KR200396456Y1 - face skin rejuvenate - Google Patents

Abstract

The present invention is applied to the facial skin rejuvenator which aims to achieve the cosmetic purpose by promoting metabolism of cell tissues by applying LED light and ultrasonic wave of specific wavelength to the facial skin and applying a microcurrent for iontophoresis. More particularly, the present invention relates to an LED for outputting a plurality of specific wavelengths, an array of ultrasonic vibrators for outputting ultrasonic waves at specific frequencies, and an electrode for inducing small currents for iontophoresis. Applicator mounted on the elastic fiber member and power / control unit that allows the applicator to apply the optimal light energy, ultrasonic energy and micro current to the facial skin simultaneously or selectively. The applicator can be securely fixed to the face when in use. It is characterized in that low level optical therapy, ultrasound therapy and iontophoresis can be comprehensively performed in a highly stable state.

Description

Facial skin rejuvenate. {Face skin rejuvenate}

Human skin tissue is composed of epidermis, dermis and subcutaneous tissue, and is constantly being renewed through continuous cell division and metabolism. In particular, the epidermis is located at the outermost surface of the skin, which is directly exposed to the external environment, and thus is simply damaged. Thus, the epidermis is the main target in the facial skin care process.

The epidermal tissue is a nucleus that is nucleus-free due to the gradual growth of nucleated cells produced in the basal cell layer and the pigment cell layer of the basal layer. After changing to cells, it is metabolized by protecting the skin surface for a certain period of time, eventually ending dandruff and dropping out. This metabolic cycle has a cycle of about 4-6 weeks, as long as this process is actively repeated, the skin surface remains healthy, cosmetically young and fresh. However, when this is disturbed by various environmental or physical factors, the skin surface becomes dry and rough, and there are blemishes, swelling, wrinkles, etc., which makes the skin look aging.

The dermis is composed of strong collagen fibers and elastic fibers made of fibrous collagen to protect living organisms from external physical shocks. The metabolic cycle is 5-6 years. Fibroblasts are actively active when the skin receives damage and repair the damage with the collagen they have made, creating a framework for the production of epidermal cells. At the same time, the cells produce hyaluronic acid, which conserves moisture in the dermis, preventing the skin from drying out and maintaining a young appearance. The cells are supplied with nutrients from the surrounding capillaries to grow and grow, and the nutrients and oxygen loadings of the capillaries and blood flow expanded to determine metabolic activity.

Recently, when laser light having a wavelength of 600 nm to 1300 nm is irradiated to a living body with an energy density of 100 to 1000 mW / cm 2, an increase in capillary formation, an increase in oxygen loading of blood, promotion of collagen and ATP, and a wave flow It is known to exhibit photochemical effects such as increased activity, promotion of tissue granulation, and activation of phagocytosis, and low power laser therapy using the same has been developed.

 Therefore, when applied to facial skin tissues, the metabolism of tissue cells is actively activated by photochemical effects including capillary proliferation and increased oxygenation in the bloodstream, so that the epidermis is covered with the young cell layer, resulting in skin rejuvenation. It becomes.

Currently, as a light source for LLLT, a laser diode is common, and most of the LLLT devices known so far use a laser diode. However, laser light is essentially a coherent light of a single wavelength, and energy is concentrated so that if the output control is not accurate, it is easy to damage biological tissues, and especially dangerous to the eyes. There is a safety problem. In addition, since there is a wavelength that is optimal for the reaction depending on the composition of the tissue, the biochemical effect may not be fully expected when it does not match the intrinsic wavelength of the laser, and when a constant area such as the skin surface is to be investigated. There is also a disadvantage that the light beam is too narrow.

