KR20200029816A - Oxygen charging mist containers - Google Patents

Abstract

The present invention relates to an eco-friendly oxygen mist container. The eco-friendly oxygen mist container according to the present invention may comprise: a cylindrical housing body (100) made of an injection material of a plastic material while having an accommodating space for accommodating liquid therein; a spraying part (200) formed on an upper side of the housing body (100) and performing a pressing operation by external pressure to spray the liquid accommodated in the accommodation space to the outside; an upper cap (300) covering the upper circumference of the spraying part (200) and coupled to the upper side of the housing body (100); and a docking part (400) formed at a lower part of the housing body (100) and accommodating and fitting an inlet part of an oxygen container for injecting compressed oxygen. According to the present invention, pollution possibility can be prevented.

Description

Eco-friendly oxygen mist container {OXYGEN CHARGING MIST CONTAINERS}

The present invention relates to an eco-friendly oxygen mist container, and more specifically, to simplify the watertight structure of an injection part for forming an elastic member composed of a non-metallic material for pressing the injection part and forcibly injecting compressed oxygen into the plastic container. The present invention relates to an eco-friendly oxygen mist container that prevents contamination of the liquid inside the container that is misted and sprayed, and effectively prevents gas leakage injected into the container.

In general, the structure of the skin is composed of three layers: the epidermis (EPIDERMIS), dermis (DERMIS) and subcutaneous tissue (SUBCUTANEOUS TISSUE) from the outside.

Of these, the epidermis is located on the outermost part of the skin and prevents foreign substances from penetrating into the body and plays an important role in preventing moisture evaporation in the body. Although it differs depending on body parts, it has an average thickness of 1.1 mm.

In addition, the dermis contains collagen which is a collagen fiber and elastin, which is an elastic fiber, to maintain the elasticity of the skin, and when the average thickness is about 2 mm and the dermis is damaged by UV rays, troubles such as skin wrinkles may occur. do.

Lastly, the subcutaneous tissue is a layer between the dermis, muscles, and skeleton, and is a layer in which fibers descending from the dermis are coarse, and the thickness of the subcutaneous tissue varies depending on the region and shows a very large difference according to gender and age.

One of the most important roles of the epidermis in this skin structure is moisture control. Among the various layers of the epidermis, the stratum corneum suppresses the loss of moisture and electrolyte through the skin, so that the skin can maintain normal biological functions. It provides the environment and serves to prevent harmful factors from the outside environment from entering the skin when it invades the skin.

It is the degree of hydration of the skin that indicates the moisture content inside the stratum corneum, and the moisture state of the skin varies from person to person, part to body, and season to season. Maintaining the optimum level of skin hydration is the first step in skin health.

In order to supply moisture to the skin, it is most basic to continuously consume a sufficient amount of water. In order to supply moisture to the stratum corneum of the epidermis, the outermost layer of the skin, as well as throughout the body, a considerable amount of water is continuously consumed. It is necessary to give.

However, in the daily life of modern people, it is difficult to provide an environment capable of sufficiently drinking the required amount of water when necessary, and especially in the city, air is polluted by automobile fumes and dust, which adversely affects the skin, making the skin dryer. do.

In view of these problems, a device for supplying water directly to the skin has been popularized. From a simple device that simply sprays water by pumping, a device that sprays steam generated by heating, atomizes water by ultrasonic vibration and ejects it. Various mist devices have been proposed, such as the device to be used. In particular, the nebulizer using ultrasonic vibration has the advantage of facilitating absorption into the skin by minimizing moisture particles, and thus many studies have been conducted.

Most of the mist devices as described above are fluid injection devices using the principle of Bernoulli, in which the pressure increases or decreases as the speed of the fluid increases or decreases. The fluid spray device is mainly formed so that the lotion is supplied to the central portion of the nozzle.

And the air to be sprayed while misting the lotion is formed to be supplied to the edge of the nozzle. Such lotion and air are formed to meet each other at the injection hole formed at the end of the nozzle.

On the other hand, if the container for spraying mist is classified according to the mist discharge method, it can be roughly divided into two types.

