KR100608869B1 - Adiabatic structure in refrigerator cabinet and a manufacturing method thereof - Google Patents

Abstract

The present invention relates to a method for manufacturing a refrigerator cabinet, wherein a porous foamed plastic is formed between an outer surface of a refrigerator cabinet formed of an ABS resin or a cavity resin, an inner surface of a refrigerator cabinet formed of an ABS resin, and an outer surface and an inner surface of the refrigerator cabinet. By including a heat insulating material filled with a micro-cellular foamed plastic, it is not necessary to manufacture a separate foam molding machine in forming the heat insulating portion of the refrigerator cabinet, the plastic injection method, the inner surface of the refrigerator cabinet, the outer surface of the refrigerator cabinet and the heat insulating portion of the refrigerator cabinet. It is possible to integrally mold, and both the outer surface of the refrigerator cabinet and the inner surface of the refrigerator cabinet are formed by using a plastic resin to provide a heat insulating structure of the lightweight refrigerator cabinet and a method of manufacturing the same.

Refrigerator Cabinet, Insulated Structure, Micro Cellular Foamed Plastic

Description

Method for manufacturing refrigerator cabinet {ADIABATIC STRUCTURE IN REFRIGERATOR CABINET AND A MANUFACTURING METHOD THEREOF}

1 is a perspective view of a refrigerator cabinet

2 is a cross-sectional view of a conventional heat insulation structure according to the cutting line X-X of FIG.

3 is a cross-sectional view of another conventional heat insulating structure according to the cutting line X-X of FIG.

4 is a cross-sectional view showing the configuration of the vacuum insulator of FIG.

5 is a cross-sectional view of the insulating structure according to the embodiment of the present invention according to the cutting line X-X of FIG.

6 is a cross-sectional view of an insulating structure according to another embodiment of the present invention according to the cutting line X-X of FIG.

** Description of symbols for the main parts of the drawing **

1: refrigerator cabinet 20: cabinet exterior

40: vacuum insulation 50: inside the cabinet

100: micro cellular foamed plastic

The present invention relates to a method for manufacturing a refrigerator cabinet, and more particularly, in forming the heat insulating portion of the refrigerator cabinet, the inner surface of the refrigerator cabinet, the outer surface of the refrigerator cabinet, and the heat insulating portion of the refrigerator cabinet are formed by a plastic injection method without using a separate foam molding machine. It relates to a method of manufacturing a refrigerator cabinet integrally molded with.

The refrigerator is for storing food at low temperature, and includes a cabinet for forming a storage space such as a refrigerator compartment or a freezer compartment for storing food, a door for opening and closing the refrigerator compartment and the freezer compartment, and a machine for keeping the stored food at a low temperature state. It consists of wealth.

Here, the cabinet is filled with a heat insulating material between the outer surface forming the outer shape and the inner surface forming the storage space to increase the cold effect. In recent years, light and excellent insulation polyurethane is used as a material of the heat insulating material, the polyurethane foam liquid is injected between the inner surface and the outer surface of the cabinet in the assembled state by heating and foaming to fill the insulation inside the cabinet.

1 is a perspective view of a refrigerator cabinet, FIG. 2 is a sectional view of a conventional heat insulation structure according to the cutting line XX of FIG. 1, FIG. 3 is a sectional view of a conventional heat insulation structure of another form according to the cutting line XX of FIG. 3 is a cross-sectional view showing the configuration of the vacuum insulator of FIG.

As shown in the figure, the heat insulation structure of the refrigerator cabinet 1 includes a cabinet outer surface 10 formed to protect against external shocks, a cabinet inner surface 20 in which food products, etc. are accommodated, a cabinet outer surface 10 and The cabinet inner surface 10 is composed of a cabinet heat insulating portion 30 formed to improve the refrigeration and freezing efficiency.

The cabinet outer surface 10 is formed of an iron plate having high rigidity and impact resistance to protect from external impact, etc., the cabinet inner surface 20 is extruded with ABS resin and processed into a desired shape.

The cabinet heat insulating part 30 is formed to increase the refrigerating and freezing efficiency of the inside of the refrigerator cooled by the refrigeration cycle, and is mainly formed by filling the polyurethane foam foamed by reacting the polyurethane foam.

Unexplained reference numeral 20a in the drawing is a protrusion formed to put a shelf for storing food on the cabinet inner surface 20.

On the other hand, as shown in Figure 3, in addition to the heat insulating portion 30 formed of polyurethane foam between the cabinet outer surface 10 and the cabinet inner surface 20 further comprises a vacuum heat insulating material 40, the refrigerator cabinet The heat insulation effect can be improved further.

