KR101277037B1 - Apparatus and methods for demodex folliculorum removal, prevention of hair loss, cell activation using nano oxygen bubble - Google Patents

Abstract

The present invention relates to an apparatus and method for removing hair follicles, preventing hair loss, and activating cells by nano-oxygen bubbles, and removing hair follicles parasitic from hair follicles as nano-oxygen bubbles and activating skin tissue to prevent hair loss.

Description

APPARATUS AND METHODS FOR DEMODEX FOLLICULORUM REMOVAL, PREVENTION OF HAIR LOSS, CELL ACTIVATION USING NANO OXYGEN BUBBLE}

The present invention relates to an apparatus and method for removing hair follicles, preventing hair loss, and preventing cell debris by nano-oxygen bubbles, which remove parasitic worms from para follicles as nano oxygen bubbles and activate tissue denatured by hair follicles.

Demodex worms cause folliculitis by ingesting and formatting sebum in the skin in the pores, causing hair loss, and are not well removed.

In order to remove such Demodex insects, Patent No. 10-1040011, registered in 2011, obtains an ethanol extract by adding ethanol to various herbal medicines, and a "Demodex fungicide" combining the ethanol extract is proposed.

In recent years, as the research on micro-bubble sterilization and physiological activation has progressed, in Japan, micro-bubble air in the bath water and oxygen-dissolved bath water bath to remove bacteria and viruses in the pores and clean the skin. Activating devices and methods have begun to be used.

For example, in the bath water, micro bubbles enter the pores and transport and discharge nonenal, which generates bacteria, wastes, and odors in the pores, and present advantages such as cell activation, immune strengthening, and allergic constitution. The company manufactures and sells equipments such as Sciences Co., Ltd. and Tadashi Co., Ltd.

Micro-bubbles refers to a diameter of 50 microns or less, and the characteristics of micro-bubbles in nano-bubbles of Takahashi in the Environmental Technology Research Division of the Industrial Technology Research Institute of Japan According to the characteristics, it is proposed to use it according to the use by dividing it into micro bubble (50 μm or less), micro-nano bubble (300 nm to 3 μm) and nano bubble (100 nm or less).

As the use of nano-bubbles has been suggested, researches on tissue restoration have been conducted at various universities, such as the Tokyo University School of Medicine and Sunchon.

By the way, looking at the various methods seen from above, "follicules fungicide" is required to obtain the ethanol extract from various kinds of herbal medicine, it is expensive to formulate the fungicide, the efficiency is not confirmed, the problem of pores by micro-bubble Removal of bacteria, cell activation, immunity strengthening, and allergic constitution use air to generate micro bubbles, and the air content is 21% of oxygen, and the amount of oxygen available in the air is small. Problems Although research on the use of nano oxygen bubbles in the medical field is ongoing, the process of removing electrolyte by using an electrolyte (such as sodium chloride) for nano bubble formation and passing a nano-sized reverse osmosis membrane to remove the electrolyte again is complicated. And has a costly problem.

[Patent Document 1] Patent 10-1040011 Demodex fungicide [Patent Document 2] PCT / JP2007 / 001375 Tissue Repair or Regeneration Agent [Patent Document 2] PCT / JP2007 / 001376 Material for Sterilizing or Disinfecting Tissues

[Non-Patent Document 1] Takahashi, Environmental Management and Technology Division, Institute of Industrial Technology, Japan Administration: A Study on Micro Bubbles and Nano Bubbles URL: http // staff.aist.go.jp / m.taka

The present invention aims to solve the above problems, to produce nano oxygen bubbles, and to provide a device and method for preventing hair loss by killing and removing hair follicles by using the nano oxygen bubbles and activating the scalp cells. .

In order to solve the above problems, the present invention comprises a bubble water cap (C) and a fine bubble generating device (B) is connected to the circulation pipe (3) and the pressure feed pipe (4) as a main device.

