KR100765444B1 - Refrigerator using crystal cooler and method for manufacturing ice using the same - Google Patents

Abstract

A refrigerator using a crystal ice maker and method for manufacturing ice using the same are provided to facilitate outflow of air contained in water by freezing the lower side of an ice making tray above all, thereby producing high quality of ice cubes. A refrigerator using a crystal ice maker(20) comprises a cooler(14), an ice making tray(28), a cooling fan(12), an auxiliary cooling unit(22), and a magnetic field generating unit(26). The ice making tray is where ice cubes are produced by the cooler. The cooling fan supplies the cool air of the cooler to the ice making tray. The auxiliary cooling unit is installed on a lower part of the ice making tray, capable of dissipating heat or absorbing heat depending on the presence of magnetic field. The magnetic field generating unit provides magnetic field to the auxiliary cooling unit.

Description

Refrigerator Using Crystal Cooler And Method for Manufacturing Ice Using The Same}

1 is a block diagram illustrating a refrigerator using a crystal ice maker according to the present invention.

2 is a flowchart illustrating a control method of a refrigerator using a crystal ice maker according to the present invention.

3 is a cross-sectional view for explaining a refrigerator using a conventional paramagnetic salt.

Explanation of symbols on the main parts of the drawings

10 freezer 12 cooling fan

14: cooler 20: ice maker

22: paramagnetic salt 24: heater

26: electromagnet

The present invention relates to a refrigerator and an ice making method using a crystal ice maker, and more particularly to a refrigerator and an ice making method using a crystal ice maker that can make high-quality ice using paramagnetic salts that exothermic and endothermic reactions with or without magnetic properties. It is about.

In general, ice iced in the freezer compartment of the refrigerator is frozen by cold air supplied by the freezer of the freezer compartment.

Therefore, since ice is carried out from the surface of the ice making container to the inside, the air contained in the water is frozen without being discharged to the outside, and the ice is opaquely frozen.

Transparent ice, opaque ice, or ice is good enough, but because transparent ice is generally considered to be aesthetically high quality, the ice used in high-end restaurants, etc. can be frozen by boiling water to remove the air and then freezing. Use clear ice.

Therefore, the conventional procedure for making transparent ice is complicated, resulting in a high time and cost.

Meanwhile, as shown in FIG. 3, the refrigerator freezer disclosed in Patent Publication No. 2005-102821 has an empty space 4 formed between a box-shaped housing 3 and a housing inner surface therein. And a magnetic field generating device (7) provided opposite the outer surface of the storage container (5), wherein the storage container (5) is disposed so as to fill the space (6) inside the wall of the container (5). Convection fan (9) for cooling the storage vessel (5) by heat generation and endotherm according to the arrangement of paramagnetic salt molecules by magnetic field, and convection of the cold air in the storage vessel (9) for quicker cooling inside the door (9). ), It is used to freeze food very quickly compared to the freezing time required for freezing in a conventional home refrigerator freezer.

However, as disclosed in the above patent, the refrigerator has a structure in which paramagnetic salts are filled in the side and bottom of the storage container 5, so that ice can be frozen rapidly, but because the ice making speed of the upper part increases, the outflow time of the internal air of water is short. There was a problem that the ice of the transparent quality could not be iced.

An object of the present invention is to provide a refrigerator and an ice making method using a crystal ice maker that can freeze high-quality transparent ice iced by the refrigerator.

The present invention to achieve the above object, a cooler for refrigeration; An ice making container in which ice making is performed by the cooler; A cooling fan supplying cold air of the cooler to the ice making container; Auxiliary cooling means installed at a lower portion of the ice making container to generate an exothermic or endothermic reaction depending on the presence or absence of a magnetic field; And it provides a refrigerator using a crystal ice maker, characterized in that it comprises a magnetic field generating means for supplying a magnetic field to the auxiliary cooling means.

The ice tray may further include a heater for facilitating the detachment of iced ice.

The auxiliary cooling means is characterized in that the paramagnetic salt.

The paramagnetic salt is characterized in that cadmium sulfate.

In addition, the present invention comprises the steps of operating the cooling system, the cooling fan of the freezer compartment, and the electromagnet for supplying the magnetic field to the paramagnetic salt installed in the ice maker until the temperature of the ice making vessel is lower than the predetermined primary ice making temperature; Turning off the electromagnet until the temperature of the ice making container is lower than the predetermined primary ice making temperature when the temperature of the ice making container is lower than the predetermined secondary ice making temperature; And when the temperature of the ice making container is lower than a preset secondary ice making temperature, operating and heating the heater for facilitating the ice making in the ice making container, the ice making method of the refrigerator using a crystal ice maker. To provide.

(Example)

A refrigerator and an ice making method using a crystal ice maker according to the present invention will be described in detail with reference to the accompanying drawings showing a preferred embodiment of the present invention.

