KR100709402B1 - Ice-making system of ice-maker installed in refrigerator door - Google Patents

Abstract

Ice making system of the ice-making chamber provided in the refrigerating chamber door according to the present invention, the freezer compartment evaporator 360 provided on one side of the freezing chamber (300); An ice making chamber 400 protruding to the rear side of the refrigerating chamber door 220 to selectively shield the refrigerating chamber 200 to form an independent space, and to make and store ice; A suction duct 520 embedded in a side wall of the refrigerating chamber 200 to communicate the freezing chamber 300 with the ice making chamber 300 and guiding cold air to the ice making chamber 400; A discharge duct 540 embedded in a side wall of the refrigerating chamber 200 to communicate the freezing chamber 300 and the ice making chamber 400 with the freezing chamber 300 to guide cold air to the freezing chamber 300; An inlet 480 formed to be opened at one side of the ice making chamber 400 corresponding to an end of the suction duct 520 opened at a side wall of the refrigerating chamber 200, and selectively communicating with the suction duct 520. Wow; The discharge port 490 is formed to be opened on one side of the ice making chamber 400 corresponding to the end of the discharge duct 540 opening to the side wall of the refrigerating chamber 200, and selectively communicates with the discharge duct 540. It is configured to include. According to this invention which has such a structure, there exists an effect of ease of use and manufacturing cost.

Refrigerator, ice-making room, duct, cold room door, freezer evaporator

Description

Ice-making system of ice-making system in refrigerator doors {Ice-making system of ice-maker installed in refrigerator door}

1 is a front view showing the appearance of a refrigerator according to the prior art.

Figure 2 is a front view showing a state in which the door of the refrigerator according to the prior art is opened.

Figure 3 is a front view showing the appearance of the refrigerator employing the ice making system of the ice-making compartment provided in the refrigerating chamber door according to the present invention.

Figure 4 is a perspective view showing an open state of the refrigerator compartment door of the refrigerator employing the ice making system of the ice making chamber provided in the refrigerator compartment door according to the present invention.

5 is a partial perspective view showing the interior of an ice making chamber which is a main component of an ice making system of an ice making chamber provided in a refrigerating chamber door according to the present invention;

6 is a partial perspective view showing a portion of the inside of the refrigerator employing the ice making system of the ice making chamber provided in the refrigerating chamber door according to the present invention.

Figure 7 is a schematic diagram showing a cold air circulation of a preferred embodiment of the ice making system of the ice-making chamber provided in the refrigerating chamber door according to the present invention.

Explanation of symbols on the main parts of the drawings

100. main body 200. refrigerator

220. Refrigerator door 240. Dispenser

260. Display 300. Freezer

320. Freezer door 340. Storage box

360. Freezer evaporator 380. Cold air supply fan

400. Ice making room 420. Ice making room door

440. Ice Machine 460. Ice Machine

480. Inlet port 490. Outlet port

500. Duct 520. Suction duct

522. Suction outlet 540. Discharge duct

542. Discharge inlet

The present invention relates to a refrigerator, and more particularly, to an ice making system of an ice making chamber provided in a refrigerating chamber door in which cold air generated in a freezing chamber evaporator flows into an ice making chamber installed in a refrigerating chamber door through a suction duct.

In general, a refrigerator is a device for low temperature storage of food, and stores the food by freezing or refrigerating according to the state of the food to be stored. The cold air supplied to the inside of the refrigerator is generated by the heat exchange action of the refrigerant, is continuously supplied into the refrigerator while repeatedly performing a cycle of compression, condensation, expansion, and evaporation, and the supplied refrigerant is supplied by convection. It is delivered evenly inside the refrigerator to store food in the refrigerator at a desired temperature.

1 is a front view showing the appearance of the refrigerator according to the prior art, Figure 2 is a front view showing the door of the refrigerator according to the prior art, as shown in these drawings, the main body 10 of the refrigerator is a rectangular parallelepiped. It is formed in a shape, the inside of the main body 10 is formed in the upper and lower refrigerating chamber 20 and the freezing chamber 30 for freezing and storing food, respectively.

The spaces of the refrigerating chamber 20 and the freezing chamber 30 each form an independent space, and the front surface is formed to be opened. The front surface of the opened main body is selectively opened and closed by doors 40 and 50, and the doors 40 and 50 have a refrigerating chamber door 40 that shields the refrigerating chamber 20 above the main body 10, and a main body ( 10) is composed of a freezer compartment door 50 that shields the freezer compartment 30 at the bottom.

