KR100564473B1 - Structure for adiabatic of refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator insulation structure, which includes an inner case of an inner case of a refrigerator main body, which is a passage leading into the refrigerator, and a inner position of the door liner of the refrigerator door, that is, the inner case which is bent and protruded from the one end connected to the outer steel plate. By filling the bent portion of the door liner with a material such as a silica aerogel having excellent insulation or heat insulating property, it is possible to prevent dew condensation caused by external heat entering the air along the outer steel plate and cold air inside the air. There is an excellent effect that can prevent the heat generated from the hotline installed in the front of the inner case to enter the interior.

Refrigerator, inner case, door liner, insulation, heat conduction

Description

Structure for adiabatic of refrigerator

1 is a cross-sectional view of a conventional refrigerator door.

2 is a schematic cross-sectional view of a conventional refrigerator body and a refrigerator door showing a state in which the refrigerator body is sealed by a refrigerator door equipped with a gasket.

3 is a schematic cross-sectional view and a detailed view of the refrigerator body and the refrigerator door according to the present invention.

4 is a state in which cold air leakage and inflow of external air are blocked by a gasket in a state where the inside of the refrigerator is sealed through the refrigerator door.

Figure 5 is a state in which the heat generated in the heat of the outside heat and dew condensation prevention hotline of the refrigerator by the heat insulating material of the present invention is blocked through the inner case and the doorliner is blocked.

Explanation of symbols on the main parts of the drawings

10. Refrigerator door 20. External door

30. Door liner 40. Urethane foam

50.Gasket 51.Magnet

52. Tightness 53. Connection

54. Coupling Part 55. Air Pocket

70. Inner Case 80. Hotline

100, 100a. Insulation 102, 102a. Bend

104, 104a. Home A. Aisle Inside Refrigerator

The present invention relates to a refrigerator, and more particularly, by filling a material such as a silica aerogel having excellent thermal insulation or heat insulating property in a bent portion of an inner case of a refrigerator main body and a door liner of a refrigerator door, which are passages into the refrigerator. The present invention relates to a refrigerator insulation structure that prevents heat generated from a hotline installed on the front of an inner case from entering an interior of the interior to prevent external heat and dew condensation that enter the interior of the interior.

In general, the refrigerator discharges cold air generated by a refrigeration cycle consisting of a compressor, a condenser, an expansion valve, an evaporator, and lowers the temperature in the refrigerator to freeze or refrigerate food and the like, and the cold air discharged into the refrigerator. The gasket is fixed to the inner edge of the refrigerator door, that is, the door liner, for the purpose of thermal insulation inside and outside the refrigerator to prevent leakage of the refrigerator to the outside of the refrigerator and to prevent heat from flowing into the refrigerator. When the gasket is mounted and fixed to the refrigerator door 10, as shown in Figure 1, the outer door (out door) 20 made of iron plate material and ABS resin by vacuum forming in a predetermined shape the outer door 20 Foot liner (30) for coupling to the foot, and the urethane foam 40 for thermal insulation between the outer door 20 and the door liner (30) It consists in that the molding.

In addition, the conventional gasket 50 mounted and fixed to the door liner 30 as described above is in close contact with the front surface of the refrigerator main body by the magnetic force of the inserted magnet 51, as shown in FIG. Is formed integrally with the close contact portion 52 to seal the refrigerator itself, and the bottom of the close contact portion 52, the connection portion divided into a plurality of partitions to form a predetermined space at the bottom of the close contact portion 52 The door liner 30 may be integrally formed at a lower end of the connection part 53 and the contact part 52 and the connection part 53 may be fixed to the door liner 30 of the refrigerator door 10. It is composed of an engaging portion 54 of the anchor shape that is inserted into and fixed to the coupling groove 31 of the. Reference numeral 55 is an air pocket 55.

When the refrigerator door 10 fixed with the gasket 50 having the structure as described above is closed at the front of the refrigerator body to seal the refrigerator body, the magnet 51 inserted into the contact portion 52 of the gasket 50 is closed. ) Is attached to the outer case (outer iron plate) 60 of the outside of the refrigerator made of a magnetic material, the inside of the refrigerator is completely blocked from the outside of the refrigerator, the door 10 to separate the refrigerator door 10 from the refrigerator body When pulling out, the tension load that pulls the engaging portion 54 of the door liner 30 of the door 10 is applied, the tensile load transmitted to the engaging portion 54 by the As the connection part 53 formed integrally with the coupling part 54 is pulled, the contact part 52 into which the magnet 51 is inserted is also pulled out so that the contact part 52 attached to the front of the refrigerator main body by magnetic force is attached to the refrigerator main body. Detach from Outcase (60) A refrigerator main body is to be opened while.

As such, the gasket 50 used for the refrigerator door 10 requires various conditions due to the characteristics of the refrigerator. Among the most important conditions, as described above, the airtightness between the refrigerator door 10 and the refrigerator main body is assured. The main role is to maintain the state and to block the leakage of heat from the inside of the refrigerator to the outside, and to prevent heat transfer from the outside to the inside.

