RU2338133C2 - Refrigerator - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: refrigerator includes refrigerating chamber, which is arranged accordingly in top part of refrigerator body, and freezing chamber, which is arranged accordingly in bottom part of refrigerator body, contains ice-generating chamber, which is separated in refrigerating chamber by means of isolating partitions and contains ice generator for generation of ice and ice storage for storage of ice produced in ice generator, one or several heat-exchanges that serve as composite parts of heat exchanging cycle for creation of cold air and regulation of temperatures in refrigerating and freezing chambers, and give-out device that communicates with ice storage and is installed on the door. Application of this invention provides minimum losses of cold air in case of door opening, simplification of give-out device for water supply.

EFFECT: provision of minimum losses of cold air in case of door opening, simplification of give-out device for water supply.

32 cl, 7 dwg

Description

The present invention relates to a refrigerator, and more particularly, to a refrigerator that is equipped with a refrigerator in its upper part, a freezer in its corresponding lower part, and, moreover, an ice-making device located in the refrigerator.

Figure 1 shows a row type refrigerator in which a refrigerator and a freezer are located side by side. As shown in FIG. 1, the refrigerator body 100 includes a freezer and a refrigerator that open in the forward direction and are located side by side. The refrigerator and freezer are opened and closed respectively by the door 102 of the freezer and the door 104 of the refrigerator. Doors 102 and 104 are pivotally supported on hinges 102 ′ and 104 ′ located respectively at the upper and lower ends of both side edges of the refrigerator body 100.

An ice maker 106 is located in the freezer, and a water tank 108 is located in the refrigerator. The water supplied to the ice machine 106 and the water tank 108 is pre-cleaned by the filter 110. Water is supplied from an external water supply source Ws to the ice machine and the water tank through the filter 110.

In addition, a dispenser 112 is located on the front surface of the door 102 of the freezer. The dispenser 112 allows the user to drink water supplied from the water tank 108 without opening the door.

In this case, water is supplied to the refrigerator body 100 through a plurality of supply tubes 110 ′, 106 ′, 108 ′ and 112 ′ and valves 110v and 106v. Water is supplied to the dispenser 112 through a supply pipe 112 ′ that passes through the lower loop 102 ′.

However, the above-described refrigerator, known from the prior art, has the following disadvantages.

Since the ice maker 106 is located in the freezer, and the water tank 108 is in the refrigerator, while the dispenser 112, which receives water from the water tank 108, is installed on the door 102 of the freezer, the supply tubes 110 ′, 106 ′, 108 ′ and 112 ′ for supplying water to the ice maker, the water tank and the dispenser are installed in the refrigerator body 100 in a complicated manner. Therefore, since the overall length of the supply tubes 110 ′, 106 ′, 108 ′ and 112 ′ increases, the problem is to increase the manufacturing cost and, in addition, complicating the manufacturing process.

In addition, since the ice maker 106 is located in the freezer, there is also another problem, namely, that the supply pipe 106 ′ can freeze over its length that passes through the freezer. To solve this problem, it is necessary to use an additional heater for the feed tube 106 ′. However, due to the use of an additional heater, the cost of manufacturing a refrigerator and its energy consumption increase.

Since the ice maker 106 must be in a low-temperature environment in which ice can be produced, the ice maker is usually installed in a freezer. However, under certain design conditions, there is a limitation regarding the installation of an ice maker 106, depending on where the freezer should be located. For example, if the dispenser is mounted on the front surface of the door of the freezer when the freezer is formed in the correspondingly lower part of the refrigerator body, it is usually very inconvenient for the consumer to take ice from the dispenser.

On the other hand, if the ice maker is installed in the freezer when the freezer is formed in the lower part of the refrigerator and the refrigerator is formed in the upper part of the refrigerator, as mentioned above, an additional problem is the difficulty in controlling the temperature of the refrigerator and in reducing the performance of the ice maker for the production of ice.

In addition, in the case where a single door 102 or 104 is used to open and close the freezing or refrigerating chamber of the refrigerator body 100, a further problem is to increase the loss of cold air from the chamber. In particular, since there is currently a tendency to increase the size of the refrigerator, the loss of cold air becomes relatively greater.

Thus, the present invention is directed to solving the above problems known from the prior art. An object of the present invention is to provide a refrigerator in which an ice maker is located in a cooling chamber formed in the upper part of the refrigerator body.

Another objective of the present invention is to provide a refrigerator in which the loss of cold air from the storage space when opening and closing this space can be minimized.

A further object of the present invention is to provide a refrigerator that includes an ice maker and a dispensing device, and in which a water supply device can be simplified.

According to one aspect of the present invention, to solve this problem, there is provided a refrigerator comprising a refrigerator, formed respectively in the upper part of the refrigerator body, and a freezer, formed respectively in the lower part of the refrigerator body, which comprises an ice-making chamber separated in the refrigerator by means of insulating walls and containing an ice maker for producing ice and an ice store for storing ice produced in an ice maker; one or more heat exchangers serving as components of a heat transfer cycle for the formation of cold air in order to control temperatures in the refrigeration and freezer chambers; and a dispensing device communicating with the ice storage and mounted on the door.

