RU2401961C2 - Freezer refrigerator - Google Patents

Abstract

FIELD: personal use articles.

SUBSTANCE: freezer refrigerator comprises refrigerating chamber; freezing chamber; refrigerator evaporator; freezer evaporator; air discharge hole that may direct cooled air from refrigerator evaporator into refrigerating chamber; air intake hole that may return air, which cooled refrigerating chamber, into refrigerator evaporator; return channel arranged behind food container; closing partition for upper hole of food container; lower partition arranged under food container; upper air discharge hole that may direct cooled air from evaporator of refrigerator into refrigerating chamber; upper air intake hole that may return air sent through upper air discharge hole into evaporator of refrigerator; lower air discharge hole that may direct cooled air from evaporator of refrigerator into refrigerating chamber; and lower air intake hole that may return air sent through upper and lower air discharge holes to cool refrigerating chamber, into evaporator of refrigerator.

EFFECT: efficient cooling of products in food container, without loss of their freshness.

4 cl, 6 dwg

Description

The present invention relates to a combined home refrigerator for chilled and frozen products, comprising a refrigerator and a freezer that are cooled with their respective evaporators.

An example of a refrigerator-freezer containing a refrigerator and a freezer, which are cooled using their respective evaporators, is described in Japanese publication No. 2000-220943, not considered patent application. In accordance with the prior art, a refrigerator is formed in the upper part of the housing of the combined refrigerator-freezer, and a freezer is formed in its lower part. To prevent the passage of cold air between the refrigerator and the freezer, a heat-insulating partition is installed between the chambers. A refrigerator evaporator is located at the top of the rear side of the cabinet, and a freezer evaporator is located at the bottom of the rear side of the cabinet. The evaporator of the refrigerator cools the air, and the cooled air passes into the refrigerator through the air outlet formed in the upper part of the rear wall of the refrigerator. The air in the refrigerator compartment is directed towards the evaporator of the refrigerator through the air inlet formed on the vertical intermediate portion of the rear wall of the refrigerator compartment. A food storage container is located on the separated bottom of the refrigerator compartment.

In accordance with the prior art, the food container is located on the separated lower part of the refrigerator, the refrigerator evaporator is located in the cooling chamber, which is formed on the rear side of the refrigerator in a location above the food container, the air outlet is arranged so that the cooled air from the cooling chamber extends toward the front of the refrigerator compartment, and an air inlet is located at the bottom of the cooling chamber to guide air from the refrigerator to the cooling chamber. According to this configuration, the cooled air circulates in the refrigerating chamber mainly in front of the cooling chamber. Because of this, chilled air does not completely pass into the food container located at the bottom of the refrigerator compartment. That is, the prior art has the disadvantage that vegetables or other products in the food container are not cooled efficiently.

An object of the present invention is to provide a combined home refrigerator-freezer capable of sufficiently cooling a food container installed therein and maintaining adequate humidity in a food container.

To achieve this goal, according to the present invention, a refrigerator-freezer is provided, comprising a refrigerator, formed in the upper part of the body of the refrigerator-freezer; a freezer formed in the lower part of the housing; the evaporator of the refrigerator located behind the refrigerator and made with the possibility of cooling the air circulating in the refrigerator; a freezer evaporator located downstream of the freezer and configured to cool the air circulating in the freezer; a food container located in the refrigerator compartment at a location below the refrigerator evaporator; an air outlet located at the rear of the refrigerator compartment at a location that is not facing the food container and configured to direct cooled air from the refrigerator evaporator to the refrigerator compartment; an air inlet located at the rear of the refrigerator near the bottom of the food container and configured to return air that has cooled the refrigerator to the evaporator of the refrigerator; and a return channel located behind the food container and configured to direct air from the air inlet to the freezer evaporator, and further comprising a closing partition located above the food container and configured to close the upper opening of the food container; a lower partition located under the food container; an upper air outlet located above the closing partition and configured to direct the cooled air from the evaporator of the refrigerator to the refrigerator; an upper air inlet located above the closing partition and configured to return air that was directed through the upper air outlet and cooled the refrigerator compartment to the evaporator of the refrigerator; a lower air outlet located under the lower partition and configured to direct the cooled air from the evaporator of the refrigerator to the refrigerator compartment; and a lower air inlet opening located beneath the lower wall and configured to return through an air return channel that was directed through the upper and lower air outlet openings and cooled the refrigerating chamber to the evaporator of the refrigerator.

