KR20050089436A - Oxygen injecting container and porous material applicable to the same - Google Patents

Abstract

The present invention provides a method or device for ingesting water and oxygen together to easily intake water and oxygen by incorporating an oxygen injecting device into a water cup, and a porous body manufactured to greatly increase the amount of oxygen dissolved in water. It is about the water cup to apply. The present invention is a container for holding water, an oxygen storage container is located on one side of the container and to discharge oxygen into the container, and an oxygen injection located on one side of the container, the oxygen is injected into the container from the oxygen storage container It is composed of a trigger means and a porous means for oxygen to be injected into the water contained in the container when oxygen is injected from the oxygen storage container is injected into the container.

Description

Oxygen injecting container and porous material applicable to the same}

The present invention relates to a porous body that is specifically applied to a container and a container having a structure that effectively dissolves oxygen in water so that oxygen is injected into the fine particles in water.

Needless to say, oxygen and water are essential for human life. Therefore, since the amount of oxygen naturally contained in drinking water or drinking water is insignificant (dissolved oxygen amount of 5 to 7 ppm), efforts have been made to intentionally dissolve oxygen in water and consume it as drinking water.

As one example, products that generate oxygen by dissolving oxygen-containing substances in water in the form of tablets (pills) and dissolving in water are commercially available. However, in the case of this product, since oxygen is basically generated by chemical reaction with water, there is a problem in that salt precipitates are generated as a by-product of oxygen generation, and it is soluble in water because the diffusion effect of generated oxygen is weak in water. It is not efficient because more sheep run away as bubbles than sheep.

Therefore, the present inventors have studied a method or a device for ingesting water and oxygen together from a completely different point of view of a conventional product, and can easily ingest water and oxygen by combining an oxygen injecting device with a water cup. The effect of the present invention was further doubled by applying a porous body prepared to greatly increase the amount of dissolved oxygen.

Accordingly, an object of the present invention is to provide a container of a structure in which an oxygen storage container is installed in a water cup so that a user can easily inject oxygen into water by hand.

It is another object of the present invention to provide a porous porous body which is specially prepared to dissolve in water as much as possible when oxygen is injected into the water in the container before the oxygen is injected out of the water. will be.

In order to achieve the above object, the present invention, a container containing water, an oxygen reservoir for ejecting oxygen into the container and is located on one side of the container, the oxygen from the oxygen reservoir into the container Oxygen injection trigger means to be injected, and the porous means for the oxygen is injected into the water contained in the container when the oxygen injected from the oxygen storage is injected into the container is fine particles.

The wall of the container has a double structure consisting of an inner wall and an outer wall, it is preferable that the inner wall and the outer wall is insulated, the oxygen storage tank is formed in a substantially cylindrical so that oxygen is filled inside, the oxygen by the pressure from the outside The oxygen injection port is injected, the oxygen injection trigger means is exposed to one side of the container so that the user can press, the means for operating the oxygen injection port of the oxygen reservoir by pressing the button, and the user Preferably, the oxygen jet port includes means for stopping operation when releasing the pressed button.

The porous means is located between the inner wall of the container and the oxygen injection port of the oxygen storage cylinder and is formed with fine pores, and serves to diffuse and spray fine particles when oxygen is injected from the oxygen injection port into the container, the porous body Is formed by mixing germanium powder, activated stone powder, ceramic powder, and carbon powder at high pressure.

Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings. Embodiments of the present invention in the drawings are configured as follows.

Container for holding water (10)-It is a cup that can hold water or beverages.

Located on one side of the container, the oxygen reservoir (12) for ejecting oxygen into the container-it is preferred that a large amount of pure oxygen or mixed air is charged and can be provided to the consumer by the recycling method of the container to the consumer.

Located on one side of the vessel, the oxygen injection triggering means for injecting oxygen into the vessel from the oxygen reservoir 12 (14)-It is a component that injects oxygen in the vessel by pressing or pulling the injection port of the vessel .

