KR920006298Y1 - Air-circulation device for refrigerator - Google Patents

Abstract

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Description

Freezer Freezer Circulator

1 is a side cross-sectional schematic view showing the configuration of a typical refrigerator.

2 is a diagram illustrating a freezer compartment of a refrigerator to which the present invention is applied.

Figure 3 is a partial cross-sectional view of the extrusion type intercooled evaporator applied to the present invention.

Figure 4 is an exploded perspective view showing the main part of the present invention.

* Explanation of symbols for main parts of the drawings

10: extruded intercooled evaporator 14: upper separator

15: lower separator 18: upper insulation member

19: lower insulation member 20, 22: air inlet

21: guide surface

The present invention relates to a freezer cold air circulation system of the refrigerator to improve the flow of cold air circulated to the freezer compartment of the refrigerator to apply an extruded high efficiency evaporator.

In general, as shown in FIG. 1, the refrigerator includes a freezing chamber 3 and a refrigerating chamber 4 provided with a separating wall 2 at a central portion of the refrigerator main body 1 and separated from each other by upper and lower shafts thereof.

In the dividing wall (2), an evaporator (5) is installed for heat exchange of indoor air, and the heat exchanged cold air in the evaporator (5) is formed by the blower member (6). It is supplied to the lower freezer compartment 3 and the refrigerating compartment 4 side.

The cold air supplied to the freezer compartment 3 and the refrigerating compartment 4 is circulated back to the evaporator 5 after heat exchange with the foods in each of the refrigerators, so that the freezer compartment 3 keeps the food in a frozen state, In (4), food is stored refrigerated in a frozen state.

At this time, the evaporator (5) is to heat the relatively high temperature and humid air circulated in each of the high-temperature again, so that the upper and lower ends of the evaporator (5) to insulate the heat insulated members (7) (8) so that the heat in each It was equipped.

In the configuration of such a refrigerator, conventionally applied evaporator 5 is a fin type intercooled evaporator which is provided with a plurality of heat exchange fins in a refrigerant pipe. (See publication 87-16996).

That is, the extruded intercooled evaporator is formed by extruding the heat exchange fins 11, the refrigerant pipes 12, and the heater tubes 13 in one piece as shown in FIG. 3, and banding them. It is shown that the thermal efficiency is better than the evaporator, so it has the advantage of lowering the price of the evaporator when applied to the refrigerator and the thermal efficiency.

However, since the extruded intercooled evaporator 10 has such a high thermal efficiency, it is suddenly generated around the evaporator 10 when applied to a conventional refrigerator 1 such as FIG. There was a problem that could be reduced.

That is, when the cold air is circulated in the state where the extruded intercooled evaporator 10 is applied, frost is generated at a high speed by directly hitting moisture in the air circulated in the front part of the evaporator 10, and thus the evaporator 10 ) Will be blocked.

Therefore, even though there is no frost at the rear of the evaporator 10, the purified air does not pass through the evaporator 10 smoothly and thus has a problem of reducing the performance of the entire refrigerator. Defrost heater must be operated from time to time to cause problems such as power consumption rises.

The present invention has been made in consideration of the above circumstances, and an object thereof is to provide circulating air evenly through the entire surface of the evaporator while using an extruded intercooled evaporator so that frost is not concentrated on the front of the evaporator. Is in.

That is, the present invention partitions the freezer compartment and the refrigerating compartment of the refrigerator. An extruded evaporator is provided in the lower separator plate, and an upper part of the extruded evaporator, that is, an upper separator plate partitioning the freezer compartment and a plurality of air intakes on the upper insulation member, and condensed in the freezer compartment through the air intake ports. It is characterized in that the suction to be distributed to the evaporator side.

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

1 is a configuration diagram showing a part of the refrigerator to which the present invention is applied, and the refrigerator 1 has upper and lower separators 14 and 15 separating the freezing compartment 3 and the refrigerating compartment 4 at the center thereof. It is provided with a front surface of the air circulation port 16, 17 which can be sucked to the evaporation air flow side of the cold air convection in the inside of each.

