KR200221129Y1 - Cold air circulation structure in the refrigerator - Google Patents

Abstract

The present invention provides a humidifying fan and a humidifying air circulation duct for supplying humidifying means composed of vibration elements to the refrigerator compartment and atomizing particles generated in the humidifying means to each part of the refrigerator compartment in order to maintain the freshness of the refrigerated food stored in the refrigerator compartment for a long time. It is provided with a humidifier and a cold air circulation structure in the refrigerator to maintain the freshness of each part of the refrigerating compartment to maintain a certain level of freshness of the refrigerated food.

Description

Cold air circulation structure in refrigerator

The present invention relates to a cold air circulation structure of the refrigerator, and more particularly, to a refrigerator having a humidifying means, a humidifying fan, and a humidifying air circulation duct so as to maintain a certain level of humidity in the refrigerating compartment to maintain freshness of the refrigerated food for a long time.

That is, the refrigerator is provided with a humidifying means consisting of a vibrating element and a humidifying fan for supplying atomized particles generated from the humidifying means to each part of the refrigerating compartment, and a humidifying cooler circulation duct to maintain the humidity of each part of the refrigerating compartment at a predetermined level. It is to provide a humidifying cold air circulation structure in the refrigerator to maintain the freshness of the long.

In general, the refrigerator forms an internal cooling structure as shown in FIG. 1, which includes an evaporator 3 that cools the surrounding air by a circulation process of a refrigerant (not shown), and the evaporator ( The fan 2 which blows the air cooled by 3) and forcibly circulates to the freezer compartment 1 and the refrigerator compartment 6-8 side, and the cooling air forcibly blown by the said fan 2 to the refrigerator compartment 6-8 side. In order to distribute air between the cold air circulation cylinder 5A and the inside of the refrigerating chamber 6-8 and the cold air circulation cylinder 5A, which are connected to both sides of the housing and the rear surface of the refrigerator compartment 6-8, It consists of a cold air discharge port 5 for blowing the cooling air delivered through the cold air circulation cylinder (5A) into the refrigerating chamber (6-8).

Looking at the cold air circulation process by the internal cooling structure of the refrigerator configured as described above, the cold air generated in the evaporator (3) is circulated by the fan (2) to the freezer compartment (1) and the refrigerating chamber (6 to 8), the temperature in the refrigerator In the refrigerator compartment along the cold air circulation cylinder 5A in which cold air generated in the evaporator 3 and discharged by the fan 2 is installed in the refrigerator compartments 6-8. In the direction of the arrow.

That is, the cold air discharged through the cold air discharge ports 5 formed on the three surfaces of the refrigerating chambers 6 to 8 is returned to the evaporator 3 side by the cold air intake port (not given the reference number), recooled, and then described above. The cycling process as described above will be redone.

Therefore, according to the circulation structure of the cold air as described above, the freezer compartment 1 and the refrigerating compartments 6 to 8 maintain a specific temperature for each part, but the refrigerating compartment 1 maintains a state of about -19 ° C. In the refrigerating chamber, the flavor cold chamber (8: used for storing fish or meat) close to the freezing chamber 1 is maintained at approximately -1 ° C to 1 ° C. In addition, the vegetable chamber 6 maintains 2 ° C to 3 ° C, and the other part of the refrigerating chamber, that is, the food chamber 7, maintains about 1 ° C to 3 ° C.

At this time, in the refrigerator operating as described above, since the cold air having low absolute humidity is continuously circulated, the inside of the refrigerator compartment is kept very dry.

Therefore, the freshness of foods (especially vegetables, fruits, ...) is usually maintained for a long time only when a certain amount of moisture is maintained, but rather as the circulating air inside the refrigerating chamber is very dry as described above, the refrigerating chamber (6 to 8). The moisture stored in the food) is also deprived of moisture in the internal air during the circulation of dry cold air, so that the freshness of the stored food is not maintained for a long time, but rather, the freshness of the stored food is sharply dropped.

An object of the present invention for solving the above problems, each part of the refrigerating chamber having a humidifying means consisting of a vibrating element in the refrigerating chamber and a humidifying fan and a humidifying cooler circulation duct for supplying mist generated in the humidifying means to each part of the refrigerating chamber. The present invention provides a humidifying cold air circulation structure in the provision of a humidification device in a refrigerator to maintain the freshness of a refrigerated food for a long time.

