KR101567027B1 - Ample galvanic assembly - Google Patents

Abstract

The present invention relates to a galvanic assembly to which an ampoule can be discharged. More specifically, the present invention relates to a galvanic assembly capable of discharging an ampoule, and more particularly, to an ion generating unit and an ampoule discharging unit in a housing made of a body and a head member, And at the same time, the skin care ampoule is discharged from the ampoule housing inside the body to ionize the ampoule and penetrate into the skin, thereby improving the beauty and care effect of the ampoule.

Description

AMPLE GALVANIC ASSEMBLY < RTI ID = 0.0 >

The present invention relates to a galvanic assembly to which an ampoule can be discharged. More specifically, the present invention relates to a galvanic assembly capable of discharging an ampoule, and more particularly, to an ion generating unit and an ampoule discharging unit in a housing made of a body and a head member, The present invention relates to an ampoule-galvanic device assembly which improves the effect of skin care and care by ionizing the ampoule to penetrate the skin by discharging the skin care ampoule from the ampoule housing inside the body.

Galvanic is a very weak electric current which pushes out the same polarity, ionizing cosmetics into the skin to penetrate the skin, thereby improving the skin caused by weak acne, blurring the melanin pigment such as stain, and improving the wrinkles by fine stimulation by ion release It is used as a method of skin beauty that can see the effect.

Such a conventional technique is disclosed in Korean Utility Model Registration No. 20-0467161 entitled " Galvanic Device for Hair or Scalp Management &

The above-mentioned prior art is one of the hair care devices which are formed by combining an enclosure and a lid and are mounted on a hair care device which is a head spa total management system. The hair care device includes a circuit patterned PCB built in the inside of the lid, One or more LEDs connected to a cable and connected to a circuit of the PCB and exposed to the outside of the lid to emit a galvanic current to provide a galvanic electrical stimulus, A galvanic device for managing hair or scalp in which a galvanic ion bar is formed.

Also, there is a prior art No. 10-1213344 entitled " contactless automated ion skin care device "

The above-described prior art is a device for skin care that penetrates skin due to the ionization of cosmetics by applying static electricity to the skin in a non-contact manner, thereby maximizing the application and absorption of cosmetics and lifting effect by ions, Non-contact type automated ion skin beauty device which enhances convenience of use such that anyone can easily and safely carry out the beauty act penetrating the skin deep into the skin without professional training.

Further, as a prior art, Patent No. 10-0387913 entitled " Portable skin care device and skin care method "

The conventional technique measures the skin index according to the skin condition of the user and adjusts the frequency of the vibration, the low frequency, and the frequency according to the predetermined time table value or the arbitrary time interval according to the skin condition of the user, Galvanic current and infrared rays are generated to massage the skin of the user and to discharge the dust and sebum residues remaining on the skin to the outside of the body and stimulate metabolism, skin elasticity and blood circulation through skin irritation, It offers easy-to-carry skin care device and skin care method that can be used anytime and anywhere.

However, the above-mentioned conventional techniques generate ions to infiltrate the skin to ionize the cosmetics, or stimulate the skin to protect and manage the skin. In order to protect and manage the skin, ions are generated to infiltrate the skin. In the case of using cosmetics, There is a problem in that it is troublesome and inconvenient to apply the cosmetic to the skin and then use the above conventional techniques.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide an ampule-

An ion generating unit is provided in a housing composed of a head member and a head member which are in contact with the skin. When the head member contacts the skin, galvanic ions are transmitted to facilitate penetration into the skin, And an ampule galvanic device assembly using the ion generating unit and capable of infiltrating the ampule into the skin.

Further, the ampule discharge unit includes first and second toothing members interlocked with the drive motor, and a push member that is screwed to the rotary member and the outer surface of the rotary member, And an ampule galvanic device assembly capable of pushing and discharging the ampule inside the ampule housing.

In addition, when the ampoule in the ampoule housing is used up, the ampoule housing can be easily detached and replaced so that the ampoule housing itself can be replaced without replacing the galvanic appliance itself, by providing a detachment unit for replacing the ampoule housing in the housing. It is another object to provide an ample galvanic device assembly which can be replaced semi-permanently.

In order to achieve the above object, an ampule galvanic device assembly according to the present invention comprises:

A housing including a battery, a main body having an ampoule insertion portion, and a head member provided at one side of the main body and having an ampoule discharge nozzle formed therein;

An ion generating unit including a PCB connected to the battery, and an ion generating unit provided in the PCB to transmit positive and negative ions to the head member;

An ampoule discharge unit for injecting the ampoule by pushing the pressing member of the ampoule housing by rotation of the driving motor and the driving motor connected to the battery, an ampoule housing inserted into the ampoule insertion unit and storing an ampoule therein;

And a control unit.