Also, the above phase. Extruded intercooled evaporator 10 is provided in the lower separator plates 14 and 15, and heat insulating members 18 and 19 are respectively provided at the upper and lower ends thereof so as to insulate the evaporator 10 and the interior of each cabinet. It is provided.

Therefore, when the refrigerator is operated, the cold air heat-exchanged in the evaporator 10 by the blowing force of the air blowing member 6 is introduced into each chamber through a duct, and after each heat exchange with the stored foods. Circulating back to the evaporator 10 through the air circulation ports 16 and 17 provided on the front of the lower separator plate 14 and 15 is repeated continuously.

Such a configuration is the same as in the related art, but in the present invention, when the cool air convection in the freezer compartment 3 is introduced into the evaporator 10 after the heat exchange is performed in the furnace, the air inflow is dispersed to improve the thermal efficiency of the evaporator 10. It is to improve.

That is, an extrusion type intercooled evaporator 10 having good thermal efficiency is provided on the inside of the upper and lower separator plates 14 and 15, and a plurality of air inlets in the transverse direction are provided on the upper insulation member 18 provided at the upper end thereof. 20) and the bottom surface of the air inlet 20 is provided with a guide surface 21 inclined in the rearward direction so that the air flowing into the air inlet 20 is evenly distributed on the entire surface of the evaporator 10. do.

In addition, on the upper separation plate 14 provided on the upper end of the upper heat insulating member 18 is provided with an air inlet 20 corresponding to the air inlet 20 of the upper heat insulating member 18 described above.

At this time, the air inlet 22 provided on the upper separation plate 14 is configured to have a constant size at equal intervals so as to prevent the food and the like in the freezer compartment 3 from falling through the air inlet (22).

Such a refrigerator of the present invention is to be operated in the same manner as in the prior art, but in the present invention is to use an extruded intercooled evaporator 10 having a good thermal efficiency, accordingly by slightly improving the circulation of air extruded intercooled evaporator To make (10) available.

That is, after the cool air introduced into the freezer compartment 3 and the refrigerating compartment 4 by the blower fan 6 performs heat exchange with the foods stored in the refrigerator, the upper and lower separators 14 and 15 are provided on the front surface. It is circulated to the evaporator 10 side through the air circulation ports 16 and 17.

At this time, the cold air convection toward the freezing chamber 3 may be circulated through the air circulation ports 16 and 17 on the front surface, but the air inlets 20 and 22 on the upper separation plate 14 and the upper insulation member 18 may be circulated. Inflow is also made through the evaporator 10 side.

Therefore, the cold air in the freezer compartment 3 is dispersed and introduced into the evaporator 10 through the respective air inlets 20 and 21, thereby preventing the concentrated air from flowing only to the front surface of the evaporator 10 as in the related art. Therefore, frost is generated on the front surface of the evaporator 10, thereby clogging the inlet side of the evaporator 10, thereby eliminating the closed end of the extruded intercooled evaporator 10, which has excellent performance.

On the other hand, the bottom surface of the air inlet 20 of the upper heat insulating member 18 is provided with a guide surface 21 in the direction in which air is circulated to have an effect of smoothing the flow of air, and also the upper heat insulating member 18 The bottom surface of the) is configured to be in close contact with the upper surface of the evaporator 10 so that the air that does not heat exchange with the evaporator 10 can not directly escape, it is possible to maintain the maximum thermal efficiency of the evaporator 10.

Therefore, the present invention has the effect of improving the overall performance of the refrigerator by applying the extruded intercooled evaporator having excellent performance to the structure of a general refrigerator and reducing the cost of the product by lowering the price of the evaporator. Will have.

Claims (1)

In the dividing wall partitioning the freezer compartment and the refrigerating compartment of the refrigerator, the evaporator comprises an extruded intercooled evaporator, the extruded intercooled evaporator is provided on the upper separation plate and the upper insulation member, respectively, the freezer compartment And a plurality of air inlets for circulating air therein and a guide surface for smoothing air flow on the bottom of the air inlet.