KR102174852B1 - Apparatus and method for manufacturing spray of cosmetic liquid containing hydrogen - Google Patents

Abstract

An apparatus for producing a hydrogen-containing cosmetic water spray is disclosed. According to an aspect of the present invention, a can filled with compressed air in the inner space, a pouch accommodated in the inner space of the can and filled with lotion, a cover sealing the inner space of the can, one end connected to the pouch and the other end of the cover A device for manufacturing a lotion sprayer including a valve that penetrates through and is exposed to the outside to control whether or not the lotion is discharged.The inner space of the can with compressed air generating unit generating compressed air and compressed air supplied from the compressed air generating unit And a compressed air filling unit that seals the inner space of the can using a cover combined with a valve and a pouch, a lotion supply unit that supplies hydrogen to the lotion to provide a hydrogen-containing lotion, and the inside of the can An apparatus for manufacturing a hydrogen-containing lotion sprayer is provided, comprising a lotion injection unit for injecting a lotion containing hydrogen supplied from the lotion supply unit into a pouch accommodated in the space.

Description

An apparatus and method for manufacturing a hydrogen-containing lotion spray TECHNICAL FIELD [APPARATUS AND METHOD FOR MANUFACTURING SPRAY OF COSMETIC LIQUID CONTAINING HYDROGEN}

The present invention relates to an apparatus and method for producing a hydrogen-containing cosmetic spray.

Skin is affected by age, environment, season, etc., and its condition is not constant, and when natural defenses are insufficient due to sweat and sebum, cosmetics are used to help with the action or supplement necessary nutrients.

For example, lotion is roughly classified into three types used for acidic, alkaline, and neutral skin, and acidic lotion is used for young skin, where sweat and sebum secretion is active, and alkaline lotion is used for middle-aged skin where aging begins to make the skin soft. It maintains high elasticity and moisture, and a neutral lotion is used for normal healthy skin.

Conventionally, such a lotion is applied to the hand, and the lotion on the hand is rubbed on the face, etc., so that the lotion penetrates the surface of the skin.After the lotion is wetted with crayfish, etc., the lotion soaked in the crayfish is applied to the face, etc. The lotion has been penetrated.

However, as described above, when the lotion is applied to the skin in a liquid state and rubbed, the liquid particles are very large, so that the lotion does not smoothly penetrate into the skin.

Republic of Korea Patent Publication No. 10-1673093 (2016. 11. 07. Announcement)

The present invention is to provide an apparatus for producing a lotion spray that can contain a high concentration of hydrogen in the lotion filled in a pouch.

According to an aspect of the present invention, a can filled with compressed air in the inner space, a pouch accommodated in the inner space of the can and filled with lotion, a cover sealing the inner space of the can, one end connected to the pouch and the other end of the cover A device for manufacturing a lotion sprayer including a valve that penetrates through and is exposed to the outside to control whether or not the lotion is discharged.The inner space of the can with compressed air generating unit generating compressed air and compressed air supplied from the compressed air generating unit And a compressed air filling unit that seals the inner space of the can using a cover combined with a valve and a pouch, a lotion supply unit that supplies hydrogen to the lotion to provide a hydrogen-containing lotion, and the inside of the can An apparatus for manufacturing a hydrogen-containing lotion sprayer is provided, comprising a lotion injection unit for injecting a lotion containing hydrogen supplied from the lotion supply unit into a pouch accommodated in the space.

The lotion water supply unit is connected to a lotion tank for receiving lotion, a discharge line connected to the lotion tank to discharge the lotion, a hydrogen generator connected to the discharge line to generate hydrogen in the lotion discharged from the lotion tank, and a hydrogen generator connected to the hydrogen generator. It may include a supply line for supplying the lotion water containing hydrogen to the lotion tank by, and a circulation pump for circulating the lotion between the lotion tank and the hydrogen generator.

A discharge port for discharging the lotion water and supplying it to the lotion injection unit may be formed at the lower end of the lotion tank, and the lower portion of the lotion tank may be formed to have a smaller cross-sectional area toward the discharge port.