The refrigerating chamber door 40 is formed on both left and right sides, and both ends thereof are fixed to the main body 10 to be rotated. Accordingly, the user can selectively open and close the opened front surface of the refrigerating compartment 20 by rotating the refrigerating compartment door 40 to the left / right.

Foods of various sizes and states are stored in the refrigerating compartment 20 and the refrigerating compartment door 40, and are stored in the refrigerating compartment 20 and the inner surface of the refrigerating compartment door 40 for their storage. Drawers, baskets, shelves, etc. are provided for storing food to suit the characteristics of the food.

The lower part of the main body 10, that is, the opened front surface of the freezing compartment 20 is selectively shielded by the freezing compartment door 50. The freezer compartment door 50 is formed to selectively shield the opened front surface of the freezer compartment 30 while sliding forward / rearward.

An upper portion of the freezer compartment door 50 is provided with a freezer compartment handle 52 so as to protrude forward so that the user can easily grip it. In addition, a plurality of drawers and baskets are provided inside the freezing compartment 30 to separate and store various foods, and an ice maker 60 is provided at one side of the freezing compartment 30 to make ice.

However, the prior art as described above has the following problems.

In the refrigerator according to the related art, an ice maker 60 for freezing ice is provided in the freezer compartment 30 under the main body 10 so that the user opens the freezer compartment 50 and bows the waist to take out the ice. ), There is a problem that causes inconvenience in use.

Meanwhile, in order to solve such a problem, the ice maker 60 is provided in the refrigerating chamber door 40, and a dispenser (not shown) is provided below the ice maker 60 so that the user can apply ice to the refrigerating chamber door ( The refrigerator which has a structure which makes it possible to take out from the outside of 40) is researched.

However, in such a structure, an ice maker 60 for ice making is inevitably provided inside the refrigerating chamber 20, and even if the ice maker 60 is provided at one side of the refrigerating chamber 20, the ice maker 60 is provided. There is a problem that the storage space inside the refrigerating chamber 20 is reduced by the space occupied.

In addition, an evaporator (not shown) for supplying cold air for ice making operations and a fan (not shown) for forcibly flowing cold air should be separately provided in the space in which the ice maker 60 is provided. Therefore, not only the overall manufacturing process increases but also the price competitiveness decreases due to an increase in parts.

An object of the present invention is to solve the problems of the prior art as described above, the ice-making chamber provided in the refrigerating chamber door to perform the ice-making operation by inducing cold air generated in the freezer compartment evaporator to the ice-making chamber formed on one side of the refrigerator compartment door To provide an ice making system.

Ice-making system of the ice-making chamber provided in the refrigerating chamber door according to the present invention for achieving the above object, the freezing chamber evaporator provided on one side of the freezing chamber; An ice making chamber protruding to the rear of the refrigerating chamber door selectively shielding the refrigerating chamber to form an independent space, and making and storing ice; A suction duct embedded in a side wall of the refrigerating chamber so as to communicate with the freezing chamber and the ice making chamber; A discharge duct embedded in a side wall of the refrigerating chamber so as to communicate with the freezing chamber and the ice making chamber; A suction port formed to be opened at one side of the ice making chamber corresponding to an end portion of the suction duct opened at a side wall of the refrigerating chamber, and selectively communicating with the suction duct; And a discharge port formed to be opened at one side of the ice making chamber corresponding to an end of the discharge duct opened on the sidewall of the refrigerating chamber, and selectively communicating with the discharge duct, wherein the cool air generated in the freezer compartment evaporator is It is supplied to the ice making chamber through the suction duct and the suction port to perform an ice making operation, and the cold air in the ice making chamber is configured to be discharged to the freezing chamber through the discharge port and the discharge duct.
The suction port and the discharge port of the ice making chamber are selectively in close contact with the opened end of the suction duct and the open end of the discharge duct by the rotation of the refrigerating chamber door.
One side of the freezer compartment evaporator is further provided with a cold air supply fan for forcibly blowing cold air into the suction duct.
One side of the refrigerating chamber door is further provided with a dispenser to directly extract the ice from the outside.
The ice making chamber includes an ice making machine for manufacturing ice with cold introduced through the suction duct; It is installed on the lower side of the ice maker, and comprises an ice machine for transporting the iced ice can be taken out through the dispenser.
An open rear surface of the ice making chamber is provided with an ice making chamber door for selectively shielding the ice making chamber by rotation.

delete

delete

delete

delete

delete

delete

According to the present invention having such a configuration, by performing the ice making operation using the cold air of the freezer compartment evaporator efficiently, there is an effect of expanding the storage space of the refrigerating compartment and at the same time reducing the manufacturing cost.