One is a container mainly used in perfumes, etc., in which the liquid inside the container is misted and discharged by pressing the head. These containers are usually made of glass bottles, or sometimes plastic, and the inner liquid is sprayed when the head is pressed once, but in order to spray the liquid additionally, the hand must be released from the head and then pressed again. (Perfume, etc.) is sprayed. It is a structure in which the internal liquid is no longer ejected even though the internal liquid is sprayed while being pressed once and remains pressed.

The other is a container of a method used for a hair spray or a cosmetic mist sprayed on the face, where the liquid inside the container is misted and continuously discharged when the head is held down. You can also think of mosquito repellent roots. This is a method to improve the discomfort of discharging the mist only when the spray device on the head of the first method is pressed.

The push button on the head serves to open only the door of the nozzle, and the liquid is continuously sprayed while the nozzle is opened by the expanding force of the gas contained in the container together with the liquid. At this time, the gas used for the purpose of giving the expansion force, Freon gas is used for industrial products, and it is common to use nitrogen gas for compression such as for cosmetics.

Since compressed nitrogen gas has a very large expansion force, all cosmetic containers that use nitrogen gas use aluminum containers, and the aluminum container of the head and the body with a nozzle is integrated to prevent explosion due to nitrogen gas expansion. It is usually made of. Therefore, nitrogen is compressed and filled, and the head and body container of the nozzle part are integrally made of aluminum, so the cost of making the container is high, and a lot of time and attention are required, which increases the production time per unit time. .

In addition, even if a consumer carries a cosmetic mist product made of an aluminum can container containing nitrogen gas, the mist cannot be used due to gas leakage or there is always a risk of nitrogen gas explosion.

Therefore, it is possible to prevent the gas injected into the container from leaking easily, and there is an urgent need for a new technology that is practical and applicable to a portable cosmetic mist container, which is less difficult to manufacture and has less risk of explosion.

Prior art related to the present technology includes Korean Patent Registration No. 1017479130000 (Registration Date: 2017.06.09), and the prior document discloses a technology for a portable cosmetic hydrogen sterilizing water mist device.

The object of the present invention is to form a resilient member formed for the pressing operation of the injection part by using a non-metallic material and simplifying the watertight structure of the injection part for forcibly injecting compressed oxygen into the plastic container, thereby misting the liquid inside the container It is to provide an environmentally friendly oxygen mist container that can effectively prevent gas leakage injected into the container while preventing contamination.

In order to achieve the above object, the present invention provides an environmentally friendly oxygen mist container.

The eco-friendly oxygen mist container includes a cylindrical housing main body 100 formed of an injection material of a plastic material while having a receiving space for accommodating a liquid therein; An injection unit 200 formed on an upper side of the housing body 100 and performing a pressing operation by external pressure to inject the liquid contained in the accommodation space to the outside; An upper cap 300 covering the upper circumference of the injection unit 200 and coupled to the upper side of the housing main body 100; And a docking part 400 formed at a lower portion of the housing body 100 and receiving and fitting an inlet part of an oxygen container for injecting compressed oxygen.

The housing body 100, the upper coupling housing 110 supporting the pressing operation by the external pressure and the pressing member constituting the injection unit 200 is disposed upward; And a lower coupling housing 120 that is disposed below the upper coupling housing 110 and accommodates a liquid injected in response to a pressing operation of a pressing member constituting the injection unit 200.

The injection unit 200 is provided with an elastic member 201 made of a non-metallic material that flows according to up and down pressure in response to the pressing operation of the pressing member 210 to mist the liquid contained in the lower coupling housing 120. It may include a mist injection means 220 for spraying with.

The elastic member 201 may be formed in a circular tube shape of a rubber material communicating with the upper and lower center portions open.

The docking portion 400 includes a concave groove portion 410 formed in an upper vertical direction in the center of the lower surface of the housing body 100 to accommodate the inlet portion of the oxygen container; And a hole cover 420 covering the compressed oxygen injection hole 411a formed in the concave groove portion 410 inside the housing body 100 to prevent leakage of compressed oxygen injected through the oxygen container. can do.

