KR200411664Y1 - Structure Inflow Air in Machine Room of Kim-Chi storage - Google Patents

Abstract

The present invention relates to a flow path structure in the machine room of the kimchi storage, the present invention is a main body formed with a storage compartment and a machine compartment therein, a machine room cover formed with a ventilation hole while opening and closing the rear opening of the machine compartment, and a compressor provided in the machine compartment and In the kimchi storage having a condenser, it provides a flow path structure in the machine room of the kimchi storage, characterized in that the suction fan and the discharge fan are provided at a predetermined interval, respectively, in the vent hole formed in the machine room cover.

By this configuration, the present invention increases the heat exchange efficiency according to the circulation process in which the outside air sucked through the suction fan cools the condenser and the compressor and is discharged by the operation of the discharge fan, as well as the rotation of the fan relative to the related art. Since the number can be reduced, the overall noise in the machine room can be reduced.

     Kimchi storage, machine room, suction fan, discharge fan, condenser, compressor

Description

Structure Inflow Air in Machine Room of Kim-Chi storage

1 is a cross-sectional view showing the internal configuration of a conventional kimchi storage,

Figure 2 is a rear perspective view showing a machine room configuration of a conventional kimchi storage,

3 is a cross-sectional view showing the configuration of the kimchi storage according to the present invention,

Figure 4 is a front view as viewed from the inside of the machine room showing a state in which the suction fan and the discharge fan is disposed on the machine room cover side,

Figure 5 is a schematic cross-sectional view showing a state in which the suction fan and the discharge fan is disposed according to the present invention.

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

10: body 11: door

12: storage room 20: machine room

22: machine room cover 22a: air vent

23: suction fan 24: discharge fan

26 Compressor 27 Condenser

29: evaporator

The present invention relates to the structure of the flow path in the machine room of the Kimchi storage, and more specifically, by placing the suction fan and the discharge fan facing each other in the machine room, the outside air sucked through the suction fan cools the condenser and the compressor, the operation of the discharge fan In addition to improving the heat exchange efficiency by going through the circulating process, it is possible to reduce the number of rotations of the fan relative to the conventional method, and to reduce the overall noise in the machine room. It is about.

As it is known, kimchi storage has the advantage that the freshness is maintained even after long-term storage of kimchi, unlike the conventional refrigerator.

Thus, in recent years, the use of kimchi storage is gradually increasing.

1 is a cross-sectional view showing the internal configuration of the conventional kimchi storage, Figure 2 is a rear perspective view showing the machine room configuration of the conventional kimchi storage.

As shown in this figure, the conventional kimchi storage has a main body 110, the storage chamber 130 and the machine room 120 is formed along the height direction therein, and the door 140 provided on the upper portion of the main body 110; Have

The front of the machine room 120 is provided with a machine room cover 122 for opening and closing the machine room 120.

The plate surface of the machine room cover 122 is formed with a plurality of air cylinder holes 122a through which external air is introduced into the machine room 120 as well as releasing heat generated in the machine room 120 to the outside.

In the machine room 120, a compressor 126 for compressing a refrigerant, a condenser 127 for condensing the compressed refrigerant, and a cooling fan 128 for cooling the compressor 126 and the condenser 127 are sequentially disposed. It is.

In the Kimchi storage having such a configuration, when the compressor 126 is operated to compress the refrigerant to a high temperature / high pressure, the compressed refrigerant is condensed by the condenser 127 and then the evaporator disposed outside the storage chamber 130 ( 129).

The evaporator 129 generates cold air into the storage chamber 130 by using latent heat of the surroundings while evaporating the condensed refrigerant, and thus, the inside of the storage chamber may be cooled to a predetermined temperature.

Meanwhile, the cooling fan 128 is operated along with the operation of the compressor 126 and the condenser 127.

By the operation of the cooling fan 128, the outside air is introduced into the machine room 120 through the plurality of air holes 122a formed in the machine room cover 122, and the introduced air is introduced into the machine room 120 by the cooling fan 128. 126 and condenser 127.

Therefore, the compressor 126 and the condenser 127 whose temperature has risen during the compression and condensation of the refrigerant can be cooled appropriately.

By the way, in the conventional kimchi storage, a flow path structure in which only one cooling fan 128 is simply disposed in front of the condenser 127 so as to circulate the outside air for cooling the compressor 126 and the condenser 127. It takes only, since there is no separate means for guiding the flow of outside air in the machine room 120, the compressor in the process of the suction circulating and discharged the outside air introduced into the machine room 120 through the air vent 122a ( 126) and the operation of the condenser 127 causes a vortex due to collision with hot air in the machine room 120 whose temperature is high, as well as a problem that the air does not flow smoothly.