Hereinafter, a preferred embodiment of an ice making system of an ice making chamber provided in a refrigerating chamber door according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

Figure 3 is a front view showing the appearance of the refrigerator employing the ice-making system of the ice-making room provided in the refrigerating chamber door according to the present invention, Figure 4 is a refrigerator of the ice-making system of the ice-making room provided in the refrigerating chamber door according to the present invention. As shown in the drawing, the refrigerator main body 100 is formed in a substantially rectangular parallelepiped shape, and the interior of the main body 100 is divided into a refrigerating chamber 200 and a freezing chamber 300. do.

The refrigerating compartment 200 is formed on the upper portion of the main body 100, and although not shown in detail, there are various types of baskets, shelves, and drawers for efficiently storing various kinds of foods in the refrigerating compartment 200. The space of the refrigerating chamber 200 is partitioned and installed.

Therefore, the cold air generated by the evaporator (not shown) and supplied from one side of the main body 100 is affected by the flow of the basket, the shelf and the drawers, thereby limiting or regulating the convection of the cold air. do. The user can store and store foods appropriate to the proper position according to the temperature characteristics due to the difference in the cold air supply.

Meanwhile, the front surface of the refrigerating chamber 200 is formed to be opened, and the front surface of the opened refrigerating chamber 200 is selectively shielded by the refrigerating chamber door 220. The refrigerating chamber door 220 is formed at both left and right sides of the main body 100, and the left and right ends of each of the refrigerating chamber doors 220 are hinged to one side of the main body 100.

Therefore, the refrigerating chamber door 220 rotates around both ends of the hinged refrigerating chamber door 220, and the opened front surface of the refrigerating chamber 200 is selectively rotated by the refrigerating chamber door 220. Shielded.

In addition, one side of the refrigerating chamber door 220 of the refrigerating chamber door 220 of the left / right side has an ice making chamber 400 to be described in detail below, and a dispenser 240 for extracting purified water and ice from the outside. It is provided, and the display 260 and operation buttons for temperature control and status display inside the main body 100 is installed.

In addition, although not shown in detail, the other side of the left / right refrigerating chamber door 220 of the refrigerating chamber door 220 such as drinks or alcohol frequently taken out without opening the refrigerating chamber door 220 A home bar (not shown) may be installed to allow removal from the.

On the other hand, the freezer compartment 300 is formed below the refrigerating compartment 200, that is, the lower portion of the main body 100, which is a separate space partitioned from the refrigerating compartment 200. The freezing chamber 300 is a place for freezing fish or meat or foods that require long-term storage, and a drawer or basket for separating and storing the foods stored in the freezing compartment 300 according to size or condition. Is provided.

In addition, a freezing chamber door 320 that shields the inside of the freezing chamber 300 is formed on the front surface of the freezing chamber 300. The lower end of the freezer compartment door 320 is hinged to the lower end of the storage box 340 for storing food, and the storage box 340 is formed to be slidable back and forth, and the front and rear together with the freezer compartment door 320. It is formed to be withdrawn / mouthed.

The rear of the freezer compartment 300 is provided with a separate freezer evaporator 360. The freezer compartment evaporator 360 generates cold air through heat exchange between a refrigerant and air outside the freezer compartment evaporator 360. 300 exhibits a strong cooling capacity.

Some of the cold air generated in the freezer compartment evaporator 360 is introduced into the ice making chamber 400 through the duct 500. The duct 500 communicates with one side of the freezing chamber 300 adjacent to the freezing chamber evaporator 360 and the ice making chamber 400, and serves as a passage for guiding cold air flow.

In addition, the duct 500 is provided inside one side wall surface of the refrigerating chamber 200, the wall surface of the refrigerating chamber 200 is filled with a heat insulating material and the refrigerating chamber 200 by cold air transferred through the duct 500. This prevents a change in the internal temperature.

On the other hand, one side of the freezing chamber 300 is provided with a cold air supply fan 380 is forced air flow so that the cold air flowing through the duct 500 can flow more smoothly.

