, a pressing unit formed on the body, and a bearing disposed between the body and the body.

The atomizing unit may further include a position restricting unit that defines a rotation range of the body.

Wherein the position restricting portion includes a guide groove formed between the body and the main body and a guide protrusion, the guide groove having a predetermined length along the circumferential direction of the main body, can do.

The pressing portion may include a protrusion movably protruded from the body and an elastic member disposed inside the body and supporting the protrusion.

The atomizing unit may include a body rotatably coupled to the opening of the body and having a spray hole formed therein and a pressing unit formed on the body, and the pressing unit may rotate between an outer surface and an inner surface of the body, A ring having a rack gear formed rotatably between an outer surface and an inner surface of the body and engaged with the pinion, and a driving part connected to the ring, . ≪ / RTI >

The atomizing unit may include a body rotatably coupled to the opening of the body and having a spray hole formed therein and a pressing unit formed on the body, and the pressing unit may rotate between an outer surface and an inner surface of the body, A ring having a cam groove formed in a shape of a wave along a circumferential direction of the body, a ring which is linearly movably coupled between an outer surface of the body and an inner surface of the ring, one side of which is coupled to the cam groove, And a driving unit connected to the ring.

The driving unit may be a motor that is connected to the ring or an inclined blade disposed on the inner surface of the ring and arranged along the circumferential direction, and may be a blade that hits the ejected fluid.

The fine particle spraying apparatus may further include an insertion portion formed in the body, and when the container in which the solution is stored is coupled to the insertion portion, the solution in the container may be supplied into the body.

The fine particle spraying apparatus may further include a temperature adjusting unit disposed in the spraying unit or inside the main body, for controlling the temperature of the sprayed particles.

The fine particle spraying device may further include a gripping electrode coupled to an outer surface of the finishing portion and capable of contacting the user's skin.

The particle forming unit may include a reservoir in which a solution can be stored, a nozzle member formed inside the reservoir and connected to the connection pipe, a nozzle member covering the nozzle member, and an inner surface spaced apart from the outer surface of the nozzle member A suction member, and a striking member disposed on the nozzle member, wherein a pressure of the fluid ejected from the nozzle member causes the solution in the reservoir to flow between the suction member and the nozzle member, Sprayed on the striking member, and collided with the striking member.

According to another aspect of the present invention, there is provided a fine particle spraying apparatus comprising a main body having a particle forming unit for fine particle formation of a solution and a spraying unit for spraying particles generated by the particle forming unit to the outside, The spraying portion includes a body rotatably coupled to the opening portion of the main body and having a spray hole, a pressing portion formed on the main body, and a bearing disposed between the main body and the main body.

According to another aspect of the present invention, there is provided a fine particle spraying apparatus comprising a main body having a particle forming unit for fine particle formation of a solution and a spraying unit for spraying particles generated by the particle forming unit to the outside, The spray unit includes a body having a spray hole coupled to an opening of the body and a pressing unit protruding from the body, the pressing unit being disposed between the outer surface and the inner surface of the body and protruding from the body A projection, a ring disposed between the outer surface and the inner surface of the body and connected to the projection, and a driving unit connected to the ring and rotating the ring.

The skin improvement treatment apparatus according to an embodiment of the present invention includes a microparticle spraying apparatus having the above-described characteristics, a composite cable having one side connected to a finishing portion of the microparticle spraying apparatus and capable of simultaneously supplying fluid and current, And a control unit connected to the other side of the composite cable and having a storage space in which the composite cable can be stored.

According to an embodiment of the present invention, since the wiring portion is disposed inside the finishing portion and the body and the particle forming portion are coupled to the finishing portion, when the composite cable is coupled to the finishing portion, the fluid supply pipe of the composite cable is connected to the connection pipe of the finishing portion, Air is supplied and the terminal of the composite cable and the terminal of the wiring portion are electrically connected to each other to supply electric current. Therefore, the user can use the product by combining only one cable of the composite cable, which improves the usability.

According to the embodiment of the present invention, since the spraying portion or the pressing portion rotates or the pressing portion is pressed, when the product according to the present invention is used, rotation of the spraying portion / pressing portion or pressing of the pressing portion increases the effect of relaxing pressure and skin muscle, And the skin penetration rate of the fine particles can be increased.

According to the embodiment of the present invention, since the gripping electrode is directly coupled to the finishing portion, the user can assist the flow of minute current by simply grasping the finishing portion.

According to the embodiment of the present invention, the protrusions of the pressurizing portion are arranged in the radial direction and one protrusion of the outer row is disposed between the two adjacent protrusions of the inner row, and when viewed from the center of the atomizing portion in the radial direction, So that the outer space is blocked. Therefore, it is possible to minimize the radial outflow of the fine particles discharged to the spraying portion and to concentrate in the skin direction.

According to the embodiment of the present invention, since the cleaning is performed in a state where the main body and the particle forming portion are separated from each other at the finishing portion, the washing water is not brought into contact with the terminal, so that damage such as corrosion can be prevented.