Recently, it is known that the photochemical effect is independent of the coherency of light and that the same photochemical effect can be obtained even in non-coherent light if the wavelength is in the same range. According to this theory, LLLT using arc light or discharge tube has been developed, but these methods are not suitable for personal use due to the drawback that the apparatus is not only large in scale but also needs a filter to remove ultraviolet rays. On the other hand, ultrasonic therapy using various reactions appearing in cellular tissues when irradiating ultrasonic waves of several MHz to living tissues is also known. In particular, ultrasonic waves with a frequency of 1-3 MHz and intensity of 0.3-2 W / cm2 show micromassage effect due to negative pressure when irradiated to the tissues, promoting the reaction of oxygen, expansion of capillaries, stimulation of nerve tissues, and heating. As a result, it is known to activate the function of biological tissues and promote metabolism. There have been many reports of the use of ultrasound therapy for skin care, and most of them use the exothermic effect while irradiating the skin tissue with ultrasonic waves to micro massage the organ tissues.

On the other hand, in introducing various drugs into biological tissues, a method of increasing the introduction efficiency of drugs by applying a voltage of several V to several 10 V to the skin to flow a weak current within several ten mA is known. There has also been announced a mechanism to inject subcutaneously various kinds of skin lotion including vitamin C, or on the contrary to draw out pollutants to the outside. The above-described physiotherapy using LLLT and ultrasound is inherently non-invasive, non-invasive, non-invasive, non-invasive, has no side effects, and the apparatus is non-professional. It is characterized by easy handling. Therefore, many handheld ultrasonic irradiators have been published that have applied this therapy to facial skin care. Most of them have a built-in vibration device in the 1-3 MHz band, among which the massage by the vibration of the motor, the thermal effect by simultaneously irradiating the far infrared, the cosmetic liquid through the ion introduction method It has also been reported to promote the subcutaneous introduction of the skin. However, there are relatively few applications of LLLT as a personal device for facial skin care, which is presumably due to the safety and focus of the laser light.

In general, when developing a skin care furniture using a laser as a light source, measures for widening the irradiation surface and strict management of light output are required first of all. In order to widen the irradiation surface, there is a method of using a diverging lens, a method of adopting a beam scan method, and the control of the light output can be considered as computer control by a sensor. Will result. In particular, such methods must presuppose that the position of the laser element must be fixed relative to the skin, which cannot be met by a hand-held personal device.

However, in the skin care of the face, the position fixing of the light emitting device can be realized by a relatively simple method, which is a method of attaching a laser to a face mask. As an example of adopting this method, there is a prior patent patent No. 2020040008714 (design name: cosmetic massage mask).

In this design, the structure is equipped with a plurality of laser diodes and a plurality of gems on the mask forge, and the laser light enters the skin at an angle of 25 degrees, thereby widening the irradiation area and lowering the energy density to prevent damage to the skin by the laser beam. It is preventing. However, the method of lowering the irradiation density to the skin by adjusting the angle of incidence of the laser beam requires extremely precise work, and the skin may be damaged if the angle of incidence changes during use.

In particular, several laser beams emitted from a plurality of lasers mounted on the face mask cannot be excluded that there is always a possibility of harm to the eyes during the detachment or daily handling of the mask.

The present invention combines low level light therapy (LLLT), ultrasound therapy (Ultra-Sound Therapy), and ion introduction method to facial skin recruitment, and utilizes its synergy to make the face more effective. It aims to provide a safe and convenient means to rejuvenate the skin.

As mentioned above, LLLT using laser is effective, but it is necessary to solve the risk of damage to the surface of the skin due to the concentration of laser light and to secure the safety of eyes. In addition, there is a problem in that it is necessary to adopt a beam scanning method and to fix the position of the light source in order to ensure strict control of the dose.

Currently, the LLLT light source can replace the laser in many ways, such as the wavelength of the emitted light, the specter distribution, the driving circuit, and adopt an LED having characteristics similar to that of a laser diode. However, since LEDs are known to have a relatively weak photochemical effect compared to laser diodes at the same output, the following countermeasures are required to obtain a predetermined metabolic enhancement effect.