5 is a partial perspective view showing an interior of an ice making chamber which is a main component of an ice making system of an ice making chamber provided in a refrigerating chamber door according to the present invention. It is formed inside any one of the refrigerating chamber doors 220 on both sides that shield the opened front surface.

The ice making room 400 is a space for making and storing ice, and the stored ice can be taken out from the outside through the dispenser 240. Therefore, it is preferable that the ice making chamber 400 is provided above the dispenser 240.

The outer edge of the ice making chamber 400 protrudes from the refrigerating chamber door 220 toward the inside of the refrigerating chamber 200, and the ice making chamber 400 is formed to have an inner recessed shape. Ice is made and stored in a closed space.

Although the ice making chamber 400 is provided in the refrigerating chamber door 220, it is required to maintain a lower temperature than the refrigerating chamber 200 for the ice making operation, thus selectively shielding the opened front surface of the ice making chamber 400 in the opened front surface. The ice-making chamber door 420 is provided so that the ice-making chamber 400 and the refrigerating chamber 200 have independent spaces.

More specifically, one side of the ice making chamber 400, when the refrigerating chamber door 220 is closed, the right side of the ice making chamber 400 which is in contact with the inner side of the refrigerating chamber 200 (based on FIG. 5). The suction port 480 and the discharge port 490 are respectively formed.

The inlet 480 is an inlet in which some of the cold air generated by the freezer evaporator 360 flows into the ice making chamber 400, and a wall surface of the right side of the ice making chamber 400 (refer to FIG. 5). The upper portion is formed to penetrate the interior of the ice making chamber 400.

In addition, the discharge port 490 is an outlet for discharging cold air heat-exchanged with water in the ice making chamber 400 to the freezing chamber 300, and has the same shape as the suction opening 480 under the suction opening 480. It is formed to penetrate the interior of the ice making room 400.

On the other hand, an ice maker 440 and an ice maker 移 氷 幾, 460 for manufacturing ice are provided inside the ice maker 400. The ice maker 440 is formed on the inner upper portion of the ice making chamber 400 by making ice with cold introduced through the suction port 480.

In addition, an ice maker 460 is installed below the ice maker 440, that is, a lower portion inside the ice maker 400. The ice maker 460 transfers the ice made by the ice maker 440 to be taken out of the dispenser 240, and may be formed above the dispenser 240.

The remaining space excluding the space where the ice maker 440 and the ice maker 460 are installed among the inner spaces of the ice maker 400, that is, the space between the ice maker 440 and the ice maker 460 is the ice maker 440. It is a space to store the ice created in).

Since the cold air supplied from the freezer compartment evaporator 360 provided at one side of the freezing chamber 300 flows into the ice making chamber 400, a refrigerating chamber door having the inside of the ice making chamber 400 or the ice making chamber 400 is provided. 220 is not provided with a separate evaporator and fan for ice making.

On the other hand, the ice making chamber 400 is formed to protrude as a whole to enter the inside of the refrigerating chamber 200 by a predetermined portion when the refrigerating chamber door 220 is closed. In this case, one side surface of the ice making chamber 400 having the suction port 480 and the discharge port 490 is adjacent to the side wall surface of the refrigerating chamber 200, and the suction port 480 and the discharge port 490 are formed. The suction outlet 522 and the discharge inlet 542 are exposed at positions corresponding to the positions, respectively.

The suction outlet 522 is formed to be opened at the upper end of the suction duct 520 to be described in detail below, the discharge inlet 542 is formed to be opened at the upper end of the discharge duct 540 to be described in detail below. do.

In addition, the suction outlet 522 and the discharge inlet 542 are formed on the inner sidewall surface of the refrigerating chamber 200 corresponding to the positions where the suction port 480 and the discharge port 490 are formed, respectively. It is formed to be. Therefore, when the refrigerating chamber door 220 is closed, the suction outlet 522 and the suction port 480 and the discharge inlet 542 and the discharge port 490 are formed to be in close contact with each other.

FIG. 6 is a partial perspective view showing an inner portion of a refrigerator employing an ice making system of an ice making chamber provided in a refrigerating chamber door according to the present invention. As shown in the drawing, a portion of the inside of the refrigerator is viewed from the rear of the refrigerator compartment 200. ) And the freezer compartment 300 are divided into upper and lower sides, respectively, to form a separate space.