The concave groove portion 410 has a trapezoidal shape in cross section, accommodates an inlet portion of the oxygen container, and a compressed oxygen injection hole 411a closely closed by the hole cover 420 is formed on an inclined surface of the trapezoidal cross section. A first concave groove portion 411; And a second concave groove portion 412 having a fitting protrusion 412a for fixing and supporting the inlet portion of the oxygen container by fitting, and communicating with the lower end of the first concave groove portion 411. It can be provided.

The hole cover 420 causes the periphery of the compressed oxygen injection hole to be lifted by the pressure of compressed oxygen injected using the oxygen container to form a flow path through which compressed oxygen flows, and the injection of compressed oxygen into the housing body is completed. When the compressed oxygen is injected into the housing body, a portion in contact with the compressed oxygen injection hole may be closed to close the flow path through which the compressed oxygen flows.

The hole cover 420 is a rubber-made circular tube having a coupling protrusion 420a for coupling to the lower lower stepped portion outside the housing body of the concave groove portion 410 constituting the docking portion 400. It can be formed in the form.

The docking portion 400 may include a concave groove cover portion 430 that covers an open lower portion of the concave groove portion 410 when compressed oxygen injection is completed.

The cover portion 430 of the concave groove portion may include a fitting portion 431 for engaging the fitting protrusion 412a of the second concave groove portion in an interference fit method.

As described above, the present invention, by forming the material of the elastic member through which the lotion is passed through the pressing operation of the injection portion made of a non-metallic material has the effect of fundamentally preventing the possibility of contamination due to the spraying means using a spring of a conventional metal material There is.

In addition, the present invention, the hole cover by the pressure of the compressed oxygen received in the housing body by providing a hole cover to cover the compressed oxygen injection hole of the concave groove portion constituting the docking portion formed at the bottom of the housing body having an elastic force inside the housing body A, it is possible to completely close the portion of the compressed oxygen injection hole that comes into contact with the inside of the housing, effectively blocking the possibility of leakage after injection of compressed oxygen.

In addition, the present invention, since the portable oxygen mist container can be made of an injection material made of plastic, it is possible to inject the container, thereby making it possible to rapidly produce a large amount of containers at a low cost.

In addition, the present invention can reduce the risk of explosion by using oxygen gas instead of nitrogen gas, which has a high explosive force, and thus has a risk of explosion, thereby making it possible to manufacture mist containers made of plastic, thereby reducing the production cost compared to aluminum containers. It has the effect of lowering.

In addition, the present invention has the advantage of being able to supply oxygen together with mist to the skin by mixing oxygen gas with lotion, thereby improving the moisture moisturizing effect and skin protection effect of the mist.

In addition, according to the present invention, by having a structure capable of directly injecting compressed oxygen gas, the number of parts is reduced and the oxygen injection process can be reduced compared to a structure in which a separate container storing only compressed oxygen is installed and injected into a mist container, thereby increasing productivity. It has the effect of improving.

1 is a cross-sectional view showing an eco-friendly oxygen mist container according to an embodiment of the present invention.
FIG. 2 is an exploded view of the eco-friendly oxygen mist container shown in FIG. 1.
3 is a view for explaining the injection unit shown in FIG.
4 is a view for explaining the docking unit shown in FIG. 1.
5 is a view showing the hole cover of the docking portion shown in FIG. 4.
6 to 7 are views respectively showing a case where compressed oxygen is injected and a case where the oxygen is injected through the hole cover and the compressed oxygen injection hole according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the drawings so that those skilled in the art to which the present invention pertains can easily practice.

The present invention can be implemented in many different forms and is not limited to the embodiments described herein.

In order to clearly describe the present invention, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar elements throughout the specification.

In the following, any configuration provided or disposed in the "top (or bottom)" of the substrate or the "top (or bottom)" of the substrate means that any configuration is provided or disposed in contact with the top surface (or bottom surface) of the substrate. Means

Further, it is not limited to not including other configurations between the above-described substrate and any configuration provided or disposed on (or under) the substrate.

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

1 is a combined cross-sectional view showing an eco-friendly oxygen mist container according to an embodiment of the present invention, and FIG. 2 is an exploded view of the eco-friendly oxygen mist container shown in FIG. 1.

