KR101272746B1 - Apparatus For Producing Beverage - Google Patents

Abstract

The present invention relates to a functional food and beverage maker for producing oxygen water or carbonated water by supplying oxygen or carbon dioxide from the outside as required by the user. The composition is; Container body (1) that can hold a certain amount of water; Installed in the container body (1), the gas tube coupling portion 11 for installing the gas tube (7) for storing gas, and withdrawal of the gas from the gas tube (7) to the container body (1) It characterized in that it comprises a gas supply unit 5 consisting of a pressure adjusting unit 13 for supplying discharged to the inside.

Description

Functional food and beverage maker {Apparatus For Producing Beverage}

The present invention relates to a functional food and beverage manufacturing apparatus, and more particularly, to a functional food and beverage manufacturing apparatus that can supply oxygen or carbon dioxide from the outside according to the needs of the user to produce oxygen water or carbonated water.

Many studies have been made on the effects of abundant oxygen on the human body, and methods of supplying oxygen have been invented in many ways. Oxygen is known to produce beneficial effects not only through the respiratory system but also directly on the skin.

Since oxygen exists in a gaseous state in a standard state, a general supply method of oxygen may be considered to use a human respiratory system. The supplied oxygen enters the lungs, binds with hemoglobin, and is then supplied to each part of the body along the blood vessels. However, the amount of oxygen supplied to the body through this process is less than the amount supplied, the supply efficiency is known to 20 to 30%.

On the other hand, oxygen generators are provided for urban people who need to spend a lot of time in a closed place. Oxygen generators have become a useful means for energizing the body, including the brain, by supplying oxygen to the closed space. Therefore, oxygen generators are widely installed in rest rooms, reading rooms, hotels, offices or public saunas. In addition, portable spray-type oxygen products are on the market, which can be used for aerobic exercise such as mountain climbing, health or marathon, or as a first aid in case of disaster.

Although these oxygen products are efficient by supplying oxygen directly to the individual's respiratory system, there are still some areas that are not satisfactory in efficiency because gaseous oxygen is supplied through the respirator. According to the study, the utilization efficiency of oxygen supplied through the respiratory system is less than 10%.

An object of the present invention for the above problem is to provide a method or apparatus for supplying oxygen to the human body in a more efficient way than through the respiratory system. It is a specific object of the present invention to provide an oxygen water generator which is convenient and safe for use by an individual.

It is another object of the present invention to provide a functional food and beverage maker that can produce carbonated water, which is currently used favorably, apart from oxygen water.

The above object is a container body that can hold a certain amount of water; The gas supply unit, which is installed in the container body, includes a gas tube coupling unit for installing a gas tube storing gas, and a pressure adjusting unit which draws gas from the gas tube and discharges the gas into the container body. It is achieved by a functional food and beverage maker characterized in that.

According to a feature of the invention, the functional food and beverage manufacturing apparatus may further include a lid body for sealing the container body. And when the cap body is coupled to the container body may be such that the pressure inside the container body is raised than the pressure around.

According to another feature of the invention, the gas tube can be detachably coupled to the gas tube coupling portion to enable exchange after use.

According to another feature of the present invention, the gas supply unit may further include an atomizing unit for allowing the gas discharged from the pressure adjusting unit to be supplied to the container body in a state of fine bubbles.

According to still another feature of the present invention, the atomizing unit includes a pressure chamber spaced apart from the space of the container body and the porous member as a space for storing the gas discharged from the pressure adjusting unit; As the pressure of the pressure chamber is increased, gas may be supplied to the food and beverage in the container body through the porous member. Here, the porous member may be selected from materials having pores of a size such that wood, ceramic, carbon, onggi, and other gas molecules are passed and water molecules cannot pass.

According to the functional food and beverage maker as described above, by supplying oxygen to the body through drinking water rather than a respirator, it is possible to make oxygen water that can increase the oxygen absorption rate by about 40% or more. In addition, there is provided a functional food and beverage making machine that can easily prepare and consume carbonated water. Further, by reducing the particles of the gas supplied to the water contained in the container body it is possible to greatly increase the dissolved amount of the gas. In addition, the gas tube can be easily replaced, so that the consumer can conveniently purchase and use it.

1 is a cutaway perspective view of a functional food and beverage production machine according to an embodiment of the present invention.
2 is a cross-sectional view of a functional food and beverage maker according to an embodiment of the present invention.
Figure 3 is a cross-sectional view of the container body of the functional food and beverage manufacturing apparatus according to another embodiment of the present invention.

