DE102017215657A1 - Domestic refrigeration appliance with two separate and different working cooling systems - Google Patents

Abstract

The invention relates to a household refrigerating appliance (1) with a housing (2) in which at least one receiving space (3, 4) for food is formed, and with a refrigeration circuit (5) for cooling the receiving space (3, 4), wherein the household refrigerating appliance (1) in addition to the refrigeration circuit (5), a second cooling system (10), by which additionally required cold energy can be generated and / or dehumidification of the receiving space (3, 4) and a controlled condensation of moisture in the receiving space (3, 4) feasible is.

Description

The invention relates to a household refrigerator with a housing in which at least one receiving space for food is formed. The household refrigerator has a refrigeration cycle for cooling the receiving space.

In conventional domestic refrigerators for storing and preserving food, such as in a refrigerator or a freezer or a combined refrigerated freezer, it is known that a thermodynamic refrigeration cycle is arranged, with which the at least one receiving space is coolable. Such a compressor-based refrigeration cycle usually has a condenser, an evaporator and a compressor or compressor. A refrigerant circulating in the refrigeration cycle is also provided.

Such refrigeration devices not only have to work at a defined temperature point, but must provide sufficient cooling capacity over a temperature range and within this temperature range. In known standard refrigerators and thus known household refrigerators this range is between +10 ° C to +32 ° C, in an alternative device between +16 ° C to +43 ° C. In order to provide sufficient cooling capacity under these conditions, the compressors of the refrigeration cycle are often oversized and thus less efficient than would be possible.

The temperature of the evaporator in such compressor-based refrigeration circuits should also be chosen as close as possible to the temperature of the receiving space, since then the cooling works with high efficiency. However, if this temperature difference is chosen too low, undesirable condensation of the interior moisture in the entire receiving space occurs. In current known household refrigerators, the average evaporation temperature is about 5 ° C to 7 C below the temperature of the receiving space. This is due to the relatively high cooling capacity of the compressor or compressor. Even with these relatively high temperature differences, undesired condensation may already occur in the device, since in the compressor run time not enough condensate that has formed during the compressor rest time can be dissipated. Further increasing the evaporator temperature enhances this problem. Although the duty cycle is higher, so that less life remains in which the compressor can heat and the condensate precipitates elsewhere, but with decreasing temperature difference, the condensation on cold surfaces in the domestic refrigerator even during the compressor run time is higher.

It is an object of the present invention to provide a household refrigerator, in which the above-mentioned disadvantages are at least reduced.

This object is achieved by a household refrigerator, which has the features of claim 1.

One aspect of the invention relates to a household refrigerator with a housing in which at least one receiving space for food is formed. The household refrigerator has a refrigeration cycle for cooling the receiving space. The refrigeration cycle is in particular a compressor-based cooling system and thus a compressor-based refrigeration cycle. The domestic refrigeration appliance has, in addition to this refrigeration cycle, a second cooling system, by means of which additionally required cooling energy can be generated and / or a dehumidification of the receiving space and a controlled condensation of the moisture in the receiving space can be carried out. Such a configuration can at least significantly reduce the abovementioned disadvantages.

In a particularly advantageous manner, the second cooling system is an elastocaloric cooling system. This is very compact and provides corresponding cooling energy very demand-dependent. Preferably, such a Elastokalorisches cooling system has at least one unit with a shape memory metal. This unit is mechanically deformed by another component of the elastocaloric cooling system. By this deformation occur temperature changes in the shape memory material, in particular a shape memory metal, in particular a shape memory metal alloy, which leads to temperature changes and thus a targeted and defined cooling is possible accordingly. For example, the shape memory of a nickel-titanium alloy is based on a change of the internal crystal structure. When this memory metal is stretched, it loses its cubic austenite structure and changes into a metastable martensite structure. During this change, the material also heats up a bit and behaves elastokalorisch.

Conversely, it cools down again when the alloy returns to its original shape without external force. It is precisely this cooling that is used to provide extra cooling energy, as mentioned above.

In an alternative, it can be provided that the second cooling system has a Peltier element.

In an alternative embodiment it can be provided that the second cooling system has a magnetocaloric cooling system.

The second cooling system is in particular functionally different working than the compressor-based refrigeration cycle.