The refrigerator-freezer may further comprise a lower channel located adjacent to the return channel and configured to direct the cooled air from the evaporator of the refrigerator to the lower air outlet.

The refrigerator-freezer may also further comprise a food container lid located in front of the food container and configured to close the front opening of the food container.

In addition, the refrigerator-freezer may further comprise a heat-insulating partition made with the possibility of separating the refrigerator and the freezer from each other; and a low-temperature chamber formed between the heat-insulating partition and the lower partition.

Thus, the refrigerator-freezer in accordance with the present invention is able to completely cool the food container and maintain adequate humidity in the food container.

The invention will now be explained in more detail with reference to the accompanying drawings, in which:

1 is a front view illustrating a refrigerator-freezer in accordance with an embodiment of the present invention;

figure 2 is a view in vertical section illustrating a refrigerator-freezer in accordance with this embodiment;

figure 3 is a perspective view partially illustrating the device in the refrigerator chamber of the refrigerator-freezer in accordance with this embodiment;

4 is a perspective view with a spatial separation of parts, illustrating the channel panel, the lower channel panel and the evaporator of the refrigerator-freezer, which are located for the refrigerating chamber of the refrigerator-freezer in accordance with this embodiment;

5 is a sectional view illustrating a rear wall of a refrigerator compartment of a refrigerator-freezer in accordance with this embodiment;

6 is a block diagram illustrating a refrigeration cycle of a refrigerator-freezer in accordance with this embodiment.

A combination refrigerator-freezer in accordance with an embodiment of the present invention will be explained in detail with reference to FIGS. The refrigerator-freezer has a box-shaped case 1. The inner part of the case 1 is divided by a heat-insulating partition 10 into a refrigerator 2 and a freezer 3, which is formed under the refrigerator 2. In the upper part of the freezer 3 there is an ice making compartment 3a and a small freezing or switching compartment compartment 3b, at the bottom of the freezer 3 is a large freezer compartment 3c. The refrigerator compartment 2 comprises a door 6, the ice-making compartment 3a comprises a door 8, the small freezer compartment 3b comprises a door 9, and the large freezer compartment 3c comprises a door 7.

In figure 2, the upper part of the refrigerating chamber 2 contains many shelves 21 for placing products on them. Under the lowest of the shelves 21 is a container 26 for containing products, in particular vegetables. Below the food container 26 is a lower partition 25. Below the lower partition 25 is a low temperature chamber 23. The low temperature chamber 23 contains a refrigerated compartment 27A, an egg container 27B and a water supply container 27C.

The food container 26 has a top opening and a front opening so that vegetables can be easily placed and removed from the food container 26. Directly above the top opening of the food container 26 is a closing partition 24. A closing partition 24 is attached to the side wall of the housing 1 to close the upper opening of the food container 26 and place products on it. The front opening of the food container 26 is closed by the lid 30 of the food container. 3, the lower part of the food container 26 is supported by the guides 26A, so that the food container 26 can move back and forth. When moving the food container 26 forward, the food container lid 30 moves upward to open the front opening of the food container 26. The lid 30 of the food container is openable manually. This configuration of the product container 26 does not limit the present invention. For example, the front opening of the food container 26 may be replaced by a front wall, or the upper opening of the food container 26 may be closed by a lid that is directly attached to and detached from the food container 26.

As shown in FIG. 2, the refrigerator evaporator 13 is located at the rear of the refrigerator 2. The channel cover 11 is located in front of the refrigerator evaporator 13, which separates the cooling space containing the refrigerator evaporator 13 from the food storage space of the refrigerator 2. As shown in FIG. The channel cover 11 consists of a front panel 11A, a rear panel 11B, and a bottom panel 15.