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

Container body 1 that can hold a certain amount of water has a form similar to a conventional water bottle (jar). The storage capacity of the container body (1) is expected to be 1.2 ~ 5.0l, but is not necessarily limited thereto. The material of the container body 1 may also be variously selected, such as glass, synthetic resin, stainless steel, or ceramic. The container body 1 may be attached to the handle (3).

The gas supply unit 5 is installed in the container body 1, according to this embodiment the gas supply unit 5 is installed in the bottom portion of the container body (1). The container body (1) contains a variety of pre-processing food and beverage (B), such as bottled water, barley tea, corn tea, juice or green tea.

The main core of the present invention is to directly install the gas supply unit 5 in the container body 1 having the function of a water bottle or a water bottle, and furthermore, there is a secondary key to its installation structure. Hereinafter, the gas supply unit 5 will be described. The gas referred to here can be oxygen (O ₂ ) or carbon dioxide (CO ₂ ). If the gas is oxygen, the food and beverage will be oxygen water. If carbon dioxide, it will be carbonated water (H ₂ CO ₃ aqueous solution).

The gas supply unit 5 includes a gas tube 7 which stores gas in a compressed state and a pressure reducer 9 which decompresses and extracts gas from the gas tube 7.

The storage capacity of the gas tube 7, which is a pressure vessel, is appropriately 0.05 to 0.5 l, but this also does not limit the scope of the present invention. The pressure reducer 9 draws gas from the gas tube coupling part 11 for installing the gas tube 7 to the body of the pressure reducer 9 and the gas tube 7, and discharges the gas into the container body 1. It consists of the pressure adjusting part 13 to make. The construction and operation of the pressure reducer 9 is well known. Therefore, detailed description thereof will be omitted. The configuration of the pressure reducer 9 is also disclosed in Korean Patent Application No. 10-2010-0113849 filed by the inventors of the present invention.

The gas tube 7 may be detachably coupled to the gas tube coupling portion 11 so that the gas tube 7 may be replaced with a new one after use. According to an embodiment of the present invention, the gas tube 7 may be screwed together. A gauge that can indicate the remaining amount of gas may be provided in the gas tube 7 or the pressure reducer 9.

The gas is discharged through the nozzle 15 provided on the side of the main body of the pressure reducer 9 in a sufficiently reduced pressure state. Knob-shaped opening and closing switch 17 is capable of adjusting the discharge of the gas and the discharge. If the nozzle 15 is exposed inside the container body 1, the gas will be supplied to the food and beverage B in the form of bubbles. In this case, however, light bubbles will rise and rupture above the surface of the food and beverage (B), and most gases will not dissolve in the food and beverage (B) and will diffuse into the air. Only a small amount of the gas supplied will dissolve in the food and beverage (B). In order to reduce or eliminate such wasteful elements, the gas supply unit 5 may further include an atomization unit 19 to allow the gas discharged from the pressure adjusting unit 13 to be supplied to the container body 1 in a state of microbubbles. . The main action of the atomization unit 19 is to make the volume of bubbles as small as possible. This may mean breaking up the bubbles, but ultimately dissolving a large amount of gas in the food and beverage (B).

The present inventor considers the micro / nano bubble which the average diameter of the bubble by gas as 0.1 micrometer or less is the best Example. However, bubbles having an average diameter of 0.1 to 100 µm are not excluded.

Unlike general air bubbles that rise rapidly due to buoyancy and are destroyed on the surface, micro / nano bubbles stay in water for a long time to dissolve and disappear in water, or rise within the beverage at a rate about 1/100 times less than that of ordinary bubbles. This means that the gas can be long dissolved in the water.

Carbonated water has been widely used for a long time, so the description thereof will be omitted. However, the effects of oxygenated water will be mentioned below.

When you drink high oxygen water, oxygen is absorbed directly into your blood vessels through your stomach and small intestine, independent of your lungs. The oxygen absorbed in this way is different from breathing, so it does not burden the lungs, so it delivers fresh oxygen to each tissue cell of our body to help maintain a healthy body without worrying about the occurrence of free radicals caused by hyperventilation. give. After about 5 minutes after drinking high oxygen water, the increase in the partial pressure of oxygen in the blood can be observed. In addition, the side effects of drinking high oxygen water has not been found yet.

