KR100621038B1 - Refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator. The refrigerator of the present invention includes: a cabinet 100 having a freezing compartment 110 or a refrigerating compartment 102; A plurality of storage drawers 130 installed in the freezer compartment 110 so that the drawers can be pulled out in multiple stages; A cold air supply duct 140 vertically installed at a rear side edge of the storage space to supply cold air to the storage drawer; And it includes a door 112 for opening and closing the storage space. The storage drawer 130 includes a concave portion 138 formed to correspond to a portion in close contact with the cold air supply duct, and a cold air inlet 136 formed at a position corresponding to the cold air discharge hole formed in the cold air supply duct. And a cold air outlet 134 formed on the front surface thereof.

Refrigerator, freezer, drawer-type refrigerator, cold air supply duct

Description

Refrigerator {Refrigerator}

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

2 is a cross-sectional view of the refrigerator of the present invention.

3 is a longitudinal sectional view of the refrigerator of the present invention;

Figure 4 is an exemplary perspective view showing a cold air supply structure to each storage drawer of the present invention refrigerator.

Figure 5 is an exemplary cross-sectional view showing a cold air exhaust structure in each storage drawer of the refrigerator of the present invention.

Explanation of symbols on the main parts of the drawings

100 ..... cabinet 102 .... cold storage

104 .... refrigerator door 110 ..... freezer

112 ..... Freezer door 120 ..... Heat exchange chamber

122 ..... Evaporator 130 ..... Storage Drawers

132 ..... Handle 134 ..... Cold air outlet

136 ..... cold air inlet 138 ..... recess

140 ..... Cold Air Supply Duct

The present invention relates to a refrigerator, and more particularly, to a refrigerator configured as a storage drawer installed in multiple stages of a freezer compartment in a side by side refrigerator, and configured to smoothly supply and circulate cold air.

In general refrigerators, when the door is opened, since the internal refrigerating compartment or the freezing compartment is directly exposed to the outside air, there is a disadvantage in that a lot of cold air is lost. In order to remedy this disadvantage, a conventional drawer freezer or refrigerator (hereinafter referred to as refrigerator) is shown in FIG. 1. As shown in the drawing, a conventional refrigerator includes a cabinet 10 forming an external appearance and a plurality of storage drawers 20 provided in multiple stages up and down inside the cabinet.

The cabinet 10 is configured in the same manner as the general, and the heat insulating material is built in the wall surface. The storage drawer 20 is configured to include a drawer unit 24 for storing an item to be stored, and a door unit 22 provided at the front of the drawer unit 24. The supply of cold air to each of the drawer units 24 is supplied through the cold air outlet 12 formed on one side of the refrigerator cabinet 10. The cold air supplied into the drawer unit 24 is circulated therein, and exhausted to the outside through the rear of the drawer unit 24, and is configured to allow sufficient cool air circulation in the inside of the drawer unit 24. .

However, according to the conventional configuration as described above, the following disadvantages are pointed out.

According to the conventional configuration, it can be seen that a plurality of door parts 22 are provided to open and close the plurality of storage drawers 20. As described above, the installation of the plurality of door parts 22 is not only structurally complicated, but also due to the installation of door gaskets for preventing leakage of cold air, the overall number of components increases and the assembly process is complicated. This is being pointed out.

And according to the conventional configuration, the cold air discharge port is formed in a position corresponding to the front of each storage drawer 20, it is configured to exhaust the cold air to the rear of the storage drawer (20). In general, in the refrigerator, the evaporator is generally installed at the rear of the refrigerator. When the cold air discharge hole 12 is formed at a position corresponding to the front of the storage drawer 20 as described above, the cold air is substantially inside the refrigerator. The configuration of the duct for discharging of is complicated. Therefore, there is a limit to the increase in the manufacturing cost of the product and the productivity in the assembly process.

According to the structure of the conventional drawer type refrigerator as described above, since the structure is complicated as a whole, it can be seen that there is a disadvantage in that a limitation in productivity and an increase in the manufacturing cost and assembly process is pointed out.

The present invention is to solve the conventional problems as described above, it is an object to provide a refrigerator having a drawer-type, while implementing the overall optimal structure, minimizing the leakage of cold air and inexpensive manufacturing cost.                         

Another object of the present invention is to provide a drawer-type refrigerator that implements a drawer type and smoothly circulates cold air.

