KR200180838Y1 - A water tray for a refrigerator - Google Patents

Abstract

The present invention relates to an evaporation container for a refrigerator, which is installed to prevent deformation of the evaporation container (21), and is collected at the lower portion of the reinforcing wall (61) partitioning the inside of the evaporation container (21) and both sides. As the flow port 61 is opened so that the defrost water contained in the boxes 41 and 51 flows, the defrost water heated by an external heat source concentrated in a part of the collecting box 31 and the like flows with each other to uniformly heat and evaporate. The defrost water overflow phenomenon is prevented, and evaporation efficiency by uniform heating is improved.

Description

Evaporator for refrigerator

The present invention relates to a refrigerator, and more particularly, to a refrigerator evaporation container installed to collect, evaporate and remove defrost water generated in a cooler.

In general, the refrigerator controls the air temperature in the storage compartment by circulating a refrigerant that is heat-exchanged while being compressed and expanded to store food or the like accommodated in the storage compartment.

In addition, the refrigerator has various configurations according to the capacity of the storage compartment, and the refrigerator illustrated in FIG. 4 is a small-capacity refrigerator used for homes.

Here, the refrigerator includes a storage compartment 11 formed in a rectangular box shape so that food is accommodated and isolated from the outside, a cooler 12 installed to cool the air contained in the storage compartment 11, and the cooler 12. Compressor 13 is installed to compress and circulate the heat-exchanging refrigerant again.

In addition, the cooler 12 is composed of a coolant flow tube bent in a plurality of parts so as to exchange heat with the air contained in the storage chamber 11 while the coolant flows, the cooler 12 is always cooled while the low-temperature coolant flows To achieve the state.

In addition, as the cooler 12 is constantly cooled, moisture contained in the water vapor or food contained in the inside of the storage compartment 11 is in contact with the outer surface of the cooler 12 and is simultaneously cooled. Frost is generated on the outer surface of (12).

In addition, the castle formed on the outer surface of the cooler 12 blocks contact between the refrigerant flowing into the cooler 12 and the air contained in the storage compartment 11, thereby preventing the cooler 12 from being contacted. Cooling efficiency is lowered.

Therefore, the frost generated on the outer surface of the cooler 12 is removed from time to time to achieve a normal heat exchange action of the cooler 12.

Here, the frost is removed by using heat generated by a heater provided as a separate material, or by using a refrigerant flow at a high temperature according to the reverse circulation of the refrigerant and using external air at room temperature according to the opening of the storage chamber 11. Is done.

Meanwhile, the defrost water melted by the heating is collected in a drip tray provided at the lower end of the cooler 12 so as not to come into contact with other parts in the refrigerator or food contained in the storage compartment 11, and then falls downward. Induced by a hose or guide passage so as to be collected by the evaporation container 121 installed in the lower part of the refrigerator is evaporated and removed.

Here, the evaporation container 121 is formed in various shapes according to the method of removing the defrost water contained in the container, the amount of defrost water, in the case of a small refrigerator with a small amount of defrost water, the evaporation container 121 is a refrigerator It is common to be installed so as to remove the defrost water collected by discharging to the outside of the refrigerator, as well as to evaporate and remove the inside of the refrigerator.

In addition, as shown in FIG. 3, the evaporation container 121 has two reinforcing walls 161 which form an rectangular box shape with an open upper surface and partition an inner space at both sides thereof.

In addition, the reinforcing wall 161 prevents deformation such as distortion of the outer wall during injection molding of the evaporation container 121 made of a resin material, and also prevents deformation due to impact on the outer wall or heating of an external heat source. Is installed.

In addition, while the two reinforcement walls 161 are formed, the evaporation container 121 has two side boxes 41 and 51 partitioned by reinforcement walls 161 at both sides, and the two side boxes 41, It is formed as one collecting box 31 partitioned between 51.

In addition, a seating portion 32 is formed in which an outer wall of one side of the collecting box 31 forms a curved surface inward so that the upper portion of the compressor 13 is inserted and seated.

