KR19990011546A - Refrigerator with rapid deicing function - Google Patents

Abstract

The present invention relates to a refrigerator having a rapid deicing function, and provides an additional ice making chamber in a freezing compartment so that ice making is rapidly performed in the ice making chamber by concentrating cold air into the ice making chamber when the user selects the rapid ice making mode.

To this end, the present invention is provided with a freezer compartment and a refrigerating compartment in the main body, the evaporator is installed in the space between the main body and the freezer compartment to generate cold air while forming a freezing cycle and a fan motor is installed to blow the cold air generated in the evaporator. The refrigerator is configured to cool the freezer compartment and the refrigerating compartment as the cold air generated by the evaporator is supplied to the freezer compartment and the refrigerating compartment as the fan motor rotates, and includes a separate ice making compartment at one side of the freezer compartment, and between the main body and the freezer compartment. Auxiliary fan motor is installed in the space part of the freezing chamber, and a cold air supply hole for the ice-making chamber is formed on the rear wall of the freezing chamber through the inside of the ice-making chamber so that only the auxiliary fan motor rotates when the user selects the rapid ice-making mode. It is to be supplied only to the ice making room through the cold air supply hole.

Description

Refrigerator with rapid deicing function

The present invention relates to a refrigerator, and more particularly, a refrigerator having a rapid deicing function, in which a separate ice maker is provided in the freezer compartment so that ice is concentrated quickly by supplying cold air to the ice maker when the user selects the rapid defrosting mode. It is about.

The refrigerator is a device used for long-term storage of fresh food, and a general configuration is provided in the main body 1, a freezer compartment 2 formed in the main body to freeze and store the food, and the main body 1 It consists of a refrigerating chamber (3) capable of refrigerating food, and a freezing cycle capable of cooling the freezing chamber (2) and the refrigerating chamber (3).

The refrigeration cycle is a compressor (4) for compressing a low-temperature, low-pressure gas refrigerant into a high-temperature, high-pressure gas refrigerant as shown in Figure 2, and a condenser for condensing the high-temperature, high-pressure gas refrigerant into a high-temperature, high-pressure liquid refrigerant (5) and a capillary tube (6) for converting the high temperature and high pressure liquid refrigerant into low temperature and low pressure liquid refrigerant, and the low temperature and low pressure liquid refrigerant to evaporate the low temperature and low pressure gas refrigerant to generate cold air. It consists of an evaporator (7).

A fan motor 8 is installed in the space portion between the main body 1 and the freezing chamber 2 to blow cold air generated from the evaporator 7 of the freezing cycle, and a blowing air is provided on the rear wall surface of the freezing chamber 2. A freezer cold air supply hole 9 is formed so that the cold air is supplied into the freezer compartment 2, and the cold air supply passage for the cold compartment is provided on the inner rear wall of the main body 1 so that the blown cold air is supplied into the cold compartment 3. 10) is formed, the cold air supply passage for the refrigerating compartment is provided with a damper (11) to selectively open and close the cold air supply passage (10) for the refrigerating compartment, the freezer compartment (2) is filled with the water required for deicing A plurality of ice making trays 12 are supported so that they can be put in.

Therefore, while filling the refrigerated food in the freezer compartment (2) integrated in the main body (1) and applying power to the refrigeration chamber (3) while filling the refrigerated food in the state to receive the control signal of the controller to form a freezing cycle The compressor 4 is driven to compress the low-temperature and low-pressure gas refrigerant into high-temperature and high-pressure gas refrigerant, and the compressed high-temperature and high-pressure gas refrigerant is heat-exchanged while passing through the condenser 5 to form a high-temperature and high-pressure liquid refrigerant. The changed high temperature and high pressure liquid refrigerant is continuously converted into a low temperature and low pressure liquid refrigerant in which the temperature and pressure are rapidly dropped while passing through the capillary tube 6, and then the low temperature and low pressure gas refrigerant is passed through the evaporator 7. As it is converted into, it causes an evaporation action to take away the surrounding heat to generate cold air, and the low temperature and low pressure gas refrigerant is returned to the compressor according to the operation of the compressor 4. At this time, the fan motor 8 installed in the space portion between the main body 1 and the freezing chamber 2 is operated to blow cold air generated in the evaporator 7, and the blown cold air is directly stored in the freezing chamber ( It is supplied to the freezing compartment (2) through the freezer compartment cold air supply hole (9) formed on the rear wall of 2), the food filled while the freezer compartment is cooled and the cold air supply passage for the refrigerating compartment formed on the inner rear wall of the main body (1) Since it is supplied to the refrigerating compartment (3) through the (10) the food filled while the refrigerating compartment is cooled is refrigerated.