A refrigerator according to the present invention for achieving the above object, the cabinet having at least one storage space, such as a freezer compartment or a refrigerator compartment; A plurality of storage drawers installed in the storage space so that the drawers can be pulled out in multiple stages; A cold air supply duct installed perpendicular to a rear side edge of the storage space to supply cold air to the storage drawer; And a door for opening and closing the storage space; The storage drawer includes a concave portion formed to correspond to a portion in close contact with the cold air supply duct, a cold air inlet formed at a corresponding position to be in close contact with the cold air discharge hole formed in the cold air supply duct, and the front side thereof. It has a cold air outlet formed.

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And the cold air outlet is preferably formed inside the handle portion which is formed concave on the front of the interpolation drawer.

Next, the present invention will be described with reference to the embodiments shown in the drawings.

2 is a cross-sectional view of a parallel refrigerator according to an embodiment of the present invention. As shown, the refrigerator according to the present invention is formed in one cabinet 100 having a wall portion formed of a heat insulating material, a refrigerating chamber 102 formed on one side of the cabinet, and the other side of the cabinet 100. It is provided with a freezing compartment (110). The freezing chamber 110 and the refrigerating chamber 102 are formed in the longitudinal direction from the left and right sides.                     

And a pair of doors (102, 112) for opening and closing the freezer compartment 110 and the refrigerating compartment 102, respectively. The doors 102 and 1120 are rotatably connected to left and right ends at the front of the refrigerator, and are configured to selectively open and close the freezer compartment 110 and the refrigerating compartment 102.

The heat exchange chamber 120 is formed at the rear of the freezing chamber 110. In addition, an evaporator 122 is installed inside the heat exchange chamber 120 to perform heat exchange. The cold air generated by the contact with the evaporator 122 is supplied to the freezing compartment 110 and the refrigerating compartment 102.

As shown in FIG. 3, according to the present invention, a plurality of storage drawers 130 are provided in multiple stages in the freezing chamber 110. In addition, the storage drawer 130 is, for example, formed in a container shape with an upper opening, and is assembled to be pulled out and stored in the freezer compartment 110. It is already known that the storage drawer 130 is configured to be pulled out in a drawer type, and a detailed description thereof will be omitted.

Next, referring to Figures 2 and 4, the configuration of the supply of cold air to the storage drawer 130 according to the present invention will be described in detail. As shown, the cold air supply duct 140 in the vertical direction at the rear edge of the freezing chamber 110 is installed. By installing the cold air supply duct 140 perpendicular to the corner of the freezing chamber 110, it is easy to receive cold air from the heat exchange chamber 120 provided with the evaporator 122. That is, according to the present invention, by installing the cold air supply duct 140 in the rear corner of the freezer compartment, it is possible to simplify the duct structure for supplying the cold air as a whole, it is possible to increase the supply efficiency of the cold air. One side surface of the cold air supply duct 140 has a plurality of cold air discharge holes 142 for discharging cold air.

And the storage drawer 130 according to the present invention, as shown in Figure 4, the upper surface is open, is configured to be able to put or take out the stored food through the portion. A recessed recessed portion 138 is formed at the rear edge portion of the storage drawer 130 so as to correspond to the cold air supply duct 140. The concave portion 138 is formed in a concave shape corresponding to the cold air supply duct 140, so that when the storage drawer 130 is stored therein, both do not cause interference, and the storage drawer 130 is smooth. Is formed to be accommodated up to the rear end.

On one side of the rear of the storage drawer 130, for example, one side of the recess 138, the cold air inlet 136 (see Fig. 5) in a portion corresponding to the cold air outlet 142 of the cold air supply duct 140 (see FIG. 5). ) Is formed. The cold air inlet 136 is a portion into which the cold air discharged from the cold air outlet 142 of the cold air supply duct 140 flows into the storage drawer 130.

And the handle portion 132 is formed on the front of the storage drawer 130. The handle portion 132 is a portion configured to be gripped by the user to form a front surface of the storage drawer 130. And the inner surface of the handle portion 132 of the storage drawer 130, as shown in Figure 5, the cold air outlet 134 is formed. The cold air outlet 134, if the cold air inside the storage drawer 130 is configured to circulate to the outside, it will not be limited by its shape and position. For example, the cold air outlet 134 may be formed on the front surface of the storage drawer 130, and when formed inside the handle portion 132 as described above, the cold air outlet 134 is not exposed to the outside. There will be convenience.