The bubble cap (C) is made of a mold (M) made of a plastic resin, and a cap-shaped waterproof woven fabric or a cap-shaped plastic molded article is bonded to the mold (M), and is formed around the mold (M) outer circumference. The adhesive rubber plate 7-2 is attached, and the lower part is attached with a fixing member 7 composed of a locking ring 7-1 and an adhesive rubber plate 7-3, and an indentation hole 5 and a fixing rod on the upper side. (15) is laid, the circulation port (6) is laid in the lower back, the pressure gauge (G) and the oxygen gauge (G-1) is placed on the side.

Microbubble generating device (B) is a device for producing nano-bubble water while mixing and pressurizing gas and liquid, the discharge valve (9) connected to the pressure feed pipe (4), the supply pipe (1) connected to the oxygen cylinder (A), supplement The supply pipe (2) connected to the water tank (W) is connected to the control valve (8), and the circulation pipe (3) to which the control valve (8) is attached is made to the microbubble generating device (B), respectively.

Branch feeding pipe 13, the circulation pipe 3, the branch circulation pipe 14 is installed in the pressure feed pipe 4, a plurality of bubble cap (C) is connected.

The pressure feeding pipe 4 is connected to the inlet opening 5 of the bubble water cap C, and the circulation pipe 3 is connected to the circulation hole 6, respectively, so that the bubble water cap C and the microbubble generating device B are connected to each other. The device is configured.

When the device configured as described above is operated, fresh water is supplied to the microbubble generating device (B), oxygen gas is injected, mixed, pressurized and processed to generate nano oxygen bubbles having a diameter of 100 nanometers (100 nm) or less, and the nano oxygen bubbles Is mixed with bubble water to form nano oxygen bubbles.

The content of nano oxygen bubbles in the nano oxygen bubble water is preferably 50 ppm, and the contact pressure of the scalp is within 3 atmospheres. The control of the concentration of nano oxygen bubbles is controlled by the oxygen gas injection amount, and the contact pressure is controlled by the micro bubble generator (B).

The nano oxygen bubble water in which the nano oxygen bubbles are exhausted in the bubble water cap (C) is circulated to the micro bubble generator (B) to contain the nano oxygen bubbles and press-fit into the bubble water cap (C) to perform a circulation action.

 This circulatory action kills and eliminates hair follicles, preventing hair loss and activating scalp cells.

Remove hair follicles that cause folliculitis of the scalp pores to prevent hair loss, and activate the scalp cells to maintain a healthy scalp.

Figure 1 is a side view of the device, showing the bubble cap (C) attached to the head of the person.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated, referring drawings.

1 is a side view of the device, the bubble bubble cap (C), the oxygen tank (A) and the microbubble generating device (B) connected to the replenishment water tank (W) to each other by the circulation pipe 3 and the pressure feed pipe (4) Show connected and configured.

A mold M made of plastic resin is produced, and a cap-shaped waterproof woven fabric or a cap-shaped plastic molded product is bonded to the mold M with the main shaft as the main shaft, and is closely adhered to the outer periphery of the mold M. A rubber plate 7-2 is attached, and a fixing table 7 is attached to the lower portion.

The mold (M) from above is to adhere the adhesive rubber plate (7-2) to the face skin in order to minimize the external outflow of the nano oxygen bubbles in the bubble water cap (C) while exposing the face outside.

Bubble cap (C) is manufactured to cover the head except for the face including both ears, forehead, and chin.

The bubble cap (C) has an indentation hole (5) and a fixed rod (15) on the upper side, a circulation hole (6) on the lower side, and a pressure gauge (G) and an oxygen meter (G-1) on the side. Is laid.

From above, the indentation port 5 is connected to the pressure feed pipe 4 to pressurize the nano oxygen bubble water, the fixing rod 15 is to fix the bubble water cap (C) from the top.

