KR100620027B1 - Adiabatic structure in refrigerator cabinet for suppressing generation of air pocket and method thereof - Google Patents

Abstract

The present invention relates to an insulating structure of a refrigerator cabinet that suppresses air pockets generated in a foam foam in a refrigerator cabinet, and a method of manufacturing the same, wherein an outer surface of the refrigerator cabinet, an inner surface of the refrigerator cabinet, and an outer surface and an inner surface of the refrigerator cabinet are provided. In the heat insulation structure of the refrigerator cabinet including a heat insulating portion formed of foam foam, between the outer surface of the refrigerator cabinet and the inner surface of the cabinet in order to install various switches or sensors, which is difficult to fill the adsorbent adsorbing the foam foam By adhering to the installed position or the bent corner portion penetrated into the space portion of the space, the air pocket is not generated by the adsorbent so that the foam is filled uniformly throughout, the insulation structure of the refrigerator cabinet excellent in the reliability and excellent heat insulation effect And a method for producing the same.

Refrigerator Cabinet, Insulation Structure, Air Pocket, Adsorbent

Description

Insulation structure of refrigerator cabinet that suppresses the occurrence of air pockets in the refrigerator cabinet and its manufacturing method {ADIABATIC STRUCTURE IN REFRIGERATOR CABINET FOR SUPPRESSING GENERATION OF AIR POCKET AND METHOD THEREOF}

1 is a perspective view of a refrigerator cabinet

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

Figure 3 is a schematic diagram showing the configuration of the adsorbent included in the heat insulating structure according to one aspect of the present invention

Figure 4 is a cross-sectional view of the insulating structure according to an embodiment of the present invention along the cutting line X-X of Figure 1

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

1: refrigerator cabinet 10: cabinet exterior

20: Inside cabinet 30: Cabinet insulation

100: adsorbent 110: zeolite molecular sieve powder

120: calcium stearate powder 130: kraft tape

The present invention relates to a heat insulating structure of the refrigerator cabinet, and more particularly, to foaming the heat insulating portion of the refrigerator cabinet, the foam foam is smoothly filled in the installation position of the structure for inserting various switches or sensors or the corner position formed with the bend. The present invention relates to a heat insulating structure of a refrigerator cabinet that suppresses the occurrence of air pockets and a method of manufacturing the same.

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 conventional refrigerator cabinet, and as shown in FIG. 1, the heat insulation structure of the refrigerator cabinet 1 includes a cabinet outer surface 10 formed of steel so as to protect against external shocks, and foodstuffs. The cabinet inner surface 20 and the cabinet outer surface 10 and the cabinet inner surface 10 is composed of a cabinet heat-insulating portion 30 that is foamed with a foam to form a foam to improve the refrigeration and freezing efficiency.

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

The cabinet insulation part 30 is formed to increase the refrigerating and freezing efficiency of the inside of the refrigerator cooled by the refrigeration cycle, mainly injected polyurethane foam liquid between the outer surface 10 and the inner surface 20 of the refrigerator cabinet. Then, it is filled with polyurethane foam foam reacted and foamed under high temperature and high pressure conditions.

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

By the way, as shown in Figure 2, in order to form the cabinet insulation portion 30 by injecting a polyurethane foam in the heat insulating structure of the conventional refrigerator cabinet 1 as described above, by spraying the polyurethane stock solution at high speed In the process of filling the space portion between the inner surface 20 of the refrigerator cabinet and the outer surface 10 of the refrigerator cabinet, a position 99 or a curved portion 99 where various structural obstacles 51 such as switches of the space portion are formed is formed. In the corner portion 99, the foam liquid is scattered or the flow is not supplied smoothly. Therefore, since the foaming liquid is not foamed properly at the position during the foaming process filled at high speed, an air pocket is generated, which causes the thermal insulation effect of the cabinet insulation portion 30 to be inhibited.

Further, in severe cases, the freon blowing agent gas component in the air pocket may be condensed to cause chemical deformation or cracking of the inner surface of the refrigerator cabinet 10 formed of the plastic ABS resin. It had a problem of deforming (21).

The present invention has been made to solve the problems of the prior art as described above, in forming the insulation of the refrigerator cabinet air generated due to the foam foam is not filled in the corner portion formed structure or curve for inserting various switches or sensors An object of the present invention is to provide an insulating structure of a refrigerator cabinet that suppresses the occurrence of pockets and a method of manufacturing the same.