The first heat exchanger is preferably located in the ice-making chamber, and the second heat exchanger in the freezer.

The second heat exchanger may be located in a heat exchange chamber, separately insulated at the rear of the freezer, and communicate with the freezer and refrigerator.

In addition, a fan is preferably located in the heat exchanger chamber to direct the cold air formed in the second heat exchanger to the freezing and refrigerating chambers.

The ice-generating chamber can be removably installed in the refrigerating chamber.

The refrigerator compartment can be opened and closed by a pair of doors that are pivotally supported on hinges located at the upper and lower ends of both side edges of the refrigerator body.

An ice making chamber may be located on one side of the door.

Doors of the refrigerator can have different widths.

On the free edges of the doors of the refrigerator compartment, gaskets are preferably located which are in close contact with each other when the doors are closed.

On the front surface of the door of the refrigerator compartment there is a dispensing device that can be supplied with water from a water tank installed in the refrigerator compartment.

A water tank may be installed on the inside of the refrigerator body or the door of the refrigerator compartment.

Water supplied from an external source of water supply can enter the water tank and the ice maker through a filter, and water supply pipes and valves for regulating the flow can be located between the water supply source and the filter, between the filter and the water bull, and between the filter and the ice maker.

According to another aspect of the present invention, there is provided a refrigerator, comprising: a refrigerator body, which comprises components of a heat exchange cycle; a refrigerator compartment formed respectively in the upper part of the refrigerator body; a freezer formed respectively in the lower part of the refrigerator; a pair of doors that are connected to both side edges of the refrigerator body corresponding to the refrigerator, for opening and closing the refrigerator; a door for selectively opening and closing the front side of the freezer; and storage means for storing therein items that are located in the refrigerator compartment and have a width equal to the width of the doors of the refrigerator compartment.

A pair of refrigerator compartment doors can have the same width, and gaskets that are in close contact with each other can be located on surfaces of opposite free edges of the doors.

A pair of refrigerator compartment doors can have different widths, and gaskets that are in close contact with each other can be located on surfaces of opposite free edges of the doors.

In addition, an ice-making chamber is preferably located in the refrigerating chamber, which comprises an ice-making machine for producing ice and an ice storage-room for storing ice produced in the ice-making machine, and is separated as a separate space by means of insulating walls.

The ice-generating chamber can be removably installed in the refrigerating chamber.

In addition, on the front surface of the door of the refrigerator compartment, a dispenser is preferably located, provided with water from a water tank installed in the refrigerator compartment.

A water tank may be installed on the inside of the refrigerator body or the door of the refrigerator compartment.

Water supplied from an external source of water supply can enter the water tank and the ice maker of the ice maker chamber through a filter. In addition, the water supply tubes and valves for controlling the flow of water are preferably located between the water supply source and the filter, between the filter and the water tank and between the filter and the ice maker.

The freezer door can be opened and closed in the same way as a drawer.

According to a further aspect of the present invention, there is provided a refrigerator, comprising: a refrigerator body, which comprises components of a heat exchange cycle; a refrigerator compartment formed respectively in the upper part of the refrigerator body; a freezer formed respectively in the lower part of the refrigerator; a pair of doors that are connected to both side edges of the refrigerator body corresponding to the refrigerator, for opening and closing the refrigerator; a door for selectively opening and closing the front side of the freezer, an ice maker, which is separated as a separate space inside the refrigerator by means of insulating walls and contains an ice maker for making ice and an ice store for storing ice generated in the ice maker; a first heat exchanger for generating cold air to control the temperature in the ice-making chamber; and a second heat exchanger for generating cold air to control temperatures in the freezer and refrigerator, wherein the first and second heat exchangers are components of a heat exchange cycle.

A pair of refrigerator compartment doors can have the same width. In addition, on the surfaces of the opposite free edges of the doors, there are preferably gaskets in close contact with each other, and storage means for storing objects having a width equal to the width of the doors of the refrigerator compartment are located in the refrigerator compartment.

A pair of refrigerator compartment doors may have different widths. In addition, on the surfaces of the opposite free edges of the doors, there are preferably gaskets that are in close contact with each other, and storage facilities for storing objects having a width equal to the width of the doors of the refrigerator are located in the refrigerator compartment.

In addition, on the front surface of the door of the refrigerator compartment, a dispenser is preferably located, provided with water from a water tank installed in the refrigerator compartment.

A water tank may be installed on the inside of the refrigerator body or the door of the refrigerator compartment.

Water that is supplied from an external source of water supply can enter the water tank and the ice maker of the ice maker chamber through a filter. The water supply tubes and valves for controlling the flow of water are preferably located between the water supply source and the filter, between the filter and the water tank and between the filter and the ice maker; and water supply tubes are located on a door and a refrigerator case corresponding to a refrigerator.

