KR20060036986A - Freezing plate and for ice making apparatus thereof - Google Patents

Abstract

An ice maker substrate and an ice maker having the same are disclosed. The ice making substrate according to the present invention has a plurality of ice making protrusions that cool ice making water to produce ice, and is characterized in that it is molded in a state in which an evaporation tube into which a refrigerant flows is inserted. According to the present invention as described above, since the ice-making substrate is molded in the state that the evaporation tube is inserted, it does not require a separate blazing operation for installing the evaporation tube, the freezing of the evaporation tube due to the blazing operation error and Swelling can be prevented. In addition, since the evaporation tube is in close contact with the inside of the ice making substrate, the cooling efficiency of the ice making machine is improved, and the ice making substrate and the evaporating tube can be formed of different materials, thereby reducing the manufacturing cost.

Ice maker, ice maker board, refrigerant pipe, evaporator, blazing, molding, molding

Description

Ice-making substrate and ice-making machine provided with the same

1 is a perspective view schematically showing a typical ice machine;

2 is a perspective view of an ice making substrate according to the prior art,

3a to 3d is a combined flow chart of the ice making substrate and the evaporation tube according to the prior art,

4 is a perspective view of an ice making substrate according to the present invention, and

5 is a cross-sectional view of FIG. 4.

<Description of the symbols for the main parts of the drawings>

100; Ice making substrate 110; Deicing protrusion

120; Evaporator

The present invention relates to an ice making machine, and more particularly, to an ice making substrate for cooling ice making water to produce ice and an ice making machine having the same.

In general, an ice maker is an apparatus for cooling iced ice water supplied from inside / outside of an ice maker body, and an example of a typical ice maker is shown in FIG. 1.                         

Referring to FIG. 1, the conventional ice maker 1 includes an ice maker body 2, a cooling system, an ice storage 3, and an ice making unit 10. The cooling system includes a compressor (4), a condenser (not shown), and an evaporation tube (5). The ice is generated in the ice making unit (10) by cooling the periphery of the evaporation tube (5) when the ice maker (1) is driven. do. The ice reservoir 3 stores the ice generated by the ice making unit 10.

Referring to FIG. 2, an ice making substrate 11 includes an evaporator tube 5, which is connected to both ends of a condenser (not shown) and a compressor 4, and forms a part of a cooling system. Is placed on top. Then, a plurality of ice making protrusions 13 are installed on the lower surface on which the evaporation tube 5 is embedded. The ice making substrate 11 having such a configuration generates ice by being cooled by the evaporation tube 5 when the cooling system is driven and the ice making protrusions 13 are immersed in the ice making water accommodated in the tray 6 (see FIG. 1). .

At this time, typically, the ice making substrate 11 and the evaporation tube 5 are combined through the processes of FIGS. 3A to 3D. That is, the ice making substrate 11 is provided with a seating portion 11a for embedding the evaporation tube 5 in a shape corresponding to the evaporation tube 5, as shown in FIG. 3A. When the evaporation tube 5 is seated on the seating portion 11a as shown in FIG. 3B, the support plate 12 forming both wall surfaces of the seating portion 11a is deformed as shown in FIG. 3C to evaporate the tube 5 and the ice making substrate. (11) is in close contact. Then, as shown in FIG. 3D, the spaced portions between the two support plates 12 are blazed by the solder 14.

However, in the conventional ice making unit 10 configured as described above, the solder 14 is not uniformly welded during the blazing operation in which the evaporating tube 5 is fixed to the ice making substrate 11, and thus the evaporating tube 5 and the ice making substrate are not. Moisture or the like penetrates into the space portion between the 11 and the freezing and swelling phenomenon of the evaporation tube 5 may occur, which may lower the cooling performance of the ice maker. In addition, since the material of the evaporation tube 5 and the ice making substrate 11 must be made of the same material for the blazing operation, there is also a problem that the manufacturing cost per process can be increased.

The present invention has been made in view of the above, it is possible to improve the cooling efficiency of the ice maker by preventing the freezing and swelling of the evaporation tube, and the ice making substrate of the ice maker and the same to reduce the manufacturing cost Its purpose is to provide an ice maker.

An ice making substrate of an ice making machine having a plurality of ice making protrusions for cooling ice making water according to the present invention for achieving the above object is formed with a sealed flow path through which a refrigerant flows.

According to a preferred embodiment of the present invention, the hermetic flow passage may be formed of an evaporation tube installed inside the ice making substrate. In this case, the ice making substrate is preferably molded with the evaporation tube inserted therein.

The ice making substrate and the evaporation tube may be formed of different materials. Preferably, the ice making substrate is made of aluminum and the evaporation tube is made of copper.

An ice maker with an ice making substrate according to a preferred embodiment of the present invention has an ice making substrate having a plurality of ice making protrusions for cooling ice making water to generate ice, and the ice making substrate is formed with an evaporation tube inserted therein. It is characterized by being molded.