A cooling fan 14 (also shown in FIG. 5) is located above the evaporator 13 of the refrigerator for circulating cold air. Cold air is supplied through the left and right channels, which are formed between the front panel 11A and the rear panel 11B, and the air outlets 17 to the cooling chamber 2. The air outlets 17 are located on the front, side and upper surfaces of the front panel 11A. The cold air leaving the air outlets 17 on the front surface of the front panel 11A passes through the food storage surfaces of the shelves 21 towards the front side of the refrigerator 2. The cold air leaving the air outlets 17 on the side and upper surfaces of the front panel 11A passes along the inner walls of the refrigerator 2 towards the front of the refrigerator 2. Therefore, cold air evenly cools the inside of the refrigerator 2. End right This channel 19 has a lower air outlet 20 for directing cold air to the refrigerated compartment 27A to cool the refrigerated compartment 27A, the egg container 27B and the water supply container 27C.

The upper air inlets 18 are formed in the lower portions of the side surfaces of the front panel 11A above the closing wall 24 for suctioning air that has exited the air outlets 17 and has cooled the cooling chamber 2. The lower air inlets 29 are formed in the lower portions of the front surface of the lower panel 15 under the lower wall 25 for suction of air, which came out of the air outlet openings 17 and 20 and cooled the cooling chamber 2.

5, a return channel 16 is located adjacent to the channel 19 behind the food container 26. The return channel 16 extends upward to receive air from the lower air inlet openings 29 and direct the air back to the evaporator 13 of the refrigerator. Air passing through the upper air inlet openings 18 is directed to the upper part of the return duct 16 and returns to the evaporator 13 of the refrigerator.

The lower panel 15 forms a compartment 22 for the food container, the back of which is closed by the closed part 28 of the lower panel 15. Therefore, vegetables and other products in the food container 26 are indirectly cooled by cold air passing through the closing partition 24, cold air passing in front of the container 26 for products, with cold air passing under the lower partition 25, and through the return channel 16 and channel 19. Due to this indirect cooling, the products in the food container 26 are completely cooled. In particular, the lower air inlets 29 located below the food container 26 and the return duct 16 located behind the food container 26 form cold air flow paths around the food container 26 to cool the food container 26 without directing cold air into the container 26 for products. Since the food container compartment 22 containing the food container 26 does not contain air outlets or air inlets, the products in the food container 26 will not dry out due to air flow.

As shown in figures 1 and 2, the freezer 3 contains many containers 31 for freezing products. To automatically open the door 7 of the freezer 3, an anchor 32 of the electromagnet is installed. In the back of the freezer 3 there is a channel cover 33 for forming a channel 34 between the channel cover 33 and the rear wall of the housing 1. Channel 34 contains a freezer evaporator 35 and a fan 36 for circulating cold air. The front side of the channel cover 33 forms a channel 37 for supplying cold air. The lower rear of the housing 1 comprises a compressor 38.

6 depicts the refrigeration cycle of a combined home refrigerator for chilled and frozen products in accordance with an embodiment. A compressor 38, a condenser 39, and a three-way valve 40 are connected to each other via a refrigerant pipe 41. The first outlet of the three-way valve 40 is connected to the capillary tube 42 of the refrigerating chamber and the evaporator 13 of the refrigerator. The second outlet of the three-way valve 40 is connected to the capillary tube 43 of the freezer and the evaporator 35 of the freezer. The outlet of the evaporator 13 of the refrigerator and the capillary tube 43 of the freezer are connected to the inlets of the evaporator 35 of the freezer. The outlet of the evaporator 13 of the refrigerator and the capillary tube 43 of the freezer are connected to the inlets of the evaporator 35 of the freezer. The outlet of the evaporator 35 of the freezer is connected through a battery 44 and a pipe 41 to a compressor 38.

In the refrigeration cycle shown in FIG. 6, the compressor 38 compresses the refrigerant, thanks to the condenser 39, the refrigerant is converted to liquid refrigerant, and the three-way valve 40 alternately passes the liquid refrigerant to the evaporator 13 of the refrigerator and the evaporator 35 of the freezer. Thanks to the evaporators 13 and 35, the liquid refrigerant evaporates to cool the evaporators 13 and 35 as a result of the evolution of heat of vaporization.