According to another aspect of the present invention, there is provided a refrigerator comprising a refrigerator, formed respectively in the upper part of the refrigerator body, and a freezer, formed respectively in the lower part of the refrigerator body, which contains an ice-making chamber, which is separated in the refrigerator-chamber by means of insulating walls and contains an ice-making machine for ice making and ice storage for storing ice produced in an ice maker; a refrigerator compartment door that opens and closes the refrigerator compartment and is formed with a dispenser mounted on its front surface; a water tank, which is installed in a refrigerating chamber for storing water supplied from a water supply source to a dispensing device; means for supplying water supplied from the water supply source to the dispensing device, which are located on the refrigerator body corresponding to the refrigerating chamber; and means for supplying water supplied from the water supply source to the ice maker, which are located on the refrigerator body corresponding to the refrigerating chamber.

Means for supplying water to the dispensing device may include a filter for purifying water supplied from a water supply source; a tube to the water tank for supplying water from the filter to the water tank; a tube to a dispensing device for supplying water from the water tank to the dispensing device; and valves that are located between the water supply source and the filter and between the filter and the dispensing device for regulating the flow of water.

Means for supplying water to the ice machine may include a filter for treating the water supplied from the water supply source; a tube to the ice maker to supply water from the filter to the ice maker; and valves that are located between the water supply and the filter and between the filter and the ice maker to control the flow of water.

The refrigerator compartment is preferably opened and closed with at least a pair of refrigerator compartment doors having the same width.

The refrigerator compartment is preferably opened and closed with at least a pair of refrigerator compartment doors having different widths.

The invention is illustrated in the drawings, where:

figure 1 is a front view showing the layout of the prototype refrigerator,

2 is a front view showing the layout of a first embodiment of a refrigerator according to the present invention,

FIG. 3 is a sectional view showing an arrangement of a first embodiment of a refrigerator according to the present invention,

4 is a front view showing the layout of the refrigerator according to the present invention,

5 is a front view showing the internal layout of the second embodiment of the refrigerator shown in figure 4, in a state in which the doors of the refrigerator are open and the doors of the freezer are removed,

6 is a front view showing a device for supplying water to a dispenser and an ice maker according to an embodiment of the present invention,

7 is a view showing another example of a device for supplying water to a dispenser and an ice maker according to an embodiment of the present invention.

Below with reference to the accompanying drawings will be described in detail preferred embodiments of the refrigerator according to the present invention.

FIG. 2 shows a front view of a first embodiment of a refrigerator according to the present invention, and FIG. 3 shows a sectional view of an internal arrangement of a first embodiment of a refrigerator according to the present invention.

As shown in these drawings, a storage space is formed in the refrigerator body 1, namely, the refrigerator 3 and the freezer 5. The refrigerator 3 is formed respectively in the upper part of the refrigerator body 1, while the freezer 5 is formed in the lower part of the case, respectively 1 refrigerator. The refrigerator body 1 is divided in height by a partition 4 into a refrigerator and a freezer 3 and 5.

The refrigerator and freezer chambers 3 and 5 are formed open to the front side of the refrigerator body 1, and their open parts are opened and closed by doors 7, 8 and 9. In particular, the refrigerator 3 is opened and closed by a pair of doors 7 and 8. Doors 7 and 8 of the refrigerator the cameras are pivotally supported on hinges (not shown) that are mounted on the respectively upper and lower ends of both side edges of the front side of the refrigerator body 1. Thus, the doors 7 and 8 are designed so that their free edges, i.e. edges that are adjacent to each other are located in the middle of the refrigerator compartment 3 in the vertical direction when the doors 7 and 8 are closed. Doors 7 and 8 of the refrigerator allow for selectively opening and closing the right and left halves of the refrigerator 3, corresponding to one storage tank.

At the edges of the front surfaces of the doors 7 and 8, door handles are installed, respectively 7a and 8a. Door handles 7a and 8a are parts that the user, with the intention of opening and closing the doors 7 and 8, grabs for applying a predetermined force to them. In addition, there is a door handle 9a at the upper edge of the front surface 9 of the freezer. By the way, the door 9 of the freezer is designed so that it can be pushed in and out in the same way as a drawer.

In addition, an ice-making chamber 20 is installed in the upper part of the refrigerating chamber 3. The ice-making chamber 20 is separated by insulating walls 22 because the temperature in the ice-making chamber 20 should be kept noticeably lower than the temperature in the refrigerating chamber 3. The insulating walls 22 are formed to completely close the ice-making chamber chamber 20 and contain an insulating material consisting of polyurethane, Styrofoam polystyrene foam, etc.

An ice maker 24 is located in the ice-making chamber 20, in which ice is actually produced. As an ice maker 24, any kind of ice maker can be used if they can store the supplied water in a bath to generate ice and freeze the water using a low temperature in the ice maker. An ice storage 26 is located under the ice maker 24. The ice produced in the ice maker 24 can be stored in the ice storage 26. The ice generated in the ice maker 24 can be fed to the ice storage 26 in various ways.