The cold air that is supplied to the freezing compartment 2 to cool the freezing compartment and the cold air that is supplied to the refrigerating compartment 3 to cool the refrigerating compartment 3 is formed in the main body 1 according to the continuous rotation of the fan motor 8. It is understood that the gas is returned to the evaporator 7 constituting the freezing cycle through the circulation passage 13 and then cooled again to be supplied to the freezing compartment 2 and the refrigerating compartment 3.

On the other hand, when the freezer compartment 2 and the refrigerating compartment 3 are cooled by the above-described action, a temperature sensor (not shown) continuously detects the temperature of the freezer compartment 2 and the temperature of the refrigerating compartment 3 and controls the temperature. If the temperature of the refrigerating compartment (3) falls below the set temperature, the controller controls the damper (11) installed in the cold air supply passage (10) for the refrigerating compartment by the damper for the cold air supply passage (10) Since the temperature of the refrigerator compartment 3 is higher than the set temperature, no further cooling air is supplied to the refrigerator compartment. When the temperature of the freezer compartment 2 falls below the set temperature, the controller stops the freezing cycle. Since the operation of the compressor 4 is stopped and the operation of the fan motor 8 is stopped, the supply of cold air is no longer supplied to the freezing compartment until the temperature of the freezing compartment 2 becomes higher than the set temperature. It does not to.

When the freezing compartment 2 and the refrigerating compartment 3 are cooled by the above-described action, ice is to be obtained by filling water into the ice making tray 12 supported in the freezing compartment 2. As the freezing chamber 2 is cooled by the cold air supplied to 2), the water filled in the ice making tray 12 is frozen, and thus ice is obtained.

However, since the conventional refrigerator is not equipped with an ice making function separately, when the ice making is to be performed, the water filled in the ice making tray is filled with water in the freezing compartment 2 as the ice making tray 12 supported in the freezing compartment 2 is filled with water. Since ice is supplied by the cold air supplied as a whole, the amount of cold air supplied and the temperature of the cold air are limited, so that the time required for deicing is long due to the increase of the elements cooled by the cold air.

For reference, the present inventors divided the two ice trays 12 supported in the freezer compartment 2 of the general refrigerator into 900 g of water at 30 ° C. and checked the ice making time when the water completely turned into ice. It is about 4 hours.

The present invention has been made in order to solve the problems caused by the deicing of the general refrigerator, it is provided with a separate ice compartment in the freezer compartment when the user selects the rapid deicing mode as the cold air is supplied only to the ice making chamber intensive ice The purpose is to drastically reduce time.

According to an embodiment of the present invention for achieving the above object, a freezer compartment and a refrigerating compartment are provided in a main body, and an evaporator is installed in the space portion between the main body and the freezer compartment to generate cold air while forming a freezing cycle. A refrigerator provided with a fan motor to blow air to cool the freezer compartment and the refrigerating compartment as cold air generated in the evaporator is supplied to the freezer compartment and the refrigerating compartment according to the rotation of the fan motor, and a separate ice maker is provided at one side of the freezer compartment. Auxiliary fan motor is installed in the space between the main body and the freezing chamber, and a cold air supply hole for the ice making chamber is formed on the rear wall of the freezing chamber through the inside of the ice making chamber so that only the auxiliary fan motor is selected when the user selects the rapid ice making mode. While supplying cold air to the ice making room through the cold air supply hole for the ice making room Fridge with ice making function is provided.

1 is a front view showing a freezer compartment and a refrigerating compartment of a typical refrigerator;

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a block diagram showing a freezing cycle of a typical refrigerator

Figure 4 is a schematic diagram for explaining the form of the cold air flow path of a typical refrigerator

5 is a front view showing a freezer compartment and a refrigerating compartment of the refrigerator having a rapid deicing function of the present invention.

6 is a cross-sectional view taken along the line B-B of FIG.

7 is a schematic view for explaining the form of the cold air flow path of the refrigerator having a rapid deicing function of the present invention

Explanation of symbols for main parts of the drawings

1. Body 2. Freezer

3. Refrigerator 7. Evaporator

8. Fan motor 14. Ice making room

15. Auxiliary fan motor 16. Cold air supply for ice making room

17. Ice tray 18. Ice tray door

19. Secondary cold air circulation passage

Hereinafter, the present invention will be described in more detail with reference to the attached FIGS. 5 to 7 as an embodiment.

5 is a front view illustrating a freezer compartment and a refrigerating compartment of a refrigerator having a rapid deicing function of the present invention, FIG. 6 is a cross-sectional view taken along line BB of FIG. 5, and FIG. 7 is a diagram illustrating a cold air flow path of a refrigerator having the rapid deicing function of the present invention. As a schematic diagram, description of the same configuration as that of the general refrigerator described above in the configuration of the refrigerator having the rapid deicing function will be omitted, but the same reference numerals as those given to the general refrigerator will be given in the drawings.