In addition, another object of the present invention is to provide a thermal insulation structure of the refrigerator cabinet having a reliable and high thermal insulation effect by allowing the foamed liquid to be foam-filled uniformly as described above.

In order to achieve the object described above, the present invention provides a heat insulation of a refrigerator cabinet including an outer surface of a refrigerator cabinet, an inner surface of the refrigerator cabinet, and an insulation portion formed of foam foam formed between the outer surface and the inner surface of the refrigerator cabinet. In the structure, the adsorbent for adsorbing the foam is provided between the outer surface of the refrigerator cabinet and the inner surface of the cabinet provides an insulating structure of the refrigerator cabinet.

This allows the foam to be filled by the adsorbent even at the corners where structures or bends are formed to insert various switches or sensors, thereby suppressing the occurrence of air pockets in the foaming process of the refrigerator cabinet and forming the foam uniformly. By doing so, it is possible to form a heat insulating part of a refrigerator cabinet having a reliable and high heat insulating effect.

Here, the adsorbent is preferably attached to the edge of the refrigerator cabinet, the position of the protrusion, etc., the foam is not filled.

In particular, considering that the inner surface of the refrigerator cabinet is generally formed of a low-strength plastic material, by adsorbing the adsorbent to the inner surface of the refrigerator cabinet, the foam is filled to the inner surface of the refrigerator cabinet, thereby generating the inner surface of the refrigerator cabinet. To prevent possible deformation.

In this case, the foam is formed of a polyurethane foam, the adsorbent is a zeolite molecular sieve (Molecular Sieve Zeolite) and the polyurethane foam (Cell open) material calcium stearate (Ca (C ₁₇ H ₃₅ Coo) It is effective to form a mixture of ₂ ) in a ratio of 6: 4 to 8: 2, respectively.

In addition, the adsorbent further includes a kraft tape, and is formed to be easily attached to a position to be attached.

On the other hand, according to another field of the invention, as a manufacturing method of the insulation structure of the refrigerator cabinet to suppress the occurrence of air pockets in the foam foam for insulation formed between the outer surface of the refrigerator cabinet and the inner surface of the refrigerator cabinet, Attaching an adsorbent for adsorbing foam foam between an outer surface and an inner surface of the cabinet; Forming the foam after attaching the adsorbent; It provides a method for producing a thermal insulation structure of the refrigerator cabinet, characterized in that configured to include.

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

Figure 3 is a schematic diagram showing the configuration of the adsorbent included in the thermal insulation structure according to an embodiment of the present invention, Figure 4 is a cross-sectional view of the thermal insulation structure according to an embodiment of the present invention along the cutting line X-X of FIG.

As shown in the figure, the heat insulating structure according to an embodiment of the present invention, the inner surface 10 of the refrigerator cabinet formed of ABS plastic resin, and the steel having a high strength to protect the internal storage from external impacts, etc. The cabinet insulation surface 30 formed of a polyurethane foam plastic between the cabinet outer surface 10 and the cabinet inner surface 20 to improve the refrigeration and freezing efficiency, and the cabinet outer surface 10 formed of the refrigerator cabinet outer surface 20. And the position 99 where the structure is installed to insert various switches or sensors to the space portion of the cabinet inner surface 20 or the flow of the foam liquid is changed at right angles, so that the filling failure occurs due to the vortex when filling the foam liquid. And an adsorbent 100 attached to the corner portion 99.

The adsorbent 100 is to prevent the air pockets generated in the process of foaming the polyurethane foam to form the cabinet insulation portion 30, the zeolite molecular sieve (Molecular Sieve Zeolite) absorbing the freon blowing agent or other air components , 110) powder and calcium stearate (Ca (C ₁₇ H ₃₅ Coo) ₂ , 120) powder, which is a foam urethane foam cell open material, are mixed at about 7: 3 and kraft for convenience of attachment. ) Adheres to the tape 130. Therefore, in the process of filling and filling the polyurethane foam, the calcium stearate 120, which is a heat-opening material of the filler 100, primarily breaks the air pocket and opens the zeolite molecular sieve 110. By absorbing the freon blowing agent and other air components, the adsorbent removes the air pockets formed by the interference of the advancing of the foaming liquid, thereby filling the polyurethane foam evenly over the entire refrigerator heat insulating section 30.

