KR20030094551A - Gasket for refrigerator door - Google Patents

Abstract

PURPOSE: A gasket for a refrigerator door is provided to efficiently prevent leakage of chilled air in a refrigerator and insulate heat between an inside and an outside of the refrigerator by changing structure of the gasket mounted and fixed to a door liner of the refrigerator door, and to improve heat insulating performance by cutting off or minimizing infiltration of heat flowing in from the outside of the refrigerator or generated by an anti-dewing hot line installed on a front side of the refrigerator into the refrigerator using the gasket. CONSTITUTION: A gasket(50a) includes a coupling part(54) inserted and fixed to a door liner; a shock absorbing air bag(53a) formed integrally with the coupling part to absorb shock when a refrigerator door and a refrigerator main body contact with each other, and having an attaching part(52) placed on an upper part thereof; a magnet(51) put on the shock absorbing air bag; and a heat infiltration preventing air bag(53b) formed on an inside of the refrigerator lengthily from a side of the magnet.

Description

Gasket for refrigerator door {Gasket for refrigerator door}

The present invention relates to a gasket for a refrigerator door. More particularly, the gasket structure fixed to the door liner of the refrigerator door is changed to effectively prevent leakage of cold air in the refrigerator and to insulate the inside and outside of the refrigerator. The present invention relates to a gasket for a refrigerator door that prevents or minimizes heat generated from entering heat inside a refrigerator through a heat and dew preventing hotline installed at a front side of the refrigerator.

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 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 form the outer door 20 Foamed urethane foam 40 for thermal insulation between the door liner 30 and the outer door 20 and the door liner 30. It consists of what was molded.

In addition, the conventional gasket 50 mounted and fixed to the door liner 30 as described above is in close contact with the front of the refrigerator main body 60 by the magnetic force of the inserted magnet 51, as shown in FIG. 10 is integrally formed at the bottom of the contact part 52 and the contact part 52 to seal the refrigerator itself, and a plurality of partitions to form a predetermined space at the lower part of the contact part 52. The divided air bag 53 and the bottom of the air bag 53 is integrally formed so that the contact portion 52 and the air bag 53 can 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 engaging groove 31 of the door liner 30.

When the refrigerator door 10 fixed with the gasket 50 having the structure as described above is closed at the front of the refrigerator main body 60 to seal the refrigerator main body 60, the contact portion 52 of the gasket 50 is closed. As the magnet 51 inserted into the refrigerator is attached to the outer case 70 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, and the refrigerator door 10 is separated from the refrigerator main body 60. When the door 10 is pulled out, a tension load is applied to the door liner 30 of the door 10 to pull the coupling portion 54 of the gasket 50, and is transferred to the coupling portion 54. As the air bag 53 integrally formed with the coupling part 54 is pulled by the tensile load, the close contact part 52 into which the magnet 51 is inserted is also pulled to the front of the refrigerator main body 60 by magnetic force. Attached contact portion 52 is the outer cable of the refrigerator main body 60 As the separation in 70 is presented a refrigerator body 60 open.

As such, the gasket 50 used for the refrigerator door requires various conditions due to the characteristics of the refrigerator. Among the most important conditions, as described above, the airtight state between the door 10 and the main body 60 of the refrigerator is assured. By maintaining the cold air leakage from the inside to the outside of the refrigerator, the heat insulation function to block the heat transfer from the outside to the inside.

However, in the case of the conventional gasket 50 shown in FIG. 2, the cold air leaks inside the refrigerator and the inside and the outside of the refrigerator in a state where only the contact portion 52 having a predetermined width in which the magnet 51 is inserted is attached to the front of the refrigerator main body 60. Since the heat transfer is blocked, when the gasket 50 is used for a long time, the gasket 50 itself due to frequent opening of the refrigerator door 10 is deformed and the refrigerator main body 60 of the refrigerator main body 60 is used. When the seal is closed, the contact portion 52 of the gasket 50 into which the magnet 51 is inserted may not be attached to the front surface of the outer case 70 of the refrigerator main body 60 to the refrigerator door 10. As a result, the refrigerator main body 60 is not completely sealed, and cold air leaks from the inside of the refrigerator to the outside, or heat insulation inside and outside the refrigerator is not completely completed, and thus the temperature inside the refrigerator is easily increased. There was a huge problem that so each performance is degraded.