However, in the case of the conventional gasket 50 shown in FIG. 2, only the close contact portion 52 having a predetermined width in which the magnet 51 is inserted is exposed to cold air leakage inside the refrigerator and heat outside the refrigerator. Since the gasket 50 is blocked for a long time, the gasket 50 itself is deformed due to frequent opening of the refrigerator door 10, and the magnet 51 is sealed when the refrigerator main body is sealed using the refrigerator door 10. The refrigerator main body by the refrigerator door 10 is completely sealed, such that the close contact portion 52 of the gasket 50 into which the) is inserted is not completely attached to the front of the outer case 60 of the refrigerator main body. When the inside of the refrigerator is not completely insulated, such as cold air leaks from the inside of the refrigerator to the outside, or heat inside the refrigerator enters the inside of the refrigerator, the temperature inside the refrigerator is easily increased. As a result, there was a big problem that the cooling performance of the refrigerator is greatly reduced.

In addition, the inner case 70 of the refrigerator main body of the ABS material and the door liner 30 of the refrigerator door 10 are about 10 times more thermally conductive than the heat insulating material for air and the refrigerator. Folded from the outside to the inner case 70 and transferred from the outer iron plate 60 connected to the inner case 70 to the inner case 70, that is, the heat generated from the external heat of the refrigerator and the hot line 80 for preventing dew condensation. The inner case 70 and the door liner 30 penetrate into the inside of the refrigerator while the temperature inside the refrigerator rises, and further increases the cooling performance of the refrigerator itself, which is the aforementioned problem, thereby causing the power consumption of the refrigerator. There was also a big problem that would increase.

In order to solve the above problems, the present invention, the inner case of the refrigerator main body, which is a passage leading into the refrigerator, and the door liner of the refrigerator door, that is, connected to an outer steel plate to indicate a predetermined position, that is, a high inner / external boundary External heat and high heat that enters the interior along the outer steel plate by filling a material such as a silica aerogel having excellent insulation or heat insulating property in the bent portion of the inner case and the door liner that protrudes from one end to the inner side. In order to prevent dew condensation caused by cold air inside, the purpose of the present invention is to block the heat of the hotline installed in the front of the inner case through the insulation filled in the bent portion of the inner case and the doorliner.

The object of the present invention is to fill the inner case of the refrigerator main body and the door liner bent portion of the refrigerator door which is bent and protruded from the one end connected to the outer steel plate in order to show the boundary between the inner and the outer plate to fill the heat insulating material It can be solved by the refrigerator insulation structure of the present invention, it will be described in detail with reference to the accompanying drawings.

Figure 3 shows a schematic cross-sectional view and a detailed view of the refrigerator body and the refrigerator door according to the present invention.

In the refrigerator insulation structure of the present invention, in the refrigerator configured to seal the inner case 70 of the refrigerator body by the refrigerator door 10 having the door liner 30;

The grooves 104 and 104a having a predetermined length are formed in the inner and outer sides of the inner case 70 and / or the bent portions 102 and 102a of the door liner 30 so as to be disconnected from each other. By filling the insulating material 100 and 100a in the grooves 104 and 104a, the heat of the refrigerator and the heat of the dew point preventing hotline 80 are transferred through the inner case 70 and the doorliner 30. It is configured to block intrusion into.

Hereinafter, the refrigerator insulation structure of the present invention will be described in detail.

In the refrigerator insulation structure of the present invention, the heat generated from the outside heat of the refrigerator and the hot line 80 for preventing dew condensation is folded toward the inner case 70 from the outside of the refrigerator body to be connected to the inner case 70 to the outer iron plate 60. Bending portion of the inner case 70 of the refrigerator main body and the door liner 30 of the refrigerator door 10 protruded from the one end connected to the external iron plate 60 to prevent the intrusion into the refrigerator through As the heat insulating material 100 (100a) is filled in (102) (102a), the present invention will be described in detail. The same reference numerals will be applied to the same configurations as those of the present invention and the conventional art described above.

The refrigerator according to the present invention includes a bent portion 102 of the inner case 70 and the door liner 30 which protrude and bend toward the inner side from one end connected to the outer steel plate 60 for the inner / outer boundary of the furnace. Grooves 104 and 104a having a predetermined length are formed in 102a) so that one side end and the other end of the bent portion 102 and 102a are mutually disconnected from each other, and the grooves 104 and 104a are formed. It is configured to block the heat generated from the external heat of the refrigerator and the hot line 80 for preventing dew condensation by insulating the heat insulating material (100) (100a) through the inner case (70) and the door liner (30). have.

At this time, the insulation 100 (100a) is to insulate between the outer iron plate 60 and the inner case 70 of the refrigerator body and the outer iron plate 20 and the door liner 30 of the refrigerator door 10. It is made of a urethane foam which is foam molded for the purpose, or Silica aeogel having better thermal insulation than the materials of the inner case 70 and the door liner 30.