Meanwhile, the zeolite molecular sieve powder 110 and the calcium stearate 120 powder of the adsorbent 100 are mixed in a fine powder at a ratio of about 6: 4 to 8: 2, and when more calcium stearate is mixed, This is because it adversely affects the physical properties and thermal insulation performance of the polyurethane foam formed while filling, and when less calcium stearate is mixed, the efficiency of breaking and opening the air pockets is reduced.

As shown in FIG. 3, the zeolite molecular sieve 110 powder and the calcium stearate 120 powder are mixed to form an adsorbent 100 in a form adhered to kraft tape. The adsorbent 100 is attached to the inner surface 20 of the refrigerator cabinet to prevent the plastic ABS resin 20 from being broken.

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, in the heat insulation structure of the refrigerator cabinet including an outer surface of the refrigerator cabinet, an inner surface of the refrigerator cabinet, and an insulation portion formed of foam foam between the outer surface and the inner surface of the refrigerator cabinet, the foam foam By adhering to the position where the adsorbent which adsorbs the gas is difficult to be filled smoothly, that is, the position penetrated into the space provided between the outer surface of the refrigerator cabinet and the inner surface of the cabinet in order to install various switches or sensors, The present invention provides a heat-insulating structure of a refrigerator cabinet having a reliable and excellent thermal insulation effect and a method of manufacturing the same by allowing the foam to be uniformly filled throughout the air pocket without generating an air pocket.

Claims (13)

In the heat insulating structure of the refrigerator cabinet comprising an outer surface of the refrigerator cabinet, the inner surface of the refrigerator cabinet, and the heat insulating portion formed of foam foam between the outer surface and the inner surface of the refrigerator cabinet, Adsorption agent for adsorbing the foam is an insulating structure of the refrigerator cabinet, characterized in that attached between the outer surface of the refrigerator cabinet and the inner surface of the cabinet. The method of claim 1, The adsorbent is an insulating structure of the refrigerator cabinet, characterized in that attached to any one or more positions of the corner, the protrusion of the refrigerator cabinet. The method of claim 1, The adsorbent is attached to the inner surface of the refrigerator cabinet heat insulation structure of the refrigerator cabinet. The method of claim 1, The foam is an insulating structure of the refrigerator cabinet, characterized in that formed by foaming with polyurethane. The method according to any one of claims 1 to 4, The adsorbent comprises a zeolite molecular sieve (Molecular Sieve Zeolite) and calcium stearate (Ca (C ₁₇ H ₃₅ Coo) ₂ ), characterized in that the insulation structure of the refrigerator cabinet. The method of claim 5, The zeolite molecular sieve and the calcium stearate have an insulation ratio of 6: 4 to 8: 2. The method of claim 6, The adsorbent is an insulating structure of the refrigerator cabinet, characterized in that it further comprises a kraft (kraft) tape. As a manufacturing method of the heat insulation structure of the refrigerator cabinet which suppresses generation | occurrence | production of an air pocket in the foam foam for heat insulation formed between the outer surface of a refrigerator cabinet, and the inner surface of a refrigerator cabinet, Attaching an adsorbent for adsorbing foam foam between an outer surface of the refrigerator cabinet and an inner surface of the cabinet; Forming the foam after attaching the adsorbent; Method for producing an insulating structure of the refrigerator cabinet, characterized in that configured to include. The method of claim 8, The adsorbent comprises a zeolite molecular sieve (Molecular Sieve Zeolite) and calcium stearate (Ca (C ₁₇ H ₃₅ Coo) ₂ ) The manufacturing method of the insulating structure of the refrigerator cabinet. The method of claim 9, The zeolite molecular sieve and the calcium stearate has a component ratio of 6: 4 to 8: 2 manufacturing method of the insulating structure of the refrigerator cabinet. The method of claim 10, The adsorbent is a manufacturing method of the insulating structure of the refrigerator cabinet, characterized in that it further comprises a kraft (kraft) tape. The method according to any one of claims 8 to 11, The adsorbent is attached to the inner surface of the refrigerator cabinet, the manufacturing method of the insulating structure of the refrigerator cabinet. The method of claim 12, And the adsorbent is attached to a portion in which a bend is formed between an outer surface of the refrigerator cabinet and an inner surface of the refrigerator cabinet, and a portion of which the width is narrowed or widened.

Images