Ice coming from the ice maker 24 is temporarily stored in the ice storage 26, and the ice stored in the ice storage 26 is transported by an ice feeding mechanism (for example, a wire auger that moves the ice during its rotation). The ice storage 26 communicates with the ice outlet 28, which passes through the insulating walls 22, and the ice outlet 28 selectively opens and closes so that ice can move to the dispensing device 29 located on the front surface of the door 7. The ice outlet 28 is formed in the door 7 so that it externally communicates with the dispensing device 29, and inside with the ice storage 26 through the insulating walls 22 of the ice-generating chamber 20.

The dispensing device 29 enables the user to withdraw water or ice without opening and closing the door 7. The dispensing device 29 is provided with a device for collecting water or ice from the dispensing device. For example, on the front surface of the door 7, a control lever or button is exposed or located, which receives a signal to open and close the dispensing hole through which water or ice is discharged. Thus, when the dispensing opening is opened with a control lever or button, water or ice is released.

A separate evaporator 32 is installed in the ice-making chamber 20. The evaporator 32 is installed for cooling the ice-making chamber (to a low temperature when it is possible to freeze the water stored in the ice-making chamber) by means of heat exchange between the ambient air in the ice-making chamber and the refrigerant, which is changed to a state with low temperature and low pressure and then introduced into the ice chamber through a compressor 42 and a condenser (not shown) installed in the engine compartment 40, about brezovanny in the lower back part of the case 1 of the refrigerator.

In addition, a fan 34 can also be installed, so that cold air generated by contact with the evaporator 32 can be more quickly transported into the ice-making chamber 20. You can also use any type of evaporator, provided that the evaporator 32 is able to create low-temperature air through heat exchange with ambient air. For example, an evaporator may also be used, to which direct cooling can be applied without using a fan 34.

A device for supplying cold air to the refrigerating and freezing chambers 3 and 5 formed in the refrigerator body 1 is described below. A separate heat exchange chamber 45 is formed in the back of the freezer 5 of the refrigerator body 1. An evaporator 46 and a fan 47 are located in the heat exchange chamber 45. The evaporator 46 creates cold air by using a refrigerant with a low temperature and low pressure, which is supplied from the compressor 42 and the condenser (not shown) installed in the engine compartment 40. The fan 47 is used to supply cold and cold air created in the evaporator 46 to the refrigerator and freezer chambers 3 and 5.

Part of the cold air created in the heat exchange chamber 45 is fed directly by the fan 47 to the freezing chamber 5. Another part of the cold air is supplied to the cooling chamber 3. For this, channels 48 and 49 are formed for supplying and returning cold air passing through the insulating walls of the refrigerator body 1 . Thanks to the channels 48 and 49, the heat exchange chamber 45 and the cooling chamber 3 communicate with each other. Channels 48 and 49 are located on the rear side of the wall and / or rear surface of the partition 4.

Figures 4 and 5 show a second embodiment of the present invention. As shown in these drawings, in this embodiment, the doors 7 ′ and 8 ′ for opening and closing the refrigerating chamber 3 corresponding to the storage space formed in the refrigerator body 1 are made with different sizes. Namely, when looking at these figures, the width of the left door 7 ′ is less than the width of the right door 8 ′.

This is due to the fact that in accordance with the trend of increasing the size of refrigerators for placing food in the refrigerator compartment and taking them out of it, only the necessary part of the enlarged refrigerator compartment 3 is opened. Of course, even if two doors 7 and 8 are used, having the same width, as in of the preceding embodiment of the present invention, the open part of the refrigerator can be reduced if only one door 7 or 8 is opened. However, if the doors 7 ′ and 8 ′ have different widths, as in this embodiment estvleniya present invention, respectively, may be further reduced by the unnecessary loss of cold air.

In addition, in cases where doors 7 ′ and 8 ′ having different widths are used, the internal arrangement of the refrigerator compartment is preferably performed in accordance with doors 7 ′ and 8 ′. Namely, a plurality of shelves 10 are installed inside the refrigerator compartment 3 for efficient use of storage space. The refrigerator compartment 3 is divided in height by shelves 10, on which food products can be placed and stored.

In addition, a plurality of drawers 12 and 12 ′ are located in the refrigerator compartment 3. Drawers 12 and 12 ′, in which food can be stored, are installed inside the refrigerator compartment 3, but their internal spaces are completely separated from the refrigerator compartment 3. The width of the drawers 12 and 12 ′ is determined in accordance with the width of the doors 7 ′ and 8 ′ . This is done so that after opening any of the doors 7 ′ and 8 ′, the drawer 12 or 12 ′ corresponding to the open door 7 ′ or 8 ′ can be pulled out without interference from the side of the closed door.

