KR100578348B1 - Structure of drain pipe for refrigerator - Google Patents

Abstract

The present invention relates to a structure of a drain pipe having an air inlet portion through which outside air is introduced when the door is opened.

The drain pipe 20 according to the present invention includes a water collecting portion 22 for collecting defrost water, a drain portion for discharging the defrosting water descending through the water collecting portion, and air for introducing fresh air when the door is opened. And a suction part 30. The air suction unit 30 includes: a drain cap 32 having a vent hole 34 disposed radially, and a central shaft 36 upright molded at a central portion formed with the vent hole; It is inserted into the central axis and includes a float 40 for opening and closing the ventilation hole while moving up and down according to the opening of the door. Therefore, by forming the central axis for guiding the up and down movement of the float in the drain cap 32, the weight of the float is minimized, it is possible to react sensitively according to the opening and closing of the door, it is possible to open the door smoothly.

Refrigerator, Door Opening

Description

Structure of drain pipe for refrigerator

1 is a side cross-sectional view showing a structure of a conventional drain pipe portion.

2 is a front view of the portion A of FIG.

3 is an enlarged cross-sectional view of a portion B of FIG.

4 is a plan view of a conventional drain cap.

5 is a cross-sectional view showing the structure of the water collecting unit of the present invention.

Figure 6 is a front view showing the structure of the intake portion of the present invention.

7 is a cross-sectional view showing the structure of part C of FIG.

Explanation of symbols on the main parts of the drawings

20 ..... Drain pipe 22 ..... Collection part

24 ..... Connection pipe 30 ..... Air suction

32 ..... Drain Cap 34 ..... Aerator

36 ..... Central axis 40 ..... Float

The present invention relates to a structure of a drain pipe of a refrigerator of the present invention, and more particularly, to a structure of a drain pipe which opens more smoothly when a door of a refrigerator is opened, and at the same time reduces noise caused by the flow of air.

First, the structure of the general drain pipe 1 will be described with reference to FIG. 1. 1 shows a structure of a drain pipe of a refrigerator in which a refrigerating compartment is installed at an upper portion and a freezing compartment is installed at a lower portion thereof.

The drain pipe 1 of the refrigerator is a pipe for discharging the defrost water generated in the defrost process in the heat exchange chamber in which the evaporator 5 is installed to the machine room of the refrigerator. In FIG. 1, reference numeral 10 denotes a machine room of a refrigerator. The drain 4 provided at the lower end of the drain pipe 1 is guided to the machine room 10 of the refrigerator. The said drain part 4 is a part which guides defrost water and guides it to the evaporation dish (not shown) of the refrigerator provided in the lower side of a machine room. The upper part of the drain pipe 1 is formed of a collecting part 2 provided at the lower end of the heat exchange chamber.

The water collecting unit 2 is a portion provided directly under the evaporator 5, and collects defrost water generated in the evaporator during the defrosting process and guides the drain water to the bottom of the drain pipe 1. Defrost water collected through the water collecting unit 2 is guided downward through the drain pipe 1 and drained through the draining unit 4. And although not shown, the lower end of the drain portion 4 is blocked by a predetermined cap in order to prevent the inflow of outdoor air in a high temperature state normally. And when the defrost water falls to the drainage portion 4, the cap is opened by the weight of the defrost water, it has a structure that can be discharged to the lower side of the machine room.

When the door is opened in the refrigerator, outside air flows in. Since the outside air introduced in this way becomes a low temperature state after a certain time elapses after closing the door of the refrigerator, the inside of the refrigerator becomes a lower pressure than atmospheric pressure when a certain time elapses after closing the door. When the pressure is thus low, opening of the door of the refrigerator becomes difficult. Therefore, at the moment the user opens the door of the refrigerator, if there is air flowing from the outside of the refrigerator to the inside, the door of the refrigerator will be more easily opened.

In accordance with this demand, the air intake portion 6 through which the outside air can be introduced is connected to the lower end of the drain pipe 1 of the refrigerator to open the door. As shown in FIG. 2 which is the front view of the A part of FIG. 1, the air suction part 6 is provided in the state which communicates with the drain pipe 1 via the connection pipe 7. As shown in FIG.

3 shows the configuration of the lower end of the air intake 6. The air suction part 6 is normally maintained in a closed state in order to prevent the inflow of outside air in an unnecessary high temperature state, and is configured to open immediately when the door is opened and to temporarily enter the outside air.

