KR20020059520A - Prevention Apparatus for Dweing on Door of Refrigerator - Google Patents

Abstract

PURPOSE: A structure for preventing dewing on door of refrigerator is provided to prevent dewing on a handle of the door. CONSTITUTION: A structure includes a door(32) comprising an inner case and an outer case(32b) to open and close a freezer compartment(S); a door handle(38) formed on the door to allow a user to hold the door; and a heat transfer member, which is aluminum tape, installed on the door and attached on an inner surface(32b') of the outer case of the door and extended to an inner surface(38') of the door handle to thermally connect the door handle and the outer case of the door so as to prevent dewing on the door.

Description

Refrigerator Door Dew Condensation Structure {Prevention Apparatus for Dweing on Door of Refrigerator}

The present invention relates to a refrigerator. More particularly, the present invention relates to a refrigerator door dew preventing structure for removing dew formed on a recessed door handle by heat conduction.

A refrigerator is a refrigerator that stores chilled items at a predetermined temperature or lower by supplying cold air into a storage space by driving a refrigeration cycle.

1 is a front view of a typical refrigerator. The storage space of the refrigerator is divided by a barrier (not shown) into a freezer compartment (not shown) in which a freezing environment is formed and a cold compartment (not shown) in which a refrigeration environment is formed. The freezer compartment (not shown) is provided above the barrier (not shown), and the refrigerating chamber (not shown) is provided below the barrier.

A freezer compartment door 2 for preventing cold air from leaking out of the freezer compartment (not shown) to the outside and opening and closing the freezer compartment is coupled to a refrigerator body (not shown). Similarly, a refrigerating compartment door 4 for preventing the cooling air of the refrigerating compartment (not shown) from flowing out to the outside and opening and closing the refrigerating compartment is coupled to the main body (not shown).

And, as shown in Figure 2, the freezer compartment door 2 is composed of an outer case (2b) and the inner case (2a). The outer case 2b protects the door from the outside and is usually made of iron plate. The inner case 2a substantially forms a freezer compartment S.

The heat insulating material 3 is filled in the space between the inner case 2a and the outer case 2b. The heat insulating material 3 prevents heat exchange between the cold of the freezing chamber S and the high temperature air outside the refrigerator, thereby keeping the freezing chamber S at a constant low temperature.

In addition, a lower part of the freezer compartment door 2 is provided with a freezer compartment lower case 6 (hereinafter referred to simply as a 'door lower case'). The lower door case 6 connects the inner case 2a and the outer case 2b to block the lower portion of the heat insulating material 3 and at the same time constitutes a lower surface of the refrigerating compartment door 2.

Similarly, a refrigerating compartment door upper case 7 is installed above the refrigerating compartment door 4. The refrigerating compartment door upper case 7 forms an upper surface of the refrigerating compartment door 4.

One side of the lower door case 6 is formed with a freezer compartment door handle (hereinafter, simply referred to as a 'door handle') 8. The door handle 8 is composed of a recess 8a into which a user's hand enters, and a grip portion 8b, which is a part where the hand actually touches so as to pull the freezer door 2 forward.

By the way, the following problems arise in the refrigerator door by the prior art which has the above structure.

When a refrigeration cycle of the refrigerator is driven and cold air is supplied to the freezer compartment S, the freezer compartment S becomes low temperature. In particular, the freezer compartment is kept at a low temperature below 0 ℃ for the composition of the freezing environment. The low temperature of the freezing chamber S is constantly maintained by the heat insulator 3 filled in the main body (not shown) and the freezing chamber door 2.

On the other hand, a recess 8a is formed in the door handle 8 formed at the lower side of the freezer compartment 2, and due to the formation of the recess 8a, a rear of the door handle 8 is formed. The thickness of the freezer door insulation 3 is relatively thin compared to the thickness of the insulation 3 of the other part. Since the thickness of the freezer compartment door 2 of the recess 8a is relatively thin as described above, the low temperature of the freezer compartment S is transmitted to the door lower case 6 of the recess 8a. .

As described above, when the low temperature of the freezer compartment S is transferred to the door lower case 6 of the recess 8a, the temperature of the recess 8a of the door lower case 6 becomes relatively lower than the outside temperature. In the above situation, when the external humidity is high (particularly in the rainy season), the door lower case 6 of the recess 8a lowered to the low temperature becomes a condition where dew easily forms.

When the temperature of the door handle 8 decreases to a temperature below the dew point, water droplets start to form on the door handle 8. Specifically, as shown in FIG. 2, water droplets c form on the lower door case 6 of the recess 8a.