When the doors 7 ′ and 8 ′ are closed, the gaskets 7g and 8g are preferably located on opposite edges of the doors. Gaskets 7g and 8g are made with a length corresponding to the length of the doors 7 ′ and 8 ′ vertically, i.e. in height. Thus, when the doors 7 ′ and 8 ′ are completely closed, the gaskets 7g and 8g are in close contact with each other. Therefore, gaskets 7g and 8g can prevent the leakage of cold air along the edges of doors 7 ′ and 8 ′. These gaskets can also be used in the previous embodiment of the present invention.

Next, with reference to Fig.6 will be described a device for supplying water to a dispensing device and an ice maker according to the present invention. The water supplied from the water supply source enters the refrigerator body 1 and is supplied to the filter 52 through the supply pipe 50. The supply pipe 50 is provided with a valve 50V for regulating the water supply to the refrigerator body 1.

The filter 52 is used to purify the water supplied to it. The water purified in the filter 52 is supplied through tubes 54 and 55 to the ice maker 24 and the water tank 56, respectively. The tube 54 to the ice maker and the tube 55 to the tank are equipped with valves 54V and 55V, respectively. Of course, water can be supplied in such a way that a single pipe departs from the filter 52, and the pipe 54 to the ice maker and the pipe 55 to the tank branch through a single valve.

The water tank 56 serves to supply water to the dispensing device 29, while maintaining a constant amount of water in the same condition as in the refrigerator. To supply water to the dispensing device 29, the water tank 56 is connected to it by a pipe 58. The pipe 58 to the dispensing device is installed with passage through the lower hinge of the door 7 ′ of the refrigerating chamber.

In this embodiment of the present invention, the water tank 56 is installed in part of the refrigerating chamber 3 and is directly connected to the door 7 ′, therefore, the water discharged from the dispensing device 29 can always be at a cooling temperature.

In this case, the tubes 54, 55 and 58 are preferably embedded on the rear side of the inner casing or in the insulating material of the walls of the refrigerator 3, so that they are not open to the interior of the refrigerator 3.

Next, with reference to FIG. 7, the following embodiment of the water supply to the dispenser and the ice maker will be described. In this embodiment, the supply pipe 50 from the source of water supply is connected to the housing 1 of the refrigerator. A filter 52 is mounted on the refrigerator body 1, connected to a supply pipe 50. The filter 52 serves to purify the water supplied to it. The supply tube 50 is provided with a valve 50V for regulating the flow of water into the filter 52.

Tube 54 ′ connects filter 52 and ice maker 24 and includes a valve 54V. Water is supplied to the ice maker 24 through a tube 54 ′. Tube 55 ′ to the water tank must branch from tube 54 ′ to the ice maker between valve 54V and filter 52. Tube 55 ′ is used to supply water to water tank 56 ′, as will be explained later, and also equipped with a 55V valve. Of course, to regulate the flow of water into the tube 54 ′ to the ice machine and the tube 55 ′ to the water tank, a single valve can be used at the junction of the tubes 54 ′ and 55 ′.

The water tank 56 ′ is located on the door 7 ′ of the refrigerating chamber on which the dispensing device 29 is mounted. The water tank 56 ′ is used to temporarily store the water purified in the filter 52 and then supply the stored water to the dispensing device 29. Since the water tank 56 ′ installed on the door 7 ′ of the refrigerator compartment, the pipe 55 ′ to the water tank is connected to the door 7, passing through the upper hinge of the door 7 ′. The water tank 56 ′ and the dispenser 29, both located on the door 7 ′ of the refrigerating chamber, are connected to each other by a tube 58 to the dispenser.

Next will be described in detail the operation of the refrigerator according to the present invention, made as described above.

Firstly, it explains how the refrigerator according to the present invention works. When the refrigerator is on, a heat exchange cycle is operating, which includes a compressor 42 and an evaporator 46 installed in the engine compartment 40, and then cold air is formed. With fan 47, cold air is supplied to the freezing and refrigerating chambers 5 and 3. The cold air supplied to the freezing chamber 5 is circulated in this chamber and then returned to the heat exchange chamber 45. Cold air is supplied through the channel 48 to the refrigerating chamber 3 and after circulation in the refrigerating chamber chamber 3 returns to the heat exchange chamber 45 through the return channel 49.

In addition, cold air is supplied to the ice maker 24 from the evaporator 32 located separately in the ice maker 20. Since the ice maker 20 is separated by insulating walls 22 from the refrigerator 3, there is no flow of cold air between the ice maker and the refrigerator. In order to supply cold air to the ice-making chamber 20, a heat exchange cycle must be implemented, including an evaporator 32 and a compressor 42 in the engine compartment 40. The cold air formed at the evaporator 32 is supplied by the fan 34 to the ice-making chamber 20 to form ice in the ice-making machine 24.