(1) How to increase energy absorption of entire surface by combining array of LEDs to form an array to cover the entire face

(2) How to secure the total accumulated absorption amount as necessary by lengthening the irradiation time

(3) using ultrasound therapy in combination to obtain as much metabolism-promoting effect as is needed

(4) In the combination of LLLT and ultrasound therapy for facial skin, the applicator is not fixed in handheld type but fixed in form that can be easily carried by an individual.

(5) In addition, as another requirement of the present invention, there is a technical problem such as being easy to use and simple to operate so that the procedure can be performed without specialized knowledge.

   In skin care and beauty, the most important factor is the promotion of the function of each tissue cell and the activation of metabolism.

The present invention is characterized in that the following method has been adopted as a method for solving the above technical problem.

1. Adoption of face mask type applicator

For LLLT and ultrasound therapy, the required dose of light and ultrasound energy is optimal depending on the subject's constitution, health condition, skin symptoms and environmental conditions. In order to accurately apply this optimum value to the irradiation site, the positions of the light emitting element and the ultrasonic vibrator should always be maintained at a constant value with respect to the irradiation site.

This is not possible with a conventional handheld type, but the present invention solves this problem by using a face mask structure that mounts the applicator on the face.

2. Adoption of LED element as light emitting element

Laser diodes have a large photochemical effect but have safety problems and are unsuitable for evenly irradiating facial skin and a wide range of ground. On the other hand, since the LED light is not a focused beam, there is no safety problem like laser light, and it has more advantageous characteristics than laser light in terms of safety and economy, such as being able to irradiate a wide skin surface. Therefore, the present invention implements a safer and more economical applicator by using a light emitting diode (LED) having a wavelength range similar to that of a LLLT laser diode.

The output light of the LED has no coherency, so the photochemical effect on cell molecules is weaker than that of laser light. In this design, a large number of LEDs are combined and the irradiation time is increased to increase the total irradiation dose to the skin, so that theoretically the same level of effect as a laser can be realized as a safer and cheaper device. .

3. Ultrasound Therapy, Ion Introduction

In order to compensate for the somewhat insufficient photochemical effect of LED, ultrasonic energy is irradiated to the same area to generate micro massage effect and exothermic effect, and achieve synergistic effect with LLLT. In addition, by introducing a small current in the same site to promote the subcutaneous introduction of the drug, contaminant removal, etc. in parallel to enhance the cosmetic effect.

4. Cleaning of pore contamination

Another problem in skin care is the problem of pore contamination. If oxidized fat or other waste is deposited in the pores, clogging the pores or infecting bacteria, the skin is used to clean the face. In addition to (iii), the cavitation phenomenon by the ultrasonic energy can be used for cleaning.

5. Optimal control of energy dosage

For LLLT and ultrasound therapy, the required dose of light and ultrasound energy depends on variables such as constitution, health condition, skin symptoms and environmental conditions. In the present invention, all variables according to each condition are inputted to calculate the optimal dose obtained clinically from these variables, and the optimum dose is calculated by a predetermined routine, which automatically outputs the light emitting device and the ultrasonic device. Implement a controllable device.

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

The applicator 1, which is the main component of the present invention and the face rejuvenator, has an appropriate spacing on the base fabric 1a and the intermediate bubble 1b for fastening parts to form a face mask-type outer coat with elasticity. In which the LED element 2 and the ultrasonic vibrator 3 are arranged and attached, and an electrode 1c for iontophoresis made of a conductive woven fabric is inserted thereon. The applicator (1) and, when in use, the applicator (1) is secured to the face and light energy for LLLT to the facial skin tissue, ultrasonic energy for ultrasound therapy and micro-current for iontophoresis and cleaning It is characterized in that it is configured as a power supply / control unit (5) for applying the optimal control.