The cooling chamber fan 14 rotates and directs air through the refrigerator evaporator 13 in the channel 12 to generate cold air 61 of the cooling chamber. Cold air 61 is supplied to the refrigeration chamber 2 to cool it. Similarly, the freezer fan 36 rotates and directs air through the freezer evaporator 35 in the channel 34 to generate cold air 64 of the freezer. Cold air 64 is supplied to the freezer 3 to cool the ice compartment 3a, the small freezer compartment 3b and the large freezer compartment 3c.

Below will be described the cooling process of the refrigerator-freezer in accordance with the embodiment. On the side of the refrigerator compartment 2, the fan 14 draws air into the duct 12, heat exchange occurs between the evaporator 13 of the refrigerator and the air to form cold air 61. Cold air 61 is supplied to the refrigerator 2 through the air outlets. In the refrigerating chamber 2, cold air is lowered onto the shelves 21 and cools the products located on them. After this, the cold air 61 partially exits, as indicated by reference numeral 62, through the air inlets 18 located above the closing partition 24 into the channel 12. The rest of the cold air 61 passes in front of the food container 26, is lowered into the low-temperature chamber 23 and exits as indicated by 63, through the lower air inlets 29 behind the refrigerated compartment 27A, the egg container 27B and the capacity 27C for supplying water to the return channel 16 of the bottom panel 15. The air passing to the return channel 18 mixes Heat is exchanged with the air passing through the inlet openings 18 and between the mixed air and the evaporator 13 of the refrigerator.

The cold air flows 61-63 cool the products on the shelves 21, indirectly cool the food container 26 in the food container compartment 22 and cool the refrigerated compartment 27A, the egg container 27B and the water supply container 27C in the low temperature chamber 23. During this process the cooling chamber of the refrigerator, the rear wall of the food container compartment 22 is closed by means of the closed part 28 of the lower panel 15. The closed part 28 does not have an opening for the passage of cold air, and therefore the cold air flows 61-63 ear pass near the container 26 for food and indirectly cool vegetables and other products in the container 26 for food. Cold air indirectly contacts vegetables in the food container 26. That is, the cold air flows 61-63, which are dry due to the low temperature, do not absorb water from vegetables in the food container 26. As a result, the vegetables in the food container 26 are cooled without losing freshness. When passing through the evaporator 35 of the refrigerant freezer to cool the freezer 3, the refrigerator 14 fan can be activated to remove water from hoarfrost adhering to the evaporator 13 of the refrigerator, into the refrigerator 2 for storing food (vegetables) in the food container 26 high degree of humidity. The lid 30 of the food container located on the front opening of the food container 26 prevents the evaporation of water from vegetables in the food container 26. Even without the lid 30 of the food container, or even with the lid 30 of the food container open, this process can completely prevent the evaporation of water from vegetables in the food container 26 and keep the vegetables fresh.

The cooling process of the freezer 3 will be described below. The freezer fan 36 directs air through the channel 34 and the freezer evaporator 35 to generate cold air 64. The cold air 64 is supplied through the channel 37 to the freezer 3 to cool the ice making compartment 3a, a small freezer compartment 3b and the large freezer compartment 3c. Cold air 64 in the freezer 3 is lowered and cools the products in the freezer 3, exits through the lower end of the channel 34 and is recycled.

As indicated above, the refrigerator-freezer in accordance with an embodiment comprises a compartment 22 for a food container in a refrigerator 2 for receiving a food container 26 and cooling products, for example vegetables in a food container 26. The back side of the food container compartment 22 does not have an opening for the passage of cold air, and therefore, cold air 61, which is dry due to the low temperature, does not absorb water from vegetables in the food container 26. Therefore, the vegetables in the food container 26 can be chilled efficiently without losing freshness.

The refrigerating chamber 2 and the freezing chamber 3 are respectively equipped with special purpose evaporators 13 and 35 to prevent drying of the refrigerating chamber 2 and the freezing chamber 3. In particular, during cooling of the freezing chamber 3, the cooling chamber fan 14 can be activated to remove water from hoarfrost adhering to the evaporator 13 of the refrigerator to the refrigerator 2 to provide high humidity inside the refrigerator 2 and the food container 26.

The lower air inlets 29 are located below the food container 26, and the return channel 16 is located behind the food container 26 for sucking air through the lower air inlets 29 and directing air into the evaporator 13 of the refrigerator. This configuration forms air flow paths around the food container 26 to completely indirectly cool the food container 26 without directing cold air into the food container 26.