When the water droplets c are formed on the door handle 8 as described above, the refrigerator user may feel uncomfortable every time the freezer door 2 is used.

The present invention has been made to solve the above-mentioned conventional problems, an object of the present invention is to provide a refrigerator provided with a dew condensation preventing structure for preventing the dew condensation on the door handle.

Another object of the present invention is to provide a refrigerator user with a comfortable environment by preventing dew from forming on the refrigerator door handle.

1 is a front view of the refrigerator in which the door handle is shown.

2 is a cross-sectional view taken along the line A-A of FIG. 1 according to the prior art.

3 is a cross-sectional view taken along the line A-A of FIG. 1 according to the present invention.

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

1. ....... Refrigerator 2,32 ..... Freezer door

2a, 32a ... inner case 2b, 32b ... outer case

3,33 ..... Insulation 4 ........ Cold Storage Door

6,36 ..... Freezer door lower case 7 ........ Cold storage door upper case

8,38 ..... Freezer door handle 8a, 38a

8b, 38b ... gripper 40 ....... aluminum tape

38 ′ ...... Inside surface of door handle c ........ Water drop

32b ′ ..... Inside S of Outcase S ........ Freezer

Refrigerator door dew condensation prevention structure according to the present invention, the door opening and closing the storage space and the inner case and the outer case, a door handle formed on the door to hold the door, the door handle and the door It characterized in that it comprises a heat transfer member installed in the door so that the outer case of the thermally connected.

According to the configuration as described above, dew condensation in the vicinity of the refrigerator door handle can be prevented.

Refrigerator door dew condensation prevention structure according to an embodiment of the present invention, characterized in that the heat transfer member is attached along the inner surface of the outer case of the door is extended along the inner surface of the door handle.

According to the configuration as described above, dew formation phenomenon of the door handle can be effectively prevented.

Refrigerator door dew condensation preventing structure according to another embodiment of the present invention is characterized in that the material of the heat transfer member is aluminum.

According to the above configuration, it is possible to more effectively prevent the dew condensation phenomenon of the door handle by improving the thermal conductivity from the door to the door handle.

Refrigerator dew condensation preventing structure according to another embodiment of the present invention, the door is characterized in that the freezer compartment opening and closing the freezer compartment.

According to the above configuration, it is possible to intensively prevent dew condensation of the freezer door handle.

Hereinafter will be described in detail with reference to Figure 3 attached to a preferred embodiment of the refrigerator dew condensation preventing structure according to the present invention.

3 is a sectional view taken along the line A-A of FIG. 1 according to the present invention. As shown in FIG. 3, the freezer compartment door 32 includes an outer case 32b and an inner case 32a. The outer case 32b protects the door 32 from the outside, and the inner case 32a substantially forms a freezing chamber S.

Insulation material 33 is filled between the outer case 32b and the inner case 32a. The heat insulator 33 blocks heat exchange between the cold of the freezer compartment S and the external air outside the refrigerator to maintain the freezer compartment S at a constant low temperature. Incidentally, the reference numeral 32b 'shown is an inner surface of the outer case.

In addition, a lower door case 36 is installed below the freezing compartment door 32. The lower door case 36 connects the outer case 32b and the inner case 32a to form a lower surface of the freezer door 32.

The door handle 38 is molded at one side of the door lower case 36. The door handle portion 38 is composed of a groove portion 38a into which the user's hand can enter and a gripping portion 38b which is a portion held by the user's hand. 38 'is the inner surface of a door handle part.

In addition, an aluminum tape 40 is installed between the heat insulator 33 and the door 32. The aluminum tape 40 is attached along the inner surface 38 'of the door handle of the lower door case 36 and extends to the inner surface 32b' of the outer case. The aluminum tape 40 conducts the heat of the outer case 32b to the door handle 38 of the door lower case 36.

Next, an operation process according to an embodiment of the present invention having the above configuration will be described.

When a refrigeration cycle of the refrigerator is driven and cold air is supplied to the freezer compartment S, the freezer compartment S is kept at a low temperature. The low temperature of the freezing chamber (S) is kept constant by blocking the heat exchange with the outside by the heat insulating material (33).

In addition, the heat insulating material 33 in the door handle 38 of the door lower case 36 is thin due to the molding of the recess 38a. Therefore, the low temperature of the freezing chamber S is transmitted to the door lower case 36 of the recess 38a through the heat insulating material 33 having a thin thickness of the recess 38a.

As described above, when the low temperature of the freezing chamber S is transferred to the door lower case 36 of the recess 38a, the temperature of the recess 38a of the door lower case 36 is lower than the temperature of the outside air. As a result, the recess 38a and the door lower case 36 are in an environment where dew easily forms.

