KR100405021B1 - Apparatus for making hexagonal cold water, hexagonal water ice and hot water - Google Patents

Abstract

The present invention relates to an apparatus for producing hexagonal cold water and hexagonal ice cube for hot water, which is formed by a water supply unit to which water is supplied, a rapid freezing unit capable of rapidly freezing water supplied from the water supply unit, and a rapid freezing unit. Hexagonal water production unit capable of producing hexagonal water, including thawing means for melting crystals, Hexagonal cold water production unit for producing cold water by a refrigeration system from the hexagonal water made by the hexagonal water production unit, Hexagonal water made by the hexagonal water production unit Hexagonal ice making unit for producing ice by the refrigeration system from, and the hot water producing unit for producing hot water from the water supplied from the water supply. According to the present invention, the hexagonal water, which is effective in preventing and treating adult diseases such as cancer and diabetes, and anti-aging, can be manufactured and supplied in the form of cold water and ice more efficiently than the conventional manufacturing method, thereby contributing to national health. Hot water can be supplied smoothly.

Description

Apparatus for making hexagonal cold water, hexagonal water ice and hot water}

The present invention relates to an apparatus for producing hexagonal cold water and hexagonal ice cubes for both hot water. More specifically, the present invention relates to a device capable of supplying tap water or bottled water, converting it into hexagonal water, and then cooling it by a refrigeration mechanism to make cold water or ice, and also provide hot water.

The structure of the water we drink consists of three types: hexagonal ring structure, pentagonal ring structure, pentagonal chain structure, etc. Among them, hexagonal ring structure is called hexagonal water. On the other hand, our body consists of hexagonal ring structure, that is, 62% hexagonal structure, 24% pentagonal ring structure, and 14% other, and the water surrounding the normal cells of the body is mainly hexagonal It has been found to form a ring of, directly attached to the cell and protect the cell. Therefore, it is known that supplying hexagonal water to our body prevents the invasion of bad bacteria and also inhibits the growth of bacteria, which is effective in preventing or treating adult diseases such as cancer and diabetes, and also helps to prevent aging.

As a method of converting ordinary water, such as tap water or bottled water into hexagonal water, is now widely known to magnetize water by ionizing a molecular structure of water by applying a magnetic or electric field to the water in a special state. Apparatuses and methods for producing hexagonal water by applying this principle are well known.

On the other hand, as the water gets colder, the structure has a hexagonal shape, and it is found that the structure has a hexagonal structure of 100% at minus 30-40 ° C. However, no device or method for producing hexagonal water applying this principle is disclosed.

Therefore, the inventor of the present invention, in order to produce a hexagonal water that is beneficial to our body, rather than a method of applying a magnetic field or an electric field, to devise the present invention is a device for providing a hexagonal water more effectively using a method by rapid freezing water It became.

Accordingly, an object of the present invention is to provide a device capable of supplying cold water or ice by supplying tap water or bottled water, changing it to hexagonal water using a rapid freezing principle, and then cooling it again.

1 is an overall block diagram showing a functional configuration of the present invention.

2 is a basic conceptual view of a refrigeration system.

3 is a piping diagram of an embodiment according to the present invention.

<Description of Drawing>

101 water filter, 103 water pipe, 105 refrigerant pipe, 201 compressor, 202 oil separator,

203 condenser, 205 primary gas-liquid separator, 206 primary heat exchanger, 207 secondary gas-liquid separator,

208 secondary heat exchanger, 209 tertiary heat exchanger, 210 evaporator1, 211 evaporator2,

212 Evaporator 3, 213 Evaporator 4, 214 Vaporizer, 216, 217 Expansion Valve, 218 Cold Water Tank, 219 Hexagonal Ice Storage Tank

Composition of the Invention

1 is an overall block diagram showing the functional configuration of the present invention.

The present invention provides a water supply unit 11 to which water is supplied, a rapid freezing unit 14 capable of rapidly freezing water supplied from the water supply unit, and a thawing means capable of melting crystals formed by the rapid freezing unit. Hexagonal water production unit 13, which can produce hexagonal water including (16), Hexagonal water production unit 15, which manufactures cold water by a refrigeration system from the hexagonal water produced by the hexagonal water production unit 13, The hexagonal water production It includes a hexagonal ice-making unit 17 for producing ice from the hexagonal water made by the unit 13 by the refrigeration system, and a hot water manufacturing unit 19 for producing hot water from the water supplied from the water supply unit (11). It features.