According to the embodiment of the present invention, since the storage space for storing the composite cable is formed inside the control unit, it is possible to keep the fine particle spraying apparatus and the composite cable neat and clean when the product is not used.

1 is a perspective view of a skin improvement treatment apparatus according to an embodiment of the present invention.
FIG. 2 is a perspective view of the fine particle spraying apparatus shown in FIG. 1; FIG.
3 is a cross-sectional view of the microparticle spraying device taken along line III-III shown in FIG. 2;
4 is an exploded sectional view of the fine particle spraying apparatus shown in Fig.
Fig. 5 is an exploded perspective view of the reservoir, the connection portion and the composite cable shown in Fig. 4; Fig.
6 is an enlarged view of a portion A shown in Fig.
FIG. 7 is a view according to another embodiment of the pressing portion shown in FIG. 6; FIG.
8 is an exploded perspective view of the body shown in Fig.
9 is a schematic view showing a state in which a temperature control unit is disposed inside the main body.
10 is a schematic view showing another embodiment of the atomizing portion;
11 is a schematic view showing another embodiment of the atomizing portion shown in Fig.
Fig. 12 is a schematic view showing another embodiment of the atomizing portion shown in Fig. 6; Fig.
Fig. 13 is a schematic view showing another embodiment of the atomizing portion shown in Fig. 6; Fig.
FIG. 14 is a perspective view showing the pressing portion shown in FIG. 13; FIG.
Fig. 15 is a schematic view showing another embodiment of the atomizing portion shown in Fig. 6; Fig.
16 is a perspective view showing another embodiment of the projections shown in Figs. 13 to 15. Fig.
17 is a schematic view showing another embodiment of the driving unit shown in Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

A skin improvement treatment apparatus according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5. FIG. The fine particle spraying apparatus according to the embodiment of the present invention is applied to the gastric skin improvement treatment apparatus and is described together with the gastric skin improvement treatment apparatus.

FIG. 1 is a perspective view showing a skin improvement treatment apparatus according to an embodiment of the present invention, FIG. 2 is a perspective view showing a fine particle spraying apparatus shown in FIG. 1, and FIG. 3 is a cross- FIG. 4 is an exploded cross-sectional view of the fine particle spraying apparatus shown in FIG. 3, and FIG. 5 is an exploded perspective view of the reservoir, the connection unit, and the composite cable shown in FIG.

1 to 4, the fine particle spraying apparatus 3 according to the present embodiment includes a finishing section 10, a particle forming section 40, a main body 50, a spraying section 70, and a wiring section 80 The device 1 for skin improvement according to the present embodiment further includes a composite cable 30 and a control unit 2 in addition to the above configuration.

The finishing portion 10 is a portion where the palm portion of the user can touch, and the inside is empty. On the one surface of the finishing portion 10, a particle forming portion 40 and a coupling portion 11 to which the main body 50 is detachably and slidably engaged are formed. Although not shown in the drawing, a guide for guiding the particle forming portion 40 and the main body 50 may be formed on the coupling portion 11. However, the particle forming portion 40, the main body 50, and the finishing portion 10 may be fixedly coupled to enhance the sealing effect.

A connecting portion 20 is disposed inside the finishing portion 10. The connection portion 20 includes a connection tube 21 and first and second terminals 22 and 23.

The connection tube 21 is inserted into the lower portion of the finishing portion 10 and penetrates the inside thereof. The lower side of the through hole is connected to a composite cable 30 to be described later with a connection hole 211 and a storage hole 41 described later is inserted into a connection hole 212 on the upper side. The connection tube 21 may be formed as a separate member and assembled to the finishing portion 10 or may be integrally formed when the finishing portion 10 is formed.

The first and second terminals 22 and 23 are formed of a material through which a current can flow and are coupled to the connection tube 21. [ One side of the first and second terminals 22 and 23 is located inside the connection pipe 21 and the other side is located inside the finishing portion 10. The first and second terminals 22 and 23 are formed in the form of a pin, and a pinhole is formed at one side thereof. Although two terminals are illustrated in this embodiment, the number of terminals can be variously changed.

One side of the composite cable 30 is connected to a control unit 2 provided with a compressor (not shown), a circuit device (not shown) for controlling current and the like, and the other side is connected to a connection hole 211 .

The composite cable 30 is connected to the connection hole 211 and is electrically connected to the fluid supply pipe 31 and the first and second terminals 22 and 23 for supplying fluid (e.g., compressed air) to the reservoir 41 And includes first and second cable terminals 32, 33.

A sealing member for hermetic sealing may be coupled between the connection pipe 21 and the fluid supply pipe 31.

