KR101691617B1 - Galvanic Micro Needle Device - Google Patents

Abstract

The present invention relates to a galvanic micro-needle device, where the absorption of wastes is smoothly carried out. The galvanic micro-needle device comprises: a main body unit (1) having a galvanic ion generator (100) for supplying galvanic current, a motor (M) and an opening unit (130) at a lower portion; a lower surface unit (22) for receiving the galvanic current of the galvanic ion generator (100); a vertical motion unit (210) including a micro-needle (214) capable of vertically reciprocating movement which lowers or raises a lower side of the lower surface unit (22) depending on the driving of the motor (M); and a head unit (2) which is detachably mounted inside the opening unit (130).

Description

[0001] Galvanic Micro Needle Device [

The present invention relates to a galvanic microneedle device, and more particularly, to a device capable of performing both galvanic skin care and microinfiltration.

Microneedle Therapy System (MTS), which is one of the skin restoration procedures known to those skilled in the art, forms micropores in the skin as described in Patent Documents 1 to 3, It penetrates and regenerates the skin more effectively through nutrition supply and skin irritation.

In Patent Document 1 and the like, a micro needle stamp of an electrode embedded type is provided with a positive electrode to a needle portion disposed at a lower end of a handle, a patient is contacted with an anion terminal to apply an anion to a treatment site, So that it can be infiltrated into the treatment site applied with negative ions.

In the micro-acupuncture treatment apparatus such as Patent Document 1, it is possible to supply the ions through the micro-needle, but there is a problem that the absorption of the waste associated with the ion can not be performed or the absorption power is low, and there is a problem that the micro- have.

Korean Patent Laid-Open No. 10-2010-0054087 An electrode-embedded micro needle stamp Korean Patent Laid-Open No. 20-2009-0011315 An electric therapy skin beauty machine Korean Patent Laid-Open No. 10-2008-0100795 Micro needle roller structure

The present invention is to provide a galvanic micro needle device capable of performing both galvanic skin care and micro-acupuncture treatment as well as absorbing waste materials smoothly.

The present invention also provides a galvanic micro needle device capable of performing both micro-acupuncture treatment by electrophoresis while performing both galvanic skin care and micro-acupuncture treatment as one device.

In order to accomplish the above object, the present invention provides a galvanic ion generator comprising a main body 1 having a galvanic ion generator 100 for supplying a galvanic current and a motor M and forming an opening 130 at a lower portion thereof; A lower portion 22 for receiving the galvanic current of the galvanic ion generator 100 and a microneedle 22 for lowering or raising the lower portion of the lower portion 22 according to the driving of the motor M, And a head portion 2 having a follower portion 210 including a contact portion 214 and being detachably mounted in the opening portion 130.

According to the description of the present invention, the present invention is provided so as to simultaneously realize galvanic skin care in addition to micro-acupuncture treatment.

Particularly, the present invention has an effect that both the galvanic skin care and the microdermabrasion treatment are performed as a single device, but the waste matter can be absorbed smoothly.

In addition, the present invention has an effect that both the galvanic skin care and the microdermabrasion treatment are performed as one device, but the microdermabrasion treatment can be performed by electric power.

Further, according to the present invention, micro needle treatment can be performed by piercing the micro needle into the skin through the vertical reciprocating movement of the driven part through the rotation of the motor as the driving part. In the state where the micro needle is lifted, the galvanic skin care There is an effect that can be effectively performed.

In addition, the present invention can easily attach and detach the head portion from the main body portion, and can replace the head portion at each procedure, so that sanitary and clean conditions can be maintained.

1 is an exploded perspective view schematically showing a galvanic microneedle device according to the present invention.
Fig. 2 is a cross-sectional view schematically showing a microneedle device equipped with a head part of the first embodiment. Fig. 2 (a) shows the state of the follower reaching the top dead center, Fig. 2 It is also illustrated that the status of one slave can be confirmed.
FIGS. 3A to 3D are views sequentially illustrating a procedure of performing operation on the skin using the microneedle device shown in FIG.
Fig. 4 is a cross-sectional view schematically showing a microneedle device equipped with a head portion of the second embodiment. Fig. 4 (a) shows the state of the follower reaching the top dead center, Fig. 4 It is also illustrated that the status of one slave can be confirmed.
Fig. 5 is a cross-sectional view schematically showing a microneedle apparatus equipped with a head unit of the third embodiment. Fig. 5 (a) shows the state of the follower reaching the top dead center, Fig. 5 It is also illustrated that the status of one slave can be confirmed.