Referring to FIG. 3, a drain cap 6a is installed at the lower end of the air suction unit 6. As can be seen also in FIG. 4, the drain cap 6a is formed with a vent hole 6b radially. The central shaft 8a of the float 8 is inserted into the coupling hole 6c of the center portion of the drain cap 6a. The float 8 includes a central axis 8a extending downward from the center of the lower surface and a flange portion 8b extending radially from the upper portion of the central axis 8a.

Therefore, the float 8 is configured to be able to move up and down a predetermined section about the central axis 8a inserted into the coupling hole 6c of the drain cap 6a. In the ordinary state, the float 8 is kept separated downward by its own weight, and in this state, the flange portion 8b of the float 8 is a vent hole 6b of the drain cap 6a. ) Is blocking. Therefore, in the normal state, the outside air of the high temperature state through the intake portion 6 is not in the state of the inside of the refrigerator through the drain pipe (1).

When the door of the refrigerator is opened in this state, since the inside of the refrigerator is relatively low pressure, outside air should be introduced. Thus, the float 8 is heard by the expanding internal volume at the moment of opening the refrigerator door. When the float 8 is lifted momentarily, the vent hole 6b blocked by the flange 8b is temporarily opened, and the outside air can be introduced into the refrigerator.

Therefore, the inside of the refrigerator increases the air pressure in the atmospheric pressure state by the inflow of the outside air, the door is opened smoothly.

However, according to the structure of the conventional drain pipe, the following disadvantages are pointed out.

First, the structure of the float 8 that opens and closes the drain cap 6a is composed of a central axis 8a and a flange portion 8b. The central axis 8a is here a component which occupies a relatively large weight in the float 8. Therefore, it is pointed out that the float 8, in which the central axis 8a is integrally formed, becomes relatively heavy and does not respond quickly to a small pressure difference at the moment of opening the door. This drawback is inconvenient to use, requiring more force to be applied at the moment the door is opened.

And when looking at the structure of the conventional drain pipe (1), it can be seen that the portion connecting the center of the drain pipe in the collecting portion (2) is formed with many bends, by this configuration, There is a disadvantage that a constant flow path resistance is formed against air. In addition, the connection pipe 7 is connected to the intake part 6 and the drain pipe 1. In fact, since the connection pipe 7 also has a small cross-sectional area, a flow resistance is formed when the outside air flows in. Done.

That is, in the conventional configuration as described above, when the air flow resistance caused by the load of the float is large, and the flow path resistance due to the bending and the change in the cross sectional area of the overall structure and the connection structure of the drain pipe, As a result, it can be seen that there is a disadvantage that can not actually open the door smoothly.

The present invention for solving the above problems, when opening the door of the refrigerator, is configured to facilitate the opening of the door by configuring so that the outside air can be smoothly introduced. This object of the present invention is achieved by minimizing the load of the float moving upwards upon the inflow of outside air.

Another object of the present invention is to minimize the flow noise of air in the inflow of outside air associated with opening and closing of the door. This purpose is to be achieved by minimizing the bending of the drain pipe and by securing a sufficient cross-sectional area of the flow path of the connection portion.

The drain pipe according to the present invention for achieving the above object is a water collecting part for collecting defrost water, a drain for discharging the defrost water descending through the water collecting part, and air for introducing fresh air when the door is opened. A suction part; The air suction unit, the drain cap having a vent hole radially disposed, and a central axis erected in the central portion in which the vent hole is formed; The technical gist of the present invention is to include a float inserted into the central shaft and opening and closing the air vent while moving up and down along the opening of the door.

By forming the central axis in the drain cap in this way, it will be possible to significantly reduce the weight of the float compared to the conventional one in which the central axis was formed in the float. Therefore, the float according to the present invention is most sensitive to the small pressure (or volume) change at the moment of opening the door, so that the door can be opened more smoothly.

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

First, as shown in FIG. 5, the drain pipe 20 having the water collecting part 22 according to the present invention at an upper end thereof is arranged in a straight line as long as possible. I design it. As such, by arranging the middle portion of the drain pipe 20 and the upper end portion of the water collecting portion 22 in a straight line, the flow resistance of the air flowing therein is minimized to prevent the flow noise of the air. have.

6 shows a configuration for connecting the drain pipe 20 and the air suction unit 30 according to the present invention, and a connection pipe connecting the air suction unit 30 and the drain pipe 20 ( 24) is configured to have a sufficient flow path cross-sectional area. In particular, by expanding the cross-sectional area of the neck portion connected to the drain pipe 20 in the connection pipe 24, it can be seen that the configuration is configured to minimize the flow noise of air generated in the connection portion having a narrow cross-sectional area have.