The supply line and the discharge line may be connected to the lower part of the toilet water tank, respectively.

The lotion tank has a circular cross section, and the supply line is connected to the outer periphery of the bottom of the lotion tank so that a swirling flow of the lotion is formed in the lotion tank to supply the lotion in the tangential direction of the outer circumference of the lotion tank, and the discharge line is in the center of the bottom of the lotion tank. It can be connected to discharge lotion.

The supply line supplies the lotion in a downwardly inclined direction so that a vortex of the lotion is formed in the lotion tank, and the discharge line may be connected to the lotion tank at a lower position than the supply line.

The supply lines are branched into a plurality of unit supply lines, and the plurality of unit supply lines may be spaced apart from each other by a predetermined distance and connected to the lower part of the lotion tank.

The apparatus for manufacturing a hydrogen-containing lotion sprayer may further include a nanobubble generator installed on the discharge line to generate nanobubbles containing hydrogen in the lotion.

The hydrogen-containing lotion sprayer manufacturing apparatus further includes a transfer unit for transferring the can from the compressed air filling unit to the lotion injection unit, and the can has a cylindrical structure, and the transfer unit includes a transfer screw for transferring the can according to rotation. And, the screw bone of the transfer screw may have a concave curved shape to correspond to the outer peripheral surface of the can.

According to another aspect of the present invention, a can filled with compressed air in the inner space, a pouch accommodated in the inner space of the can and filled with lotion, a cover sealing the inner space of the can, one end connected to the pouch and the other end of the cover As a method for manufacturing a lotion sprayer including a valve that penetrates through and is exposed to the outside to control whether or not to discharge the lotion, generating compressed air, filling the inner space of the can with compressed air, and combining the valve and the pouch. Comprising the steps of sealing the inner space of the can using a cover, supplying hydrogen to the lotion to provide a hydrogen-containing lotion containing hydrogen, and injecting the hydrogen-containing lotion into a pouch accommodated in the inner space of the can , A method of manufacturing a hydrogen-containing cosmetic spray is provided.

According to the present invention, by using the lotion supply unit, it is possible to fill a pouch with a lotion containing a higher concentration of hydrogen.

1 is a schematic view showing an apparatus for manufacturing a hydrogen-containing lotion spray according to an embodiment of the present invention.
Figure 2 is a flow chart showing a process of manufacturing a hydrogen-containing lotion sprayer using a hydrogen-containing lotion sprayer manufacturing apparatus according to an embodiment of the present invention.
Figure 3 is a plan view showing a lotion tank of a hydrogen-containing lotion sprayer manufacturing apparatus according to an embodiment of the present invention.
Figure 4 is a side view showing a lotion tank of the hydrogen-containing lotion sprayer manufacturing apparatus according to an embodiment of the present invention.
Figure 5 is a cross-sectional view showing a nano-bubble generator of the device for producing a hydrogen-containing lotion spray according to an embodiment of the present invention.
6 is a plan view showing a transfer unit of the apparatus for producing a hydrogen-containing lotion spray according to an embodiment of the present invention.

Since the present invention can apply various transformations and have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail in the detailed description. However, this is not intended to limit the present invention to a specific embodiment, it is to be understood to include all conversions, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the present invention, when it is determined that a detailed description of a related known technology may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. These terms are used only for the purpose of distinguishing one component from another component.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance.

Hereinafter, an embodiment of an apparatus for manufacturing a hydrogen-containing lotion sprayer according to the present invention will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, the same or corresponding components are given the same reference numbers, A redundant description of this will be omitted.

According to the present embodiment, as shown in FIGS. 1 to 6, a can 11 filled with compressed air in the inner space, a pouch 12 accommodated in the inner space of the can 11 and filled with lotion, and a can The cover 13 sealing the inner space of (11), a valve 14 having one end connected to the pouch 12 and the other end penetrating the cover 13 and exposed to the outside to control whether or not to discharge the lotion, and As an apparatus for manufacturing a lotion sprayer 10 consisting of a cap 15 coupled to the valve 14 and formed with a nozzle for spraying the lotion in an aerosol form, the compressed air generating unit 110, the compressed air filling unit ( 120), a lotion supply unit 130, a lotion injection unit 140, a nano-bubble generator 150, and a lotion sprayer manufacturing apparatus 100 including a transfer unit 160 is presented.