As described above, the ample galvanic device assembly according to the present invention comprises an ion generating unit in a housing made of a head member and a main body for contacting the skin, so that galvanic ions can penetrate into the skin, and an ampule discharging unit is provided, Ampoules penetrate into the skin along with the ion, so that the ampoule component is ionized to improve the penetration and absorption of the skin, and the effect of wrinkles can be seen simultaneously due to stimulation of galvanic ions.

The filler discharge unit includes a first toothed member and a second toothed member that are coupled to the drive motor and the drive motor to be engaged with each other, a rotary member that rotates together with rotation of the second toothed member and has threads on the outer surface thereof, The ampoule can be smoothly discharged through the discharge nozzle of the head member through the push member capable of pushing the pressing member of the ampoule housing and allowing the ampoule to be discharged, So that it is possible to uniformly impregnate the liquid.

Further, when the ampoule of the ampoule housing is exhausted, only the ampoule housing can be easily replaced from the housing through the detachment unit, so that only the ampoule housing containing the ampoule can be replaced without replacing the device itself. Can also be effective.

In addition, the head member is easily replaceable and can receive ions, and the head member can be exchanged according to the position and intended use of the skin to be used, thereby further improving the skin irritation effect according to the situation and position There is an effect that can be.

1 is a perspective view of an ampoule-galvanic device assembly according to the present invention;
2 is an exploded perspective view of an ampoule-galvanic appliance assembly according to the present invention;
Figure 3 is a cross-sectional view of an ampoule-galvanic device assembly in accordance with the present invention;
Figures 4 and 5 are perspective views of an inner side view of an ampoule-
Figure 6 is an embodiment of an ampoule-galvanic device assembly according to the present invention
7 is a perspective view of a head member of an ampule galvanic device assembly according to the present invention;
Figure 8 is a perspective view of a desorption unit of an ampoule-galvanic device assembly according to the present invention;
9 is a view of a head member of an ampoule-galvanic device assembly according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

While the present invention has been described in connection with certain embodiments, it is obvious that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

In the drawings, the same reference numerals are used for the same reference numerals, and in particular, the numerals of the tens and the digits of the digits, the digits of the tens, the digits of the digits and the alphabets are the same, Members referred to by reference numerals can be identified as members corresponding to these standards.

In the drawings, the components are expressed by exaggeratingly larger (or thicker) or smaller (or thinner) in size or thickness in consideration of the convenience of understanding, etc. However, It should not be.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the term " comprising " or " consisting of ", or the like, refers to the presence of a feature, a number, a step, an operation, an element, a component, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

1 to 3, an ampule-galvanic device assembly A according to the present invention includes a housing 10 including a main body 11 and a head member 13 provided at one side of the main body 11, And an ion generating unit 20 and an ampule discharging unit 30 provided in the housing 10.

The first powder 111 and the second powder 113 are coupled to each other. The first powder 111 and the second powder 113 are connected to each other, The first powder 111 and the second powder 113 may be formed in a streamlined shape so that they can be held easily by the user. And the shape thereof may be variously embodied, and the scope of the right should not be limited.

A head member 13 is provided at one side of the main body 11 composed of the first powder 111 and the second powder 113. The head member 13 is a portion directly contacting the skin, And the discharge nozzle 133 is formed so that the ampule of the ampule housing 10 to be described later can be discharged and the contact portion 131 of the head member 13 is transmitted from the ion generating unit 20 So that galvanic ions can be energized to permeate the skin. In addition, the head member 13 is replaceable. The coupling between the head member 13 and the main body 11 will be described in more detail below.

1 to 4, a battery 15 for supplying an electric current for generating ions to the ion generating unit 20 and supplying power to the ampule discharging unit 30 is provided inside the main body 11, ).

At this time, the battery inserting unit 151 and the battery cover 153 for inserting the battery 15 are well known in the art and will not be described in detail.

First, the ion generating unit 20 includes a PCB 21 and an ion transfer part 23 provided on the PCB 21. The ion generating unit 20 includes a PCB 21, More specifically, a battery 15 is provided in the main body 11, and a PCB 21 connected to the battery 15 is provided. A circuit for receiving the power of the battery 15 and discharging it to the PCB 21 is formed on the PCB 21 and a cable for connecting the PCB 21 and the battery 15 is a known technique. Omit it. An ion transfer unit 23 for transferring the ions of the battery 15 is provided on one side of the PCB 21 to generate ions from the PCB 21 and transmit the generated ions to the head unit 13. At this time, the ion transfer portion 23 transfers ions to the conductive member 25, and the conductive member 25 is coupled to the head member 13 to transfer ions to the contact portion 131 of the head member 13 . Therefore, when the head member 13 is coupled to the main body 11, the conductive member 25 is connected to the head member 13 to transmit ions to the contact portion 131 contacting the skin, .