The first and second cable terminals 32 and 33 are disposed inside the composite cable 30 and the ends of the first and second cable terminals 32 and 33 protrude to the outside. The projecting portions of the first and second cable terminals 32, 33 are inserted into the pinholes of the first and second terminals 22, 23. That is, the first and second cable terminals 32 and 33 and the first and second terminals 22 and 23 are detachably coupled to the female and male structures. The number of cable terminals may be changed depending on the number of terminals to be electrically connected. The nature of the current supplied through the first cable terminal 32 and the second cable terminal 33 is different. The terminal of the first cable 32 is to send a current for laser supply and the second cable terminal 33 is to send a fine current (so-called galvanic current).

When the composite cable 30 is inserted and connected to the connection hole 211, the fluid supply pipe 31 and the connection pipe 21 are connected and the first and second cable terminals 32 and 33 are connected to the first and second 2 terminals 22 and 23. [ Accordingly, the fluid and the current supplied from the control unit 2 can be supplied to the fine particle spraying apparatus 3.

The fluid supply pipe 31 and the cable terminals can be wrapped with a protection member (not shown), and the protection member protects the fluid supply pipe and the cable terminal from external requirements such as shocks and contaminants.

When the fine particle spraying apparatus 3 is not used, the composite cable 30 can be separated from the connection pipe 21 and stored in the storage space 2a (see FIG. 1) formed inside the control unit 2. [

The particle forming unit 40 is a unit that forms a fine particle by using a pressure of a fluid that has flowed through a composite cable 30 such as a solution (such as a lotion), and has a reservoir 41, a nozzle member 42, (43), and a striking member (44).

The reservoir 41 is coupled to the coupling portion 11. A connection pipe 421 is formed below the reservoir 41, and the connection pipe 421 is inserted into the connection hole 212. A sealing member may be disposed between the connection pipe 421 and the connection hole 212. The upper surface of the reservoir 41 is open and a space in which solution can be stored is formed therein. The reservoir 41 may be formed to be transparent or semitransparent so that the degree of storage of the solution can be confirmed. The reservoir 41 is detachably slidably engaged with the engaging portion 11 and can be coupled along the guide protrusion when the guide protrusion is formed.

The nozzle member 42 protrudes from the inner bottom surface of the reservoir 41 toward the open portion. The nozzle member 42 has a smaller cross-sectional area as it approaches the open portion, and the inside thereof is vertically penetrated. The lower portion of the nozzle member 42 is connected to the connection pipe 21 through the connection pipe 421. The fluid supplied from the fluid supply pipe 31 flows into the nozzle member 42 through the connection pipe 21 and the connection pipe 421 and can be discharged toward the opening. The size and the number of the nozzle members 42 may vary depending on the size of the reservoir 41.

The suction member 43 is disposed inside the reservoir 41 and surrounds the nozzle member 42. The inner surface of the suction member 43 is formed in a shape corresponding to the outer surface of the nozzle member 42, and a flow path 432 is formed at predetermined intervals. The flow path 432 is connected to the inside of the reservoir 41, and the solution can be introduced. An ejection hole 431 is formed on the upper side of the suction member 43 and the ejection hole 431 is connected to the open top of the nozzle member 42.

When the fluid is discharged from the nozzle member 42, the pressure around the open upper portion of the nozzle member 42 is lowered so that the solution in the reservoir 41 is discharged to the spray hole 431 through the flow path 432, The solution moves with the fluid in the direction of the opening of the reservoir 41.

The striking member 44 is disposed inside the reservoir 41 and the lower side pushes the suction member 43. The pushing of the striking member 44 allows the suction member 43 to be fixed without moving even if the fluid discharged from the nozzle member 42 is pressurized.

The striking member 44 is opposed to the ejection hole 431 and a striking plate 441 on which the solution and the fluid discharged from the ejection hole 431 collide is formed in the striking member 44. The striking plate 441 is spaced apart from the upper surface of the suction member 43 by a predetermined distance. This gap is determined by various factors such as the pressure of the fluid and the shape of the impact plate. The solution may strike the striking plate 441 and break into fine particles. The striking plate 441 is formed in the same number as the nozzle member 42 and the fine particles are passed through the through hole 442 formed in the striking member 44 by the pressure of the fluid continuously supplied through the composite cable 30 So that it can be ejected out of the opening portion.

Since the reservoir 41 is detachable from the finishing portion 10 and the suction member 43 and the striking member 44 are detachably disposed inside the storage chamber 41, Can be easily achieved. Since the cleaning is performed in a state where the storage compartment 41 is separated from the finishing unit 10, the washing water is not brought into contact with the terminal of the connection unit 20, so that damage such as corrosion can be prevented.

The main body 50 is coupled to the coupling portion 11 by passing the fluid through the fine particles passing through the through hole 442. [ The lower side of the main body 50 is inserted into the open portion of the reservoir 41 to press and fix the striking member 44. The striking member 44 is fixed between the suction member 43 and the main body 50 by the depression of the main body 50. [ The main body 50 is detachably slidably engaged with the engaging portion 11 and can be engaged along the guide protrusion when the guide protrusion is formed.