As described above, the front surface of the freezer compartment 110 in which the plurality of storage drawers 130 are provided to be pulled out by the drawer type is opened and closed by one freezer compartment door 112.

Next, a cold air circulation process of the refrigerator of the present invention having the above configuration will be described.

First, when the refrigerator operates, cold air is generated in the heat exchange chamber 120 in which the evaporator 122 is installed. The cold air thus produced is guided to the freezing compartment 110 and the refrigerating compartment 102 by a blowing means (for example, a fan). The cold air guidance to the refrigerating chamber 102 may be supplied through any path that is the same as or different from the conventional configuration.

The cold air is supplied to the freezing chamber 110 through the cold air supply duct 140 described above. That is, the cold air generated in the heat exchange chamber 120 is guided to the cold air supply duct 140 by a blowing means such as a blowing fan. Cold air flowing downward along the inside of the cold air supply duct 140 is discharged through the cold air discharge port 142. At this time, since the cold air inlet 136 of the storage drawer 130 is formed to be in close contact with the position corresponding to the cold air outlet 142, the cold air discharged from the cold air outlet 142 is cold air inlet 136. Is introduced into the storage drawer 130 through.                     

The cold air introduced into the storage drawer 130 flows forward from the inside of the storage drawer 130, and this cold air flow is illustrated by an arrow in FIG. 5. Heat exchange with the food being stored therein is carried out while flowing in front of the storage drawer 130, and the cold air reaching the front is exhausted from the storage drawer 130 through the cold air outlet 134.

The flow of cold air passing through the plurality of storage drawers 130 is as described above. In this way, the air discharged to the front of the storage drawer 130 flows downward from the inside of the freezer compartment 110 again as shown in FIG. 3, and returns to the heat exchange chamber 120 again through a freezer compartment return duct (not shown). Inflow. Here, the configuration of the freezer compartment return duct (not shown) for guiding the cold air through the storage drawers 130 of the freezer compartment 110 back to the heat exchange chamber 120 may be the same as that of the conventional parallel refrigerator. Could be. Alternatively, the above-mentioned freezer compartment feedback duct can also have any other configuration.

Within the scope of the basic technical idea according to the present invention as described above, of course, many other modifications are possible to those skilled in the art. For example, in the above-described embodiment, the present invention is described through a freezer compartment of a parallel refrigerator, but the present invention is not limited thereto. For example, it is possible to apply to the interior of the storage space, such as the refrigerating chamber, it is also possible to apply to the refrigerator rather than the parallel refrigerator. It is apparent that the present invention as described above should be interpreted based on the appended claims.

 The refrigerator according to the present invention as described above can expect the following effects.

According to the present invention described above, even if the freezer compartment door is opened, for example, the inside of each storage drawer can be kept at a low temperature (frozen state). That is, by taking out the desired storage drawer to put or take out food, it is possible to substantially minimize the loss of the entire cold air.

And according to the structure of the storage drawer of the freezer compartment according to the present invention, it can be seen that the most efficient transmission of cold air can be achieved substantially. That is, since the supply of cold air from the heat exchange chamber to each storage drawer is achieved with the simplest structure, it is possible to expect a reduction in the number of parts and an improvement in assemblability in the assembling process.

Moreover, according to the present invention, since the flow of cold air from the rear to the front is smoothly formed in the inside of the storage drawer, an advantage of being able to maximize the freezing effect is expected.

Claims (4)

A cabinet having at least one storage space such as a freezer compartment or a refrigerator compartment; A plurality of storage drawers installed in the storage space so that the drawers can be pulled out in multiple stages; A cold air supply duct installed perpendicular to a rear side edge of the storage space to supply cold air to the storage drawer; And A door for opening and closing the storage space; Including, The storage drawer, And a concave portion formed to correspond to the portion in close contact with the cold air supply duct, a cold air inlet formed at a position corresponding to the cold air discharge hole formed in the cold air supply duct, and a cold air outlet formed on the front surface thereof. Refrigerator. delete The refrigerator of claim 1, wherein the cold air outlet is formed at an inner side of a handle part which is formed concave on the front surface of the interpolation drawer. The refrigerator according to claim 1, wherein the refrigerator is a parallel refrigerator having a refrigerator compartment and a freezer compartment in parallel, and the storage space is a freezer compartment.

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