In this case, the ice-making chamber 20 is separated by insulating walls 22 from the refrigerating chamber 3 and serves to supply cold air from the additional evaporator 32, and not from the evaporator used for the refrigerating and freezing chambers 3 and 5. Therefore, the temperatures in the refrigerating chamber 3 and the ice-making chamber 20 are adjusted separately from each other.

By the way, the ice-making chamber 20 corresponds to the space separated by the insulating walls 22 from the refrigerating chamber. Therefore, various modifications or changes can be made to the shapes of the insulating walls 22 within the technical range within which they can essentially limit the additional ice-generating space in the refrigeration chamber 3.

The ice-generating chamber 20 itself can be made for installation in a refrigerating chamber 3 with a possibility of removal. More specifically, the insulating walls 22 may be formed to form an ice box 20 in the form of a box. The present invention can be carried out by installing the ice-generating chamber 20 in the refrigerating chamber 3 with the possibility of removal.

Thus, the internal space of the refrigerating chamber can be used much more efficiently by installing removable separately made ice-making chamber 20 in the refrigerating chamber 3 (for example, on the refrigeration production line). In addition, if the ice-making chamber 20 is removable, then, as can be assumed, the ice-making chamber 20 is formed in one piece with an ice-making machine, an evaporator, and the like.

In the present invention, the refrigerator compartment 3 is opened and closed with two doors 7, 8 or 7 ′, 8 ′. Given the tendency to increase the size of refrigerators, this embodiment minimizes the loss of cold air. With the increase in the size of the refrigerator, its volume also increases. In particular, since the ice-making chamber 20 is installed in the refrigerating chamber 3, its volume can accordingly be increased.

To open and close the refrigerator compartment 3, a pair of doors 7, 8 or 7 ′, 8 ′ is installed. If the user wants to place food products in the desired part of the refrigerator compartment 3 or take them out of it, only one of the two doors 7, 8 or 7 ′, 8 ′, corresponding to the desired portion of the refrigerator compartment can be opened and closed, which therefore minimizes loss of cold air from the refrigerator. In particular, the loss of cold air can be further reduced by manufacturing doors 7 ′ and 8 ′ with different widths, as shown in FIG. 4. To do this, a narrower door 7 ′ can be installed at the part of the refrigerator compartment, which is often opened and closed, or in which the user intentionally stores food products, which he often puts and takes.

As is well shown in FIG. 5, drawers 12 and 12 ′, which are made with a predetermined width corresponding to the width of the doors 7 ′ and 8 ′, are used in the refrigerator compartment 3. Thus, food products can be placed in drawers and taken from them when only one door is open.

On the other hand, according to the present invention, a freezer 5 is located in the lower part of the refrigerator, and the door 9 is retracted and extended in the same manner as the drawer. Therefore, the user can open the freezer by sliding the door forward, and easily find the contents stored in the freezer from above.

Next, it will be explained how water is supplied to the ice maker 24 and the dispenser 29. In cases where water is required in the ice maker 24 or the dispenser 29 (more specifically, in the water tank 56), water is supplied from the water supply to the refrigerator body 1. Namely, the valve 50V opens, and water is then supplied to the filter 52 from the water supply source. The water purified in the filter 52 enters the ice maker 24 and the water tank 56, respectively, as the valves 54V and 55V are already open. At this time, the water flowing from the filter 52 is supplied to the ice maker 24 through a pipe 54 or 54 ′ and into the water tank 56 through a pipe 55 or 55 ′.

The water supplied to the ice maker 24 turns into ice, and the ice is then fed to the ice storage 26. From the ice generator 24 to the ice storage 26, ice can be supplied either automatically or manually. The ice stored in the ice storage 26 can be unloaded outside by controlling the dispensing device 29.

Thus, if the user gives instructions for unloading ice to the dispensing device 29, then the ice outlet 28 is opened, and the ice stored in the ice storage 26 is supplied to the dispensing device 29 and then discharged out through the dispensing device 29. The ice stored in the ice storage 26, move from the ice storage 26 to the ice outlet channel 28 by means of a transporting mechanism.

Next, it will be explained how water is supplied to the water tank 56 or 56 ′. When the amount of water stored in the water tank 56 or 56 ′ is below a predetermined level, the valve 50V opens and water is supplied from the water supply. The water supplied from the water supply to the filter 52 is purified in the filter 52, and then the purified water through a pipe 55 or 55 ′ enters the water tank 56 or 56 ′.

Since the water tank 56 or 56 ′ is located in the refrigerator 3 of the refrigerator or on the door 7 or 7 ′ of the refrigerator, the water in the water tank is influenced by the temperature in the refrigerator 3. Thus, since the water in the water tank is maintained at that at the same temperature as in the refrigerating chamber 3, comparatively cold water can be dispensed to the user through the dispensing device 29.

According to the above-described present invention, the following advantages can be expected.