The ice making chamber 400 is formed at one side of the refrigerating chamber door 220 that shields the opened front surface of the refrigerating chamber 200, and a freezing chamber evaporator which generates cold air at the rear side of the freezing chamber 300 by heat exchange of the refrigerant. 360 is mounted. In addition, one side of the freezing chamber 300 is further provided with a cold air supply fan 380 for effectively blowing the cold air generated in the freezer compartment evaporator 360 to the ice making chamber 400.

The inside of the freezing chamber 300 and the inside of the ice making chamber 400 at one side of the refrigerating chamber door 220 are communicated with each other by the duct 500 and the freezing chamber 300 by the duct 500. The flow of cold air is guided to the ice making chamber 400.

The duct 500 is a suction duct 520 for supplying the cold air generated in the freezer compartment evaporator 360 to the ice making chamber 400 and the cold air after heat exchange in the ice making chamber 400. The discharge duct 540 is discharged to the.

The suction duct 520 is mounted on one wall surface of the refrigerating chamber 200, and more specifically, on a wall surface of a side surface on which the refrigerating chamber door 220 in which the ice making chamber 400 is formed is fixed. In addition, the upper end and the lower end of the suction duct 520 are formed to be opened, respectively.

An upper end of the suction duct 520 is opened to form the suction outlet 522, and the suction outlet 522 is exposed to the outside from the inner wall surface of the refrigerating chamber 200. The lower end of the suction duct 520 is formed to communicate with one side of the freezing chamber 300, that is, the position adjacent to the freezing chamber evaporator 360.

The discharge duct 540 is formed in a shape similar to that of the suction duct 520 and is provided below a predetermined interval. An upper end of the discharge duct 540 is opened to form the discharge inlet 542, and the suction outlet 522 is exposed to the outside from the inner wall surface of the refrigerating chamber 200. The open lower end of the discharge duct 540 communicates with one side of the freezing compartment in which foods requiring freezing are stored.

Meanwhile, a cold air supply fan 380 is installed at one side of the freezing compartment 300, more specifically, at the front of the freezing compartment evaporator 360. In addition, the cold air supply fan 380 is installed at a position adjacent to the opened lower end of the suction duct 520 to forcibly blow the cold air exchanged in the freezer compartment evaporator 360 to the inside of the suction duct 520. do.

Hereinafter, the operation of the ice making system of the ice making chamber provided in the refrigerating chamber door according to the present invention having the configuration as described above will be described with reference to the drawings.

FIG. 7 is a schematic view showing a cold air circulation of a preferred embodiment of an ice making system of an ice making room provided in a refrigerating chamber door according to the present invention. As shown in the drawing, when external power is applied to the refrigerator, The electrical devices and their parts are activated.

The refrigerant inside the freezer compartment evaporator 360 exchanges heat with the air outside the freezer compartment evaporator 360 through the operation of the electric device and the components, through which the surrounding air is cooled to generate cold air.

The cold air generated by the freezer compartment evaporator 360 is supplied to the internal space of the freezer compartment 300 to maintain the freezer temperature at a freezing temperature of the freezer compartment so as to freeze and store foods stored in the freezer compartment 300.

In addition, some of the cold air generated by the freezer compartment evaporator 360 is forcibly transferred to the suction duct 520 by the cold air supply fan 380. The cold air transferred to the suction duct 520 flows along the suction duct 520 and is guided to the suction outlet 522 of the upper portion of the suction duct 520.

The suction outlet 522 is in close contact with the suction port 480 on the side of the ice making chamber 400, and the suction outlet 522 and the suction port 480 are formed to be opened in the same shape with each other to the suction outlet 522. The guided cold air flows into the ice making chamber 400 through the suction port 480.

The cold air flowing through the suction outlet 522 and the suction port 480 into the upper portion of the ice making chamber 400 is guided to the ice maker 440 provided in the upper portion of the ice making chamber 400.

The cold air guided to the ice maker 440 exchanges heat with the water stored in the ice maker 440, thereby making ice in the ice maker 440 inside the ice maker 400. At this time, the speed and the amount of ice is determined according to the amount of cold air supplied from the freezer compartment evaporator (360).

On the other hand, the cold air after the heat exchange in the interior of the ice making chamber 400 is discharged to the outside of the ice making chamber 400 through the discharge opening 490, the discharge opening 490 is in close contact with the discharge inlet 542, The discharge port 490 and the discharge inlet 542 are formed in the same shape, and the cold air that has undergone heat exchange in the ice making chamber 400 is external to the ice making chamber 400 via the discharge hole 490 and the discharge inlet 542. To be discharged.