BRIEF DESCRIPTION OF THE DRAWINGS The objectives, specific advantages and novel features of the invention will become more apparent from the following detailed description and examples taken in conjunction with the accompanying drawings. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements are assigned the same number as much as possible even if they are displayed on different drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. In this specification, the terms first, second, etc. are used to distinguish one element from another, and the element is not limited by the terms. In the accompanying drawings, some of the elements are exaggerated, omitted or schematically shown, and the size of each element does not entirely reflect the actual size.

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

1 and 2, a galvanic micro needle apparatus according to the present invention includes a main body 1 and a head unit 2 fastened and fixed to the opening 130 of the main body 1. As shown in FIG.

Preferably, the microneedle device of the present invention is capable of mutually fastening the main body part 1 and the head part 2 in a bayonet coupling manner so as to ensure easy detachment of the head part 2 . ≪ / RTI > To this end, the head part 2 comprises at least one protruding part 231, and correspondingly the body part 1 forms at least one receiving groove 131.

The projecting portion 231 of the head portion 2 is inserted into the receiving groove 131 formed in the inner peripheral surface of the opening 130 of the main body 1 and is guided along the forming path of the receiving groove 131 to be fixed do. The shape and size of the protruding portion 231 may be formed corresponding to the shape and size of the receiving groove 131 in order to help fasten the protruding portion 231 to the receiving groove 131.

Specifically, the galvanic microneedle device according to the present invention supplies a galvanic ion (current), which is a fine DC current, to the skin to discharge unnecessary waste materials to the outside using galvanic ions, while absorbing nutrients useful for skin health Help.

The main body 1 accommodates therein a motor M, a galvanic ion generator 100, a power supply unit 110 and a control module 120. In addition, a switch and a display (not shown) As shown in FIG. The power supply unit may be a battery as shown, but may include an external power supply. The body portion 1 forms a cylindrical opening 130 at the bottom and forms at least one receiving groove 131 in the inner peripheral surface of the opening 130 as described above.

 The present invention disposes cam (M1) eccentrically coupled to the shaft of the motor (M), which allows the cam (M1) to be disposed on the central axis line of the opening (130). The cam M1 serves to convert the rotational motion of the motor into the vertical reciprocating motion of the follower portion 210 in the head portion 2. [ That is, the cam M1 repeatedly pressurizes and releases the driven portion 210 while eccentrically rotating in accordance with the rotation of the motor M shaft to repeatedly perform the reciprocating motion of the driven portion 210 by the height of the cam lift . As a result, the reciprocating motion of such a follower repeats the projecting and retracting of the microneedles below the lower surface of the head portion, and repeats entry and retraction of the procedure site, for example, subcutaneous route. For example, the length of the microneedles 214 is approximately 0.25 mm, so that a cam that can provide a cam lift height of 0.25 mm can be placed on the motor shaft.

As described above, according to the present invention, the head portion 2 can be fastened to the opening portion 130 of the main body portion 1 in a detachable manner, for example, in a bayonet lock manner. The head part 2 is formed as a generally cylindrical shape as shown in the drawing and the follower part 210 and the elastic member 250 are disposed so as to vertically reciprocate in the vertical direction in the central area of the head part 2 .

The follower portion 210 includes an elongated bar 212 disposed in a vertical direction and a first flat surface portion 211 disposed at an upper end of the bar and a plurality of micro needles 214 disposed at a lower portion of the bar, And a second flat surface portion 213 having a flat surface. Preferably, the follower portion 210 is made of a conductive rigid material.