According to this embodiment, in the manufacture of the lotion sprayer 10 that sprays the lotion in the form of an aerosol to increase skin penetration, etc., by using the hydrogen generator 136 to generate hydrogen in the lotion and circulate it continuously It is possible to fill the pouch 12 by containing a higher concentration of hydrogen in the lotion.

In this embodiment, the lotion includes all lotions such as, for example, mist, skin, and essence, and in the case of cosmetics with high viscosity such as lotions, by adding purified water to adjust the viscosity, the lotion of this example Can be included in

Hereinafter, the apparatus 100 for manufacturing a hydrogen-containing lotion sprayer according to this embodiment will be described in more detail with reference to FIGS. 1 to 6.

The compressed air generating unit 110 is configured to generate compressed air, and may be configured with a compressor 112, an air tank 114, a dryer 116, and the like, as shown in FIG. 1.

The compressor 112 may generate compressed air by compressing external air at high pressure. The air can be compressed to a high pressure of 6 bar or more, for example 7 to 8 bar. The compressed air in this way may be transferred to and stored in the air tank 114. In addition, the compressed air stored in the air tank 114 may be filled in the inner space of the can 11 of the cosmetic sprayer 10 after moisture is removed through the dryer 116.

The compressed air charging unit 120 may receive compressed air from the compressed air generating unit 110 and fill the inner space of the can 11 with this compressed air, as shown in FIGS. 1 and 2, and then The inner space of the can 11 may be sealed by using the cover 13 in which the valve 14 and the pouch 12 are combined.

As shown in FIG. 2, the cover 13 is provided in a state coupled to the pouch 12 through the valve 14. In a state where the cover 13 is separated from the can 11, high-pressure compressed air is injected into the can 11, and then the upper entrance of the can 11 is blocked with the cover 13 to prevent the inside of the can 11 The space is sealed.

For example, as shown in FIG. 2, by expanding the cover 13 and in close contact with the inner wall of the can 11, it is possible to seal the inner space of the can 11, and if necessary, the cover 13 and the can 11 A separate sealing material may be added between.

The process of filling the compressed air and sealing the can 11 may be performed collectively through a known compressed air filling machine. The compressed air filling machine is connected to the upper inlet of the can 11 to secure a space for injecting compressed air by partially lifting the cover 13 while maintaining airtightness, and then filling the compressed air into the inner space of the can 11 After that, the upper entrance of the can 11 is closed with the cover 13 and the diameter of the cover 13 is enlarged using an expansion member to seal the inner space of the can 11.

Next, as shown in FIG. 2, the lotion is filled in the pouch 12, and the process will be described in more detail after the lotion supply unit 130 is described.

The lotion supply unit 130 may supply hydrogen to the lotion to provide the hydrogen-containing lotion to the lotion injection unit 140 by supplying hydrogen to the lotion as shown in FIG. 1.

As shown in FIG. 1, the lotion water supply unit 130 may include a lotion tank 131, a discharge line 135, a hydrogen generator 136, a supply line 137, and a circulation pump 139.

First, the lotion tank 131 may accommodate the lotion as shown in FIG. 1. The lotion tank 131 may have a circular cross section made of a cylindrical structure as a whole, and a tank cover 132 is installed at the top to open and close the tank, and a sealing member 133 is provided between the tank cover 132 and the tank. May be intervened.

In addition, an outlet 134 for discharging the lotion and supplying it to the lotion injection unit 140 may be formed at the bottom of the lotion tank 131, as shown in FIG. 1, and the lower portion of the lotion tank 131 is an outlet ( 134), the cross-sectional area may be smaller. More specifically, the lower part of the lotion tank 131 may be formed in a conical funnel structure.