In other words, the inside of the machine room 120 has already been raised to some extent due to the operation of the compressor 126 and the condenser 127, and the warmed air inside the machine room 120 may be caused by a backflow phenomenon. Since the compressor 126 and the condenser 127 may be transferred to the compressor 126 and the condenser 127, the compressor 126 and the condenser 127 may not be efficiently cooled by only cold air introduced from the outside even when the cooling fan 128 is operated. 126) and the condenser 127 has a problem with some limitations.

As such, since the conventional kimchi storage machine room 120 does not have a smooth air flow (air circulation), the heat dissipation effect is lowered, resulting in a decrease in the cooling efficiency of the compressor 126 and the condenser 127.

In particular, in the related art, in order to increase the heat dissipation effect as described above, the rotation speed of the cooling fan 128 is relatively increased to increase the heat dissipation effect through suction of more outside air. In this case, the cooling fan 128 is rotated. As the number increases, the operating noise of the cooling fan 128 in the machine room 120 increases.

The present invention is devised to solve the above problems, the object of the present invention is to place the suction fan and the discharge fan facing each other in the machine room, the outside air sucked through the suction fan to cool the condenser and compressor and discharge fan The flow path in the machine room of the Kimchi storage room can reduce the overall noise in the machine room by increasing the heat exchange efficiency as well as reducing the number of rotations of the fan relative to the conventional method. Is to provide a structure.

The present invention for achieving the above object, a kimchi storage having a main body formed with a storage compartment and a machine chamber therein, a machine chamber cover formed with a ventilation hole while opening and closing the rear opening of the machine chamber, and a compressor and a condenser provided in the machine chamber. In the machine chamber cover is achieved by providing a flow path structure in the machine room of the kimchi storage, characterized in that each of the suction fan and the discharge fan is formed at a predetermined interval in the formed area.

Here, the suction fan is disposed so as to suck and supply the outside air in the condenser direction close to the condenser side, the discharge fan is arranged to be able to discharge the air in the machine room to the outside close to the compressor side.

In addition, the machine room cover portion in which the suction fan and the discharge fan are installed are inclined toward the inside of the machine room so that the flow path of the suction air is concentrated to the maximum from the suction fan toward the condenser, and the circulating air in the machine room passing through the compressor is discharged. It is desirable to be arranged so that it can be concentrated as much as possible towards the pan.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

Figure 3 is a cross-sectional view showing the configuration of the kimchi storage according to the present invention, Figure 4 is a front view as viewed from the inside of the machine room showing a state in which the suction fan and the discharge fan is disposed on the machine room cover, Figure 5 It is a cross-sectional view schematically showing a state in which the suction fan and the discharge fan are arranged according to the invention.

As shown in these figures, the kimchi storage according to the present invention has a top opening opening and the main body 10 and the storage chamber 12 and the storage chamber 12 and the machine chamber 20 formed in the height direction therein, It has the door 11 which rotates around the hinge provided in the upper back of the main body 10 to open and close the upper input opening.

On the outer wall surface of the storage chamber 12, an evaporator 29 wrapped in a ring shape for supplying cold air is provided.

The evaporator 29 is in communication with the compressor 26 and the condenser 27 disposed in the machine room 20 by the refrigerant pipe.

In addition, a machine room 20 is formed in the lower rear region of the main body 10, and a machine room cover 22 for opening and closing the machine room 20 is provided in front of the machine room 20.

The plate surface of the machine chamber cover 22 is provided with a plurality of air holes 22a for not only introducing some of the external air into the machine chamber 20 but also dissipating heat generated in the machine chamber 20 to the outside.

In the conventional kimchi storage as described above, the present invention, as shown in Figures 4 and 5, the suction fan 23 and the discharge fan 24 in the vent hole 22a of the machine room cover 22 is formed; ) Are characterized by their installation at regular intervals.

Here, the present invention is disposed so that the suction fan 23 is installed in close proximity to the vent hole (22a) to suck the outside air in the direction of the condenser 27 in close proximity to the condenser 27, the discharge fan 24 Has a structure disposed close to the compressor 26 so as to smoothly discharge the air in the machine room 20 to the outside.

That is, by sucking the external air into the machine room 30 through the suction fan 23 as described above, by providing a flow path structure for discharging the hot air inside the machine room 20 to the discharge fan 24, the suction The outside air sucked through the fan 23 cools the compressor 26 sequentially after the heat exchange with the condenser 27, and then increases the heat exchange efficiency according to the circulation process discharged by the operation of the discharge fan 24. There is an advantage.

At this time, the suction fan 23 and the discharge fan 24 may be installed through a separate bracket not shown on the machine room cover 22, respectively, the bracket not shown on the bottom surface of the machine room 20, respectively The suction fan 23 and the discharge fan 24 may be respectively provided close to the vent 22a of the machine room cover 22.

As such, the reason for installing the suction fan 23 and the discharge fan 24 in close proximity to the vent hole 22a of the machine room cover 22 is to suck external air as smoothly as possible through the suction fan 22. In addition, to discharge the air warmed inside the machine room 20 through the discharge fan 23 as smoothly as possible.