Especially in the aforementioned second cooling systems, in particular also in the elastocaloric cooling system, there are significant advantages in that no refrigerant has to circulate and the overall structure of this cooling system is very compact.

The domestic refrigeration unit thus has a hybrid cooling system, which in addition to the refrigeration cycle has a different second cooling system.

In an advantageous embodiment, it is provided that the household refrigerating appliance has at least one moisture sensor, wherein the second cooling system can be activated by the humidity sensor in the receiving space as a function of a detected moisture value. By means of such demand-oriented operation of the second cooling system, a very energy-efficient operation can also be made possible.

It is preferably provided that an evaporator of the refrigeration cycle is operated such that a temperature difference between the evaporator temperature and the temperature in the receiving space between 2 ° C and 3 ° C. This sets a very low temperature difference. The efficiency of the entire cooling system is thereby improved, in particular in operative connection with the second cooling system, which is then explicitly provided locally to achieve lower temperatures cooling capacity available and allows a controlled condensation of moisture in the receiving space and a controlled dehumidification in the receiving space.

It can also be provided that the second cooling system is arranged for cooling a second receiving space of the household refrigerating appliance. As a result, additional functionality is made possible, in particular if at least two receiving spaces, which may also be separate receiving spaces, are formed.

It can be provided that the second receiving space is a rapid-cooling compartment. It can thus be dimensioned in terms of volume smaller, so that specific storage goods can be introduced there and can be cooled faster compared to the other receiving space.

It can also be provided that the second receiving space is formed in a non-destructively removable from the household refrigeration box. As a result, a certain mobility can be achieved and correspondingly cooled storage goods can then also be carried along and accordingly remain cooled for a certain period of time. Such a non-destructively removable box may then also be used, for example, as a carry-on bag or the like.

Further features of the invention will become apparent from the claims, the figures and the description of the figures. The features and feature combinations mentioned above in the description, as well as the features and combinations of features mentioned below in the description of the figures and / or shown alone in the figures, can be used not only in the respectively specified combination but also in other combinations or in isolation, without the frame to leave the invention. Thus, embodiments of the invention are to be regarded as encompassed and disclosed, which are not explicitly shown and explained in the figures, however, emerge and can be produced by separated combinations of features from the embodiments explained.

Embodiments of the invention will be explained in more detail with reference to a schematic drawing.

The single FIGURE shows a schematic vertical sectional view of an embodiment of a household refrigerator. The household refrigerator 1 has a housing 2 in which at least one recording room 3 is trained. The recording room 3 can be a refrigerator compartment or a freezer compartment. Likewise, it can be provided that the household refrigerator 1 at least a second recording room 4 that of the first receiving space 3 is preferably separated.

This second recording room 4 can also be a freezer or a refrigerator compartment.

The household refrigerator 1 also has a refrigeration cycle 5 up, which is here a compressor-based refrigeration cycle. The refrigeration cycle 5 is for cooling at least one receiving space, in particular the receiving space 3 , intended. He has a condenser 6 , an evaporator 7 and a compressor or compressor 8th on. The components mentioned are connected to each other by lines in which a refrigerant circulates. The evaporator 7 can be arranged in the area of the ceiling wall and horizontally be oriented. It can then have a cover below the evaporator 7 be arranged, as shown by the dashed representation symbolically. In the space between the cover and the evaporator 7 Can then also be arranged a fan. In an alternative embodiment, shown here by a solid line, the evaporator is arranged vertically in the region of a rear wall.

The household refrigerator 1 has a hybrid cooling system 9 on, which next to the mentioned refrigeration cycle 5 a different version of a second cooling system 10 having. This second cooling system 10 is functionally and componentally different to the refrigeration cycle 5 trained and works differently in this regard. The second cooling system 10 is shown here only by a block image symbol and is not to be understood in terms of the local arrangement. Preferably, this second cooling system 10 formed with a Elastokalorischen cooling system, in particular it is a Elastokalorisches cooling system.

This second cooling system 10 is especially intended to a for the refrigeration cycle 5 additionally generate required cooling energy and / or dehumidification of the receiving space 3 and a controlled condensation of moisture in the receiving space 3 perform. In this regard, it is advantageous if this second cooling system 10 corresponding to the recording room 3 is coupled. It can also do so in the recording room 3 be arranged.