As shown in FIG. 1, the discharge line 135 is connected to the lotion tank 131 to discharge the lotion, and it may be delivered to the hydrogen generator 136. In addition, the supply line 137 is connected to the hydrogen generator 136 to supply the lotion containing hydrogen to the lotion tank 131 again by the hydrogen generator 136. The circulation of the lotion between the lotion tank 131 and the hydrogen generator may be performed by the circulation pump 139.

As shown in FIG. 1, the supply line 137 and the discharge line 135 may be connected to a lower portion of the lotion tank 131, specifically adjacent to the discharge port 134. As the supply line 137 is connected close to the discharge port 134 as described above, the lotion water supplied with hydrogen by the hydrogen generator 136 flows into the lotion tank 131 and then immediately before the hydrogen gas rises, the discharge port ( Since it can be transferred to the lotion injection unit 140 through 134, a higher concentration of hydrogen can be contained in the lotion.

In addition, as the discharge line 135 is also closely connected to the discharge port 134, some of the lotion water supplied with hydrogen by the hydrogen generator 136 that is not transferred to the lotion injection unit 140 is directly passed through the discharge line 135. Since it is recycled to the hydrogen generator 136 to receive additional hydrogen, the hydrogen content of the lotion in the area near the lower outlet 134 of the lotion tank 131 can be increased to a maximum value and can be maintained continuously.

More specifically, the supply line 137 is connected to the outer periphery of the bottom of the lotion tank 131 so that a swirling flow of the lotion is formed in the lotion tank 131 along the inner wall of the lotion tank 131 as shown in FIG. Can be supplied in the tangential direction of the outer circumferential surface of the lotion tank 131.

That is, the supply line 137 may be connected to the discharge port 134 under the lotion tank 131, and specifically, may be connected in a circumferential direction near the outer circumference of the discharge port 134 to supply the lotion water. In this way, the supply line 137 is connected to the outer circumference of the lotion tank 131 in the tangential direction of the outer circumferential surface, so that a swirling flow can be formed inside the lotion tank 131, and accordingly, hydrogen in the lotion located in the lower area of the lotion tank 131 Diffusion and mixing can be promoted.

Here, the supply line 137 is branched into a plurality of unit supply lines 138, as shown in FIG. 3, and these unit supply lines 138 are radially spaced apart from each other by a predetermined interval, so that the lower part of the lotion tank 131 Can be connected to

As such, the plurality of unit supply lines 138 are arranged at regular intervals, thereby further promoting the formation of a swirling flow in the lotion tank 131.

In this case, as shown in FIG. 3, the discharge line 135 may be connected to the center of the toilet water tank 131 near the discharge port 134 to discharge the lotion. Accordingly, the growth of the swirling flow formed from the outer periphery of the lotion tank 131 may not be hindered as much as possible by the lotion supplied to the lotion tank 131, so that the smooth circulation of the lotion is facilitated while promoting the diffusion and mixing of hydrogen in the lotion water. It becomes possible.

In addition, the supply line 137 is connected to the outer periphery of the bottom of the lotion tank 131 so that a vortex of the lotion is formed along the inclined inner wall of the bottom of the lotion tank 131 in the lotion tank 131 as shown in FIG. Can be supplied in a downwardly inclined direction.

That is, the supply line 137 may be connected to supply the lotion in a direction inclined at a certain angle downward to the outer periphery of the lotion tank 131 as described above. Accordingly, the lotion supplied to the outer circumference of the lotion tank 131 is guided by the inner slope of the bottom of the lotion tank 131 and forms a conical (funnel) vortex that gathers to the center of the bottom of the lotion tank 131, Accordingly, diffusion and mixing of hydrogen in the lotion water located in the lower area of the lotion tank 131 can be promoted and the hydrogen content in the center of the bottom of the lotion tank 131 can be increased.

In this case, the discharge line 135 may be connected to the lotion tank 131 at a lower position than the supply line 137 as shown in FIG. 4. As described above, while the vortex of the lotion is formed, the center of the vortex is formed at a position below the point where the supply line 137 is connected to the lotion tank 131, so that the lotion tank 131 of the discharge line 135 is corresponding thereto. The connection position to and may be set lower than that of the supply line 137.

