KR101641098B1 - apparatus for manufacturing an hydrogen storage ice - Google Patents

Abstract

The apparatus for producing hydrogen-gas-storing ice according to the present invention comprises a plurality of unit ice producing rods cooled by a cooling unit using a refrigeration cycle, a container for supplying water for producing ice to the unit ice making rods and a frame member A water supply unit including a rotating unit for rotating the container; and a hydrogen gas storage unit for storing hydrogen in a process of freezing ice in the unit ice producing rods provided in the container on the side corresponding to the unit ice producing rods, And a hydrogen gas supply unit for supplying hydrogen gas to the hydrogen gas storage space.

Description

[0001] The present invention relates to an apparatus for producing ice,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus for producing a hydrogen gas storing ice, and more particularly, to an apparatus for producing a hydrogen gas storing ice for producing ice stored in the inside of ice.

Generally, active oxygen generated in each tissue in the body is useful, but it is reported that it becomes a cause of damage of DNA and the like, and becomes a cause of aging and disease. By reducing this active oxygen to active hydrogen, It is reported that there is an effect that can be suppressed.

In view of this, the development of a device for producing hydrogenated water is being actively promoted. By drinking the hydrogenated water, the dissolved hydrogen acts as an antioxidant to remove the active hydroxyl radical (hydroxyl radical), thereby preventing aging It helps to prevent diabetes, hypertension, arteriosclerosis, cancer and dementia. It has been reported to be effective in skin cosmetics, diet, fatigue recovery, sexual function improvement, athletic ability improvement, immunity enhancement and hangover relief.

Patent Document 1 discloses an apparatus for producing hydrogen-containing water having a hydrogen-occluding material and means for supplying hydrogen released from the hydrogen-occluding material to a beverage. In Patent Document 2, hydrogen is dissolved in a raw material water to charge Sealing and disinfecting treatment.

 However, these methods tend to scatter hydrogen gas from drinking water, so that active hydrogens which are taken into the body are inadequate.

Patent document 3 discloses reduced water containing minerals and active hydrogens in which a sintered body containing minerals is dissolved by generating a current with a strong magnetic field line and an electrode. Although the reduced water can dissolve minerals, the active hydrogen content is insufficient. In addition, there is a problem as disclosed in Patent Documents 1 and 2 in that hydrogen gas is easily scattered. Patent Document 4 discloses a method for producing an activated water in which a palladium alloy is used as a negative electrode to perform electrolysis of water, and then active hydrogen occluded in the negative electrode is released into water, and a structure for freezing the active water is disclosed .

The conventional technology as described above makes it difficult to ingest a relatively large amount of hydrogen because it produces and consumes hydrogenated water.

[Patent Document 1] JP-A-2010-124808 [Patent Document 2] JP-A-2010-274181 [Patent Document 3] JP-A-2010-274236 [Patent Document 4] JP-A-2000-192272

SUMMARY OF THE INVENTION The present invention provides a device for manufacturing a hydrogen gas storing ice, which stores hydrogen gas in the ice for drinking and consumes hydrogen gas when eating ice.

Another object of the present invention is to provide a hydrogen gas storage device capable of storing hydrogen gas in a plurality of stages in a state where hydrogen gas is supplied to the inside of ice to store the hydrogen gas inside the ice, And an ice making device.

According to another aspect of the present invention, there is provided an apparatus for producing hydrogen gas ice, comprising: a plurality of unit ice producing rods cooled by a cooling unit using a refrigeration cycle; a container for supplying water for producing ice to the unit ice producing rods; A water supply unit including a container for rotating the unit ice producing rods and a hydrogen gas storing space for storing hydrogen in a process of freezing ice in each unit ice producing rod installed in the container on the side corresponding to the unit ice producing rods, And a hydrogen gas supply unit for supplying hydrogen gas to the hydrogen gas storage space.

In the present invention, each of the unit ice producing rods has a predetermined length so as to be submerged in the water contained in the container in the circulation pipe constituting the evaporator. A heater may be installed in the unit ice producing rods.

The hydrogen gas supply unit is installed in a support portion provided in a container corresponding to each of the unit ice production rods. The hydrogen gas supply unit forms a hydrogen gas storage space in the ice primarily produced by the unit ice production rods, A hydrogen gas supply pipe connected to the hydrogen gas supply nozzle and connected to the hydrogen gas supply tank by supplying hydrogen gas; a valve installed in the supply pipe; And a heating heater for heating the hydrogen gas supply nozzle.

Since the hydrogen gas storing ice producing apparatus of the present invention can store the hydrogen gas inside the ice while gradually freezing the ice, it is possible to improve the productivity of the hydrogen gas storing ice, and it is possible to use the relatively high hydrogen gas It can be ingested. Also, the hydrogen gas forms a cavity formed inside the ice, which is sealed with ice and stored, so that leakage of the hydrogen gas can be prevented.