The inside of the main body 50 is empty and both sides are open. The inside of the main body 50 is connected to the opening of the reservoir 41 so that the fine particles and the fluid of the solution can be introduced into the main body 50 and discharged to the opened upper side.

On the upper surface of the main body 50, there is formed an insertion portion 52 to which the container 60 in which the capsule, that is, the solution, is coupled. A feed hole 51 is formed in the insertion portion 52 and the feed hole 51 is connected to the inside of the main body 50. When the container 60 is coupled to the insertion part 52, one side of the container 60 is opened and the solution stored in the container 60 flows into the reservoir 41 through the inside of the main body 50 and the through hole 442 . The fluid is not supplied to the nozzle member 42 when replenishing the solution. When the container 60 is separated from the main body 50, a lid (not shown) may be coupled to the insertion portion 52.

Since the main body 50 can be separated from the particle forming portion 40 and the finishing portion 10, the inside of the main body 50 can be easily cleaned.

The spraying unit 70 massages the surface of the skin while guiding the fine particles discharged from the main body 50 to infiltrate the skin and includes a body 71, a pressing unit 72 and a bearing 73. The spraying portion 70 may further include a hermetic member 74.

2 and 6, one side of the body 71 is rotatably coupled along the outer circumferential surface of the opening of the main body 50. Inside the body 71, a spray hole 711 communicating with the inside of the main body 50 is formed, and the fine particles of the solution are sprayed to the skin through the spray hole 711.

The pressing portion 72 protrudes in the form of a protrusion in the body 71 and is arranged along the circumference at the periphery of the spray hole 711 in order to press the skin and improve the blood flow.

The arrangement of the pressing portions 72 can be variously changed. 7 shows another embodiment of the pressing portion 72 of FIG. 6. Referring to FIG. 7, the pressing portions 72 are arranged along the radial direction of the body 71. The pressing portions 72 of the inner row and the outer heat pressing portions 72 are arranged in a staggered manner.

One projection of the outer row is disposed between two adjacent projections of the inner row and the outer space is clogged by the pressing portion 72 arranged in a double direction when viewed from the center of the spray hole 711 in the radial direction. Therefore, the fine particles discharged into the spray hole 711 can be minimized in the radial direction of the spray hole 711 and concentrated in the skin direction.

When the fine particles are sprayed on the skin, some fine particles collide with the skin and are discharged through the space between the pressing portions 72 to the outside of the body 71, but the discharged fine particles hit the pressing portions 72 So that it can not easily escape to the outside of the body 71. Accordingly, it is possible to minimize the amount of wasted fine particles discharged to the outside of the body 71.

The body 71 and the pressing portion 72 are formed of a material through which a minute current can flow.

The bearing 73 is disposed between the body 71 and the body 50 and rotates together with the body 71. When the pressing portion 72 is rubbed in contact with the skin, the body 71 is naturally rotated by the bearing 73, so that the pressing portion 72 contacting the skin expands the skin and improves the effect of the acupressure . The bearing 73 may be formed of a rolling contact ball and roller structure.

The airtight member 74 is disposed between the body 71 and the main body 50 and is located in front of the bearing 73. The hermetic member 74 protects the bearing 73 by preventing the solution from flowing between the body 71 and the body 50. The hermetic member 74 may be formed in a film-like shape to be flexible, and may be twisted when the body 71 is rotated. However, the hermetic member 74 may be omitted.

The spraying part 70 according to the present embodiment can rotate 360 degrees with respect to the body 50 and can rotate in forward and reverse directions.

Meanwhile, the spraying unit 70 may further include a position restricting unit 75 that limits the rotation range of the body 71.

8, the position restricting portion 75 is formed between the body 71 and the main body 50 and includes a guide groove 752 and a guide protrusion 751. The guide groove 752 is formed along the circumferential direction on the inner surface of the body 71. The guide groove 752 is not formed entirely along the circumferential direction of the body 71 but formed only in a part thereof. The guide protrusion 751 protrudes toward the body 71 from the outer circumferential surface of the main body 50 and is inserted into the guide groove 752. The length of the guide projection 751 is formed to be shorter than the length of the guide groove 752. When the inner surface of the guide groove 752 is caught by the guide protrusion 751 when the body 71 rotates, the body 71 is no longer rotated. The positions of the guide groove 752 and the guide protrusion 751 may be changed with each other, and the structure of the position limiter 75 may be variously formed.

3 to 5, the wiring portion 80 is disposed inside the finishing portion 10 and includes a first wiring 81 and a second wiring 82.

One end of the first wiring 81 is connected to the first terminal 22 of the connection part 20 and the other end of the first wiring 81 is disposed inside the finishing part 10 and a laser supply part 811 to which a laser is irradiated is connected have. The portion of the finishing portion 10 where the laser supplying portion 811 is located may be opened or formed transparently. The light irradiated from the laser supply unit 811 is directed toward the spray hole 711 and the main body 50 facing the laser supply unit 811 may be formed to be transparent or open so that the laser can be transmitted.