  FIG. 1 shows the appearance of the applicator 1, and FIG. 2 shows the structure of the applicator 1 in detail. FIG. 2 (a) is a development view and FIG. 2 (b) is a front view. FIG. 3 is a side view of the applicator 1, in particular showing the structure of a cross section cut along the axis X1-X2 of FIG.

The applicator is made of a mask-like woven outer fabric 1a and a component fixing intermediate bubble 1b, and is attached with 1e1 and 1e2 as bends for fixing to the head. In addition, holes (1d1), (1d2), and (1d3) are made at the positions of the eyes, nose, and mouth, respectively. It is a structure that guarantees electrical insulation of the circuit board by attaching a sealing ring 1f, which also serves as a cushion as shown in Fig. 4 (a), to prevent moisture from breathing into the inner surface of the mask. It is done.

 Figure 4 (b) shows the detailed structure of the side cross-section in the state of wearing the applicator (1), the bubble (base cloth) 1a forming a mask-shaped outer coat and the intermediate bubble for fixing parts ( The LED 2 mounted on the 1b), the ultrasonic vibrator 3, and the electrode 1c made of a conductive woven fabric are in contact with the skin S.

The electrode 1c is an electrode for iontophoresis, and is made of an elastic and antimicrobial conductive fiber sponge, the size of which covers the entire back surface of the intermediate bubble 1b for fixing parts as shown in FIG. As shown in (5a), the LED and the ultrasonic vibrator are cut out so as not to come into contact with each other. The thickness of the apparatus is such that contact with the face can be made at an appropriate pressure. The electrode 1c is brought into close contact with the face at an appropriate pressure by elasticity when the device is worn. At this time, the electrode 1c is deformed accordingly and, together with the LED 2 and the ultrasonic vibrator 3, the face surface as shown in FIG. To close contact with (S).

The plurality of LED elements 2 and the ultrasonic vibrator 3 are connected in parallel with each other by a flexible wire to form the arrays 4a and 4b. This array is adhesively fixed on the interlayer foam 1b for fixing parts and connected to the power supply / control unit 5 via the terminal 4c and the cable 4d.

5B is a circuit connection diagram of the array. It is more preferable to use the flexible circuit board 4 instead of the flexible lead at this time. The LED device 2 is characterized in that the emission wavelength is in the range of 600nm ~ 1300nm, the emission energy is in the range of 100 ~ 1000 mW / cm2. In addition, the ultrasonic vibrator 3 has a frequency in the range of 1-5 MHz, and the output is in the range of 0-5 W, but the oscillation frequency and the output are 2 of the optimal mode for the ultrasonic therapy and the optimal mode for the cleansing of the skin. It is characterized by being able to switch to a stage. As shown in FIG. 8, the power supply / control unit 5 includes a power supply unit 5a for supplying power to all the above electronic devices, and a control unit 5b for optimum control. And a switch, an LCD display panel, or the like.

The face rejuvenator having the above structure operates as follows.

During the LLLT procedure, light for LLLT is emitted from each LED element 2 and enters the skin. At this time, the light output is a pulse type with a certain period, and the duty, intensity, and irradiation time of the pulse are controlled by the control unit 5b so as to be optimal according to various environmental conditions and physical conditions of the patient. Controlled.

During the ultrasound procedure, ultrasound is output from each of the ultrasonic vibrators. The output is also pulse-type, and is controlled by the control unit 5b so as to be an optimal state according to environmental conditions and physical conditions of the patient. However, because the ultrasonic vibrator generates heat, it adopts a vibrator with a thermal sensor, or separately attaches a thermal sensor near the vibrator to be used for output control and safety shut-off devices.

During the ion implantation procedure, a small DC current is applied to the electrode 1c by applying a constant DC voltage or a pulse type AC voltage having an appropriate period. In this case, voltage, duty, and time depending on environmental conditions are also applied. Optimal control. In addition, the maximum allowable current is set according to each constitution, and when it exceeds this value, it is automatically cut off.