The atomization unit 19 is a pressure chamber 21 as a space in which the gas discharged from the pressure adjusting unit 13 is stored, and a porous member 23 spaced apart from the space of the container body 1 and the pressure chamber 21. It includes. According to this, the pressure of the gas discharged to the pressure chamber 21 will continue to increase, and as the pressure of the pressure chamber 21 is increased, the gas is fed into the container body 1 through the porous member 23 ( Diffused to B). The porous member 23 for generating bubbles may be in the form of a disc or a polygonal plate according to the bottom surface of the container body 1 as a porous material having fine pores. As shown in FIG. 1, the porous member 23 has a disc shape. The thickness of the porous member 23 will be determined according to the material used. The area of the porous member 23 is preferably more than 50% of the bottom plate area of the container body (1).

The porous member 23 may be selected from materials having pores of a size that allows gas molecules to pass but water molecules do not pass, such as wood, ceramics, carbon, and onggi. When the gas is normally supplied to the food and beverage (B) through the porous member 23, the bubble is not identified by eyes. With the development of technology, porous members of a good material may be gradually supplied. The materials that the inventors currently recommend as the most desirable are carbon, onggi (traditional storage containers, jars made from soil for long-term storage of food) or semiconductor substrates. In some cases, the porous member 23 may be used in combination with two or more kinds of bubbles having different average diameters. Since two or more types of porous members 23 are installed in various ways, detailed description thereof will be omitted.

The solubility of gas is proportional to pressure and inversely proportional to temperature. Based on this principle, the following examples are further presented as a means for increasing the solubility of the gas. This will be described below with reference to FIG.

According to this embodiment, the lid body 25 which seals the container main body 1 is further included. And when the lid 25 is coupled to the container body (1) so that the pressure inside the container body (1) is higher than the surrounding pressure. To this end, when the lid 25 is closed, the packing member 27 is elastically compressed to improve the pressure inside the container body 1. An elastic means such as a (torsion) spring 29 is further involved in the hinge portion of the lid 25. Accordingly, the lid 25 may close the opening of the container body 1 at a constant pressure by the elastic force of the spring 29. A pressing piece 31 for overcoming the elastic force of the spring 29 and opening the lid 25 is installed at the end of the lid 25 by a finger.

Although not shown, according to another embodiment of the present invention, when the capacity of the container body 1 is large and difficult to lift with one hand, an opening and closing valve may be provided below the side wall of the container body.

Other skilled in the art will be able to make various modifications without departing from the scope of the claims based on the spirit of the invention. The above description is merely an example of expressing the technical idea of the present invention. The gases mentioned in the above description are oxygen and carbon dioxide, but other kinds of gases that are considered useful may also be used.

One ; Container body 3; handle
5; Gas supply unit 7; Gas tube
9; Pressure reducer 11; Gas tube joint
13; Pressure adjusting section 15; Nozzle
17; Switch 19; Atomizer
21; Pressure chamber 23; Porous Member
25; Lid 27; Packing member
29; Spring 31; Pushing piece
B; Food and Drink

Claims (7)

Container body (1) that can hold a certain amount of water;
As installed in the container body (1), the gas tube coupling portion 11 for installing the gas tube (7) for storing the gas under high pressure state, and withdraws the gas from the gas tube (7) to the container It includes a gas supply unit 5 consisting of a pressure adjusting unit 13 for supplying discharged into the main body (1);
The gas supply unit (5) has an atomization unit (19) for supplying the gas discharged from the pressure adjusting unit (13) to the container body (1) in a state of fine bubbles;
The atomization unit 19 and the pressure chamber 21 is a space for storing the gas discharged from the pressure adjusting unit 13; By including a porous member 23 spaced apart from the space of the container body (1) and the pressure chamber (21); Functional functional food and beverage maker, characterized in that the gas is passed through the porous member 23 to the food and beverage (B) contained in the container body (1) as the pressure of the pressure chamber (21) is increased. delete 2. The functional food and beverage maker according to claim 1, wherein the gas tube (7) is detachably coupled to the gas tube coupling part (11) to enable exchange after use. delete According to claim 1, The porous member (23) is a functional food and beverage maker, characterized in that selected from wood, ceramics, carbon or onggi. According to claim 1, wherein the average diameter of the bubbles generated by the porous member 23 is functional food and beverage maker, characterized in that less than 0.1㎛. The functional food and beverage maker according to claim 1, wherein the gas is oxygen or carbon dioxide.

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