Here, the evaporation container 121 is mounted while the seating portion 32 is joined to the upper end of the compressor 13 installed at the rear of the lower end of the storage chamber 11.

Therefore, according to the operation of the refrigerator, the refrigerant compressed at high temperature and high pressure in the compressor 13 is cooled to room temperature through a condenser (not shown) and expanded in the cooler 12 to be cooled to low temperature.

In addition, the cooler 12 is cooled by the cooling of the refrigerant flowing into the cooler 12, and frost is generated on the outer surface of the cooled cooler 12.

In addition, defrost generated on the outer surface of the cooler 12 is heated by an external heat source, etc., defrost water is generated, the defrost water is collected through the upper open surface of the evaporation vessel 121 by the induction of a hose or the like. It is accommodated inside the box 31 and both side boxes 41 and 51.

In addition, the defrosting water accommodated in the collecting box 31 and the side boxes 41 and 51 is seated in the seating part 32, and by heat radiation of the compressor 13 generating heat according to refrigerant compression. Heated and evaporated.

At this time, the heat generated from the compressor 13 is transmitted to the seating portion 32 in close contact with the upper end of the compressor 13, the collecting box 31 formed inside the seating portion 32 and the seating portion 32 Heat is transferred to the two side boxes 41 and 51 formed at both sides of the.

In addition, the heat transmitted to the collection box 31 and the side boxes 41 and 51 is transmitted to the defrost water contained in the interior of each of the boxes 31, 41 and 51, and the defrost water is heated and evaporated.

However, as described above, as the compressor 13 generating heat to evaporate the defrost water is joined to the seating portion 32 formed on the outer wall of one side of the trap 31, the bonding area with the seating portion 32 is narrow. Only a small amount of heat of the compressor 13 is transferred to both side boxes 41 and 51 so that the defrost water contained inside the side boxes 41 and 51 is not evaporated, and the accumulated defrost water is accumulated. As a result, the defrost water generated in the cooler 12 overflows to the outside of the side boxes 41 and 51 and comes into contact with other parts, such as an electric device, to short-circuit the electric parts, or promote oxidation, thereby causing durability. It became.

Accordingly, an object of the present invention is to solve the above problems, and the defrost water contained in each defrost water container is uniformly evaporated to prevent overflow of defrost water contained in the defrost water container, The present invention provides a refrigerator evaporation container in which evaporation of defrost water is performed quickly.

The present invention for achieving the above object, in the evaporation container for a refrigerator formed in contact with the upper portion of the compressor to achieve the evaporation of the defrost water by the heat generated by the compressor, partitioning the interior, the reinforcement wall It characterized in that it comprises a communication means opened in the reinforcement wall so that the defrost water contained in the collecting box and the side partitioned to flow to each other.

1 is a perspective view of an evaporation container according to the present invention,

2 is a cross-sectional view of the evaporation vessel reinforcing wall according to the present invention,

3 is a perspective view of a conventional evaporation vessel,

4 is a block diagram of a general refrigerator.

<Explanation of symbols for main parts of drawing>

11: storage room 12: cooler

13 compressor 14 rear cover

21: evaporation container 31: collecting box

32: seating portion 41: side box

51: side 61: reinforcement wall

71: flow ball

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

In addition, while the same reference numerals are shown in the same parts as in Fig. 3 showing the conventional shape, detailed description thereof will be omitted.

In the present invention, a communication means is formed in the reinforcing wall 61 so that the defrost water contained in the angles 31, 41, 51 of the evaporation container 21 communicates at a predetermined level.

1 shows an evaporation container 21 according to the present invention, and forms a rectangular box shape with an open upper surface, and two reinforcement walls 61 are formed on both sides thereof for reinforcement of the outer wall.

In addition, the reinforcing wall 61 is formed at a position spaced apart from both side walls and the same width on both sides of the evaporation vessel 21, the inside of the evaporation vessel 21 is divided into three parts Side box 51 is formed.