Firstly, since a separately insulated ice-making chamber is installed in a refrigerating chamber formed respectively in the upper part of the refrigerator body, the refrigerating chamber is strongly influenced by the temperature in the ice-generating chamber. Therefore, it is possible to separately and precisely control the temperatures in the ice-making chamber and the refrigerating chamber. In particular, since cold air is created in the ice-making chamber due to the installation of an additional evaporator in the ice-making chamber, the advantages are achieved in that the ice production capacity can be maximized and, in addition, energy consumption is minimized.

Further, according to the present invention, the refrigerating chamber, whose volume is relatively large, is opened and closed by several doors. Thus, since food products can be placed and removed under conditions where only part of the refrigerator compartment is open, another advantage is the ability to minimize the loss of cold air.

In addition, according to the present invention, the doors of the refrigerator compartment are formed with different widths, and the width of the drawers in the refrigerator compartment corresponds to the width of the doors. Thus, a further advantage is the possibility of placing items in drawers and extracting from them, even if only one door is open.

In addition, since the refrigerator has two doors, the turning radius for opening and closing doors is reduced. This also reduces the space in front of the refrigerator needed to open and close the doors. Therefore, it is possible to more efficiently use the space where the refrigerator is installed.

In addition, since the gaskets are installed on the opposite free edges of the doors of the refrigerator compartment, they can come into close contact with each other when closing the doors. Therefore, the advantage is that the leakage of cold air to the outside is minimized.

In addition, according to the present invention, the pipes for supplying water to the ice-making chamber and the dispensing device are located only on the side of the refrigerator body facing the refrigerating chamber. Therefore, since the apparatus for supplying water is generally simplified, the assembly process of the refrigerator can be simplified, and in addition, damage to the tubes can be prevented.

Moreover, water that is discharged through a dispenser from a water tank installed either in the refrigerator compartment or on the rear surface of the refrigerator compartment door can always be maintained under the same conditions as in the refrigerator compartment. In addition, since the water supply pipes do not pass through the refrigerating chamber, problems of freezing water in the pipes can be solved.

The limits of the present invention are not limited to the shown variants of its implementation, but are determined by the attached claims. As is obvious, those skilled in the art can make various modifications and changes within the scope of the invention defined by the claims.

Claims (32)