The hydrogen generator 136 is connected to the discharge line 135 and the supply line 137, respectively, as shown in FIG. 1, to generate hydrogen in the lotion discharged from the lotion tank 131 to be supplied back to the lotion tank 131. I can.

The hydrogen generator 136 may generate hydrogen according to the electrolysis principle, for example. In other words, a component of purified water such as a lotion, for example, a lotion, is electrolyzed to generate hydrogen.

The nano bubble generator 150 may be installed in the discharge line 135 as shown in FIG. 1 to generate nano bubbles containing hydrogen in the lotion. Nano bubbles mean ultra-fine bubbles of several hundred nm or less, and because these nano bubbles have less buoyancy as their volume is small, the rate of ascent to the surface is very slow, so they remain in the water for a long time. In this way, by forming nanobubbles of hydrogen, the amount of dissolved hydrogen in the lotion can be maintained for a long time, and skin absorption and penetration of the lotion can be remarkably increased.

The nano bubble generator 150 may include a flow guide part 152 and a multi-slit part 154 as shown in FIG. 5. The lotion that has passed through the hydrogen generator 136 enters the flow guide unit 152. The flow guide part 152 may be formed in a threaded structure. Accordingly, the lotion entering the flow guide unit 152 may flow in a spiral-shaped trajectory along the inner circumferential surface of this threaded structure. As described above, while flowing along the flow guide part 152, a shearing force acts by friction with the inner circumferential surface of the threaded structure, and thus hydrogen bubbles may be primarily decomposed.

Thereafter, the hydrogen bubble may pass through the multiple slit portions 154 and may be secondaryly refined by receiving a shearing force. That is, as shown in FIG. 5, the multi-slit portion 154 may have a three-layer structure in which the slit gradually becomes smaller, and the hydrogen bubbles in the lotion receive a large shearing force while passing through the multi-slit portion 154 to obtain a nano size. It can be micronized.

As described above, the hydrogen-containing lotion generated by the lotion supply unit 130 may be transferred to the lotion injection unit 140.

The lotion injection unit 140 is a hydrogen-containing lotion supplied from the lotion supply unit 130 to the pouch 12 accommodated in the inner space of the can 11 filled with compressed air as shown in FIGS. 1 and 2 Can be injected.

As shown in FIG. 2, the lotion can be injected into the pouch 12 accommodated in the can 11, and more specifically, the so-called bag on valve (BOV) integrally configured with the valve 14. This process can be performed through a known liquid injection device. After the liquid injection device is opened by pressing the valve 14 of the BOV, the lotion can be injected into the pouch 12 at high pressure.

When the injection of the lotion is completed in this way, the cap 15 having a nozzle formed on the valve 14 may be coupled, and the production of the lotion sprayer 10 is completed by combining the cap 15 as described above.

In the case of such a lotion sprayer 10, both the can 11 and the pouch 12 may be made of aluminum, and the dissolved hydrogen in the lotion can be stored for a long period of about one year or more according to the aluminum double packing structure.

Meanwhile, the transfer unit 160 may transfer the can 11 from the compressed air charging unit 120 to the lotion injection unit 140 as shown in FIG. 1. The transfer unit 160 may be configured with a transfer screw that transfers the can 11 according to rotation. The transfer screw 160 may be rotated by a motor. The rotation shaft of the motor and the rotation shaft of the transfer screw are connected by a power transmission means such as a belt, so that the driving force may be transmitted.

In this case, the screw bone 162 of the transfer screw may have a concave curved shape to correspond to the outer peripheral surface of the cylindrical can 11 as shown in FIG. 5. In this way, by forming the screw bone 162 of the transfer screw to correspond to the outer circumferential surface of the can 11, the cylindrical can 11 can be prevented from falling, and the can 11 can be transferred more stably and effectively.

Next, a method of manufacturing a hydrogen-containing lotion sprayer 10 according to another embodiment of the present invention will be described.