In a further embodiment, it may be provided that the second cooling system 10 for specific cooling of the second receiving space 4 is provided and arranged. The second recording room 4 can be a fast-cooling compartment. The second recording room 4 can also be part of one of the housing 2 be non-destructively releasably removable box.

In an advantageous embodiment, the household refrigerator 1 at least one humidity sensor 11 on. With this humidity sensor 11 the moisture is in particular in the receiving space 3 detected. Depending on a humidity threshold being exceeded by a measured humidity value, the second cooling system becomes 10 activated.

In an advantageous embodiment, the evaporator 7 of the refrigeration cycle 5 operated such that a temperature difference between the evaporator temperature and the temperature in the receiving space 3 between 2 ° C and 3 ° C.

By the generally proposed household refrigeration appliance 1 with the hybrid cooling system 9 it allows the compressor-based refrigeration cycle 5 is dimensioned so that it has a certain base load of the household refrigerator 1 as efficiently as possible. Additionally required cooling energy is provided by this second cooling system 10 provided and retrieved as needed in this regard. In this regard, a corresponding control unit can then be provided which determines the corresponding requirements situations and then the second cooling system 10 switches on or off again.

Since in particular a elastokalorisches cooling system a very flat construction design is possible, the space requirement is significantly reduced and it can also be designed as a separate compartment, so that it is not only possible, if necessary, to provide additional cooling capacity available, but this Tray or this box as a special refrigerator with variable temperature to use.

Just when the box is designed to be removable without destruction, can by a battery that also outside the household refrigerator 1 charged and stored until use, this unit can be actively used outside the household refrigerator for cooling. Especially in the case of an elastocaloric cooling system, this is particularly simple, since here no refrigerant lines have to be separated, which are under pressure and in the case of the household refrigerating appliance 1 are filled with a sensitive and handled refrigerant.

The design also significantly improves the efficiency of the overall cooling system by dividing it into a highly efficient compressor-based main cooling system, namely the refrigeration cycle 5 , And a second cooling system with then possibly also lower cooling capacity allows.

LIST OF REFERENCE NUMBERS

1

Household refrigerator

2

casing

3

accommodation space

4

accommodation space

5

Refrigeration circuit

6

condenser

7

Evaporator

8th

compressor

9

Hybrid Cooling System

10

cooling system

11

humidity sensor

Claims (9)

Domestic refrigerating appliance (1) with a housing (2) in which at least one receiving space (3, 4) for food is formed, and with a refrigeration circuit (5) for cooling the receiving space (3, 4), characterized in that the household refrigerating appliance ( 1) in addition to the refrigeration circuit (5) has a second cooling system (10) by which additionally required cold energy can be generated and / or dehumidification of the receiving space (3, 4) and a controlled condensation of moisture in the receiving space (3, 4) is feasible , Household refrigerator (1) after Claim 1 characterized in that the second cooling system (10) comprises an elastocaloric cooling system. Household refrigerator (1) after Claim 1 or 2 , characterized in that the second cooling system (10) comprises a Peltier element. Domestic refrigerating appliance (1) according to one of the preceding claims, characterized in that the second cooling system (10) comprises a magnetocaloric cooling system. Domestic refrigerating appliance (1) according to one of the preceding claims, characterized in that the household refrigerating appliance (1) has at least one humidity sensor (11), wherein the second cooling system (10) can be activated in the receiving space (3, 4) as a function of a detected moisture value. Domestic refrigeration appliance (1) according to one of the preceding claims, characterized in that an evaporator (7) of the refrigeration cycle (5) is operated such that a temperature difference between the evaporator temperature and the temperature in the receiving space (3, 4) between 2 ° C and 3 ° C is. Domestic refrigeration appliance (1) according to one of the preceding claims, characterized in that the second cooling system (10) for cooling a second receiving space (3, 4) of the household refrigerating appliance (1) is arranged. Household refrigerator (1) after Claim 7 , characterized in that the second receiving space (3, 4) is a rapid-cooling compartment. Household refrigerator (1) after Claim 7 or 8th , characterized in that the second receiving space (3, 4) is formed in a removable from the household refrigerator (1) nondestructive box.

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