On the other hand, in the condenser 27 recently installed in the machine room 20, as part of improving the performance of the cooling system, spiral type condenser 27 is formed in a cone type by winding the coil spirally to increase the heat exchange efficiency Are increasing in number.

Since the spiral type condenser 27 is formed in a cone type, it is designed to flow in the narrow diameter direction from the wide diameter side of the condenser 27 in order to facilitate smooth heat exchange.

In the case where the present invention is applied in the kimchi reservoir to which the spiral type condenser 27 is applied, when the suction fan 23 is installed close to the vent hole 22a of the machine room cover 22, the cone type condenser 27 The machine chamber cover 22 in which the suction fan 23 is installed is formed to be inclined in the machine chamber 20 in the wide radial direction of the condenser 27 so that the suction outside air can be supplied smoothly in the wide diameter direction. Preferably, the wide diameter portion of the fan 23 and the condenser 27 are placed in positions opposite each other.

Of course, when installing the discharge fan 24, also in consideration of the organic relationship with the suction fan 23, as shown in Figure 5, the machine chamber cover 22 is inclined in the machine room 20 inward direction It may be formed.

Typically, the outside temperature is usually about 5 ° C to 10 ° C lower than the temperature in the machine room 20.

Therefore, as in the present invention, the outside air having a relatively low temperature is smoothly sucked through the suction fan 23 to cool the inside of the machine room 20 including the condenser 27, and the machine room through the discharge fan 24. (20) By discharging the warmed air inside to the outside smoothly, the cooling efficiency in the machine room 20 can be significantly improved compared to the conventional kimchi storage.

Looking at the effect of the machine room flow path structure of the kimchi storage according to the present invention having such a configuration as follows.

First, when the compressor 26 is operated to compress the refrigerant at a high temperature / high pressure, the compressed refrigerant is condensed by the condenser 27 and then directed to the evaporator 29.

The evaporator 29 generates cold air into the storage chamber 12 using latent heat of surroundings while evaporating the condensed refrigerant.

As a result, the inside of the storage chamber 12 may be cooled to a predetermined temperature.

In this way, the compressor 26 and the condenser 27 are operated in a relatively large amount of heat generated in the compressor 26 and the condenser 27.

Thus, the suction fan 23 for cooling the heat generated from the compressor 26 and the condenser 27 is operated in conjunction with the operation of the compressor 26 and the condenser 27.

When the suction fan 23 operates, external air starts to flow into the machine room 20 through the air through hole 22a formed in the machine room cover 22.

The introduced air is first blown through the suction fan 23 to the condenser 27 so that heat exchange occurs between the condenser 27 and the introduced outside air, and is sequentially circulated to properly cool the compressor 26 located at the front. Let's do it.

At this time, since the discharge fan 24 is driven together with the operation of the suction fan 23, the flow of air introduced into the machine room 20 forms a circulation passage very smoothly.

That is, the air in the machine room 20 warmed while passing through the compressor 26 by the operation of the discharge fan 24 may be discharged to the outside through the air through hole 22a on the side of the machine room cover 22.

As such, smooth circulation of air in the machine room 20 can effectively prevent the cooling efficiency of the compressor 26 and the condenser 27 from deteriorating due to the vortex generated in the machine room 20 as in the prior art. have.

As described above, according to the present invention, by installing the suction fan and the discharge fan in close proximity to the ventilation hole of the machine room cover in the machine room, the flow of the machine room including the condenser is induced by inducing a smooth flow of air compared to when installing one cooling fan. By cooling the inside more easily, the cooling efficiency can be further improved.

In addition, even in the case of cooling the condenser and the compressor in the machine room with a single cooling fan, the number of rotations of the fan itself is increased as the cooling fan is relatively cooled with a plurality of fans such as a suction fan and a discharge fan. This reduces the overall noise in the machine room.

Claims (3)

In the kimchi storage having a main body having a storage chamber and a machine chamber formed therein, a machine chamber cover having a ventilation hole while opening and closing a rear opening of the machine chamber, and a compressor and a condenser provided in the machine chamber, A flow path structure in the machine room of the kimchi storage room, characterized in that the suction fan and the discharge fan are installed at a predetermined interval in the area where the ventilation hole of the machine room cover is formed. The method of claim 1, The suction fan is arranged to suck and supply external air in the condenser direction close to the condenser side, and the discharge fan is disposed in the machine room of the kimchi reservoir, characterized in that it is arranged to discharge the air in the machine room outside to the compressor side. Euro structure. The method of claim 2, The machine chamber cover portion in which the suction fan and the discharge fan are installed are inclined toward the inside of the machine chamber so that the flow path of the suction air is concentrated to the maximum from the suction fan to the condenser side, and the circulation air in the machine chamber passing through the compressor is discharged toward the discharge fan. Flow path structure in the machine room of the Kimchi storage, characterized in that arranged so as to concentrate as much as possible.

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