In the laser supply unit 811, a laser is output under the control of the control unit 2, and can be irradiated to the skin through which the fine particles are sprayed through the spray hole 711. The laser irradiated to the skin can irritate the skin, and the skin can be irritated and the fine particles penetrate deep into the skin. At the same time, since the pressing portion 72 presses or spreads the skin, the permeability of the fine particles can be further improved.

The second wiring 82 is disposed inside the finishing portion 10 and is adjacent to the first wiring 81. One end of the second wiring 82 is connected to the second terminal 23 of the connection portion 20 and the other end of the second wiring 82 is connected to the finishing portion 10 The connection plate 822 is provided on the upper side.

The connection plate 822 includes a first member 822a and a second member 822b and the first member 822a is connected to the second wiring 82 by being coupled to the finishing unit 10, The two members 822a are coupled to the main body 50. The second member 822a and the first member 822b are connected to each other when the main body 50 is engaged with the engaging portion 11.

The low voltage electrode 823 is disposed inside the main body 50 and has one side connected to the second member 822b and the other side connected to the spraying unit 70. [ The low voltage electrode 823 transfers the fine current to the atomizing unit 70. The minute current delivered to the spraying portion 70 is transmitted to the skin through the pressing portion 72, and the permeability of the fine particles can be further improved by the minute current. The low-voltage electrode 823 can be formed to be flexible.

A gripping electrode 824, which can be in contact with the palm of the user, is coupled to the outer side of the finishing portion 10. The grip electrode 824 may be electrically connected to the connection portion 20. The minute current generated under the control of the control unit 2 flows to the skin through the second wiring 82, the low voltage electrode 823 and the spraying unit 70 and this fine current is transmitted to the grip electrode 824, Flow smoothly.

The low voltage electrode 823 and the second wiring 82 are connected to each other by the connection plate 822 so that the low voltage electrode 823 and the second wiring 82 are connected to each other when the main body 50 is separated from the finishing portion 10 The main body 50 is easily separated from the main body 50 and the fine particles passing through the main body 50 do not flow into the finishing portion 10.

Since the cleaning is performed in a state where the particle forming portion 40 and the main body 50 are separated from each other at the finishing portion 10, the washing water can be prevented from contacting the wiring portion 80.

On the other hand, when the fine particle spraying apparatus 3 according to the present embodiment is not used, it can be stored in a storage space formed inside the control unit 2 together with the composite cable 30. It is also possible to form a holder (not shown) on the outer surface of the control part 2 and store the fine particle spraying device 3 in a cradle.

The fine particle spraying apparatus 3 may further include a temperature control unit 90.

9, the temperature regulating unit 90 may be disposed in the main body 50 or in the spray hole 711. As shown in FIG. The temperature regulating portion 90 may be electrically coupled to a terminal formed in the connection portion 20. [ The temperature regulating unit 90 is formed of a thermoelement that facilitates heat absorption or heat generation by the Peltier effect. The fine particles passing through the main body 50 are brought into contact with the temperature regulating portion 90 and the fine particles can be heated or cooled according to the set temperature of the temperature regulating portion 90 at this time. Temperature-controlled microparticles are brought into contact with the skin according to the season, so the user does not have a sense of resistance due to the temperature difference.

10 shows a spraying portion of a microparticle spraying apparatus according to another embodiment of the present invention. This embodiment includes most of the features of the embodiment shown in Figs. However, the spraying unit 70 according to the present embodiment has a different structure from the above-described embodiment. The spraying portion 70 according to the present embodiment includes a body 71, a pressing portion 72, and a bearing 73. The pressurizing portion of the embodiment shown in Figs. 1 to 9 can be applied as it is, and a detailed description thereof will be omitted.

The bearing 73 according to the present embodiment is formed as a bushing structure that serves as a friction surface of the rotating body 71. A portion of the main body 50 is fitted into the bushing, and the inner surface of the body 71 faces the outer surface of the bushing. The inner surface of the body 71 is not in contact with the outer surface of the main body 50 by the bushing.

In order to prevent the body 71 from separating from the main body 50 to be rotated, the main body 50 and the body 71 are formed with hooks 53, The locking protrusions 53 of the main body 50 protrude toward the inner surface of the body 71 and the locking protrusions 76 of the body 71 protrude toward the outer surface of the main body 50. The body 71 is not separated from the main body 50 while the retaining jaw 76 of the body 71 is caught by the retaining jaw 53 of the main body 50. [ In other respects, many of the features of the embodiments shown in Figs. 1 to 9 can be applied.

11 and 12 show a spray unit according to another embodiment of the present invention. The skin improvement treatment apparatus or the fine particle spraying apparatus according to the present embodiment may have the features according to Figs. 1 to 10 as long as it does not conflict with the following description.

According to the present embodiment, the spraying portion 70 includes a body 71, a pressing portion 72, a bearing (not shown), and a hermetic member (not shown).