The body of the head portion 2 is provided with a cylindrical side surface portion 21 and a bottom surface portion 22 for shielding the lower open side surface of the side surface portion 21 and an upper surface portion 23 for shielding the upper opening surface of the side surface portion An inner space 24 defined by the side surface portion 21, the bottom surface portion 22, and the top surface portion 23 can be provided. The inner space 24 is a space capable of receiving a part of the lower side portion of the bar 212 and the second flat surface portion 213 and the microneedles 214 as shown. In particular, the lower surface 22 has a plurality of guide holes 22a corresponding to the number and arrangement of the micro needles 214 in the central area thereof to ensure the forward and / or backward movement of the micro needles 214 And the galvanic current of the galvanic ion generator 100 may be supplied. Herein, the lower surface portion 22 can restrict unnecessary lower movement of the middle portion 210.

The upper surface portion 23 forms a through hole 23a at the center thereof and the through hole 23a is formed to receive the bar 212 of the driven portion 210 in a reciprocating manner while maintaining a contact state Have the size you can afford. It may be applied as an electrically conductive oil around the outer circumference of the bar 212 to ensure smooth reciprocal movement while maintaining electrical contact between the bar 212 and the through hole 23a of the follower 210. [

Particularly, the upper surface portion 23 is formed of a conductive plate and not only closes the upper opening of the side portion, but also receives the galvanic current supplied from the main body portion 1 and transmits the galvanic current to the lower portion 22 and / And the like. As shown in the figure, the projecting portion 231 of the head portion 2 is also formed of a conductive plate, and is disposed so as to be electrically connectable to the upper surface portion 23. [

The head portion 2 of the present invention is provided with an elastic member 250 interposed between the upper surface portion 23 of the head portion 2 and the first flat surface portion 211 of the driven portion 210, 250 may be a compression spring. The resilient member 250 is configured to forcibly guide the first flat surface portion 211 of the follower portion 210 disposed on the upper surface portion of the head portion 2 to the top dead center and to reliably contact the cam And it enables rapid backward movement of the micro needle. The microneedles can make a vertical reciprocating movement that goes down or goes up from the lower portion of the lower surface portion 22. [ Particularly, the microneedles 214 can be supplied to the skin using the lower surface portion 22 with the lower portion 22 raised.

In addition, according to the present invention, the galvanic ion generator 100 is operated through the power supplied from the power supply unit 110 in accordance with the control of the control module 120 to supply positive or negative ions . The galvanic ions generated from the galvanic ion generator 100 are applied to the terminal 132 disposed in the receiving groove 131 of the opening 130 through a wire (indicated by a dotted arrow). The head portion 2 fastened to the main body 1 by the bayonet lock method can ensure a reliable contact state of the terminal 132 and the conductive protruding portion 231 in the receiving groove 131, And the microneedles 214 which are the ends of the lower surface portion 22 and / or the driven portion 210 disposed on the lower surface 2 of the body 2. In other words, the galvanic ions generated from the galvanic ion generator 100 are supplied to the terminal 132 through the wire, and the protruding portion 231 and the upper surface portion of the head portion 2, which maintain the contact state with the terminal 132 23 and can be supplied to the microneedles 214 through the follower portions 210 which are inserted into the through holes 23a of the lower surface portion 22 and the upper surface portion 23 through the side portions.

FIGS. 3A to 3D are views sequentially illustrating procedures for applying the skin to the skin using the galvanic micro needle apparatus shown in FIG. 2. FIG.

As shown in FIG. 3A, a first gel G1 of a negative charge component, for example, a pretreatment gel, is applied to the treatment site prior to the needling procedure. Then, the practitioner sets the galvanic ion generator 100 in the galvanic micro needle apparatus of the present invention so as to generate galvanic ions, specifically, anions. When the lower part of the head unit 2 of the micro needle apparatus is adjacent . At this time, the lower surface portion 22 and / or the microneedles 214 are charged with negative ions by receiving an anion from the galvanic ion generator 100.

3B shows a state in which the skin and / or dermis of the skin through the microneedles 214, when reaching the bottom dead point of the vertically reciprocating moving part 210 through the driving of the motor M of the main body part 1, (H). The first gel G1 penetrates into the fine hole H through the needle ring of the micro needle 214 and the electrical repulsion between the negative ions applied to the skin through the micro needle device and the negative charge of the first gel G1, In other words, the first gel (G1) penetrates deeper into the skin through the repulsive force and can be expected to actively move into the skin. Then, the negative ions trap unnecessary waste in the skin.