In addition, in the case of the gasket 50 mounted and fixed to the door liner 30 of the refrigerator door 10, an air bag 53 integrally formed with the close contact portion 52 of the gasket 50 may be connected to the inside of the refrigerator. Since it is formed in a structure that does not block direct contact with the outer case 70 of the refrigerator main body 60, the heat generated from the hot line 90 installed in the front of the refrigerator main body 60 for the purpose of preventing dew formation At the same time as the heat is transferred to the outer case 70 of the main body 60, the heat is transferred between the inner passage 80 of the refrigerator main body A, that is, the inner case 80 of the refrigerator main body 60 and the door liner 30 of the refrigerator door 10. While preventing the intrusion into the inside of the refrigerator through the problem of increasing the cooling performance of the refrigerator itself, which is the above-described problem, there was a big problem that the power consumption of the refrigerator is increased accordingly.

The present invention was created to improve the above problems, and by changing the structure of the gasket to be fixed to the door liner of the refrigerator door, the cold air leakage in the refrigerator and the thermal insulation inside and outside the refrigerator, as well as by the gasket It is an object of the present invention to provide a refrigerator door gasket capable of blocking or minimizing heat generated by the heat generated outside the refrigerator and a dew condensation prevention hotline installed in the front of the refrigerator to improve thermal insulation performance.

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

2 is a cross-sectional view of a conventional refrigerator door equipped with a gasket on the doorliner.

Figure 3 is a cross-sectional view showing a gasket for a refrigerator door according to an embodiment of the present invention.

Figure 4 is a cross-sectional view showing a gasket for a refrigerator door according to another embodiment of the present invention.

5 and 6 is a cross-sectional view of the refrigerator door gasket according to the present invention applied to the refrigerator far-on compartment partitioning the refrigerator compartment and the freezer compartment.

7 and 8 is a cross-sectional view of the refrigerator door gasket according to the present invention applied to the refrigerator door.

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

10 ... door 20 ... external door

30 ... door liner 31 ... engagement groove

32.Protrusion 40.Urethane foam

50, 50a ... Gasket 51 ... Magnet

52.Contact 53.Airbag

Shock-absorbing airbags 53a

55, 57 ... recessed part 60 ... refrigerator body

70 ... fridge outer case 80 ... fridge inner case

90.Hotline 100 ... Murion part

53b ... Heat ingress airbag 56 ... Bottom bulkhead

In order to achieve the above object, the present invention provides a refrigerator door gasket installed in a door liner of a refrigerator door, comprising: a coupling part inserted into and fixed to the door liner; A shock absorbing air bag formed integrally with the coupling part to absorb a shock when the refrigerator door is in contact with the refrigerator main body; A magnet installed in a form mounted on the shock absorbing air bag; It is characterized in that it comprises a heat intrusion preventing air pocket formed on the inside of the refrigerator door starting from the side of the magnet.

Here, it is preferable to make the upper portion of the thermal intrusion prevention air bag thinner than the lower portion so that the deformation of the thermal intrusion prevention air bag is easy, and the inside of the thermal intrusion prevention air bag In order to maintain the shape, it is preferable that a supporting partition is further provided.

In addition, it is preferable that a recess is formed on the side surface of the heat intrusion preventing air bag so that the heat intrusion preventing air bag can be freely deformed according to the structure of the internal passage of the refrigerator. It is preferable that a recess is formed between the magnet and the thermal intrusion prevention air bag so as not to affect the intrusion prevention air bag.

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

3 is a cross-sectional view showing a gasket for a refrigerator door according to an embodiment of the present invention.

Referring to FIG. 3, the refrigerator door gasket 50a according to the present embodiment includes a coupling part 54 inserted into and fixed to the door liner; A shock absorbing air bag (53a) formed integrally with the coupling part (54) to absorb a shock when the refrigerator door is in contact with the refrigerator main body; A magnet 51 installed on the shock absorbing air bag 53a; Starting from the side of the magnet 51 is formed of a heat intrusion preventing air pocket 53b formed long inside the refrigerator door.

In more detail, the coupling portion 54 has an anchor shape so that the cross section is easy to insert, but the separation is difficult, so that the coupling portion 54 is firmly inserted and fixed to the door liner.