Ultrasonic waves, when irradiated with appropriate energy, are accompanied by stimulation of chemical reactions and cavitation, thereby emulsifying various impurities including fat peroxide inside the pores to facilitate separation from the pores. Therefore, the routine for this procedure is also entered into the computer. In addition, the iontophoresis method is used to introduce a drug such as vitamin C into the skin or to effectively remove dirt that is blocking pores. In this case, positive or negative DC may be applied to the electrode 1c depending on the type of the drug. A voltage is applied to inject into the pores, in particular by charge repulsion. In addition, during hair root washing, ultrasonic waves are irradiated to emulsify the contaminants in the hair root by the cavitation, and then a pulse type voltage that reciprocates between the electrodes is applied to the electrodes.

According to the present invention having the above-described configuration, an applicator and a power / control unit capable of irradiating more precise light energy and ultrasonic energy in a more stable state in promoting the metabolism of the skin by using a known LLLT technique and an ultrasonic technique A facial rejuvenator consisting of is developed.

In particular, the present invention can use the LED light instead of the laser light to perform the LLLT procedure at a lower cost in a safer way, and in particular, by synergistically combining the ultrasonic technology with the iontophoretic technique, Effective and economical facial skin care is now possible.

As a result, the use of the present invention rejuvenator not only promotes the healing of various injuries and diseases of the face, but also removes spots, freckles, ringworms, dandruff, wrinkles, etc. You can rejuvenate it.

1 is a perspective view of the subject innovation facial skin rejuvenator.

2 is an exploded view (a) and a front view (b) of the applicator 1 which is a main component of the rejuvenator.

3 is a side cross-sectional view of the applicator.

4 is a partial cross-sectional view (a) of the applicator and a structural diagram (b) of the sealing ring.

5 is a plan view (a) and a circuit connection diagram (b) of the iontophoretic electrode of the applicator.

Fig. 6 is a block diagram of a power supply / control unit which is one of the main components of the rejuvenator.

<Description of Major Reference Signs>

1: Applicator which is the main component of the present facial skin rejuvenator

1a: base fabric forming the coat of the instrument

1b: Medium bubble for fixing parts

1c: iontophoretic electrode

2: LED device

    2a LED Socket Assembly

3: ultrasonic oscillator

    3a oscillator socket assembly

4: circuit board assembly

    4a: LED array

    4b: ultrasonic vibrator array

   4c: terminal block

   4d: power / control cable

5: power / control unit

Claims (7)

Selectively or in combination with low level phototherapy (LLLT), ultrasound therapy and iontophoresis with a plurality of LEDs, a plurality of ultrasonic vibrators and iontophoretic electrodes for the purpose of promoting beauty and metabolism of facial skin. Facial Skin Rejuvenator consisting of a face mask-type applicator and a power / control unit designed for simultaneous application across the entire skin The LED of claim 1 has a light emission wavelength in the range of 600 nm to 1300 nm and a luminous energy in the range of 100 to 1000 mW / cm 2. Ultrasonic vibrating element according to claim 1, wherein the ultrasonic vibration device emits ultrasonic waves in the range of 1-5 MHz at an output of 0-5W / cm2.      According to claim 2, the ultrasonic vibrating device, the facial skin rejuvenator, characterized in that the output and frequency can be applied to switch between the two stages of the optimal mode for ultrasound therapy and the optimal mode for skin cleansing A facial skin rejuvenator according to claim 1, wherein a conductive sponge is used as an electrode for iontophoresis. The facial skin rejuvenator with a sealing ring attached to the ventilation holes in the nose, mouth, and eyes of the air bubble 1 according to claim 1 to prevent moisture from breathing into the mask. In the rejuvenation therapy of the facial skin using the applicator of claim 1, a power switch for driving and adjusting the LED, the ultrasonic vibrator, and the ion electrode to an optimum condition according to a given program. And a power switch / control unit to which a function switch and an LCD display panel are attached.