When the oxygen injected from the oxygen reservoir is injected into the water cup 10, the porous body means 16 to diffuse the fine particles into the water contained in the cup-generally oxygen (13) in the oxygen reservoir When it is sprayed, it is sprayed in one direction at a time, and then it is bubbled out of the water before oxygen is sufficiently dissolved in the water of the cup. It is a filter with many holes that prevents this and sprays the sprayed oxygen as finely as possible so that it can be sufficiently dissolved before leaving the water.

On the other hand, the wall of the vessel 10 has a double structure consisting of the inner wall 16 and the outer wall 18, it is possible to insulate between the inner wall 16 and the outer wall 18. This is not directly related to the object of the present invention, but because the oxygen solubility is lower as the temperature of the oxygen-dissolved water cup according to the present invention is an auxiliary configuration so as not to raise the temperature in the water cup as much as possible.

The oxygen storage cylinder 12 has an approximately cylindrical body so that oxygen is filled therein, and includes an oxygen injection port 20 through which oxygen is injected by the pressure from the outside. The oxygen injection port 20 can be easily implemented by those skilled in the art by applying a conventional structure.

The oxygen injection triggering means, the button 14 is exposed to one side of the container so that the user can press, the means for operating the oxygen injection port 20 of the oxygen reservoir 12 by pressing the button 14 And means for stopping the operation of the oxygen jet port 20 when releasing the button 14 pressed by the user.

That is, the button 14 is installed inside the handle 22 of the container so that the button 14 is pressed together when the user grasps the handle, and the oxygen injection port operating means is pressed by the button 14 being pressed. And a connecting rod 24 for moving the oxygen storage cylinder 12 to the oxygen injection port 20 for injection operation, and the oxygen injection port operation stop means stops the oxygen storage container 12 when the button 14 is released. A spring 26 for returning to its original position.

In the structure of Fig. 1, the oxygen injection port 20 is in place and the oxygen storage cylinder 12 is moved back and forth to show how oxygen is injected. However, since the structure in which oxygen is injected or stopped from the oxygen reservoir using the user's hand can be easily designed by those skilled in the art, the structure of Figure 1 in the technical scope of the present invention is only one preferred embodiment, of the present invention It does not limit the technical idea.

On the other hand, the porous means 16 is located between the inner wall 18 of the vessel 10 and the oxygen injection port 20 of the oxygen storage cylinder 12 and includes a myriad of fine pores in itself, the oxygen injection port When oxygen 13 is injected from the vessel 20 into the container 10, it serves to diffuse and inject oxygen into fine particles. In this way, oxygen can be sufficiently dissolved in water before leaving the water.

The porous body 16 can be made of a porous material, preferably 45-55% by weight germanium powder, 27-33% by weight active stone powder, 9-11% by weight ceramic powder, 9-11% by weight carbon powder By compression to high pressure.

In addition to these components, it may further comprise up to 1% by weight calcium hydroxide powder. Calcium hydroxide serves to promote the hardening of each powder when forming the porous body with each of the above substances, and can act as a deodorizing function of the water contained in the container 18 because it has a deodorizing function in itself.

In addition, in addition to these components, the porous body may further include up to 1% by weight of silver (Ag) powder. Silver (Ag) has a bactericidal and antibacterial effect.

On the other hand, when the container 10 is made of a metal material such as stainless steel, it is very preferable to apply a titanium coating on the surface of the inner wall 18 in contact with water. Since titanium has an antioxidant action, it is to prevent the water contact surface of the metal container from being oxidized or corroded when oxygen is dissolved in water.

In addition, it is highly desirable to apply titanium coating to not only the surface of the inner wall of the container 10 in contact with water, but also the inner surface of the oxygen storage container 12 and all surfaces through which oxygen flows.

In the present invention, since the ultimate object is to dissolve oxygen in water sufficiently so that the human body ingests high dissolved oxygen water, the magnet 32 is placed in place in the container 10 of the present invention to further solidify the object. Can be attached. It is well known that water is converted into magnetized water by magnetization of a magnet, and this magnetized water is beneficial to the human body.