7 shows a related configuration with the drain cap 32 mounted on the lower end of the air suction unit 30. As shown, according to the present invention, the drain cap 32 includes a radially formed vent hole 34 and a central shaft 36 upright molded from the center of the portion where the vent hole is formed. It can be seen that. In this invention, since the center axis 36 which guides the movement of the float 40 mentioned later is shape | molded by the drain cap 32, the structure of the center axis 36 in the float 40 is abbreviate | omitted. It becomes possible. Therefore, the float 40 according to the present invention, by omitting the configuration of the central axis, it will be seen that the weight is significantly reduced compared to the conventional one.

The float 40 according to the present invention is assembled to the central axis 36 of the drain cap 32. The float 40 is inserted into the central axis 36 with a constant clearance to move up and down. The outer circumferential surface of the float 40 is configured to block the vent hole 34 in the state inserted into the central axis 36.

In such a configuration, when the door of the refrigerator is opened, the volume is temporarily increased in the refrigerator at a relatively low pressure state, so that outside air is introduced into the refrigerator through the air suction unit 30 according to the present invention. As described above, the float 40 according to the present invention is moved by the central axis 36 while moving to the upper portion when the outside air of the refrigerator is introduced. When the float 40 is moved upward while being guided by the central axis 36 integrated into the drain cap 32, the vent hole 34 and the float 40 of the drain cap 32 are substantially spaced apart. do. Therefore, the outside air communicating with the machine room can be introduced into the refrigerator through the vent hole 34. When the outside air flows through the drain pipe 20 as described above, the air pressure inside the refrigerator increases, and the door can be opened more smoothly.

Here, it can be seen that the float 40 according to the present invention does not include the central axis 36 unlike the conventional art. Therefore, since it has a remarkably low weight compared with the conventional thing provided with the central axis, it becomes possible to react sensitively to the small pressure applied to the said drain pipe 20 at the moment of opening a door, and to rise. That is, since the float 40 according to the present invention can respond most sensitively to the operation of opening the refrigerator door, the float 40 can be easily raised to smooth the operation of opening the door.

As described above, it can be seen that the present invention is based on the following basic technical idea.

In the air inlet portion 30 provided at one end of the drain pipe 20, by forming the central axis in the drain cap 32, the float 40 can be formed relatively lighter. In this way, by forming the float 40 more lightly, the float 40 can react most sensitively by the operation of opening the door.

In addition, the connecting portion of the water collecting portion 22 of the upper end of the drain pipe 20 and the upper portion of the drain pipe is molded as straight as possible. In this way, by taking the linear structure, it is possible to minimize the flow resistance of the air flowing therein to prevent the generation of flow noise.

In addition, in the structure of the connection portion between the air suction portion 30 and the drain pipe 20 in which the drain cap 32 is provided, the cross-sectional area of the neck portion connected to the drain pipe 20 is particularly increased, It is configured to prevent the flow noise of air.

Within the basic technical spirit of the present invention, many other modifications are possible to those skilled in the art, as well as the present invention should be strictly interpreted by the appended claims.

According to the present invention configured as described above it can be seen that the following advantages.

First, in the present invention, by configuring the float 40 to have the lowest load, when the door of the refrigerator is opened, it is possible to respond most sensitively to the pressure change. Therefore, when the door is opened, the float according to the present invention has an advantage of opening the air vent relatively easily compared to the prior art, the opening and closing of the door is most smooth, the convenience of using the refrigerator is increased.

In the present invention, the connecting structure of the upper and lower portions of the drain pipe is designed to be as straight as possible, and the connecting portion with the air intake portion where the drain cap 32 is provided also increases the flow cross-sectional area of air. The advantages of minimizing flow noise can be expected. In other words, it is not only convenient in the process of opening the door, but also after the door is closed, the temperature inside the refrigerator is lowered and the pressure drops so that the outside air flows in the process of minimizing the noise of air flow. Could be.

Claims (3)

A catchment part for collecting defrost water, a drain part for discharging the defrost water descending through the catchment part, and an air suction part for introducing outside air when the door is opened; The air suction unit, the drain cap having a vent hole radially disposed, and a central axis erected in the central portion in which the vent hole is formed; And a float inserted into the central axis and configured to open and close the air vent while moving up and down according to the opening of the door. The drain pipe structure of claim 1, wherein the drain pipe structure is disposed in a line with the middle portion of the water collecting portion and the drain pipe. The drain pipe structure according to claim 1 or 2, wherein the cross-sectional area of the connection portion of the air intake portion communicating with one side of the drain pipe is enlarged.

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