The top opening of the food container 26 is covered by a closing wall 24 to prevent drying of the inside of the food container 26. Above the closing wall 24, there are upper air inlets 18 for forming cold air streams above the food container 26. Therefore, without a lid that closes the upper opening of the food container 26, the food container 26 is indirectly cooled from above. A lower baffle 25 is located below the food container 26, and an air outlet 20 is located under the lower baffle 25 for cooling the cooled compartment 27A and the like in the low temperature chamber 23, and lower air inlets 29 for returning air from the air outlet 20 to the evaporator 13 of the refrigerator. This configuration generates flows of cold air under the food container 26 for reliable indirect cooling of the food container 26 from below.

Channel 19 is located near the return channel 16 for efficient use of the space of the housing 1 and reliable cooling of the products in the food container 26 under the influence of cold air passing through the channel 19.

The front opening of the food container 26 is closed by the lid 30 of the food container. The lid may be closed to prevent drying of the products in the food container 26 and may open to provide easy access to the products contained in the food container 26. This configuration facilitates the use of the food container 26.

A refrigerator 2 and a freezer 3 are separated from each other by a heat-insulating partition 10. A low-temperature chamber 23 is located between the heat-insulating partition 10 and the lower partition 23. The heat-insulating partition 10 and the low-temperature chamber 23 separate the food container 26 from the very low temperature freezer 3. This configuration prevents strong cooling of the inside of the food container 26, causing freezing or condensation of water in the food container 26, and maintains high humidity inside the food container 26. In addition, the evaporator 13 of the low-temperature refrigerator is located above the product container 26 to prevent strong evaporation by the evaporator 13 of the product container 26. This configuration eliminates the need for a temperature compensation heater that prevents strong cooling of the food container 26, thereby reducing energy consumption. If the thickness and other parameters of the thermal barrier 10 are properly calculated for the food container 26, the food container 26 can be located directly on the thermal barrier 10. In this case, the refrigerated compartment 27A and the like will be located above the food container 26.

Claims (4)

1. Refrigerator-freezer containing:
a refrigerator formed in the upper part of the cabinet of the refrigerator-freezer;
a freezer formed in the lower part of the housing;
the evaporator of the refrigerator located behind the refrigerator and configured to cool the air circulating in the refrigerator;
a freezer evaporator located behind the freezer and configured to cool the air circulating in the freezer;
a food container located in the refrigerator compartment at a location below the refrigerator evaporator;
an air outlet located at the rear of the refrigerator compartment at a location that is not facing the food container and configured to direct chilled air from the refrigerator evaporator to the refrigerator compartment;
an air inlet located at the rear of the refrigerator near the bottom of the food container and configured to return air that has cooled the refrigerator to the evaporator of the refrigerator; and
a return channel located behind the food container and configured to direct air from the air inlet to the freezer evaporator,
and further comprising
a closing partition located above the food container and configured to close the upper opening of the food container;
a lower partition located under the food container;
an upper air outlet located above the closing partition and configured to direct the cooled air from the evaporator of the refrigerator to the refrigerator;
an upper air inlet located above the closing wall and configured to return air that was directed through the upper air outlet and cooled the refrigerator compartment to the evaporator of the refrigerator;
a lower air outlet located below the lower partition and configured to direct the cooled air from the evaporator of the refrigerator to the refrigerator; and a lower air inlet opening located beneath the lower wall and configured to return through an air return channel that was directed through the upper and lower air outlet openings and cooled the refrigerating chamber to the evaporator of the refrigerator. 2. The refrigerator-freezer according to claim 1, additionally containing a lower channel located next to the return channel and configured to direct the cooled air from the evaporator of the refrigerator to the lower air outlet. 3. The refrigerator-freezer according to claim 1, further comprising a food container lid located in front of the food container and configured to close the front opening of the food container. 4. The refrigerator-freezer according to claim 1, additionally containing a heat-insulating partition made with the possibility of separation of the refrigerator and the freezer from each other; and a low-temperature chamber formed between the heat-insulating partition and the lower partition.

Images