In FIG. 1, the magnet 32 is represented as being installed below the container 10, but is not limited thereto. In the magnet 32, it is preferable that a plurality of magnet pieces are provided around the circumference of the container 10 at predetermined intervals.

According to the present invention, since it is possible to effectively make oxygen water beneficial to the human body, consumers can simply use the cup according to the present invention as if drinking water at ordinary times, and dissolved oxygen in water without using a specially made porous body. It has the advantage of being very economical and effective.

1 is a longitudinal sectional view illustrating the concept of the present invention.

Claims (19)

Container for water, Located on one side of the container, the oxygen reservoir for ejecting oxygen into the container, Located on one side of the container, the oxygen injection trigger means for injecting oxygen from the storage container into the container, And a porous body means for dispersing oxygen to be injected into the water contained in the container when oxygen injected from the oxygen storage container is injected into the container. The container according to claim 1, wherein a magnet provided around the circumference of the container further dissolves oxygen contained therein. The container according to claim 2, wherein the magnet dissolves oxygen in which a plurality of magnet pieces are installed around the circumference of the container at predetermined intervals. The container according to claim 1, wherein the wall of the container has a double structure consisting of an inner wall and an outer wall, and dissolves oxygen insulated between the inner wall and the outer wall. The method of claim 1, The oxygen storage cylinder is made of a cylinder so that the oxygen is filled in the inside, and includes an oxygen injection port in which oxygen is injected by the pressure from the outside; The oxygen injection triggering means includes a button exposed to one side of the container for the user to press, means for activating the oxygen injection port of the oxygen reservoir by pressing the button, and oxygen when the button is released by the user. Wherein the nozzle dissolves oxygen comprising means for stopping operation. The method of claim 5, The button is installed inside the handle of the container is pressed when the user grasps the handle, The oxygen injection port operation means includes a connection between the position to move the oxygen storage barrel oxygen injection port injection operation by pressing the button, The oxygen injection port operation stop means for dissolving oxygen containing a spring for returning the oxygen storage container to the home position when the button is released.  The method according to claim 1 or 5, wherein the porous means is located between the inner wall of the vessel and the oxygen injection port of the oxygen storage cylinder and formed fine pores, so that when the oxygen is injected into the container from the oxygen injection port into fine particles A vessel characterized by dissolving oxygen to be diffused and sprayed. The method of claim 7, wherein the porous body is formed by mixing 45-55% by weight of germanium powder, 27-33% by weight of active stone powder, 9-11% by weight of ceramic powder, 9-11% by weight of carbon powder and compressing them under high pressure. A container characterized by dissolving oxygen. The container according to claim 8, wherein the porous body dissolves oxygen in which 1% by weight or less of calcium hydroxide powder is further contained. The container according to claim 8 or 9, wherein the porous body dissolves oxygen in which 1% by weight or less of silver powder is further contained. The container according to any one of claims 1 to 6 or 8 or 9, wherein the surface of the container in contact with water dissolves oxygen that becomes a titanium coating. The container according to claim 7, wherein the surface of the container in contact with water dissolves oxygen that becomes a titanium coating. The container according to claim 10, wherein the surface of the container in contact with water dissolves oxygen that becomes a titanium coating. The container as claimed in claim 1, wherein the surface of the oxygen storage container in contact with the oxygen dissolves oxygen which becomes a titanium coating. The container as claimed in claim 7, wherein the oxygen contacting surface of the oxygen storage container dissolves oxygen to be coated with titanium. The container as claimed in claim 10, wherein the oxygen contacting surface of the oxygen storage container dissolves oxygen that becomes a titanium coating. An object that stores air and diffuses the air injected from the container into fine particles, 45-55% by weight of germanium powder, 27-33% by weight active stone powder, 9-11% by weight ceramic powder, 9-11% by weight carbon powder is a porous body characterized in that formed by compression at high pressure. 18. The porous body according to claim 17, wherein the porous body further contains 1 wt% or less of calcium hydroxide powder. 19. The porous body according to claim 17 or 18, wherein the porous body further contains 1 wt% or less of silver powder.