The body 71 is disposed around the opening of the main body (not shown), and a bearing and a hermetic member are disposed between the main body 71 and the main body. The body 71 is provided with a spray hole (not shown) through which fine particles introduced into the body are sprayed. When a rotational force is applied to the body 71, it can be rotated by the bearing. The body 71 can be formed to be rotatable within a set range. Bearings and hermetic elements may be omitted. Accordingly, the body 71 can be kept in a fixed state without being rotated.

The pressing portion 72 is coupled to the body 71 to stimulate the skin around which the fine particles are sprayed, and includes a projection 721 and an elastic member 721b.

One side of the protrusion 721 is arranged linearly movably in the hole 712 formed in the body 71 and the other side is protruded to the outside of the body 71 to be in contact with the skin. The protrusion 721 moves to the inside of the hole 712 when pressed against the skin, and to the outside of the hole 712 by the elastic force when the pressing force is removed. The protrusion 721 can move along the contour of the skin. Although the protrusion 721 is shown in a cylindrical shape in FIG. 8, the protrusion 721 may be formed in a ball shape as shown in FIG. The ball-shaped protrusion 721 may be rotated and moved into the hole 712 when rubbed in contact with the skin. When the protrusion 721 is rubbed against the skin, the external force is transmitted to the body 71 as a rotational force so that the body 71 can rotate.

The elastic member 721b is disposed in the hole 712 and cushion supports the protrusion 721 moving into the hole 712 so that the protrusion 721 can protrude to the outside. Although the elastic member 721b is shown in the form of a coil spring in FIGS. 11 and 12, the elastic member 721b may be formed of a sponge, rubber, or the like having a buffering force.

The protrusions 721 that move around the skin where the fine particles are sprayed are pressed and the protrusions 721 move along the outline of the skin and spread the skin so that the fine particles can penetrate deeply into the skin. In other respects, many of the features shown in the embodiments shown in Figs. 1 to 10 can be applied.

13 and 14 illustrate spraying portions of a microparticle spraying apparatus according to another embodiment of the present invention. The microparticle spraying apparatus according to the present embodiment may have the features according to Figs. 1 to 12 as long as it does not conflict with the following description. According to the present embodiment, the spraying portion 70 includes a body 71, a pressing portion 72, and a bearing (not shown).

The body 71 is disposed around the opening of the body (not shown), and a bearing is disposed between the body 71 and the body. The body 71 is formed with a spray hole 711 through which fine particles introduced into the body are discharged. The body 71 can be rotated when an external force is applied in the circumferential direction by the bearing. The body 71 may rotate only within a set range. Bearings and hermetic elements may be omitted. Accordingly, the body 71 can be kept in a fixed state without being rotated.

The pressing portion 72 is coupled to the body 71 and stimulates the skin around the skin to be sprayed with fine particles. The pressing portion 72 includes a projection 721, a ring 722, and a driving portion 723.

A hole 712 is formed between the inner surface and the outer surface of the body 71. One side of the protrusion 721 is rotatably disposed in the hole 712 and the other side is protruded to the outside of the body 71 May contact the skin. On one side of the projection 721, a pinion 721a is formed.

The ring 722 is rotatably arranged on the body 71, and a rack gear 722a is formed on the inner surface of the ring 722 to engage with the pinion 721a. A bearing (not shown) may be disposed between the outer surface of the ring 722 and the body 71 to improve the rotational force of the ring 722.

The driving unit 723 is formed in the form of a motor electrically connected to the control unit 2 (see FIG. 1) and disposed inside the body 71. Since the driving shaft of the motor is engaged with the rack gear 722a, the ring 722 rotates by the driving force of the motor, and the rotation of the ring 722 allows the projection 721 to rotate.

The rotating protrusion 721 rubs around the skin where the fine particles are sprayed, so that the fine particles can penetrate deep into the skin.

  In other respects, many of the features of the embodiment shown in Figs. 1 to 12 can be applied.

15 shows a spraying portion of a microparticle spraying apparatus according to another embodiment of the present invention. This embodiment has most of the components of the embodiment described with reference to Figs. 13 and 14. Fig. 15, the protrusions 721 are not rotated but are arranged so as to be able to move up and down within the body 71, and a wave-like shape in which the protrusions 721 are connected to the rings 722 A cam groove 722b is formed. A driving unit 723 made of a motor is connected to the ring 722. When the ring 722 is rotated by the driving of the driving portion 723, the projection 721 is moved up and down within the body 71 by the shape of the cam groove 722b, and the protrusion 721 ascending / It taps around the skin. As the protrusions 721 strike the skin, the fine particles can penetrate deep into the skin.

  In other respects, many of the features shown in the embodiments shown in Figs. 1 to 14 can be applied.

As shown in Fig. 16, the projection 721 shown in Figs. 13 to 15 is movable up and down by a first portion 721b and a first portion 721b which are power-connected to a driving portion (not shown) A second portion 721c coupled to the first portion 721b and an elastic member 721d disposed inside the first portion 721b to buffer and support the second portion 721c. On the other hand, when the projection 721 is applied to the driving portion 722 shown in Fig. 14, the pinion 721a is formed in the first portion 721b.