2, a cap 16 for protecting the head member 13 may be further provided, and the shape of the cap 16 may be the same as the shape of the head member 13 However, the scope of the rights should not be construed as limiting.

1 to 5, an ampule galvanic device assembly A according to the present invention includes an ampule discharging unit 30 for discharging an ampule. The ampule discharging unit includes an ampule inserting unit 115 An amplifier housing 31 into which the ampoule is inserted and a driving motor 33 connected to the battery 15 and a driving motor 33 for rotating the pressing member of the ampoule housing 10 311 to push out the ampoule. More specifically, the housing 10 is provided with an ampoule insertion unit 115, and an ampoule housing 31 coupled to the ampoule insertion unit 115 is provided.

The ampule housing 31 includes an ampoule and a pressing member 311 on the bottom surface of the ampoule housing 31. The pressing member 311 is configured to move within the ampoule housing 31.

The ampule housing 31 is provided in the ampule inserting unit 115 so that the ampule discharged from the ampule housing 31 passes through the discharge tube 117 provided in the main body 11 and is supplied to the head member 13 And then discharged through the discharge nozzle 133.

5 and 6, the main body 11 is provided with a drive motor 33 connected to the battery 15 to receive power, and the drive motor 33 33, the first toothed member 35 is coupled to the drive shaft 331. A second toothed member 36 engaged with the first toothed member 35 and interlocked with the first toothed member 35 is provided on one side of the first toothed member 35 and is rotated together with the rotation of the second toothed member 36 A cylindrical rotating member 37 is provided. A screw thread 371 is formed on the outer surface of the rotary member 37 to surround the rotary member 37 and a corresponding thread 371 is provided on the inner surface of the rotary member 37 so that the thread 371 (Not shown).

Therefore, when the drive motor 33 rotates, the rotation member 37 is rotated according to the interlocking operation, and the push member 39 screwed to the outer surface of the rotation member 37 rotates, (If reverse rotation is performed, reverse rotation is performed.)

That is, the pushing member 39 is advanced by the rotation of the driving motor 33 and the pushing member 311 provided in the ampule housing 31 is pushed, and the pushing member 311 is naturally pressed into the ampule housing 31 31), so that the ampoule can be discharged.

The main body 11 is also provided with an ampoule switch 17 and a galvanic switch 18 for driving the ion generating unit 20 and the ampoule discharging unit 30 described above. It is preferable that the operation of the drive motor 33 is controlled by a switch for rotating the motor 33 and the galvanic switch 18 is a switch for generating ions and is preferably configured to be capable of adjusting the intensity, It is preferable that the LED 19 is further provided so as to control the intensity of the galvanic ions generated in the color change (green and red).

1 to 3 and 7, the head member 13 of the ampule-galvanic device assembly A according to the present invention is configured to be replaceable to the main body 11. As shown in FIGS.

More specifically, the head member 13 is coupled to the main body 11 and must be firmly coupled to the main body 11 by receiving ions generated from the main body 11. For this purpose, in the present invention, And a conductive member 25 for transferring the ions generated in the conductive member 25 and the conductive member 25. The conductive member 25 is formed in a resilient plate spring shape, A groove 135 is provided in the head member 13. When the head member 13 is coupled to the main body 11, the conductive member 25 is firmly fixed to the coupling groove 135 by the elastic force, And is transmitted to the head member 13 so that ions can be emitted through the contact portion 131 of the head member 13.

The head member 13 is provided with a discharge nozzle 133. The discharge nozzle 133 communicates with the discharge tube 117 provided in the main body 11 and is discharged from the discharge tube 117 The ampoule can be discharged to the contact surface through the discharge nozzle 133 so that the ampoule can penetrate and penetrate the skin together with the galvanic ions.

As described above, the reason why the head member 13 is easily detachably coupled to the main body 11 is the function related to the replacement of the head member 13, more specifically, as shown in Fig. 9, 13 may be formed in various shapes including a discharge nozzle 133. The head members 13 may be constituted as a set so as to be replaceable depending on the position of the skin to be contacted and the purpose of use, do.

Further, when the ampule galvanic device assembly (A) according to the present invention is used, the ampule housing (31) can not be used if the ampule provided in the ampule housing (31) is exhausted. To this end, the housing 10 of the present invention is further provided with a desorption unit 40 as shown in FIG.

The detachment unit 40 includes a detachment switch 41 provided on one side of the main body 11 and a locking protrusion 411 provided on the detachment switch 41, And a detachable cover 43 provided on the main body 11 and having an engaging groove 431 for opening and closing the ampule inserting portion 115 and engaging with the engaging protrusion 411.