1 to 2, an eco-friendly oxygen mist container according to an embodiment of the present invention includes a housing body 100, an injection unit 200, an upper cap 300, and a docking unit 400 can do.

More specifically, first, the housing body 100 is formed of an injection material of a plastic material with a receiving space for receiving a liquid therein and has a cylindrical shape.

At this time, the housing body 100, as shown in the drawing, the upper coupling housing 110 for fixing the injection unit 200 to the upper side is disposed and the lower coupling housing 120 for receiving the liquid to the lower side Arranged, the upper coupling housing 110 and the lower coupling housing 120 may be screwed using a screw thread to constitute the housing body 100.

Here, the upper coupling housing 110, the pressing member constituting the pressing operation by the external pressure and constituting the injection unit 200 may be disposed upward.

In addition, the lower coupling housing 120 is disposed below the upper coupling housing 110, and as described above, the liquid injected in response to the pressing operation of the pressing member constituting the injection unit 200 is Can be accommodated.

On the other hand, in the embodiment of the present invention, the housing body 100 is made of a plastic material, it may be because the use of containers made of a material such as aluminum as a mist container in the container field used for beauty in Korea.

In addition, the housing body 100 is formed of a transparent plastic material, the upper end is opened.

Next, as shown in the drawing, the injection unit 200 is formed on the upper side of the housing body 100, and performs a pressing operation by external pressure to spray the liquid contained in the accommodation space to the outside You can.

Here, the injection unit 200 is flowed according to the pressure up and down, according to the pressure difference, the structure to spray the liquid stored in the interior of the housing body 110 as a mist whose configuration is a normal method except for the elastic member This can be applied.

Next, the upper cap 300 covers the upper circumference of the injection unit 200 and may be coupled to the upper side of the housing body 100. At this time, the upper cap 300 according to an embodiment of the present invention, may be combined by applying a screw or screw method to cover the injection unit 200 from the outside.

Next, the docking portion 400, as shown in the figure, is formed on the lower portion of the housing body 100, it can be fitted to accommodate the inlet of the oxygen container for injecting compressed oxygen.

The injection and docking parts constituting the eco-friendly oxygen mist container according to the embodiment of the present invention will be described in more detail with reference to FIGS. 3 to 5 as follows.

3 is a view for explaining the injection unit shown in Figure 1, Figure 4 is a view for explaining the docking unit shown in Figure 1, Figure 5 is a view showing the hole cover of the docking unit shown in FIG.

As shown in Figure 3, the injection part 200 constituting the eco-friendly oxygen mist container according to an embodiment of the present invention, the elasticity of the non-metallic material flowing according to the vertical pressure in response to the pressing operation of the pressing member 210 It may be provided with a member 201 may be provided with a mist spraying means 220 for spraying the liquid contained in the lower coupling housing 120 as a mist.

At this time, according to an embodiment of the present invention, the elastic member 201 may be formed in a circular tube shape of a rubber material communicating with the upper and lower center portions open.

Therefore, the eco-friendly oxygen mist container according to the embodiment of the present invention prevents the possibility of rust by using the metal spring in the conventional mist spraying means by forming the material of the elastic member through which the lotion passes through by using a non-metallic rubber material. It can easily solve the problem of hassle of separating and discharging metal parts when disposing of recycled waste.

In addition, as shown in Figure 4, the docking part 400 constituting the eco-friendly oxygen mist container according to an embodiment of the present invention, the recess groove 410 and the hole cover 420 and the recess groove cover 430 It may be provided.

More specifically, the concave groove 410 is formed in the upper vertical direction from the center of the lower surface of the housing body 100 in the form of receiving the inlet of the oxygen container to inject compressed oxygen directly through the oxygen container. Concave groove portion 410 can be formed.

Here, the concave groove portion 410 has a trapezoidal cross-section and accommodates the inlet of the oxygen container, and the compressed oxygen injection hole 411a closed close by the hole cover 420 has an inclined surface of the trapezoidal cross-section. A first concave groove portion 411 formed in the upper portion of the first concave groove portion 411 is provided with a fitting protrusion 412a for fixing and supporting the inlet portion of the oxygen container by fitting. A second concave groove 412 in communication may be provided.