1. The refrigerator, including a refrigerator, respectively made in the upper part of the refrigerator, and a freezer, made in the lower part of the refrigerator, respectively, containing: an ice-making chamber, separated in the refrigerator by means of insulating partitions and containing an ice-maker for producing ice and an ice storage room for storing ice produced in the ice-maker, one or more heat exchangers serving as components of the heat exchange cycle for the formation of cold air and temperature control in the refrigeration and freezer chambers, and a dispenser communicating with the ice storage and located on the door. 2. The refrigerator according to claim 1, in which the first heat exchanger is located in the ice chamber, and the second heat exchanger is located in the freezer. 3. The refrigerator according to claim 2, in which the second heat exchanger is located in a heat exchanger chamber, separately isolated at the rear of the freezer, and is in communication with the freezer and refrigerator. 4. The refrigerator according to claim 3, in which a fan is additionally installed in the heat exchanger chamber for directing the cold air formed in the second heat exchanger to the freezing and refrigerating chambers. 5. The refrigerator according to claim 1, in which the ice-generating chamber is removably mounted in the refrigerating chamber. 6. The refrigerator according to claim 1, in which the refrigerator is made with the possibility of opening and closing a pair of doors that are pivotally supported on hinges located on the upper and lower ends of both side edges of the refrigerator body. 7. The refrigerator according to claim 6, in which the ice-generating chamber is located on one side of the door. 8. The refrigerator according to claim 6, in which the doors of the refrigerator compartment are made with different widths. 9. The refrigerator according to any one of paragraphs.6-8, in which, on the free edges of the doors of the refrigerator compartment, gaskets are located that are in close contact with each other with the doors closed. 10. The refrigerator according to claim 1, in which on the front surface of the door of the refrigerating chamber there is an issued device supplied with water from a water tank located in the refrigerating chamber. 11. The refrigerator of claim 10, in which the water tank is placed on the inside of the refrigerator body or the door of the refrigerator compartment. 12. The refrigerator according to claim 11, in which the water supplied from an external water supply source enters the water tank and the ice maker of the ice-generating chamber through a filter, and water supply pipes and valves for regulating the water flow are located between the water supply source and the filter, between the filter and a water tank and between the filter and the ice maker. 13. A refrigerator containing: a refrigerator case containing the components of a heat transfer cycle, a refrigerator chamber, respectively made in the upper part of the refrigerator case, a freezer, respectively made in the lower part of the refrigerator body, a pair of doors connected to both side edges of the refrigerator body corresponding to the refrigerator, for opening and closing the refrigerator, a door for selectively opening and closing the front side of the freezer, and storage means for storing objects therein located in the refrigerator and having a width equal to the width of the doors of the refrigerator. 14. The refrigerator according to item 13, in which a pair of doors of the refrigerator compartment has the same width, and on the surfaces of the opposite free edges of the doors are gaskets that are in close contact with each other. 15. The refrigerator according to item 13, in which a pair of doors of the refrigerator compartment has a different width, and on the surfaces of the opposite free edges of the doors are gaskets that are in close contact with each other. 16. The refrigerator according to item 13, in which the ice chamber is additionally located in the refrigerator, comprising an ice maker for producing ice and an ice store for storing ice generated in the ice maker, and is separated as a separate space by means of insulating walls. 17. The refrigerator according to clause 16, in which the ice-generating chamber is removably installed in the refrigerating chamber. 18. The refrigerator according to item 13, in which on the front surface of the door of the refrigerating chamber is additionally located dispensing device, supplied with water from a water tank installed in the refrigerating chamber. 19. The refrigerator according to claim 18, wherein the water tank is mounted on the inside of the refrigerator body or the door of the refrigerator compartment. 20. The refrigerator according to claim 19, in which the water supplied from an external water supply source enters the water tank and the ice maker of the ice-generating chamber through a filter, and water supply pipes and valves for regulating the water flow are located between the water supply source and the filter, between the filter and a water tank and between the filter and the ice maker. 21. The refrigerator according to item 13, in which the door of the freezer is configured to open and close in the same way as a drawer. 22. A refrigerator containing: a refrigerator case containing the components of a heat transfer cycle, a refrigerator chamber, respectively made in the upper part of the refrigerator case, a freezer, respectively made in the lower part of the refrigerator body, a pair of doors connected to both side edges of the refrigerator body corresponding to the refrigerator, for opening and closing the refrigerator, a door for selectively opening and closing the front side of the freezer, an ice-making chamber, separated as a separate space inside the refrigerating chamber by means of insulating walls and containing an ice-maker for producing ice and an ice storage room for storing ice produced in the ice-maker, a first heat exchanger for generating cold air to control the temperature in the ice-making chamber, and a second heat exchanger for generating cold air to control temperatures in the freezer and refrigerator, while the first and second heat exchangers are part of a heat exchange cycle. 23. The refrigerator according to item 22, in which a pair of doors of the refrigerator compartment have the same width; on the surfaces of the opposite free edges of the doors there are gaskets that are in close contact with each other; moreover, in the refrigerator compartment there are storage means for storing objects having a width equal to the width of the doors of the refrigerator compartment. 24. The refrigerator according to item 22, in which a pair of doors of the refrigerator compartment have a different width; on the surfaces of the opposite free edges of the doors there are gaskets that are in close contact with each other; and storage means for storing objects having a width equal to the width of the doors of the refrigerator compartment are located in the refrigerator compartment. 25. The refrigerator according to item 22, in which on the front surface of the door of the refrigerating chamber is additionally located dispensing device, supplied with water from a water tank installed in the refrigerating chamber. 26. The refrigerator according A.25, in which the water tank is installed on the inner side of the refrigerator or door of the refrigerator compartment. 27. The refrigerator according to claim 25, wherein the water supplied from the external water supply source enters the water tank and the ice maker of the ice maker chamber through a filter; water supply pipes and valves for regulating the flow of water are located between the water supply source and the filter, between the filter and the water tank and between the filter and the ice maker; and water supply tubes are located on a door and a refrigerator case corresponding to a refrigerator. 28. The refrigerator, including a refrigerator, made respectively in the upper part of the refrigerator, and a freezer, made respectively in the lower part of the refrigerator, containing: an ice-making chamber installed in the refrigerating chamber, separated from the refrigerating chamber by means of insulating walls and containing an ice-maker for producing ice and an ice storage room for storing ice produced in the ice-maker, a refrigerator compartment door for opening and closing the refrigerator compartment, wherein said door is formed with a dispenser mounted on its front surface, a water tank installed in the refrigerating chamber for storing water supplied from the water supply source to the dispensing device, means for supplying water supplied from the water supply source to the dispensing device, wherein said means are located on the refrigerator body corresponding to the refrigerating chamber, and means for supplying water supplied from a water supply source to an ice maker, wherein said means are located on a refrigerator case corresponding to a refrigerator. 29. The refrigerator according to claim 28, wherein the means for supplying water to the dispensing device comprise: a filter for purifying water supplied from a water supply source, a tube to a water tank for supplying water from a filter to a water tank, a tube to a dispensing device for supplying water from the water tank to the dispensing device, and valves located between the water supply source and the filter and between the filter and the dispensing device for regulating the flow of water. 30. The refrigerator according to claim 28, wherein the means for supplying water to the ice machine comprise: a filter for treating the water supplied from the water supply source, a tube to the ice maker for supplying water from the filter to the ice maker, and valves located between the water supply and the filter and between the filter and the ice maker to control the flow of water. 31. The refrigerator according to claim 28, wherein the refrigerator is configured to open and close at least a pair of refrigerator doors having the same width. 32. The refrigerator according to claim 28, wherein the refrigerator is configured to open and close at least a pair of refrigerator doors having different widths.

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