Above, the pressure gauge G is for observing the pressure of the nano-oxygen bubble water in the bubble water cap C, and the oxygen gauge G-1 is for measuring the amount of oxygen, and a commercial oxygen gauge is used.

The adhesive rubber plate 7-2 is in contact with the elasticity and has a rubber plate that can be in close contact with the facial skin to minimize the outflow of nano oxygen bubbles in the bubble water cap (C).

Bubble cap (C) has a space of 10 to 15 centimeters (cm) from the head 12 in the interior, the nano oxygen bubble water will stay in this space.

From above, the fixed base (7) is a circular wrap around the neck portion, the front and rear locking ring (7-1) is attached, the close contact rubber plate (7-3) is made of a combination.

The close contact rubber plate (7-3) is in contact with the skin around the neck and is made of rubber having elasticity to be in close contact with the skin at the time of mounting, the opening and closing operation is performed together with the fixing table (7), and the nano-oxygen bubbles Minimize spills.

The microbubble generating device (B) operates at a pressure of 6 to 7 atm, generates nano oxygen bubbles while mixing and pressurizing gas and liquid, and is controlled by a timer placed on an external power source. In the discharge valve (9) connected to the pressure feed pipe (4) is attached, the circulation pipe (3) with the control valve (8) is connected at the right side, and connected to the oxygen cylinder (A) at the lower side of the circulation pipe (3). Supply pipe 1 is connected.

In the above, the operation control of the micro-bubble generating device (B) is for limiting the use time, the operation control in the concentration of the nano-oxygen bubbles in the nano-oxygen bubble water and the use pressure adjustment in the bubble water cap (C) will be different.

The bubble tube 4 of the microbubble generating device B is connected to the inlet opening 5 of the bubble cap C, and the circulation tube 3 is connected to the circulation port 6, respectively. The generators B are connected to each other.

The pressure feeding tube 4 presses the nano-oxygen bubble water generated in the microbubble generating device B into the bubble water cap C, and the circulation pipe 3 inserts the used nano oxygen bubble water in the bubble water cap C into the microbubble generating device. Circulation to (B).

In the above, the suction force is generated when the amount of nano-oxygen bubbles in the bubble water cap (C) is reduced and the pressure decreases so that the circulation water is insufficient, the control valve 8 is opened by the suction force of the microbubble generating device (B), and the bubble water cap When the pressure in (C) rises, the closing operation is performed, and by this operation, supplementary water is supplied to the microbubble generating device (B).

In the above, the micro-bubble generating device (B) is already used a patented line mixer type ultra-fine bubble generator (Patent No. 10-0510405) or ultra-fine bubble generator (Patent No. 10-1022612) is used, the electrolyte Nano bubbles are generated without using them.

From above, the branch circulation pipe 14, the pressure feed pipe 4 is provided with a branch circulation pipe 13 in the circulation pipe (3), the branch circulation pipe 14 and the branch pressure pipe (13) is a plurality of bubble cap ( It is used as a connector to connect C).

Above, the control valve (8) is connected to the supply pipe (2) connected to the replenishment water tank (W), the control valve (8) is opened when the suction force of the microbubble generator (B) occurs to supply the replenishment water do.

In the above, the supplementary water supply to the microbubble generating device (B) can be supplied by manually operating the control valve (8).

In the above, the discharge valve 9 functions to depressurize, and generates nano oxygen bubbles at the time of depressurization and discharges them to the pressure feed tube 4.

The control of the concentration of nano-oxygen bubbles is adjusted by the oxygen gas injection amount, and the contact pressure is controlled by the micro-bubble generating device (B).

The operation of the microbubble generating device (B) is initially operated manually, and the stop is stopped by a timer mounted on the apparatus, and the operation time is controlled by the timer.

Examples will be described below.

In the present invention, the head can be used by mounting the bubble water cap (C), the bubble water is used for drinking fresh water, oxygen is used to vaporize the liquid oxygen.