Since the discharge inlet 542 is formed at the upper end of the discharge duct 540, the cool air discharged to the discharge inlet 542 is guided downward along the discharge duct 540. The cold air reaching the lower end of the discharge duct 540 flows into the freezing chamber 300 through the opened lower end of the discharge duct 540.

The cold air introduced into the freezing compartment 300 is cooled by the freezing compartment evaporator 360 again, and is mixed with the cold supplied to the freezing compartment so that the temperature of the freezing compartment 300 can be stored in a frozen state. To be maintained.

The ice that has completed ice making by heat exchange with cold air supplied from the freezing chamber evaporator 360 in the ice making room 400 is stored in the ice making room 400, and some of the ice stored in the ice making room 400 is It is conveyed by the ice machine (移 氷 幾, 460).

Therefore, when the user operates the dispenser 240 as necessary, the ice maker 460 operates to supply the ice stored in the ice making chamber 400 to the dispenser 240, and the user dispenses the dispenser 240. Through 240, the ice can be taken out from the outside.

The scope of the present invention is not limited to the above embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the above technical scope.

In the ice-making system of the ice-making chamber provided in the refrigerating chamber door according to the present invention as described above in detail, the cold air generated in the freezing chamber evaporator in the ice-making chamber formed in the refrigerating chamber door by forcibly blowing the cool air generated in the freezing chamber evaporator through the duct Allow inflow.

Therefore, the ice making operation of making ice inside the ice-making chamber can be performed without installing a separate evaporator and a cold air supply fan in the ice-making chamber, so that the overall space occupied by the ice-making chamber is made small. There is an effect that can be enlarged.

In addition, the elimination of additional evaporator and cold feed fan can reduce the number of parts as well as significantly reduce the number of processes, which can be expected to improve the price competitiveness by reducing the production cost required for the production of the product.

The ice making system can be made compact, and the ice making system can be implemented in the refrigerating chamber door by inducing cold air through the duct, and the ice can be taken out from the outside through a dispenser formed in the refrigerating chamber door.

Therefore, the user can take out the ice from the outside only by operating the dispenser without opening the freezer door and bowing the waist, thereby maximizing the user's ease of use.

Claims (7)

A freezer compartment evaporator provided at one side of the freezer compartment; An ice making chamber protruding to the rear of the refrigerating chamber door selectively shielding the refrigerating chamber to form an independent space, and making and storing ice; A suction duct embedded in a side wall of the refrigerating chamber so as to communicate with the freezing chamber and the ice making chamber; A discharge duct embedded in a side wall of the refrigerating chamber so as to communicate with the freezing chamber and the ice making chamber; A suction port formed to be opened at one side of the ice making chamber corresponding to an end portion of the suction duct opened at a side wall of the refrigerating chamber, and selectively communicating with the suction duct; A discharge opening formed on one side of the ice making chamber corresponding to an end of the discharge duct opened on the side wall of the refrigerating chamber, and selectively communicating with the discharge duct; The cold air generated in the freezer compartment evaporator is supplied to the ice making chamber through the suction duct and the suction port to perform an ice making operation, and the cold air in the ice making chamber is discharged to the freezing chamber through the discharge port and the discharge duct. An ice making system of an ice making compartment provided in a refrigerator compartment door. The method of claim 1, The inlet and outlet of the ice-making chamber are selectively in close contact with the open end of the suction duct and the open end of the discharge duct by the rotation of the refrigerating chamber door. . The method of claim 2, One side of the freezer compartment evaporator is a deicing system of the ice-making chamber provided in the refrigerating chamber door, characterized in that it is further provided with a cold air supply fan for forced air blowing into the suction duct. The method of claim 3, wherein One side of the refrigerating chamber door is provided with a dispenser to directly take out ice from the outside, the ice making system of the ice-making chamber provided in the refrigerating chamber door. The method of claim 4, wherein The ice making room, An ice maker for manufacturing ice with cold introduced through the suction duct; The ice making system of the ice making room provided in the refrigerating chamber door, characterized in that it is installed on the lower side of the ice maker, and comprises an ice machine for conveying the iced ice to be taken out through the dispenser. The method according to any one of claims 1 to 5, The ice making chamber of the ice-making chamber provided in the refrigerating chamber door, The ice-making chamber door is provided in the opened back surface of the said ice-making chamber, The ice-making chamber door selectively shields the said ice-making chamber by rotation. delete

Images