The refrigerator cabinet 1 configured as described above is manufactured by the following manufacturing process. That is, in order to fill the polyurethane foam 30 between the cabinet outer surface 10 and the inner surface 20, it is necessary to manufacture a prefabricated refrigerator cabinet in which the cabinet outer surface 10 and the cabinet inner surface 20 is formed in advance, A separate foam molding machine capable of withstanding the foaming pressure generated in the step of forming the foam foam 30 with the polyurethane foam should be manufactured. In the case of not manufacturing a separate foam molding machine, the inner surface of the cabinet made of ABS resin ( 20) had a problem that the shape of the deformation.

The present invention has been made to solve the problems of the prior art as described above, in forming the heat insulating portion of the refrigerator cabinet, the inner surface of the refrigerator cabinet, the outer surface of the refrigerator cabinet and the heat insulating portion of the refrigerator cabinet without using a separate foam molding machine plastic injection method An object of the present invention is to provide a method for manufacturing a refrigerator cabinet which is integrally molded.

Still another object of the present invention is to provide a refrigerator cabinet which is light in weight by forming both the outer surface of the refrigerator cabinet and the inner surface of the refrigerator cabinet by using a plastic resin.

The present invention and the outer surface of the refrigerator cabinet to achieve the object as described above; The inner surface of the refrigerator cabinet; An insulating material filled with a porous foamed plastic formed of microcellular foamed plastic between an outer surface and an inner surface of the refrigerator cabinet; It provides an insulating structure of the refrigerator cabinet, characterized in that configured to include.

This is to form the porous foamed plastic between the outer surface and the inner surface of the refrigerator cabinet, so that the outer surface of the refrigerator cabinet, the inner surface, and the heat insulation part formed of the porous foamed plastic can be integrally formed by the micro-cellular plastic injection method.

Here, the outer surface of the refrigerator cabinet is preferably formed of a plastic resin.

In addition, the vacuum insulator is further included between the inner surface and the outer surface of the refrigerator cabinet.

In addition, the inner surface of the refrigerator cabinet is formed of ABS (ABS) resin, the outer surface of the refrigerator cabinet is preferably formed of ABS (ABS) resin or PBT (PBT) resin.

On the other hand, according to another field of the invention, the present invention, a method of manufacturing a refrigerator cabinet, comprising the steps of inserting a plastic resin forming the inner surface and the outer surface of the refrigerator cabinet to a mold together; Integrally molding and manufacturing a porous foamed plastic formed of microcellular foamed plastic between an inner surface and an outer surface of the refrigerator cabinet with an injection mold; It provides a method for manufacturing a refrigerator cabinet comprising a.

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

5 is a cross-sectional view of a heat insulation structure according to an embodiment of the present invention according to the cutting line XX of FIG. 1, the heat insulation structure of the refrigerator cabinet according to an embodiment of the present invention, the cabinet outer surface 50 formed of a plastic resin and The cabinet inner surface 20 is accommodated with food, and the cabinet insulation portion 100 formed of a porous foam plastic between the cabinet outer surface 50 and the cabinet inner surface 20 to improve the refrigeration and freezing efficiency.

The cabinet inner surface 20 is formed of an ABS resin (Acrylonitrile-Butadiene-Styrene (ABS)) resin, the cabinet outer surface 50 is formed of a plastic resin of either ABS resin or polybutylene Terephthalate (PBT) resin. .

In addition, the heat insulating part 100 may be formed of a micro-cellular foamed plastic in which a carbon dioxide gas having excellent thermal insulation effect is injected into a general injection molding plastic and foamed, thereby reducing mechanical weight while reducing the weight of a molded article. Here, the general injection molding plastics used may be ABS resins, PIV resins, polyethylene (PE) resins, polypropylene (PP) resins, acrylic resins, etc., but the strength is high and the thermal insulation is high. It is preferable to use it as an ABS resin or a PBT resin which has an effect and is excellent in surface quality.

The insulation structure of the refrigerator cabinet according to the embodiment of the present invention configured as described above inserts plastic of ABS resin or PBT resin, which is the outer surface 50 and the inner surface 20 of the refrigerator cabinet, into the mold. It is made by injecting carbon dioxide gas having excellent thermal insulation properties and integrally molding the injection mold by a microcellular foamed plastic injection method.