In addition, the hole cover 420, a compressed oxygen injection hole (411a) formed in the concave groove 410 inside the housing body 100 to prevent leakage of compressed oxygen injected through the inlet of the oxygen container I can cover it.

At this time, as shown in Figure 5, the hole cover 420, the lower end of the engaging projection 420a for coupling to the housing body direction outer bottom stepped portion of the concave groove 410 constituting the docking portion 400 It may be formed in the form of a circular tube of rubber material provided in the stepped portion.

In addition, in the embodiment of the present invention, the docking portion 400, as shown in Figure 4, when the compressed oxygen injection is completed, the concave groove cover portion 430 covering the open lower portion of the concave groove portion 410 ), Wherein the cover portion 430 of the concave groove portion may include a fitting portion 431 to be fitted with the fitting protrusion 412a of the second concave groove portion in an interference fit method.

As described above, according to an embodiment of the present invention, it can be seen that the docking part 400 is provided at the bottom of the housing body 100 and serves to guide the injection of compressed oxygen.

At this time, although not shown in the drawing, a flow path having a check valve may be formed in the center of the concave groove cover portion 430 according to the present invention.

That is, through the flow path, when the inlet portion of the oxygen container enters and external compressed oxygen is injected, the check valve may open the flow path so that the external compressed oxygen is forcedly introduced, and conversely, the inlet portion of the oxygen container is the When separated from the flow path, the check valve can be closed and kept closed.

6 to 7 are views respectively showing a case where compressed oxygen is injected and a case where the oxygen is injected through the hole cover and the compressed oxygen injection hole according to an embodiment of the present invention.

As shown in the figure, according to an embodiment of the present invention, the hole cover 420 constituting the docking portion 400, the inside of the housing body 100 to prevent leakage of compressed oxygen injected through the oxygen container The compressed oxygen injection hole 411a formed in the concave groove portion 410 may be covered.

Due to this, the hole cover 420 causes the periphery of the compressed oxygen injection hole 411a to be lifted by the pressure of the compressed oxygen to be injected to form a flow path through which compressed oxygen flows, and is compressed into the housing body 100. When the oxygen injection is completed, the portion in contact with the compressed oxygen injection hole 411a is closed by the pressure of compressed oxygen accommodated in the housing body 100 to close the flow path through which the compressed oxygen flows, and the product In use, leakage of compressed oxygen accommodated in the housing body 100 can be prevented.

As described above, the present invention has the effect of fundamentally preventing the possibility of contamination due to the spraying means using the spring of the conventional metal material by forming the material of the elastic member through which the lotion is passed through the pressing operation of the spraying unit. .

In addition, the present invention, the hole cover by the pressure of the compressed oxygen received in the housing body by having a hole cover to cover the compressed oxygen injection hole of the concave groove portion constituting the docking portion formed at the bottom of the housing body with an elastic force inside the housing body A, it is possible to completely close the portion of the compressed oxygen injection hole that comes into contact with the inside of the housing, effectively blocking the possibility of leakage after injection of compressed oxygen.

In addition, the present invention, since the portable oxygen mist container can be made of an injection material made of plastic, it is possible to inject the container, thereby making it possible to rapidly produce a large amount of containers at a low cost.

In addition, the present invention can reduce the risk of explosion by using oxygen gas instead of nitrogen gas, which has a high explosive force, and thus has a risk of explosion, thereby making it possible to manufacture mist containers made of plastic, thereby reducing the production cost compared to aluminum containers. It has the effect of lowering.

In addition, the present invention has the advantage of being able to supply oxygen together with mist to the skin by mixing oxygen gas with lotion, thereby improving the moisture moisturizing effect and skin protection effect of the mist.

In addition, according to the present invention, by having a structure capable of directly injecting compressed oxygen gas, the number of parts is reduced and the oxygen injection process can be reduced compared to a structure in which a separate container storing only compressed oxygen is installed and injected into a mist container, thereby increasing productivity. It has the effect of improving.

As described above, specific embodiments of the eco-friendly oxygen mist container of the present invention have been described, but it is obvious that various implementation modifications are possible without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the described embodiments, and should be defined not only by the claims described below but also by the claims and equivalents.