Hereinafter, the main configuration of the refrigerator of the present invention will be described.

A separate ice making chamber 14 is provided at one side in the freezing chamber 2 formed in the main body 1, and an auxiliary fan motor 15 is installed in the space portion between the main body 1 and the freezing chamber 2. On the rear wall of the freezing chamber 2, the cold air supply hole 16 for the ice-making chamber is formed so as to pass through the inside of the ice-making chamber 14, and only the auxiliary fan motor 15 rotates when the user selects the rapid ice-making mode. Only supply to the ice making chamber 14 through the supply hole 16.

In addition, a plurality of ice trays 17 are supported in the ice-making chamber 14 to fill water, and an ice-making chamber door (front of the ice-making chamber 14 is provided so that cold air in the ice-making chamber does not move to the freezing chamber 2). 18) is installed to be opened and closed, and in the space between the main body 1 and the freezing chamber 2, an auxiliary cold air circulation passage is provided such that the cold air supplied to the ice making chamber 14 is guided toward the evaporator 7 forming the freezing cycle. 19).

Since the remaining operations are the same as those of the refrigerator described above, except for the operation when the user selects the rapid ice making mode, the operation of the present invention configured as described above will only be described below. Shall be.

The user opens the ice-making chamber door 18 installed in the front of the ice-making chamber 14 separately provided in the freezing chamber 2 to open the ice-making chamber 14 and then each ice tray 17 supported in the ice-making chamber. Water is introduced into the container and the ice-making chamber door 18 is closed again to close the ice-making chamber 14.

When the rapid deicing mode is selected in such a state, the damper 11 installed in the cold air supply passage 10 for the refrigerating compartment receives the control signal of the controller and closes the cold air supply passage 10 for the refrigerating compartment. Only the auxiliary fan motor 15 installed in the space portion between 1) and the freezing chamber 2 rotates and blows the cold air generated in the evaporator 7, wherein the blown cold air is formed on the rear wall of the freezing chamber 2 As the water is supplied to the ice making tray 17 in the ice making chamber 14 as it is concentrated and supplied to the ice making chamber 14 through the cold air supply hole 16 for the ice making chamber 14 which is passed through the inside of the ice making chamber 14. It quickly turns into ice.

On the other hand, the cold air supplied into the ice making chamber 14 and ice-making the water filled in the ice making tray 17 is guided to the auxiliary cold air circulation passage 19 according to the continuous rotation of the auxiliary fan motor 15 to the evaporator 7. After returning, it is cooled again and supplied to the ice-making chamber 14, in which case, the ice-making chamber 14 is closed by the ice-making chamber door 18, and thus the cool air supplied to the ice-making chamber 14 is supplied to the freezing chamber 2. Moving phenomenon does not occur and thus the ice making force is improved.

The time taken for dropping 900 g of water at 30 ° C. to −5 ° C. by the refrigerator having the rapid ice making function of the present invention as described above was checked by experiment, and complete ice making was performed within 1 hour.

Therefore, when the user selects the rapid ice making mode, the ice making is performed quickly in the ice making chamber while supplying cold air only to the ice making chamber separately provided in the freezing compartment, thereby reducing the time required for making ice.

Claims (3)

A freezer compartment and a refrigerating compartment are provided in the main body, and an evaporator is installed in the space portion between the main body and the freezer compartment to generate cold air, and a fan motor is installed to blow cold air generated in the evaporator. A refrigerator configured to cool the freezing compartment and the refrigerating compartment as cold air is supplied to the freezing compartment and the refrigerating compartment as the fan motor rotates. A refrigerator is provided on one side of the freezing compartment, and an auxiliary portion is provided in the space between the main body and the freezing compartment. A fan motor is installed, and a cold air supply hole for the ice-making chamber is formed on the rear wall of the freezing chamber through the inside of the ice-making chamber. When the user selects the rapid ice-making mode, only the auxiliary fan motor rotates to make ice through the cold-air supply hole for the ice-making chamber. Refrigerator having a rapid deicing function, characterized in that to supply only the chamber. The method of claim 1, A refrigerator having a rapid deicing function, characterized by supporting an ice tray in an ice-making chamber to fill water required for ice-making in the ice tray. The method of claim 1, An ice-making chamber door is installed to be opened and closed so that the cold air in the ice-making chamber does not move to the freezing chamber in front of the ice-making chamber. A refrigerator having a rapid deicing function, characterized by forming a cold air circulation passage.