The rapid freezing means 14 of the hexagonal handmade part 13 may be implemented by a mixed refrigerant method, two-stage compression refrigeration method, two-way freezing method or three-way freezing method.

The thawing means 16 of the hexagonal handmade part 13 may be implemented by a hot gas method or an electric heater method.

Working principle of the invention

Hexagonal cold water and hexagonal ice-making apparatus combined with hot water according to the present invention, the water we eat has a 100% hexagonal structure below 30 ° C below, and the water once changed structure maintains most of the structure even after thawing It is an application.

Therefore, in the hexagonal water production unit 13 of the present invention, the water supplied through the water supply unit 11 is minus 40-80 ° C. within 1 hour through a mixed refrigerant method, a two-way freezing method, a three-way freezing method, or a multistage freezing method. After rapid freezing until the thaw within 10-20 ℃ by using an electric heater method or hot gas method to produce hexagonal water that is mostly hexagonal structure of water.

The hexagonal water thus prepared is cooled and maintained at about 5 ° C. in the hexagonal cold water production unit 15, and the hexagonal water production unit 17 is frozen at a temperature of about 25 ° C. and supplied to the human body.

Conventional refrigeration systems are applied in the manufacture of hexagonal cold water or hexagonal ice water. A refrigeration system is a refrigerant circulation structure used in a cooling device or a refrigeration device, the basic conceptual diagram of which is shown in FIG.

In such a refrigeration system, the liquid refrigerant liquefied through the compressor (21) and the condenser (23) passes through the expansion valve (25) and then flows through the evaporator (27). As the phase change is caused by heat conversion with the object to be cooled, such as air, it vaporizes and takes the heat of the object to be cooled to form cold air.The chilled air can be used to cool and freeze the object to be cooled. It can be.

At this time, devices such as gas-liquid separator, oil separator, receiver and intermediate valve are used for smooth operation of the refrigeration system. These are obvious to those skilled in the art.

Example

3 shows a piping diagram of an embodiment according to the present invention. In this embodiment, the mixed refrigerant method by the single stage compression method is adopted as the rapid freezing means of the hexagonal water production unit.

The present invention is achieved by the circulation of the water and the refrigerant through the pipe, so the following describes the circulation process of the water and the refrigerant in the present embodiment.

First, the flow of water will be described. Tap water or bottled water is supplied through the water supply unit 11, and when the tap water is supplied, a filter 101 for water purification should be additionally provided in the water supply unit 11. The water filter 101 may be configured by various combinations of existing micro filters, sun carbon filters, fu carbon filters, membranes, T.C.R.filters, and the like.

The water supplied through the water supply unit 11 is supplied to the hexagonal water manufacturing unit 13 through the water supply pipe 103 to go through the hexagonal water manufacturing process. In the present embodiment, the hexagonal water making unit 13 is composed of the first hexagonal water making container 13 'and the second hexagonal water making container 13 "to smooth the hexagonal cold water manufacturing part 15 or the hexagonal ice making part 17. Hexagonal water is supplied. Thus, two hexagonal handmade containers 13 'and 13 "are installed so that the first hexagonal handmade container 13' can be thawed in the second hexagonal handmade container 13" during freezing. Alternately, if the hexagonal water is prepared by rapid freezing and thawing, the hexagonal water can be continuously produced without time delay, and of course, it is also possible to prepare the hexagonal water by installing only one hexagonal water container.

In the hexagonal water production unit 13, a 10-20 ° C hexagonal water is finally produced through a rapid freezing process using a mixed refrigerant method and a thawing process using a hot gas method or an electric heater, and the cold water tank of the hexagonal cold water manufacturing unit 15 is finally manufactured. 218 and the water tank 109 of the hexagonal ice making unit 17 are supplied. In the hexagonal water producing unit 13, it is said that hexagonal water is produced by rapid cooling. In addition to the hexagonal water in the form of ice by rapid cooling, the hexagonal water can be produced in the form of snow or scales. When the water is quenched rapidly, it becomes hexagonal ice, but if it is sprayed strongly with a hexagonal water canister, it becomes hexagonal snow. In the hexagonal cold water manufacturing unit 15, cold water having a temperature of about 5 ° C. is manufactured by the refrigeration system and supplied to the human body through the discharge port 218a, and in the hexagonal ice producing unit 17, the hexagonal water ice is produced and discharged through the discharge port 219a. Supplied to the human body.

Referring to the flow of the refrigerant in the present embodiment is as follows.