The protrusion 721 according to the present embodiment is rotated by the power of the driving portion 723 and inserted into the first portion 723b when the second portion 721c is pressed against the skin, The protrusions 723 bite and rub the skin, so that the fine particles can penetrate deeper into the skin.

17 shows a spraying portion of a microparticle spraying apparatus according to another embodiment of the present invention. This embodiment has most of the components of the embodiment described with reference to Figs. However, in this embodiment, as shown in FIG. 14, a driving unit formed of a motor is omitted, and a technique using fluid pressure is applied instead. One side of the ring 722 according to the present embodiment is installed on the body 71 and connected to the projection 721, and the other side protrudes into the spray hole. On the other inner surface of the ring 722, a driving portion 723 is formed. The driving portion 723 is formed in a wing-like shape. The blade pieces are inclined at a predetermined angle on the inner surface of the ring 722 and arranged along the circumferential direction. The fluid passing through the spray hole and the fine particles collide with the blade piece, thereby applying pressure, and the ring 722 is rotated. The rotation of the ring 722 causes the projection 721 to move and when the ring 722 is rotated in the spray hole, the fluid and the fine particles are sprayed into the skin by the vane- . As vortexing microparticles are sprayed onto the skin, the microparticles can penetrate deep into the skin.

The technical features of the driving unit having the wing shape receiving the pressure of the fluid according to the present embodiment can be directly applied to the ring according to the embodiment of FIG. 13, FIG. 14 or FIG. As a result, the driving part made of the motor is omitted, and a part of the ring protrudes into the spray hole, and a wing piece can be formed on the part.

In other respects, many of the features shown in the embodiments shown in Figs. 1 to 16 can be applied to the present embodiment.

The skin improvement treatment apparatus or the microparticle spraying apparatus according to another embodiment of the present invention may be applied to the skin improvement treatment apparatus or the microparticle spray apparatus according to another embodiment of the present invention as shown in Figs. 1-6, 7, 8, 9, 10, 11, 12, 13-14, And includes the features of the spray portion 70 shown in Fig. 16 or Fig. The features shown in Figs. 1 to 17 may be applied as they are except for the upper spraying part, i.e., the main body 50, the finishing part 10, the particle forming part 40, the composite cable 30 and the control part 2, Or conventional configurations known prior to the present application date may be applied.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

1: fine particle spraying device 10: finishing part
11: connecting part 20: connecting part
21: connector 211: connection hole
22: first terminal 23: second terminal
30: Composite cable 31: Fluid supply pipe
32: first cable terminal 33: second cable terminal
40: Particle forming section 41: Storage tank
42: nozzle member 421: connecting pipe
43: Suction member 431: Spout hole
44: striking member 441: striking plate
442: Through hole 50: Body
51: supply hole 52:
53: hanging jaw
60: Feed Capsule 70: Spray
71: Body 711: Spray hole
712: hole 72:
721: projection 721a: pinion
721b: elastic member 722: ring
722a: Rack gear 722b: Cam groove
723: driving part 73: bearing
74: air tight member 75:
751: Guide protrusion 752: Guide groove
76: latching jaw 80: wiring part
81: first wiring 811: laser supply part
82: second wiring 822: connection plate
823: Low voltage electrode 824:
90: Temperature control unit 2: Control unit

Claims (15)

