DE4141470A1 - COOLING UNIT, IN PARTICULAR HOUSEHOLD COOLING UNIT - Google Patents

Description

The invention relates to a refrigerator, in particular a house hold cooling device with at least one cold room in which one Evaporator and a room air from time to time ing fan is arranged.

With refrigerators, it is common to keep the evaporator at a standstill depending on the refrigerant compressor at certain intervals thaw because its heat-exchanging surfaces over time due to the often high humidity in the cold room for example, by frequently opening the cold room door or due to large quantities of freshly stored goods increases, frosting relatively strongly and thereby cooling performance is significantly reduced.  

In this context, the shortest possible defrost time sought.

It is already known to defrost by hot gas Guided tour to the evaporator or through an electrical heating device tings that are located close to the evaporator support. In the event that the defrosting process with hot gas supported, are complex taxes in the cooling circuit facilities necessary while using an elec trical heating device the additional effort to elek electrical energy and the wiring effort usually considerable is.

These disadvantages are due to be from US-PS 31 19 240 Known solution fixed. This is for a recirculation cooling unit with a freezer compartment and one below it th normal refrigerator compartment proposed defrosting the area of the freezer arranged evaporator by feeding of warmer air from the normal refrigerator compartment using one there to support arranged fans for this purpose. The warmer air from the normal refrigerator compartment is transferred to the evaporator in the Freezer compartment via a recessed air duct the back of the warm insulation separating the two compartments th intermediate shelf fed.

However, this solution has the disadvantage that the connect the two compartments of different temperatures the air duct, regardless of which of the both subjects are accessed more often, which in each Humidity entering the refrigerator compartment is on the evaporator  precipitates and ices it prematurely. Also is for this solution is a mostly complex installation of a two fan required.

Furthermore, from US-PS 29 91 630 is a household refrigerator with a freezer compartment and one arranged below this Neten normal refrigerator known, on the back in a Cut-out in the rear wall below the two compartments thermally separating partition in one channel-like, extending up to the height of the freezer compartment extending shaft an evaporator is arranged, the board-like heat exchange surface the cooling room to the shaft completes.

In addition, this compartment is in the freezer compartment a fan is provided, which maintains in cooling mode the temperature in the freezer compartment forcibly changes the air rolls and conveys via the evaporator, but in defrost mode stands still.

To speed up the defrosting process, a lower, in Cold room arranged in front of the board-like heat exchange surface Neter fan provided, which is only for the purpose of defrosting in Is put into operation.

The invention has for its object to take measures fen that support the defrosting process in a simple manner and speed up and at the same time the disadvantages of the stand avoid technology.  

The object is achieved in that the Fan in natural, through the cooling capacity of the evaporator fers caused convection current of the air in such a way is that by its function this convection current supports and prefers in the area of walls and the door is directed and that the fan both the cooling process as well as the defrosting process.

On the one hand, the solution according to the invention has the advantage that no second fan due to elaborate and yet often the Thermal insulation reducing installation must be installed and on the other hand the advantage that the subjects differ cher temperature are thermally separated.

According to a further preferred embodiment of the counter state of the invention it is provided that the fan under half of the evaporator is arranged so that the Evaporator is in the suction air flow of the fan.

Such a solution has the advantage that the fan generated flow direction with the through the warmer and colder area within the compartment, natural Chen air circulation coincides, so that both streams overlay directions and do not work against each other.

According to a next preferred embodiment of the Ge Subject of the invention it is provided that the fan as Axial fan is executed.  

This solution has the advantage that the fan is in a confined space can be integrated within the refrigerator, so that it is more valuable Storage space in the refrigerator compartment is retained. Such are also Fan particularly inexpensive.

According to a further preferred embodiment of the The object of the invention is that the fan blow-out side with a blow-out air across the width the cooling compartment leading cover is provided with the refrigerated goods containers arranged in the refrigerator compartment together in this way works that the blow-out air over the door area is fed away to the evaporator.

A solution according to this feature has the advantage that the airflow generated by the fan essentially zwangsge leads to the evaporator and passes evenly over the entire evaporator surface is promoted. Besides, will the largest possible air volume within the refrigerator compartment between the colder and warmer areas of the air reached.

According to a next advantageous embodiment of the counter state of the invention it is provided that the air in the compartment lower temperature due to natural heat in the Compartment is heated.

This solution has the advantage that in addition to complicated air guides for the warmer air to the refrigerator compartment also none additional measures that warm the air, such as B. elec trical heaters are necessary.

The invention is described in the following description one shown in simplified form in the accompanying drawing Embodiment explained. Show it:

Fig. 1 shows a domestic refrigerator with a top of the housing arranged normal refrigeration compartment and a lower, zwangsbelüftenden by air circulation fan with a zero degree compartment in three-dimensional view with the door open,

Fig. 2 schematically shows the household refrigerator with ge door is closed from the side seen in section,

Fig. 3 in an enlarged section a senkrech th section through the zero degree compartment in the area of the fan in view from the side,

Fig. 4 is a horizontal section through the housing top half which is arranged under the cover fan and the subsequent, step-like jump ahead in the lower rear wall portion of the housing,

Fig. 5 is a coordinate system in which the influence of the fan on the defrosting speed of the evaporator is shown.