The low-temperature low-pressure gas refrigerant is increased in pressure up to the saturation pressure corresponding to the condensation temperature so that the condensation liquefied in the next condenser 203 along the refrigerant pipe 105 in the compressor 201, the high temperature from the compressor 201 After the oil is separated from the oil separator 202, the high-pressure gas refrigerant is condensed by heat exchange with ambient air or cooling water in the condenser 203.

In this embodiment, since the mixed refrigerant is used, the first refrigerant is condensed in the condenser 203 among the various refrigerants, and the liquid separated in the primary gas-liquid separator 205 is produced through the expansion valves 216 and 217, respectively. It is introduced into the portion 15 and the hexagonal ice making unit 17 to be evaporated in the evaporator (212, 213) to cool or freeze the hexagonal water through heat exchange. In this case, the hexagonal water can be cooled or frozen by adjusting the pressure of the refrigerant passing through the expansion valves 216 and 217. The low temperature and low pressure gas refrigerant through the evaporators 212 and 213 is introduced into the compressor 201 through the vaporizer 214 to repeat the same process.

Meanwhile, the gas refrigerant separated by the primary gas-liquid separator 205 condenses while passing through the primary heat exchanger 206, the secondary gas-liquid separator 207, the secondary heat exchanger 208, and the tertiary heat exchanger 209. It is liquefied and used for ultra-low temperature rapid freezing of water in the first hexagonal water production vessel 13 'and the second hexagonal water production vessel 13', and then is recovered to the compressor 201 through the vaporizer 214.

In this embodiment, the thaw means of the hexagonal water production unit may adopt a hot gas method or an electric heater method. The hot gas method is a method of thawing by the heat of the high-temperature, high-pressure gas refrigerant from the compressor 203 directly into the hexagonal water producing unit 13, and the refrigerant pipe 105a is a pipe for this purpose. The electric heater method is a method of thawing by installing an electric heater (not shown) directly in the first hex handmade container 13 'and the second hex handmade container 13 ".

The hot water manufacturing unit 19 in the present embodiment is directly connected to the water supply unit 11 is supplied with water, and installed by heating the electric heater or by heating the hot water by the hot gas method through the hot water outlet 19a Supply to the human body.

In the present embodiment, the condenser 203 is cooled by a forced blowing method by the cooling fan 220, but may be cooled by a natural blowing method. In addition, a check valve for preventing backflow of water or refrigerant should be provided at a suitable place of the water supply pipe 103 or the refrigerant pipe 105, and a solenoid valve for controlling the flow of the refrigerant should also be installed. This is a matter that those skilled in the art can select appropriately according to the design purpose.

In the present embodiment, the mixed refrigerant method is adopted as the rapid freezing means of the hexagonal water producing unit 13, but the technical idea of the present invention is not limited thereto. In other words, not only the mixed refrigerant method but also two-stage compression method, two-way or three-way cooling method, etc., may be adopted as the rapid freezing means. Can be adopted.

In addition, since the present invention can be applied to a variety of applications, if the technical idea of the present invention is applied, not only small household water purifier, but also industrial or commercial large-scale water supply system has the effect of the present invention.

According to the present invention, the hexagonal water, which is effective in the prevention and treatment of adult diseases such as cancer and diabetes, and anti-aging, can be manufactured and supplied in the form of cold water and ice more efficiently than the conventional manufacturing method, and thus can contribute to national health. Hot water can be supplied smoothly.

Claims (8)

A refrigeration system capable of producing cold water or ice by a compressor, a condenser, an expansion valve, an evaporator, and a refrigerant circulating therein, Water supply unit, Hexagonal water production unit capable of producing hexagonal water, including a rapid freezing means for rapidly cooling the water supplied from the water supply unit to make crystals and a thawing means for melting the crystals formed by the rapid freezing means, Hexagonal cold water production unit for producing cold water from the hexagonal water made by the hexagonal water production unit by a refrigeration system, Hexagonal ice making unit for producing ice by the refrigeration system from the hexagonal water made by the hexagonal water making unit, Combined hot water hexagonal cold water and hexagonal ice producing apparatus comprising a hot water manufacturing unit for producing hot water from the water supplied from the water supply. delete The method of claim 1, wherein the hexagonal water production unit is composed of a first hexagonal water production vessel and a second hexagonal water production vessel including a rapid freezing means and a thawing means to produce a hexagonal hot water combined hexagonal cold water and hexagonal water ice, characterized in that alternately Device. delete delete delete delete delete