According to this embodiment, the can 11 filled with compressed air in the internal space, the pouch 12 accommodated in the internal space of the can 11 and filled with lotion, and a cover for sealing the internal space of the can 11 ( 13), a valve 14 that has one end connected to the pouch 12 and the other end penetrates the cover 13 and is exposed to the outside to control whether or not to discharge the lotion, and the valve 14 is coupled to this valve 14 to convert the lotion into an aerosol form. As a method for manufacturing a lotion sprayer 10 consisting of a cap 15 with a nozzle for spraying with, generating compressed air, filling the inner space of the can 11 with compressed air, and using a valve 14 ) Sealing the inner space of the can 11 using a cover 13 in which the pouch 12 is combined, supplying hydrogen to the lotion to provide a hydrogen-containing lotion containing hydrogen, and the can 11 A method of manufacturing a hydrogen-containing lotion sprayer 10 is provided, comprising the step of injecting a hydrogen-containing lotion into the pouch 12 accommodated in the inner space of ).

Each of these steps is performed by the compressed air generating unit 110, the compressed air charging unit 120, the lotion supply unit 130, and the lotion injection unit 140 described through the above-described embodiment, and the above-described implementation Since these configurations and the actions and effects thereof have been described through examples, and the corresponding processes have also been described, a more detailed description of each step of the present embodiment will be omitted.

As described above, one embodiment of the present invention has been described, but those of ordinary skill in the relevant technical field add, change, delete or add components within the scope not departing from the spirit of the present invention described in the claims. Various modifications and changes can be made to the present invention by means of the like, and it will be said that this is also included within the scope of the present invention.

10: lotion sprayer
11: can
12: pouch
13: cover
14: valve
15: cap
100: lotion sprayer manufacturing device
110: compressed air generating unit
112: compressor
114: air tank
116: dryer
120: compressed air charging unit
130: lotion supply unit
131: lotion tank
132: tank cover
133: sealing member
134: outlet
135: discharge line
136: hydrogen generator
137: supply line
138: unit supply line
139: circulation pump
140: lotion injection unit
150: nano bubble generator
152: flow guide portion
154: multiple slits
160: transfer unit
162: screw bone

Claims (10)