In addition, while the motor M is being driven, the micro needle 214 may be moved to another treatment area coated with the first gel G1 to perform needling over a wide range.

On the other hand, it is also possible to carry out a galvanic process by first conducting galvanic by anion with the needle up, followed by performing micro-perforation, or by performing galvanic with the micro-perforated water needle being raised.

FIG. 3C shows a state in which the first gel G1 is wiped from the treatment site after the completion of the galvanic needling procedure, and a second gel G2 of a positive charge component, for example, a treatment gel is applied. The practitioner sets a galvanic ion source, specifically a cationic current generator, through the galvanic ion generator 100 to the galvanic micro needle apparatus of the present invention. At this time, the lower surface portion 22 is charged with positive ions by receiving positive ions from the galvanic ion generator 100. When the driving of the motor is stopped, the micro needle is stabilized in the raised state by the force of the elastic member 250 pushing up the cam M1, and does not protrude under the lower surface portion 22. [

FIG. 3D shows that a nutrient component contained in the second gel G2 can be absorbed into the skin while allowing the second gel G2 having a positive charge component to penetrate into the skin through the cation-charged bottom portion 22. Since the micro needles are in the raised state, the waste matter existing in the skin by the lower surface portion 22 can be discharged to the outside of the skin through the attraction force in a state in which the micro needle is not exposed under the lower surface portion 22. As shown in FIG. 3B, the anion implanted into the skin binds to the waste materials in the skin. Thus, the waste materials combined with the anion can be discharged by the positive charge. An important feature of the present invention resides in a structure that can be compatible with electric micro-acupuncture and galvanic skin care for discharging waste products.

4 is a cross-sectional view schematically showing a galvanic micro needle apparatus to which the head unit 2 'of the second embodiment is attached. The head portion illustrated in FIG. 4 is a modified example of the head portion shown in FIGS. 1 and 2. Since the head portion has a very similar structure except for the body of the head portion, Will be excluded here.

The hollow portion 220 is hollow in the cylindrical body center region surrounded by the side surface portion, the bottom surface portion and the top surface portion. As shown, the hollow portion 220 should be sized and shaped to allow sliding movement of the second flat surface portion 213 of the follower portion 210.

The upper surface portion 23 forms a through hole 23a at the center of which the through hole 23a accommodates the bar 212 of the driven portion 210 in a vertically reciprocating manner while being electrically connectable Have a size that can be maintained. It may be applied as an electrically conductive oil around the outer circumference of the bar 212 to ensure smooth reciprocal movement while maintaining electrical contact between the bar 212 and the through hole 23a of the follower 210. [

Particularly, the upper surface portion 23 is made of a conductive plate and not only covers the upper open side of the side surface portion, but also receives the galvanic ions supplied from the main body portion 1 to transmit to the lower surface portion 22 and / And the like. As shown in the figure, the projecting portion 231 of the head portion 2 is also formed of a conductive plate, and is disposed so as to be electrically connectable to the upper surface portion 23. [

5 is a cross-sectional view schematically showing a microneedle device on which a head portion 2 "of the third embodiment is mounted. The head portion shown in Fig. 5 is a further modification of the head portion shown in Figs. 1 and 2, Because of the very similar structure except for the head portion, a description of similar or identical configurations will be omitted herein to facilitate a clear understanding of the present invention.

The body of the head portion 2 is provided with a cylindrical side surface portion 21 and a bottom surface portion 22 for shielding the lower open side surface of the side surface portion 21 and an upper surface portion 23 for shielding the upper opening surface of the side surface portion An inner space 24 defined by the side surface portion 21, the bottom surface portion 22, and the top surface portion 23 can be provided. The inner space 24 is a space capable of receiving a part of the lower side portion of the bar 212 and the second flat surface portion 213 and the microneedles 214 as shown.

In particular, the lower surface 22 has a plurality of guide holes 22a corresponding to the number and arrangement of the micro needles 214 in the central area thereof to ensure the forward and / or backward movement of the micro needles 214 . The second elastic member 260 is disposed along the upper edge of the lower surface portion 22. The second elastic member 260 can be used to force the first flat surface portion of the follower portion 210 to the top dead center in place of the elastic member 250 shown in FIG. 2 and to provide a reliable contact state with the cam And it enables rapid backward movement of the micro needle. Here, the second elastic member 260 may be a buffer member of various types such as a sponge.