1 is a block diagram illustrating a refrigerator using a crystal ice maker according to the present invention, and FIG. 2 is a flowchart illustrating a control method of the refrigerator using the crystal ice maker according to the present invention.

In the refrigerator using the crystal ice maker according to the present invention, as shown in FIG. 1, a freezing compartment 10 in which freezing is performed by a cooler 14 and a cooling fan 12 is formed at an upper portion thereof, and a lower portion of the freezing compartment 10 is formed at a lower portion thereof. It consists of the refrigeration chamber 30 in which refrigeration is performed using cold air.

Of course, in the embodiment of the present invention has been described by illustrating a refrigerator using a single cooler, the present invention is equally applicable to a refrigerator using a separate cooler in the refrigerator compartment.

In addition, an ice maker 20 for freezing ice is installed on the front surface of the cooler 14 of the freezer compartment 10.

The ice making machine 20 is an ice making container 28 having a space where ice is frozen, paramagnetic salt 22 installed under the ice making container 28 and exothermic or endothermic according to the presence or absence of a magnetic field, and the It is composed of an electromagnet 26 provided around the paramagnetic salt 22 to form a magnetic field.

That is, the coil forming the electromagnet 26 is a circular coil or a square coil is formed in the inner or outer periphery of the ice making container 28, the formation of the magnetic field is not particularly limited, the size of the magnetic field and the arrangement of the coil, etc. Reference is made to techniques disclosed in Japanese Patent Laid-Open No. 10-2006-27463, which is a technical field of the present invention.

In addition, a lower portion of the ice making container 28 has a heater 24 built therein for facilitating detachment of iced ice (hereinafter, referred to as ice), and an ice surface by the heater 24. In order to facilitate the melting of the ice making container 28, it is preferable to use a metal container with high thermal conductivity.

In addition, the installation of the heater 24 for the weaving in the ice making container 28 is not described in detail, but in consideration of insulation and thermal conductivity, electricity for heating in a humid place such as the technical field of the present invention A method commonly used for installing a heater is used.

The paramagnetic salt used in the present invention preferably uses a paramagnetic salt such as cadmium sulfate which exothermic in a magnetic field environment and undergoes an endothermic reaction in a non-magnetic environment.

In addition, although the present invention is not shown in the drawings, it further comprises a control unit for controlling the operation of the cooling fan 12 and the electromagnet 26, including the cooling system.

The control unit starts the crystal ice by the electromagnet 26 and the paramagnetic salt 22 (S 10), the cooling system and the cooling fan 12 and the electromagnet 26 to the temperature of the ice tray 28 Is operated until the predetermined primary ice making temperature, that is, lower than minus 3 degrees Celsius (S 12) (S 11).

When the temperature of the ice making container 28 is lower than the predetermined primary ice making temperature (S 12), the electromagnet 26 has a temperature of the ice making container 28 which is set at a predetermined secondary ice making temperature, that is, minus 5 degrees Celsius. Off until it is lowered (S 14) (S 13).

When the temperature of the ice making container 28 is lower than the preset secondary ice making temperature (S 14), the heater 24 installed in the ice making container 28 is operated to facilitate the ice making (S 15). .

When the surface of the ice is melted to facilitate the ice, the ice is separated using an ice jig (not shown) (S 16).

The present invention made as described above by freezing from the lower part of the ice making container when the ice is frozen, to facilitate the outflow of air contained in the water provides an effect of making high-quality transparent ice ice.

In addition, the present invention provides an effect of enabling easy ice-making by instantaneously heating ice-making ice-making vessels.

Claims (5)

Cooler for refrigeration; An ice making container in which ice making is performed by the cooler; A cooling fan supplying cold air of the cooler to the ice making container; Auxiliary cooling means installed at a lower portion of the ice making container to generate an exothermic or endothermic reaction depending on the presence or absence of a magnetic field; And Magnetic field generating means for supplying a magnetic field to the auxiliary cooling means; Refrigerator using a crystal ice maker comprising a. The refrigerator according to claim 1, wherein the ice maker further comprises a heater for facilitating detachment of iced ice. The refrigerator using a crystal ice maker according to claim 1, wherein the auxiliary cooling means is paramagnetic salt. The refrigerator using a crystal ice maker according to claim 3, wherein the paramagnetic salt is cadmium sulfate. Operating a cooling system, a cooling fan of a freezer compartment, and an electromagnet for supplying a magnetic field to paramagnetic salts installed in the ice maker until the temperature of the ice making vessel becomes lower than a predetermined primary ice making temperature; Turning off the electromagnet until the temperature of the ice making container is lower than the predetermined primary ice making temperature when the temperature of the ice making container is lower than the predetermined secondary ice making temperature; And When the temperature of the ice making vessel is lower than a predetermined secondary ice making temperature, operating and moving the heater for facilitating the ice making installed in the ice making vessel; Ice making method of the refrigerator using a crystal ice maker comprising a.

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