The shock-absorbing air bag 53a is integrally formed on one side of the upper part of the coupling part 54, and the close part 52 including the magnet 51 is positioned on the upper part of the coupling part 54. Therefore, the shock absorbing air bag 53a absorbs the shock applied to the close contact portion 52 when the refrigerator door contacts the refrigerator main body.

The thermal intrusion preventing air bag 53b is located at one side of the upper part of the coupling part 54, and is integrally formed with the coupling part 54, the shock absorbing air bag 53a, and the contact part 52. The shape is protruded to the doorliner side when viewed from the side, the thickness (t) of the upper portion is thinner than the thickness (T) of the lower portion, and a separate concave portion 55 is formed in the lower portion, so that it is easy to bend It is.

Since the heat intrusion preventing air bag 53b having such a shape protrudes toward the doorliner side and weakens its structure, it is preferable to further provide a supporting partition wall 56 therein.

In addition, as shown in FIG. 4 showing another embodiment of the present invention, the magnet 52 does not affect the thermal intrusion preventing air bag 53b when the thermal intrusion preventing air bag 53b is deformed. And a concave portion 57 may be formed between the thermal intrusion preventing air bag. In this case, the concave portion may also maintain the shape of the thermal intrusion preventing air bag.

5 and 6 are sectional views in which the gasket for a refrigerator door according to the present invention is applied to a refrigerator far-temperature unit partitioning the refrigerator compartment and the freezer compartment, and FIGS. 7 and 8 are sectional views in which the gasket for the refrigerator door according to the present invention is applied to the refrigerator door.

First, referring to FIGS. 5 and 7, when the refrigerator door 10 to which the gasket 50a is mounted according to the present invention is closed to the refrigerator main body 60 partitioned into the refrigerator compartment and the freezer compartment by the mullion part 100. When the air bag 53b for preventing heat intrusion of the gasket 50a blocks the inside passage A of the refrigerator, direct contact between the inside of the refrigerator and the outer case 70 of the refrigerator main body 60 is blocked.

At this time, in the heat intrusion prevention air pocket 53b, a thin upper part contacts the refrigerator inner case 80 and is deformed, and a thick lower part is formed in the recess 55 formed in the gasket 50a. It comes in contact with the door liner 30.

That is, the gap between the refrigerator inner case and the door liner is closed by using the inner case 80 and the air bag 53b for preventing heat intrusion of the gasket, so that heat exchange between the inside and the outside of the refrigerator is not easily performed.

On the other hand, in Figures 6 and 8, the recess 57 is formed in the upper portion of the thermal intrusion prevention air bag 53b, and at the same time facilitates the shape change of the thermal intrusion prevention air bag 53b when the door is closed, The magnet 52 is pushed by the door closing so as not to affect the shape of the thermal intrusion preventing air bag 53b so that the air bag can reliably close the gap between the inner case and the door liner.

As described above, the gasket for the refrigerator door according to the present invention changes the structure of the gasket fixed to the door liner of the refrigerator door, thereby effectively preventing cold air leakage and thermal insulation inside and outside the refrigerator, and by the gasket. External heat and dew condensation prevention hotline installed in the front of the refrigerator has an excellent effect of preventing or minimizing the heat generated intrusion into the refrigerator to improve the thermal insulation performance.

Claims (5)

A gasket for a refrigerator door mounted on a door liner of a refrigerator door, A coupling part inserted into and fixed to the door liner; A shock absorbing air bag formed integrally with the coupling part to absorb a shock when the refrigerator door is in contact with the refrigerator main body; A magnet installed in a form mounted on the shock absorbing air bag; An air pocket for preventing heat intrusion, formed at the side of the magnet and extending inwardly of the refrigerator door. Refrigerator door gasket, comprising the. The method of claim 1, The upper portion of the heat intrusion preventing air bag is thinner than the lower portion of the gasket for the refrigerator door, characterized in that the thickness. The method of claim 1, A gasket for a refrigerator door is further provided on the inner side of the thermal intrusion preventing air bag to support a shape of the thermal intrusion preventing air bag. The method of claim 1, And a concave portion is formed at the side surface of the heat intrusion preventing air bag so that the heat intrusion preventing air bag can be freely deformed according to the structure of the internal passage of the refrigerator. The method of claim 1, And a recess is formed between the magnet and the thermal intrusion preventing air bag so that the magnet does not affect the thermal intrusion preventing air bag when the thermal intrusion preventing air bag is deformed.