In addition, the insulation 100 (100a) is between the outer iron plate 60 and the inner case 70 of the refrigerator main body and the outer iron plate 20 and the door liner 30 of the refrigerator door 10 for the insulation in the interior of the refrigerator When filling the urethane foam between the), the urethane foam filled in the grooves 104, 104a formed in the bent portion (102, 102a) of the inner case 70 and the doorliner 30 is filled with the inflow or Or by inserting a separate heat insulating member (not shown) into the grooves 104 and 104a formed in the bent portions 102 and 102a of the inner case 70 and the door liner 30 to be filled or inserted as described above. The heat generated from the external heat and dew condensation prevention hotline 80 of the refrigerator by the insulating material 100 (100a) is blocked to intrude into the interior through the inner case 70 and the door liner 30.

The inner case 70 and the door liner 30 protruding from the cold air leakage and the inflow of external air by the gasket 50 and the bending inside the high inside in the state where the inside of the refrigerator is sealed through the refrigerator door 10 as described above. Heat generated by the heat insulator 100 and 100a of the bent portion 102 and 102a of the heat dissipation hotline 80 to prevent external condensation and dew condensation of the refrigerator is the inner case 70 and the door liner 30. The following describes the state in which the intrusion into the interior is blocked.

4 is a view illustrating a state in which air leakage and inflow of external air are blocked by a gasket in a state where the inside of the refrigerator is sealed through the refrigerator door, and FIG. 5 is a hotline for preventing external heat and dew condensation of the refrigerator by the insulation of the present invention. The heat generated is a state that the intrusion into the interior through the inner case and the door liner is blocked.

First, when the refrigerator door 10 is closed to seal the refrigerator main body, the magnet 51 inserted into the contact portion 52 of the gasket 50 is attached to the refrigerator external iron plate 60 made of a magnetic material, and thus the refrigerator is closed. A passage through which the air pocket 55 of the gasket 50 installed at the edge of the door liner 30 of the door 10 passes into the refrigerator, that is, the inner case 70 of the refrigerator body and the door of the refrigerator door 10. The liner 30 is blocked so that the refrigerator main body is completely sealed by the gasket 50. When the refrigerator main body is sealed by the gasket 50, as shown in FIG. Not only the leakage to the outside of the refrigerator is blocked, but also the outside air is blocked from entering the refrigerator.

In addition, in the state where the refrigerator main body is sealed by the refrigerator door 10 as described above, the inner case 70 and the door liner 30 are folded from the outside of the main body and the door 10 to the inner case 70 and the door liner 30. Heat transferred from the outer iron plate 60 and 20 connected to the inner case 70 and the door liner 30, that is, the heat generated from the external heat of the refrigerator and the hot line 80 for preventing dew condensation, etc. When invading into the interior through the inner case 70 and the door liner 30, as shown in Figure 5, the interior from the one end connected to the outer steel plate 60, 20 so that the interior / exterior is mutually disconnected The inner case 70 and the heat insulating material 100 and 100a filled in the bent portions 102 and 102a of the door liner 30 are bent through the inner case 70 and the door liner 30. By blocking the flow of heat generated from the external heat and hotline 80 to enter the interior The intrusion of the heat is to be cut off than to also prevent conduction to the inner case 70 and the door liner 30, as well as into the high-side passageway (A) leading to the interior refrigerator.

Next, since the process of pulling the refrigerator door 10 to open the refrigerator main body is the same as the process described in the related art, duplicate description thereof will be omitted.

In the case of the refrigerator insulation structure configured as described above, the refrigerator is not only a top-type refrigerator in which the freezer is at the bottom, but also a bottom-type refrigerator in which the freezer is at the bottom, and Note that the freezer compartment and the refrigerating compartment can also be applied to side by side-type refrigerators located on the left and right sides of the main body.

The refrigerator insulation structure of the present invention, the inner case of the inner case and the door liner of the refrigerator main body which is a passage leading into the refrigerator, that is, the predetermined position of the door liner of the refrigerator door, that is, the inner case of the inner case and the door liner which are bent toward the inner side from one end connected to the outer steel plate Inner case to fill the bent portion with a material such as a heat insulating material or a silica aerogel having excellent thermal insulation, and to prevent dew condensation caused by external heat entering the inside along the outer steel plate and cold air inside the inside. There is an excellent effect that can prevent the heat generated from the hotline installed in the front of the inflow into the interior.

Claims (4)

A refrigerator configured to seal an inner case of a refrigerator main body by a refrigerator door having a door liner; A groove of a predetermined length is formed in the bent portion of the inner case and the bent portion of the door liner, which are bent toward the inner side, or one of them, so that the inner and outer sides thereof are mutually disconnected, and the formed groove is filled with a heat insulating material. Refrigerator insulation structure, characterized in that configured to block the heat of the external heat and dew condensation prevention hotline to enter the interior through the inner case and the doorliner. The refrigerator insulation structure of claim 1, wherein a separate insulation member is inserted into a groove formed in the bent portion. The refrigerator insulation structure according to claim 1 or 2, wherein the insulation is made of urethane foam. The refrigerator insulation structure according to claim 1 or 2, wherein the insulation material is made of silica airgel.

Images