A detachable cover 43 is provided at one side of the main body 11 to open and close the ampule insertion part 115. The detachable cover 43 is detached from the ampule insertion part 115, So you can easily remove and replace the ampoule. In order to discharge the ampoule to the correct position from the ampoule housing 31 at this time, the ampoule housing 31 is provided with a projected discharge portion 313 at its upper end, and an ampoule insertion portion 115 are formed with coupling grooves 115A in which the discharge tube 117 is provided. Therefore, by inserting the discharge portion 313 of the ampule housing 31 into the fastening groove 115A, the ampule housing 31 can be housed at the correct position, so that the push member 39 is housed in the ampule housing 31 So that the ampoule can be discharged.

The detachable cover 43 is firmly fixed when the detachable cover 43 is opened and closed and the detachable switch 41 is provided at one side of the main body 11 for easy detachment. 41 are provided with a spring 45 inside. The detachable switch 41 is provided with a locking protrusion 411 and the locking protrusion 411 is fastened to the locking recess 431 of the detachable cover 43. Therefore, when the release switch 41 is depressed, the stopper protrusion 411 is released from the stop groove 431 to easily remove the release cover 43. When the release button 43 is naturally returned to its original position by the spring 45, The engaging protrusion 411 is engaged with the engaging groove 431 so that the removable cover 43 can be firmly coupled to the main body 11. [

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. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention. Changes and substitutions are to be construed as falling within the scope of protection of the present invention.

A: ampoule galvanic appliance assembly 10: housing
11: Main body 111: First powder
113: first powder 115: ampoule insertion part
115A: fastening groove 117: discharge pipe
13: head member 131:
133: Discharge nozzle 135: Coupling groove
15: Battery 151: Battery insertion part
153: Battery cover 16: Cap
17: Amplifier switch 18: Galvanic switch
19: LED 20: ion generating unit
21: PCB 23: ion transport part
25: conductive member 30: ampoule discharging unit
31: ampule housing 311: pressing member
313: Discharge section 33: Drive motor
331: drive shaft 35: first toothed member
36: second toothed member 37: rotating member
371: thread 39: push member
391: Corresponding thread 40: Desorption unit
41: Desorption switch 411:
43: detachable cover 431:
45: spring

Claims (4)

A housing 15 including a battery 15 and including a main body 11 having an ampule inserting portion 115 and a head member 13 provided at one side of the main body 11 and having an ampule discharging nozzle 133 10);
An ion generating unit 20 including a PCB 21 connected to the battery 15 and an ion transfer unit 23 provided in the PCB 21 to transfer positive and negative ions to the head member 13;
An ampoule housing 31 inserted into the ampoule inserting section 115 and storing an ampoule therein and a drive motor 33 connected to the battery 15 and the drive motor 33, An ampule discharging unit 30 for pushing the pressing member 311 of the ampule 31 to discharge the ampule;
, ≪ / RTI >
The head member 13 is provided with a coupling groove 135. The main body 11 is formed with a plate spring shape which is coupled to the coupling groove 135 and which receives ions generated from the ion generating unit 20 A conductive member 25 is provided,
When the head member 13 is coupled to the main body 11, the conductive member 25 is detachably fixed to the coupling groove 135 while being firmly fixed by an elastic force to receive the ions,

The head member (13)
Characterized in that a plurality of head members (13) each having a discharge nozzle (133) are constituted as a set and exchangeable with each other. The method according to claim 1,
The ampule discharge unit (30)
A first toothed member 35 provided on the driving motor 33, a second toothed member 36 coupled with the first toothed member 35 and a second toothed member 36 coupled to the rotation of the second toothed member 36, A push member 39 for screwing on the outer surface of the rotary member 37 and pushing the pressing member 311 by rotation of the rotary member 37 to discharge the ampule 39, ),
The body 11 is provided with an ampule switch 17 for controlling the operation of the ampule discharging unit 30, a galvanic switch 18 for controlling the operation of the ion generating unit 20, Further comprising an LED (19) for outputting intensity. 3. The method according to claim 1 or 2,
In the housing 10
A detachment unit 40 for replacing the ampule housing 31 is further provided,
The desorption unit (40)
A detachment switch 41 provided on one side of the main body 11; a locking protrusion 411 provided on the detachment switch 41; and a main body 11 provided on the main body 11 to open and close the ample insertion portion 115 , And a detachable cover (43) having a locking groove (431) coupled to the locking projection (411)
The ampule insertion part 115 is provided with a coupling groove 115A and the ampule housing 31 is provided with a discharge part 313 projected to be inserted into the coupling groove 115A. Is inserted in the ampoule insertion portion 115,
And a spring (45) is further provided inside the detachable switch (41). The method of claim 3,
And a spring (45) is further provided inside the detachable switch (41).

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