1 is a side cross-sectional view illustrating a cold air circulation process in a conventional refrigerator

Figure 2 is a schematic illustration for explaining a refrigerator and a duct structure according to the refrigerator having a humidification device according to the present invention

3A and 3B are cross-sectional views of the refrigerator shown in FIG. 2.

<Description of the code | symbol about the principal part of drawing>

1: freezer 2: fan

3: evaporator 4: precooler

5: cold air discharge port 5A: cold air circulation cylinder

5B: humidification circulation inlet 5C: humidification circulation inlet

6,7,8: cold room 9: humidification fan

10: cold air circulation duct 11: humidification duct

12: ultrasonic vibrator 13: water tank

Features of the present invention for achieving the above object, an evaporator for cooling the ambient air to cool by the circulation process of the refrigerant, a fan for blowing the air cooled in the evaporator by forced circulation to the freezer compartment and the refrigerating compartment side, in the fan Cold air circulation duct formed inside the rear side of the refrigerating compartment housing to deliver forced cooling air to the refrigerating compartment side, and cooling for air circulation between the inside of the refrigerating compartment and the cold air circulation duct and delivered through the cold air circulation duct. A refrigerator comprising a cold air discharge port for blowing air into the refrigerating compartment, and a humidifying means provided at a predetermined position of the refrigerating compartment and generating humidifying particles: separately in the cold room circulation ducts on both sides and rear of the refrigerating compartment housing. Humidification duct which is connected and formed in the humidification duct A humidification fan formed in the unit and configured to forcibly circulate the atomized particles generated by the humidification means to each part of the refrigerating chamber, and formed on one side of the refrigerating chamber housing for air circulation of the refrigerating chamber and the humidifying duct. Humidity circulation discharge port for blowing the humidified air delivered through the refrigerating chamber, and is formed on one side of the inside of the refrigerating chamber housing in which the humidifying circulation discharge port is not formed, and performs air distribution from the inside of the refrigerating chamber to the humidifying duct It consists of a humidifying circulation inlet.

An additional feature of the present invention for achieving the above object is that the humidifying circulation inlet is formed at a position opposite to the humidifying circulation discharge port.

An additional feature of the present invention for achieving the above object is that the humidifying circulation inlet is formed at a position diagonal to the humidifying circulation discharge port.

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

Figure 2 is a schematic illustration for explaining a refrigerator having a humidifier according to the present invention and a duct structure according to the present invention, the evaporator (3) to cool the surrounding air by the circulation process of the refrigerant, and the evaporator (3) Blowing the air cooled in the fan) to forcibly circulate to the freezer compartment 1 and the refrigerating chamber 6, 7 side, and to deliver the cooling air forced by the fan 2 to the refrigerating chamber 6, 7 side The cold air circulation duct 10 is formed inside the rear of the refrigerating compartment (6, 7) housing, and for the air circulation of the inside of the refrigerating compartment (6 to 8) and the cold air circulation duct 10, Cooling air discharge port 5 for blowing the cooling air delivered through the (10) into the refrigerating chamber (6, 7), and humidifying means provided at a predetermined position of the refrigerating chamber (6, 7) to generate atomized particles ( 12 and 13, and separately from the cold air circulation duct 10 Humidity chamber (6, 7) Humidity duct 11 is formed in the interior of both sides and the rear of the housing, and the atomization particles formed in the humidification duct 11 and generated in the humidification means (12, 13) in each of the refrigerating compartment Humidification fan (9) for forced circulation to the inside of the refrigerating chamber (6, 7) housing on one side inside the refrigerating chamber (6, 7) and the humidification duct 11 is formed for the air circulation Humidification circulation discharge port (5B) for blowing the humidified air delivered through the (11) into the refrigerating chamber (6, 7), and the refrigerating chamber (6, 7) housing that the humidification circulation discharge port (5B) is not formed It is formed on one side of the interior consists of a humidifying circulation inlet (5C) for performing the air flow from the inside of the refrigerating chamber (6, 7) to the humidifying duct (11).