A finishing portion in which a connection pipe, a first terminal and a second terminal are formed,
A particle forming part mounted on the finishing part and capable of being filled with a solution therein,
A body mounted on the finishing portion and connected to the particle forming portion,
A spray part connected to the main body, and
And a wiring portion
/ RTI >
When the composite cable is connected to the finishing unit, the composite cable is connected to the connection pipe of the finishing unit and the first and second terminals at the same time to supply the fluid to the particle forming unit and to supply the current to the first and second terminals However,
The wiring portion may include a first wiring connected to the laser supplying portion, one end of which is connected to the first terminal and the other end is connected to the spraying portion, and a second wiring connected to the low voltage electrode whose one end is connected to the second terminal, And a second wiring line,
The laser supply unit irradiates a laser to the outside of the spray unit, and the low voltage electrode transmits a fine current to the spray unit
Fine particle spray device. delete The method of claim 1,
The spraying portion
A body rotatably coupled to the opening of the body and having a spray hole,
A pressing portion formed on the body, and
A bearing disposed between the body and the body,
Containing
Fine particle spray device. 4. The method of claim 3,
Wherein the spraying portion further comprises a position restricting portion that defines a rotation range of the body. 4. The method of claim 3,
The pressing portion
Protrusions protruding movably from the body and
An elastic member disposed inside the body for supporting the projection,
Containing
Fine particle spray device. A finishing portion in which a connection pipe and at least one terminal are formed,
A particle forming part mounted on the finishing part and capable of being filled with a solution therein,
A body mounted on the finishing portion and connected to the particle forming portion, and
The spray unit
Lt; / RTI >
Wherein the atomizing unit includes a body rotatably coupled to an opening of the body and having a spray hole formed therein, and a pressing unit formed on the body,
The pressing portion
A protrusion which protrudes from the body and which is rotatably disposed between an outer surface and an inner surface of the body,
A ring formed rotatably between an outer surface and an inner surface of the body and having a rack gear engaged with the pinion,
A driving unit
Containing
Fine particle spray device. A finishing portion in which a connection pipe and at least one terminal are formed,
A particle forming part mounted on the finishing part and capable of being filled with a solution therein,
A body mounted on the finishing portion and connected to the particle forming portion, and
The spray unit
Lt; / RTI >
Wherein the atomizing unit includes a body rotatably coupled to an opening of the body and having a spray hole formed therein, and a pressing unit formed on the body,
The pressing portion
A ring having a wave-like cam groove formed along the circumferential direction so as to be rotatable between an outer surface and an inner surface of the body,
A protrusion coupled to the outer surface of the body and the inner surface so as to be linearly movable, one side of the protrusion being coupled to the cam groove and the other side of the protrusion protruding from the body;
And a driving part
Containing
Fine particle spray device. The method of claim 6,
Wherein the driving unit is a motor powered by the ring or a slit on an inner surface of the ring and arranged along the circumferential direction and a blade in which fluid to be ejected collides. The method of claim 1,
Further comprising an inserting portion formed in the main body, wherein when the container in which the solution is stored is coupled to the inserting portion, the solution in the container is supplied into the main body. A finishing portion in which a connection pipe and at least one terminal are formed,
A particle forming part mounted on the finishing part and capable of being filled with a solution therein,
A body mounted on the finishing portion and connected to the particle forming portion,
A spray unit connected to the main body,
A temperature adjusting unit disposed in the spraying unit or inside the main body, the temperature adjusting unit adjusting the temperature of the particles to be ejected,
And a wiring part disposed inside the finishing part and having one side connected to the at least one terminal,
Lt; / RTI >
When the composite cable is connected to the finishing portion, the composite cable is simultaneously connected to the connection pipe of the finishing portion and the at least one terminal so that supply of the fluid to the particle formation portion and supply of current to the at least one terminal can be performed at the same time there is
Fine particle spray device. A finishing portion in which a connection pipe and at least one terminal are formed,
A particle forming part mounted on the finishing part and capable of being filled with a solution therein,
A body mounted on the finishing portion and connected to the particle forming portion,
A spray unit connected to the main body,
A wiring part disposed inside the finishing part and having one side connected to the at least one terminal,
And a gripping member coupled to an outer surface of the finishing unit,
/ RTI >
When the composite cable is connected to the finishing portion, the composite cable is simultaneously connected to the connection pipe of the finishing portion and the at least one terminal so that supply of the fluid to the particle formation portion and supply of current to the at least one terminal can be performed at the same time there is
Fine particle spray device. A finishing portion in which a connection pipe and at least one terminal are formed,
A particle forming part mounted on the finishing part and capable of being filled with a solution therein,
A body mounted on the finishing portion and connected to the particle forming portion,
A spray part connected to the main body, and
And a wiring part disposed inside the finishing part and having one side connected to the at least one terminal,
Lt; / RTI >
When the composite cable is connected to the finishing portion, the composite cable is simultaneously connected to the connection pipe of the finishing portion and the at least one terminal so that supply of the fluid to the particle formation portion and supply of current to the at least one terminal can be performed at the same time In addition,
The particle-
A reservoir in which the solution can be stored,
A nozzle member formed inside the reservoir, the nozzle member connected to the connection pipe,
A suction member covering the nozzle member and having an inner surface separated from an outer surface of the nozzle member,
And the striking member disposed on the nozzle member
Lt; / RTI >
The liquid in the reservoir flows into the space between the suction member and the nozzle member due to the pressure of the fluid ejected from the nozzle member and is ejected toward the striking member and collides with the striking member to be fine particles
Fine particle spray device. delete A main body in which a particle forming section for forming fine particles of the solution and a spray section for spraying the particles generated by the particle forming section to the outside are formed,
Wherein the atomizing unit includes a body coupled to an opening of the body and having a spray hole formed therein and a pressing unit protruding from the body,
The pressing portion
A protrusion disposed between the outer surface and the inner surface of the body and protruding from the body,
A ring disposed between the outer surface and the inner surface of the body, the ring being connected to the protrusion,
And a driving unit connected to the ring and rotating the ring
Fine particle spray device. 12. A microparticle spraying device as defined in any one of claims 1 to 12,
A composite cable, one end of which is connected to the finishing portion of the microparticle spraying apparatus and can simultaneously supply fluid and current, and
A control unit connected to the other side of the composite cable and having a storage space for storing the composite cable therein,
Wherein the skin improvement treatment device comprises:

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