According to the present invention as described above, since the ice-making substrate is molded in the state that the evaporation tube is inserted, it does not require a separate blazing operation for installing the evaporation tube, the freezing of the evaporation tube due to the blazing operation error and Swelling can be prevented.

In addition, since the evaporation tube is in close contact with the inside of the ice making substrate, the cooling efficiency of the ice making machine is improved, and the ice making substrate and the evaporating tube can be formed of different materials, thereby reducing the manufacturing cost.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 4, the ice making substrate 100 according to the present invention includes a plurality of ice making protrusions 110. A sealed passage may be formed inside the ice making substrate 100. The sealed passage may be provided with an evaporation tube 120 inserted into the ice making substrate 100, as shown in FIG. At this time, the ice making substrate 100 is preferably molded in a state in which the evaporating tube 120 is inserted to be in close contact with the evaporating tube 120.

That is, the metal which first arranges the evaporation tube 120 in the mold for manufacturing the ice making substrate 100, and forms the ice making substrate 100 on the upper and lower portions of the evaporation tube 120, for example, aluminum having excellent heat transfer efficiency. The ice making substrate 100 is formed by using a metal of the same material as the (Al) alloy.                     

At this time, the material of the evaporation tube 120 may be the same material as the ice making substrate 100, but in order to reduce the production cost and improve the heat transfer efficiency, it is provided with a different material from the ice making substrate 100. For example, when the ice making substrate 100 uses an aluminum (Al) material, an evaporation tube 120 formed of a copper (Cu) alloy having better thermal conductivity than the material is used.

In other words, in the related art, since the glazing substrate 100 and the evaporation tube 120 are fixed by soldering, if the materials of the ice making substrate 100 and the evaporation tube 120 are different from each other, the blazing is good. As such, freezing and swelling of the evaporation tube as described above may occur. Therefore, there is a problem that the cooling efficiency may be lowered when using the ice maker for a long time.

However, according to the present invention, since the ice making substrate 100 is molded while the evaporating tube 120 is inserted into a mold for manufacturing the ice making substrate 100, the evaporating tube 120 is an ice making substrate ( 100 is not exposed to the outside of the air does not penetrate the gap that can be formed between the ice making substrate 100 and the evaporation tube (120). Therefore, the moisture permeated into the gap between the ice making substrate 100 and the evaporation tube 120 is frozen, there is no fear that the evaporation tube 120 freezes.

In addition, since the ice making substrate 100 is molded while the evaporating tube 120 is inserted, the evaporating tube 120 is disposed in close contact with the ice making substrate 100, and thus, the ice making substrate 100 is evaporated. Heat loss between the pipe 120 is reduced, it can be expected to improve the cooling efficiency.

In addition, since the ice making substrate 100 and the evaporation tube 120 do not need to be fixed with solder, the ice making substrate 100 and the evaporation tube 120 may be formed of different materials, thereby reducing manufacturing costs. have.

On the other hand, since the structure of the ice maker with the ice making substrate configured as described above is the same as P03-20353 (2004.04.01) filed by the present applicant, a detailed description of the structure of the ice maker is omitted.

According to the present invention as described above, since the ice-making substrate is molded in the state that the evaporation tube is inserted, it does not require a separate blazing operation for installing the evaporation tube, the freezing of the evaporation tube due to the blazing operation error and Swelling can be prevented.

In addition, since the evaporation tube is in close contact with the inside of the ice making substrate, the cooling efficiency of the ice making machine is improved, and the ice making substrate and the evaporating tube can be formed of different materials, thereby reducing the manufacturing cost.

While the invention has been shown and described in connection with preferred embodiments for illustrating the principles of the invention, the invention is not limited to the construction and operation as shown and described. That is, those skilled in the art to which the present invention pertains will appreciate that many changes and modifications can be made to the present invention without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

Claims (6)

An ice making substrate of an ice making machine having a plurality of ice making protrusions that cool ice making water to produce ice, The ice making substrate is an ice making substrate of the ice maker, characterized in that the sealed passage through which the refrigerant flows is formed. The method of claim 1, wherein the closed flow path, An ice making substrate of an ice maker, characterized in that the evaporation tube installed inside the ice making substrate. The method of claim 2, The ice making substrate is an ice making substrate of the ice maker, characterized in that molded in the state in which the evaporation tube is inserted. The ice making substrate of claim 1, wherein the ice making substrate and the evaporation tube are formed of different materials. The method of claim 1, The ice making substrate is formed of aluminum, the evaporation tube is an ice making substrate, characterized in that formed of copper. An ice maker having an ice making substrate having a plurality of ice making protrusions that cool ice making water to produce ice, And the ice maker substrate is molded with an evaporation tube inserted therein.

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