The user is equipped with a bubble cap (C) on the head to close the rubber plate (7-2) to the skin surface to minimize the outflow of nano oxygen bubbles.

In this embodiment, the pressure of the nano oxygen bubble water in the bubble water cap (C) is 1 atm, and the oxygen content in the nano oxygen bubble water is adjusted to 30 ppm.

By the operation of the microbubble generating device (B), the bubble water is supplied to the microbubble generating device (B), and as the oxygen gas is pressurized, nano oxygen bubbles having a diameter of 100 nanometers (100 nm) or less are generated and contained in the bubble water. Nano oxygen bubble water is generated, the generated nano oxygen bubble water is pumped into the bubble water cap (C).

The nano oxygen bubble water in which the nano oxygen bubbles are exhausted in the bubble water cap (C) is circulated to the micro bubble generator (B), and further contains the nano oxygen bubbles to perform a circulating action that is pressed into the bubble water cap (C).

The internal pressure rises as the Na-Sano bubble water is filled in the bubble water cap (C), and the pressure gauge displays a value of normal pressure (1 atm), and an oxygen gauge displays 30 ppm.

The nano oxygen bubble water in which the nano oxygen bubbles are exhausted in the bubble water cap (C) is circulated to the micro bubble generator (B) to dissolve the nano oxygen bubbles, and then presses the bubble again to the bubble water cap (C).

Nano-oxygen bubbles in the nano-oxygen bubble water transported to the bubble cap (C) kills and removes the follicle worms, while activating the scalp cells to prevent hair loss.

The microbubble generating device (B) stops the operation after 10 minutes of time preset in the timer.

The user completes the use by opening the bubble water cap (C).

In the above, the concentration of the nano-oxygen bubbles in the nano-oxygen bubble water can be used according to the condition of the scalp, the age of the user, and the use time, it is preferable to adjust within 50ppm.

In the above, the use pressure of the nano-oxygen bubble water in the bubble water cap (C) is adjusted according to the condition of the scalp, the age of the user, the use time, it is preferable to adjust within 3 atm.

A: oxygen cylinder B: fine bubble generator
C: Bubble Cap Cap F: Face
W: make-up tank M: mold
G: Pressure gauge G-1: Oxygen gauge
1, 2: Supply pipe 3: Circulation pipe
4: pressure feed pipe 5: pressure inlet
6: circulating hole 7: fixed stand
7-1: Locking ring 7-2 ・ 7-3: Tight rubber plate
8: control valve 9: discharge valve
10: Ear 11: Neckline
12 head 13 branch pipe
14: branch circulation tube 15: fixed rod

Claims (2)

A mold M made of plastic resin is produced, and a cap-shaped waterproof woven fabric or a cap-shaped plastic molded product is bonded to the mold M, and the rubber plate 7-2 adheres to the outer periphery of the mold M. ) Is attached to the lower part, the fixing ring (7) combined with the locking ring (7-1) and the contact rubber plate (7-3) is attached, the inlet (5) and the fixing rod (15) is attached to the upper side , The circulation port 6 is installed at the bottom of the rear side, the pressure gauge (G) and the oxygen measurement meter (G-1) is installed on the side of the bubble water cap (C) is made, the microbubble generating device (B) is branch feed The discharge valve 9 connected to the pressure feed pipe 4 with the pipe 13 attached, the supply pipe 1 connected to the oxygen cylinder A, and the control valve connected with the supply pipe 2 connected to the supplemental water tank W ) And the branch circulation pipe (14) attached to the circulation pipe (3) is made of a microbubble generating device (B), respectively, and the pressure-feeding pipe (4) of the microbubble generating device (B) is a bubble water cap (C) In the indentation opening 5 of the circulation pipe 3, 6) each of the bubble cap (C) and the microbubble generating device (B) is connected to each other, characterized in that the hair follicle removal, hair loss prevention, cell activation device characterized by the nano-oxygen bubbles. delete

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