1 is a cross-sectional view schematically showing an apparatus for manufacturing a hydrogen gas storing ice according to the present invention,
FIG. 2 is an exploded perspective view illustrating the hydrogen gas supply unit installed in each unit ice-making rod and the container of the apparatus for producing hydrogen gas ice shown in FIG. 1. FIG.
FIGS. 3 to 7 are diagrams showing steps of manufacturing a hydrogen gas storing ice using the hydrogen gas storing ice producing apparatus,

The apparatus for producing a hydrogen gas storing ice according to the present invention is for storing a hydrogen gas in a cavity formed in the ice during the freezing of ice, and one embodiment thereof is shown in FIGS. 1 to 3 .

Referring to the drawings, an apparatus 10 for producing hydrogen-storing ice according to the present invention includes an ice maker (ice maker) 10 having a plurality of unit ice producing rods 21 cooled by a cooling unit using a refrigeration cycle, 20). The frame member 11 is provided on the lower side of the ice maker 20 so that the cone 31 can be rotated with respect to the frame member 11, A water supply unit 30 including a rotation unit 35 installed on the ice making unit 11 and a water supply unit 30 installed on the side corresponding to each unit ice producing rod of the ice making unit 20, (See FIG. 5) for storing hydrogen gas in the first freezing ice, and a hydrogen gas supply nozzle (not shown) having a hydrogen gas supply nozzle for supplying hydrogen gas to the hydrogen gas storage space 101 Unit 50 as shown in FIG.

The apparatus for manufacturing a hydrogen-gas-storing ice according to the present invention having the above-described structure will be described in detail as follows.

The ice making section 20 of the hydrogen gas storing ice producing apparatus 10 according to the present invention is installed on the upper side of the ice storage tank 13 provided in the manufacturing apparatus main body 12, A plurality of unit ice producing rods 21 are installed at a predetermined interval in a refrigerant circulation pipe 22 constituting an evaporator of the unit 15. The ice making section 20 is installed on the frame member 11 provided on the manufacturing apparatus main body 12 by means of a bracket 22a. The ice making bar 21 has an opening formed in the frame member 11 And is exposed downward. In order to separate the ice attached to the unit ice making rods 21, a hot gas defrosting generally used in a freezing unit using a refrigeration cycle can be used. When the unit ice making rods 21 are not used, A heater (not shown) may be installed.

The water supply unit 30 is installed at a vertical lower portion of the ice making unit 20 to supply water to the unit ice making rod 21 so as to be immersed in water for freezing. And a container 31 that is rotated in a state in which it is held horizontally by the rotation unit 35 supported by the water supply unit 35, that is, in a state where the water is kept horizontal so as to prevent water from spilling. The upper portion of the container 31 may be opened and the unit ice making rods 21 may be inserted. The rotation unit 35 includes an arm 36 rotatably installed on the frame member 11 and supporting both ends of the container 31. The arm 36 is rotatably installed by a motor 37 provided on a side wall member 11a supported by the frame member 11. [ Two guide bars 38 spaced apart from each other are provided on the side of the container 31 and are guided by guide grooves 39 formed in the side wall member 11a. The guide bar 38 formed on the side surface of the container 31 is rotated to the lower side of the ice making section 20 and the area deviating from the lower side of the ice making section 20 in a horizontal state so that water contained in the container 31 is not poured.

The hydrogen gas supply unit 50 forms a hydrogen gas storage space 101 in which hydrogen gas is stored in the ice 100 to be frozen and supplies hydrogen gas. A supporting portion 51 is provided on the inner surface (bottom surface side) of the container 31 corresponding to each unit ice producing rod 21 of the ice making bar 21. The supporting portion 51 corresponds to the unit ice making rod 21, And a hydrogen gas supply nozzle 52 positioned in the hydrogen gas supply line. The hydrogen gas supply nozzle 52 is connected to the unit ice making rods 21 by the hydrogen generating unit 50. The hydrogen gas supplying nozzles 52 are formed by the unit ice making rods 21 so as to form a hydrogen gas storing space 101 for storing the hydrogen gas during the freezing of the first ice. And has a size of the gas storage space 101. That is, the end portion of the hydrogen gas supply nozzle 52 is embedded in the ice in the ice growing process (freezing process) on the surface of the unit ice making rod 21 installed close to the unit ice producing rod 21, The hydrogen gas storage space is determined by the shape of the hydrogen gas supply nozzle 52. Accordingly, the hydrogen gas supply nozzle 52 is formed in a tubular shape to facilitate separation from ice, and a hydrogen gas supply port 54 is formed in the longitudinal direction. The hydrogen gas supply nozzle 52 is connected by a hydrogen gas supply tank (not shown) and a supply pipe 55, and a heater may be installed for separation from ice. The heating heater may be installed in the support portion 51.