The upper surface portion 23 forms a through hole 23a at the center thereof and the through hole 23a is formed to receive the bar 212 of the driven portion 210 in a reciprocating manner while maintaining a contact state Have the size you can afford. It may be applied as an electrically conductive oil around the outer circumference of the bar 212 to ensure smooth reciprocal movement while maintaining electrical contact between the bar 212 and the through hole 23a of the follower 210. [

Particularly, the upper surface portion 23 is made of a conductive plate and not only covers the upper open side of the side surface portion, but also receives the galvanic ions supplied from the main body portion 1 to transmit to the lower surface portion 22 and / And the like. As shown in the figure, the projecting portion 231 of the head portion 2 is also formed of a conductive plate, and is disposed so as to be electrically connectable to the upper surface portion 23. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It will be apparent that modifications and improvements can be made by those skilled in the art.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1 ----- body part,
100 ----- Galvanic ion generator,
130 ----- openings,
131 ----- receiving grooves,
2 ----- Head,
210 ----- The eastern part,
214 ----- Micro needle,
231 ----- protrusions,
250, 260 ----- elastic member,
M ----- Motor,
M1 ----- Cam.

Claims (11)

A main body 1 having a galvanic ion generator 100 for supplying a galvanic current and a motor M and forming an opening 130 at a lower portion thereof;
A lower portion 22 for receiving the galvanic current of the galvanic ion generator 100 and a microneedle 22 for lowering or raising the lower portion of the lower portion 22 according to the driving of the motor M, And a head portion (2) having a follower portion (210) including an opening portion (214) and being detached in the opening portion (130)
The body of the head portion 2 has a side surface portion 21 and a conductive upper surface portion 23 which shields an upper opening of the side surface portion 21 and forms a through hole 23a at the center,
The follower 210 includes a conductive bar 212 passing through the through hole 23a of the upper surface portion 23 and a cam 212 disposed at an upper end of the bar 212, A first flat surface portion 211 disposed on the top surface portion 23 so as to maintain a contact state with the conductive layer 21 and a second conductive flat portion 211 disposed on the lower end portion of the bar 212 and disposed below the inner space 24 of the body, A flat surface portion 213 and the microneedles 214 disposed on the lower surface of the second flat surface portion 213,
The opening 130 includes at least one receiving groove 131 formed around the inner circumferential surface of the opening 130 and a conductive terminal 132 disposed in the receiving groove 131 and electrically connected to the galvanic ion generator 100. [ And,
The body of the head part 2 further includes a conductive protrusion part 231 formed integrally with the conductive upper surface part 23 to assist fastening with the receiving groove 131.
Galvanic micro needle device. The method according to claim 1,
And the galvanic ions can be supplied to the skin by using the bottom portion 22 in a state where the micro needle 214 is raised above the bottom portion 22,
Galvanic micro needle device. The method according to claim 1,
The motor M mounts the cam M1 eccentric to the motor shaft,
The follower 210 is reciprocated vertically depending on the rotation of the cam M1,
Galvanic micro needle device. delete The method according to claim 1,
The lower surface portion 22 has a plurality of guide holes 22a for ensuring vertical reciprocation of the microneedles 214,
Galvanic micro needle device. The method according to claim 1,
The head portion has a hollow portion 220 between the lower surface portion 22 and the upper surface portion 23 for guiding the movement path of the second flat surface portion 213 of the follower portion 210,
Galvanic micro needle device. The method according to claim 1,
The head portion 2 further includes an elastic member 250 between the upper surface portion 23 and the first flat surface portion 211 of the follower portion 210,
Galvanic micro needle device. The method according to claim 1,
The head unit 2 further includes a second elastic member 260 on the lower surface portion 22 of the second flat surface portion 213,
Galvanic micro needle device. The method according to claim 1,
The cam M1 is disposed on the central axis of the opening 130,
Galvanic micro needle device. delete The method according to claim 1,
The conductive bar (212) is slid in a vertical direction in contact with the through hole (23a) of the top surface (23)
Galvanic micro needle device.

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