A can filled with compressed air in the inner space, a pouch accommodated in the inner space of the can and filled with lotion, a cover that seals the inner space of the can, and one end is connected to the pouch and the other end passes through the cover to An apparatus for manufacturing a lotion sprayer including a valve that is exposed to and can control whether or not the lotion is discharged,
A compressed air generating unit generating the compressed air;
A compressed air charging unit filling the inner space of the can with the compressed air supplied from the compressed air generating unit, and sealing the inner space of the can using the cover to which the valve and the pouch are combined;
A lotion supply unit supplying hydrogen to the lotion to provide a hydrogen-containing lotion containing the hydrogen; And
And a lotion injection unit for injecting the hydrogen-containing lotion supplied from the lotion supply unit into the pouch accommodated in the inner space of the can,
The lotion water supply unit,
A lotion tank for accommodating the lotion;
A discharge line connected to the lotion tank to discharge the lotion water;
A hydrogen generator connected to the discharge line to generate hydrogen in the lotion water discharged from the lotion tank;
A supply line connected to the hydrogen generator to supply the lotion water containing hydrogen to the lotion tank by the hydrogen generator; And
And a circulation pump for circulating the lotion between the lotion tank and the hydrogen generator,
It is installed in the supply line and further comprises a nano bubble generator for generating nano bubbles containing hydrogen in the lotion,
The nano bubble generator,
A flow guide that has a threaded inner circumferential surface to guide the spiral orbital flow of the lotion, and primarily decomposes hydrogen bubbles contained in the lotion flowing along the inner circumferential surface of the threaded structure by shear force due to friction with the inner circumferential surface part; And
A plurality of slits through which the lotion water passes are formed, and the hydrogen bubble contained in the lotion includes a multi-slit portion for secondary micronization by shearing force due to friction with the inner wall of the slit,
The flow guide part is located at the inlet side of the nano bubble generator,
The flow guide part is formed by forming a thread along the inner wall of the inlet side of the nanobubble generator,
The multiple slit portion is located at the outlet side of the nano bubble generator,
The multi-slit portion is made of a multi-layer structure in which the slit is arranged in multiple layers according to the size of the slit so that the size of the slit decreases toward the outlet of the nanobubble generator along the flow direction of the lotion water.
delete The method of claim 1,
A discharge port for discharging the lotion and supplying it to the lotion injection unit is formed at the bottom of the lotion tank,
The lower portion of the lotion tank is formed to have a smaller cross-sectional area toward the outlet, hydrogen-containing lotion sprayer manufacturing apparatus.
The method of claim 3,
The supply line and the discharge line are each connected to a lower portion of the lotion tank, hydrogen-containing lotion sprayer manufacturing apparatus.
The method of claim 4,
The lotion tank has a circular cross section,
The supply line is connected to the outer periphery of the bottom of the lotion tank to supply the lotion so that a swirling flow is formed along the inner wall of the lotion tank,
The discharge line is connected to the center of the bottom of the lotion tank to discharge the lotion, hydrogen-containing lotion sprayer manufacturing apparatus.
The method of claim 5,
The supply line is connected to the outer periphery of the bottom of the lotion tank to supply the lotion in a downwardly inclined direction so that a vortex is formed along the inner wall of the lotion tank,
The discharge line is connected to the lotion tank at a lower position than the supply line, hydrogen-containing lotion sprayer manufacturing apparatus.
The method of claim 5,
The supply line is branched into a plurality of unit supply lines,
The plurality of unit supply lines are spaced apart from each other by a predetermined interval and connected to the lower portion of the lotion tank, respectively.
delete The method of claim 1,
Further comprising a transfer unit for transferring the can from the compressed air charging unit to the lotion injection unit,
The can has a cylindrical structure,
The transfer unit includes a transfer screw for transferring the can according to rotation,
The screw bone of the transfer screw has a concave curved shape to correspond to the outer circumferential surface of the can, hydrogen-containing lotion sprayer manufacturing apparatus.
A can filled with compressed air in the inner space, a pouch accommodated in the inner space of the can and filled with lotion, a cover that seals the inner space of the can, and one end is connected to the pouch and the other end passes through the cover to As a method for manufacturing a lotion sprayer comprising a valve that is exposed to and can control whether or not the lotion is discharged,
Generating the compressed air;
Filling the inner space of the can with the compressed air, and sealing the inner space of the can using the cover to which the valve and the pouch are combined;
Supplying hydrogen to the lotion to provide a hydrogen-containing lotion containing the hydrogen; And
Injecting the hydrogen-containing lotion into the pouch accommodated in the inner space of the can,
The step of providing the hydrogen-containing lotion,
Generating hydrogen in the lotion using a lotion supply unit; And
Including the step of generating nano bubbles containing hydrogen in the lotion using a nano bubble generator,
The lotion water supply unit,
A lotion tank for accommodating the lotion;
A discharge line connected to the lotion tank to discharge the lotion water;
A hydrogen generator connected to the discharge line to generate hydrogen in the lotion water discharged from the lotion tank;
A supply line connected to the hydrogen generator to supply the lotion water containing hydrogen to the lotion tank by the hydrogen generator; And
And a circulation pump for circulating the lotion between the lotion tank and the hydrogen generator,
The nano bubble generator,
A flow guide that has a threaded inner circumferential surface to guide the spiral orbital flow of the lotion, and primarily decomposes hydrogen bubbles contained in the lotion flowing along the inner circumferential surface of the threaded structure by shear force due to friction with the inner circumferential surface part; And
A plurality of slits through which the lotion water passes are formed, and a multi-slit portion for secondary micronization of hydrogen bubbles contained in the lotion by a shear force according to friction with the inner wall of the slit,
The flow guide part is located at the inlet side of the nano bubble generator,
The flow guide part is formed by forming a thread along the inner wall of the inlet side of the nanobubble generator,
The multiple slit portion is located at the outlet side of the nano bubble generator,
The multi-slit portion comprises a multi-layered structure in which the slit is arranged in multiple layers according to the size of the slit so that the size of the slit decreases toward the outlet of the nanobubble generator along the flow direction of the lotion.

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