The hydrogen gas supply nozzle 52 may be formed in a tapered polygonal shape. The hydrogen gas supply nozzle 52 may be formed in a tapered polygonal shape, A plurality of hydrogen gas supply nozzles may be provided with respect to the rods 21.

The operation of the hydrogen gas storage ice producing apparatus according to the present invention constructed as described above will be described below.

3, the container 31 is rotated to the lower side of the ice-making unit 20 by the rotation unit 35 so that water contained in the container is supplied to each unit ice So that the manufacturing rod 21 is locked. At this time, the hydrogen gas supply nozzles 52 installed on the bottom surface of the container 31 are positioned on the lower surface of each unit ice producing rod 21 so that the hydrogen gas supply nozzles 52 can be positioned inside the ice by the unit ice making rods 21. Lt; / RTI >

In this state, as shown in FIG. 4, the refrigerating unit is driven to vaporize the refrigerant in the refrigerant circulation pipe constituting the evaporator, thereby cooling the unit ice producing rods 21 so that the ice is primarily frozen around them. do. At this time, the hydrogen gas supply nozzle 52 is positioned (buried) in the ice produced by the unit ice producing rods 21.

5, when the ice is initially manufactured at the end of each unit-ice-making rod 21, the heater provided in the hydrogen gas unit nozzle 52 is driven to supply the hydrogen gas to the hydrogen gas supply nozzle 52 so that the surface of the hydrogen gas supply nozzle 52 can be separated from the ice produced by each of the unit ice producing rods 21 and the rotating unit 35 is used to move the container 31 to a predetermined Lower the length. In this process, hydrogen gas is supplied to the hydrogen gas storage space 101 formed by separating the hydrogen gas supply nozzle 52 from the ice using the hydrogen gas supply nozzle 52. At this time, the lower end side of the ice 100 is not separated from the water contained in the container 31 but is immersed in water. Therefore, the hydrogen gas supplied to the hydrogen gas storage space 101 is stored in the hydrogen gas storage space 101 partitioned by ice and water without being discharged to the outside.

 In this state, the unit ice producing rod 21 is heated by the freezing unit as shown in FIG. 6, so that ice is secondarily frozen on the lower surface of the ice in which the hydrogen is stored in the hydrogen gas storing space 101, The storage space 101 is sealed. Therefore, the hydrogen gas stored in the hydrogen gas storage space 101 formed in the ice does not leak.

When the production of the ice containing the hydrogen gas is completed as described above, the container 31 is pivoted to the pivoting unit 35 as shown in Fig. 7 and deviated from the lower side of the ice making unit 20. The hot gas is supplied to the circulation pipe or heated separately by the heater, so that the ice produced by each unit ice producing rod 21 is separated and contained in the container.

As described above, the apparatus for producing a hydrogen gas storing ice according to the present invention can produce ice by storing hydrogen gas therein simultaneously with the production of ice, so that the productivity of ice in which hydrogen gas is stored can be improved.

In addition, since the ice can be consumed with hydrogen gas, it can prevent the aging of the human body by performing an antioxidative action to remove hydroxyl radical, which is active oxygen.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

Claims (5)

A plurality of unit ice producing rods cooled by a cooling unit using a refrigeration cycle, a container for supplying water for manufacturing ice to the unit ice making rods, and a rotating unit installed on the frame member for rotating the container And a hydrogen storage chamber for storing hydrogen in a process of freezing ice in each of the unit ice producing rods, the hydrogen storage chamber being provided in a container on the side corresponding to the unit ice producing rods, And a hydrogen gas supply unit for supplying gas,
The hydrogen gas supply unit is installed in a support portion provided in a container corresponding to each of the unit ice production rods. The hydrogen gas supply unit forms a hydrogen gas storage space in ice primarily produced by the unit ice production rods, A hydrogen gas supply nozzle connected to the hydrogen gas supply nozzle to supply hydrogen gas and connected to the hydrogen gas supply tank,
And a heating heater installed at the support portion for heating the hydrogen gas supply nozzle. The method according to claim 1,
Wherein each of the unit ice producing rods has a predetermined length so as to be submerged in water contained in the container in a circulation pipe constituting an evaporator and a heater is installed in the unit ice producing rods. delete delete The method according to claim 1,
The rotation unit includes an arm rotatably installed on the frame member and supporting both ends of the container, and a motor installed on the side wall member supported by the frame member to rotate the arm at a predetermined angle,
Wherein two guide bars spaced apart from each other are provided on the sides of the container and are guided by guide grooves formed in the side wall members.

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