At this time, the humidifying means (12, 13) is a water tank (13) for storing the water to be converted into atomized particles, and ultrasonic vibrator (12) for converting the water stored in the water tank (13) into atomized particles state It is composed of That is, the ultrasonic vibrator 12 is configured to convert the water supplied from the humidification tank (not shown) from the water tank 13 into the atomized particles in the atomized state through the ultrasonic vibration when vibrated by the high frequency generator (not shown). do.

In addition, the humidification fan 9 is to use a cross flow (in-house) stirring fan.

In addition, the individuality of the humidifying duct 11 and the cold air circulation duct 10 and the formation position and structure of the humidifying fan 9 are well illustrated in the accompanying FIGS. 3A to 3B, which are shown in FIGS. 3A to 3B. A cross-sectional view taken along the line A-A 'of FIG. 2 shows another embodiment according to the formation position of the humidifying circulation suction port 5C.

Therefore, the humidifying fan 9 is always operated irrespective of the operation of the humidifying means 12 and 13, because the cold air circulation duct 10 is maintained even while the humidifying means 12 and 13 are not operated. It is for supplying the cold air supplied through) to each part of the refrigerating chamber (6, 7).

Hereinafter, referring to the attached air circulation process of the refrigerator according to the present invention with reference to FIGS. 2 and 3A, the cold air generated in the evaporator 3 and discharged by the fan 2 is stored in the refrigerating compartment 6,. 7 is delivered to the refrigerating chamber 6, 7 side along the cold air circulation duct 10 provided in the inside, and in the direction of the arrow through the cold air discharge port 5 formed in the cold air circulation duct 10 in the direction of the arrow (6, 7) ) Is discharged to the inside.

Therefore, the cold air discharged through the cold air discharge port 5 is discharged through the humidifying circulation discharge port 5B via the humidifying duct 11 in accordance with the operation of the humidification fan 9, which is again passed through the inside of the refrigerating chamber. The temperature of each part of the refrigerating chambers 6 and 7 is reduced by piggybacking on the circulating air introduced into the humidifying duct 11 through the humidifying circulation inlet 5C.

At this time, the humidifying fan 9 operates as described above regardless of the operation of the humidifying means 12 and 13, but when the humidifying means is operated, the humidifying means 12, in addition to the function for circulation of cold air, The atomized particles generated in 13) are supplied to each part of the refrigerating chambers 6 and 7 to maintain uniform humidity in the refrigerating chamber.

In addition, the humidification means (12, 13) is generally applied to the principle of the ultrasonic humidifier using a vibrator, the microcomputer (not shown) in charge of the operation of the refrigerator detects the humidity inside the refrigerator compartment (6, 7) ( The detection means is not shown) to control the operation of the humidification means 12 and 13 based on the detection means.

By providing a device and a cold air circulation structure for the humidification in the refrigerator according to the present invention operating as described above has the effect of maintaining the freshness of the refrigerated food for a long time by maintaining the humidity in the refrigerator compartment.

In addition, it is possible to obtain an increase in latent heat effect in the refrigerator by maintaining a certain amount of humidity, thereby reducing the temperature on / off deviation in the refrigerator.

Claims (1)

An evaporator that cools the surrounding air by the circulation process of the refrigerant, a fan that blows the air cooled in the evaporator, and circulates it to the freezer compartment and the refrigerating compartment side, and a refrigerating compartment for delivering the cooling air forced by the fan to the refrigerating compartment side. A cold air circulation duct formed in the rear of the housing, a cold air discharge port formed for air distribution between the inside of the refrigerating compartment and the cold air circulation duct, and blown cooling air delivered through the cold air circulation duct into the refrigerating compartment; A refrigerator provided at a predetermined position of the refrigerating compartment and having a humidifying means for generating atomized particles, the refrigerator comprising: A humidifying duct formed separately from the cold air circulation duct and connected to both side surfaces and a rear surface of the refrigerating compartment housing; A humidifying fan formed inside the humidifying duct and configured to forcibly circulate atomized particles generated in the humidifying means to each part of the refrigerating chamber; A humidifying circulation outlet formed at one side of the refrigerating compartment housing for air distribution between the refrigerating compartment and the humidifying duct and blowing humidifying air delivered through the humidifying duct into the refrigerating compartment; And And a humidifying circulation inlet formed on one side of the inside of the refrigerating compartment housing in which the humidifying circulation discharge port is not formed, and configured to perform a circulation of air from the inside of the refrigerating compartment to the humidifying duct.