In addition, a collecting box 31 partitioned by the two reinforcing walls 61 is formed between the side boxes 51, and is supported by one outer wall of the collecting box 31 and the both side boxes 51. One side of the outer wall is recessed to form a curved surface inwardly to form a seating portion 32 into which the upper portion of the compressor 13 is inserted and accommodated.

On the other hand, the reinforcing wall 61 is formed with a communication means such that the defrosting water accommodated in the collection box 31 and the side boxes (41, 51) more than a certain level is mutually flow.

Here, the communication means is composed of a flow opening 71 opened in the lower center of the reinforcing wall 61, as shown in Figure 2 showing a cross section of the reinforcing wall 61.

In addition, the flow port 71 is formed to extend in the transverse direction with respect to the reinforcing wall 61 is open so that the pressure applied from the outer wall and the like that both ends of the reinforcing wall 61 is in contact with the ellipses on both sides.

In addition, the flow port 71 is formed above the predetermined height (α) on the bottom surface of the evaporation vessel 21, and the defrost water contained in each of the boxes (31, 41, 51) reaches a certain level (α) to communicate with each other It is fluid

Next, the operation and effects of the present invention constructed as described above will be described.

As the refrigerant flows into the cooler 12 according to the operation of the refrigerator, the cooler 12 is cooled, and frost is generated as moisture in the air contacts the outer surface of the cooled cooler 12. Melts while being forced or removed naturally.

In addition, the frost melted water, that is, defrost water is collected by the evaporation vessel 21 in close contact with the compressor 13 installed on the lower end of the refrigerator according to the guidance of the hose or guide plate.

Here, the evaporation vessel 21 is mounted so that the upper portion of the compressor 13 is inserted into the seating portion 32 of the collecting box 31 to be in close contact.

In addition, the defrost water guided to the evaporation vessel 21 is accommodated in the collecting box 31 and the side boxes 41 and 51 and heated and evaporated by the heat generated by the compressor 13.

At this time, when the defrost water stored in the collection box 31 and the two side boxes (41, 51) is stored above a certain level (α), two reinforcing walls partitioning each of the boxes (31, 41, 51) ( As the defrost water in each of the boxes 31, 41, and 51 flows through the flow opening 71 opened in 61, the level of the collection box 31 and the side boxes 41 and 51 are the same.

Therefore, the defrosting water in the inner collecting box 31 of the seating portion 32 evaporates faster than the defrosting water in both sides 41 and 51 by heating the seating portion 32 in which the compressor 13 is in close contact. As the defrost water of the collecting box 31 is evaporated and removed, defrost water flows through the flow port 71 from both side boxes 41 and 51 having a high water level, so that evaporation by heat of the compressor 13 is prevented. Is done.

In addition, while some of the defrost water heated by the heat source flows and mixes with the other portion of the defrost water through the flow port 61, the uniform heating of the entire defrost water contained in the evaporation vessel 21 is collected and collected (31). Evaporates through the top open surfaces of the side boxes 41, 51.

In addition, when an impact lamp is applied to the outer wall of the evaporation vessel 21 in contact with both ends of each of the reinforcing walls 61, the external impact lamp is supported by the shape of the reinforcing wall 61, and the flow port 61 It is supported as the external pressure is distributed in the elliptical part at both ends of the

As described above, according to the present invention, defrosting water collected into the evaporation vessel is uniformly evaporated and removed irrespective of the heat transfer portion, and accumulation of defrost water in the evaporation vessel of the defrost water is prevented. This improves the evaporation efficiency, there is an effect that the external pressure applied to the outer wall of the evaporation vessel is sufficiently supported.

Claims (1)

In the evaporation container for a refrigerator, which is installed in contact with the upper part of the compressor to generate evaporation of the defrost water by the heat of the compressor, and has a reinforcing wall partitioning the interior, the defrost water contained in the collection box and the side partition partitioned by the reinforcing wall Communication means opening to the reinforcing wall is provided so as to flow to each other, the communication means evaporation for the refrigerator characterized in that it comprises a flow port opened so that the defrost water stored above a certain level (α) in the collecting box and the side flows with each other Vessel.