On the other hand, since the material of the outer case 32b of the freezer compartment door 32 is iron as described above, the outside air temperature is immediately transmitted to maintain a temperature similar to the outside air temperature. Therefore, the outer case 32b of the freezer compartment door 32 maintains the temperature relatively higher than the temperature of the said groove part 38a and the door lower case 36. As shown in FIG.

In addition, an aluminum tape 40 having high thermal conductivity is attached to the inner surface 32b ′ of the outer case of the freezer compartment door 32. In addition, the aluminum tape 40 is attached along the inner surface 32b 'of the outer case, and the inner surface 38' of the lower door case 36 installed in the recess 38a of the door handle 38. It is extended by.

Accordingly, the heat of the outer case 32b is conducted to the aluminum tape 40, and the heat conducted to the aluminum tape 40 is again in contact with the aluminum tape 40. It is conducted to the door lower case 36 of the.

Through the heat conduction process as described above, the temperature of the door lower case 36 of the door handle 38 increases.

And the temperature of the door handle part 38 in the outdoor temperature of 30 degreeC by the experiment of this inventor is shown in Table 1, and the dew point temperature according to the humidity in external temperature 30 degreeC is shown in Table 2.

Prior art Embodiment according to the present invention Door handle surface temperature (℃) 23.9 ℃ 28.6 ℃

Table 1. Door handle surface temperature at 30 ℃

Condition Humidity 85% Humidity 87.5% Humidity 90% Dew point temperature 27.19 ℃ 27.68 ℃ 28.17 ℃

Table 2. Dew point temperature according to humidity condition at outside temperature 30 ℃

As can be seen from Table 1 and Table 2, in the case of the prior art, the surface temperature of the door handle portion 38 is 23.9 ° C, and in any case under the humidity conditions of the present inventors, the door handle portion 38 Dew is formed.

However, according to the embodiment of the present invention, since the temperature of the door handle portion 38 is 28.6 ° C. and the temperature is lower than the dew point temperature under the humidity of 90% or less, dewdrops on the surface of the door handle portion 38. Not condensed

In the present embodiment, the aluminum tape 40 is installed between the heat insulating material 33 inside the freezing compartment door 32 and the door handle 38 of the door lower case 36. The present invention is not limited thereto, and various modifications can be made within the range of the configuration capable of transferring the heat of the outer case 32b of the door 32 to the door handle 38 of the lower door case 36. .

For example, in the case of the configuration that is attached along the outer surface of the outer case 32b of the freezing compartment door 32 and extends to the outer surface of the recess 38a of the door handle 38, the technical scope of the present invention also applies. Of course included.

In the case where a large amount of heat from the outer case 32b is to be transmitted to the door handle 38, the area of the aluminum tape 40 in contact with the outer case 32b may be increased. Therefore, the larger the area of the aluminum tape 40 in contact with the outer case 32b, the greater the amount of heat conducting to the door handle portion 38, and thus more dew condensation of the door handle portion 38 is achieved. Can be effectively prevented.

In addition, in the embodiment of the present invention, the heat transfer member for transferring the heat of the outer case 32b to the door handle 38 is composed of aluminum tape 40, but is not limited thereto, and has a good thermal conductivity. Of course, it can be modified to other members of the.

Although only the case of the freezer compartment door 32 has been described above, the case of the refrigerator compartment door also belongs to the technical scope of the present invention.

In addition, the above-described embodiment of the present invention is merely an embodiment of the technical idea of the present invention, and of course, other modifications may be made within the technical idea of the present invention.

Refrigerator door dew condensation prevention structure of the present invention having the configuration and operation process as described above is expected the following effects.

By connecting an aluminum tape for conducting heat of the refrigerator door outer case to the door handle part between the door out case and the door handle part, dew condensation of the door handle part can be prevented.

In addition, since dew does not form on the door handle, the effect of providing a comfortable user environment to the refrigerator user is also expected.

Claims (4)

A door configured to open and close the storage space and include an inner case and an outer case; A door handle formed on the door to hold the door; And, Refrigerator door dew condensation preventing structure, characterized in that it comprises a heat transfer member installed on the door so that the door handle and the outer case of the door is thermally connected. The method of claim 1, wherein the heat transfer member is attached to the inner surface of the outer case of the refrigerator door dew condensation preventing structure, characterized in that attached to extend along the inner surface of the door handle. The structure of claim 1 or 2, wherein the material of the heat transfer member is aluminum. The structure of claim 1, wherein the door is a freezer door that opens and closes the freezer compartment.