Here, the micro-cellular foamed plastic forming the heat insulating part 100 serves the same role as the foamed foam of the conventional polyurethane by a myriad of fine foaming containing carbon dioxide gas, forming the outer surface 50 of the refrigerator cabinet Since the ABS resin and the plastic of ERP (ERP) material has a high strength, as in the conventional iron plate 10 serves to protect the refrigerator cabinet from the external impact.

6 is a cross-sectional view of an insulating structure according to another embodiment of the present invention according to the cutting line XX of FIG. 1, and as shown in FIG. 6, a poly between the cabinet outer surface 50 and the cabinet inner surface 20. In addition to the heat insulating part 100 formed of urethane foam, it is further configured to include a vacuum heat insulating material 40, it is possible to further improve the heat insulating effect of the refrigerator cabinet.

As shown in Fig. 4, the vacuum insulator 40 is configured such that a core 41 as a heat insulation structure is enclosed in an aluminum film bag 42 and sealed in a vacuum state. Here, the core material 41 is formed of a polyurethane foam in the form of an open cell, the film bag 42 has an internal vacuum of 10 ^-3 Torr (to prevent the penetration of external gas to maintain a vacuum inside) torr). An adsorbent (not shown) may be inserted between the aluminum film bag 42 and the core 41 to adsorb and remove a small amount of impurity gas remaining in the vacuum-sealed film bag 42 to maintain a vacuum degree.

As described above, the insulating structure of the refrigerator cabinet including the vacuum insulator 40 includes the ABS resin or the PBT resin and the vacuum insulator 40 which are the outer surface 50 and the inner surface 20 of the refrigerator cabinet. ) Are inserted together and integrally molded into an injection mold by a micro-cellular foamed plastic injection method.

Therefore, the insulation structure of the refrigerator cabinet according to the present invention does not require a prefabricated refrigerator cabinet in which the cabinet outer surface 10 and the cabinet inner surface 20 are combined in order to inject and foam polyurethane foam as in the prior art. Since no need for a separate foam molding machine for forming a heat insulating part inside the prefabricated refrigerator cabinet, the manufacturing process is simpler than in the related art, and thus the process efficiency is improved, and the manufacturing cost of the refrigerator cabinet can be drastically reduced.

The insulation structure of the refrigerator cabinet according to the present invention may be widely used as a medium or small refrigerator cabinet having a simple internal shape including a kimchi refrigerator or a freezer.

Although the preferred embodiments of the present invention have been described above by way of example, the scope of the present invention is not limited to these specific embodiments, and may be appropriately changed within the scope described in the claims.

As described above, according to the present invention, the outer surface of the refrigerator cabinet formed of ABS resin or POV resin, the inner surface of the refrigerator cabinet formed of ABS resin, and the microporous porous plastic between the outer surface and the inner surface of the refrigerator cabinet By including an insulating material filled with cellular foamed plastic, it is possible to integrally mold the inside of the refrigerator cabinet, the outside of the refrigerator cabinet and the inside of the refrigerator cabinet by the plastic injection method without having to manufacture a separate foam molding machine in forming the heat insulating portion of the refrigerator cabinet. Since the outer surface of the refrigerator cabinet and the inner surface of the refrigerator cabinet can be formed by using a plastic resin, it is possible to provide a heat insulation structure of the lightweight refrigerator cabinet and a manufacturing method thereof.

Claims (9)

As a manufacturing method of a refrigerator cabinet, Inserting together the plastic resin forming the inner and outer surfaces of the refrigerator cabinet into a mold; Injecting a gas between the inner surface and the outer surface of the refrigerator cabinet with the mold to manufacture a porous foamed plastic insulation part which is injection molded integrally with the inner surface and the outer surface of the refrigerator cabinet; Method for producing a refrigerator cabinet, characterized in that configured to include. The method of claim 1, The porous foam plastic is a manufacturing method of a refrigerator cabinet, characterized in that the micro-cellular foam plastic. The method of claim 2, The micro-cellular foamed plastic is a refrigerator cabinet, characterized in that formed of at least one of ABS (PBS) resin, PBT (PBT) resin, PE (PE) resin, PPI (PP) resin, acrylic resin. The method according to claim 1 or 2, Method of manufacturing a refrigerator cabinet characterized in that it further comprises a vacuum insulation between the inner surface and the outer surface of the refrigerator cabinet. The method according to claim 1 or 2, The inner surface of the refrigerator cabinet is a manufacturing method of the refrigerator cabinet, characterized in that formed of ABS (ABS) resin. The method according to claim 1 or 2, The outer surface of the refrigerator cabinet is a manufacturing method of the refrigerator cabinet, characterized in that formed of ABS (ABS) resin or PBT (PBT) resin. delete delete delete

Images