That is, the above-described embodiment is illustrative in all respects, and should be understood as not limiting, and the scope of the present invention is indicated by the claims to be described later rather than the detailed description, and the meaning and scope of the claims and It should be construed that any altered or modified form derived from the equivalent concept is included in the scope of the present invention.

100: housing body 110: upper coupling housing 120: lower coupling housing
200: injection unit 201: elastic member 210: pressing member
220: mist spraying means 300: upper cap 400: docking part
410: concave groove 411: first concave groove 411a: compressed oxygen injection hole
412: second concave groove portion 412a: fitting protrusion 420: hole cover
420a: engaging projection 430: recess groove cover portion 431: fitting

Claims (10)

A cylindrical housing body 100 formed of an injection material made of plastic while having a receiving space for receiving liquid therein;
An injection unit 200 formed on an upper side of the housing body 100 and performing a pressing operation by external pressure to inject the liquid contained in the accommodation space to the outside;
An upper cap 300 covering the upper circumference of the injection unit 200 and coupled to the upper side of the housing main body 100; And
Eco-friendly oxygen mist container comprising a; formed on the lower portion of the housing body 100, the docking portion 400 for receiving the fitting of the inlet of the oxygen container for injecting compressed oxygen. According to claim 1, The housing body 100,
An upper coupling housing 110 in which a pressing member constituting the injection part 200 is disposed upward to support a pressing operation by external pressure; And
It is disposed below the upper coupling housing 110 and the lower coupling housing 120 that accommodates the liquid injected in response to the pressing operation of the pressing member constituting the injection unit 200; Oxygen mist container. According to claim 2, The injection unit 200,
Mist spraying means (220) having a non-metallic elastic member (201) that flows according to the up and down pressure in response to the pressing operation of the pressing member (210) to spray the liquid contained in the lower coupling housing (120) as mist. ); Eco-friendly oxygen mist container comprising a. According to claim 3, The elastic member 201,
An eco-friendly oxygen mist container, characterized in that the upper and lower center portions are formed in a circular tube shape of a rubber material communicating with the opening. The method of claim 1, wherein the docking unit 400,
A concave groove portion 410 formed in the upper vertical direction from the center of the lower surface of the housing body 100 to accommodate the inlet portion of the oxygen container; And
In order to prevent leakage of compressed oxygen injected through the oxygen container, a hole cover 420 covering the compressed oxygen injection hole 411a formed in the concave groove portion 410 inside the housing body 100 is provided. Eco-friendly oxygen mist container characterized in that. The method of claim 5, wherein the recess groove 410,
A first concave groove portion 411 having a trapezoidal cross section and receiving an inlet of the oxygen container, and a compressed oxygen injection hole 411a closed close by the hole cover 420 formed on an inclined surface of the trapezoidal cross section ; And
A second concave groove 412 provided with a fitting protrusion 412a for fixing and supporting the inlet part of the oxygen container by fitting, and communicating with the lower end of the first concave groove 411; Eco-friendly oxygen mist container, characterized in that. The method of claim 6, wherein the hole cover 420,
The compressed oxygen injection hole is excited by the pressure of the compressed oxygen injected using the oxygen container to form a flow path through which compressed oxygen flows,
When the injection of compressed oxygen into the housing body is completed, a portion in contact with the compressed oxygen injection hole may be closed by the pressure of compressed oxygen contained in the housing body to close the flow path through which the compressed oxygen flows. Eco-friendly oxygen mist container. The method of claim 7, wherein the hole cover 420,
The concave groove 410 constituting the docking portion 400 is formed in the shape of a rubber-like circular tube having a coupling protrusion 420a for coupling to an outer lower stepped portion in the housing body direction. Eco-friendly oxygen mist container. The method of claim 8, wherein the docking unit 400,
An environment-friendly oxygen mist container comprising a; when the compressed oxygen injection is completed, a concave groove cover portion 430 that covers the opened lower portion of the concave groove portion 410. 10. The method of claim 9, The recess groove cover 430,
Eco-friendly oxygen mist container characterized in that it comprises a fitting protrusion 431 to be fitted in a forced fitting manner with the fitting protrusion 412a of the second concave groove.

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