A household refrigerator 10 shown in Fig. 1 is equipped with egg nem, closable by a door 11 , heat-insulated Ge housing 12 , in which two thermally separated compartments 13 are arranged at different temperatures by a heat-insulated partition plate. The compartment upper half of the partition plate 13 serves as a normal cooling compartment 14 and is equipped in the usual way with serving as a shelf 15 , while the cooling compartment arranged below the partition plate 13 is designed as a zero-degree compartment 16 . The zero-degree compartment 16 is provided with a plurality of containers 17 , 18 and 19 , one above the other, partially designed as extracts, for receiving the goods to be stored there (as can also be seen in particular in FIG. 2).

As can be seen in particular from Fig. 2, both Kühlfä cher 14 and 16 are equipped on their rear wall with a flat evaporator 20 and 21 in the form of a so-called Coldwall evaporator Ver. In addition, the zero-degree compartment 16 has a fan 22 designed as an axial fan (this is only sketched here), which circulates the cooling air within the zero-degree compartment 16 in the cooling operation of the refrigerator 10 in order to achieve a temperature distribution that is as uniform as possible and promotes over the evaporator 21, as well as in the refrigerator 10 the Abtäubetrieb automatically initiated at certain time intervals Abtauvor gear of the evaporator 21 by forcibly circulating the air within the compartment 16 supported.

The fan 22, which is arranged at a distance below the evaporator 21, is arranged in a corner region 24 which is recessed to the side of a step-like projection 23 and is provided with a cover 25 , which is anchored in the housing wall with fastening means (not specified) (cf. in particular also FIG. 3 ). The fan 22 installed under the cover 25 is arranged with respect to the evaporator 21 so that it lies in the suction-side air flow of the fan 22 .

As can be seen in particular from FIG. 2 and FIG. 3, the blow-out air flow of the fan 21 is guided in the vicinity thereof through the cover 25 , which is equipped for this purpose with air guiding devices described in more detail below, which on the inside of the Contours of the step-like projection 23 adapted walls of the cover 25 are arranged.

The lower edge of the front of the step-like crack 23 associated, vertical wall 26 of the cover 25 forms with the bottom of the housing 12 a nozzle-like air outlet 27 , while its associated with the top of the projection 23 horizontal wall 28 with a near the rear wall of the housing 12th extending, having a ventilation grille 29 air inlet is provided.

To influence the blown-out air flow generated by the fan 22 , the cover 25 is provided on its inside with air guiding devices in the form of a hood 30 enveloping the impeller of the fan 22 and on the inside of its upright wall with fan-shaped ribs 31 to 34 , which have a uniform air distribution over the floor, ensuring different designs.

The air flow generated by the fan 22 during the defrosting operation of the refrigerator 10 when the refrigerant compressor is stationary and exiting through the nozzle-like air outlet 27 is formed immediately after its exit into a container arrangement of the containers 17 , 18 , 19 within the zero-degree compartment 16 Air duct 35 is directed towards the door 11 and upwards over its full width, the air in the region of the door 11 mixing with the air heated by natural heat before it is fed again to the evaporator 21 to support the defrosting process.

Deviating from the illustrated and described exemplary embodiment, it can also be provided that the bottom of the housing 12 and / or the bottom of the container 19 arranged at a distance above it is provided with fan outgoing air guide ribs from the air outlet of the cover 25 , which serve the purpose of the to distribute nozzle-like outlet 27 outgoing air flow evenly over the entire surface of the floor.

Furthermore, deviating from the exemplary embodiment shown, it can be provided that the fan 21 is not arranged in a corner area, but in the middle of the step-like projection 23 , or instead of the axial fan, a cross-flow fan is used.

FIG. 5 shows a coordinate system 36 on which the time in minutes is plotted on the X axis and the evaporator temperature in ° C. is plotted on the Y axis. Two curves 37 and 38 arranged within the coordinate system show the comparison of the course and the duration of the defrosting process of the evaporator 21 , the curve 37 drawn with the solid line representing the defrosting process with the support of the fan and the curve 38 shown in broken lines showing the defrosting process without support of the fan 21 as is. If this comparison is based on the fact that the steamer 21 is deemed to be completely defrosted when its coldest point has a temperature of + 4 °, it can be seen from the curves 37 and 38 determined by way of example that it can be seen through the use of the fan 21 the defrosting time is reduced by approx. 25%.

Claims (5)

1. Cooling device, in particular household cooling device with at least one cold room, in which an evaporator and one which is occasionally supplied with room air to the fan, characterized in that the fan ( 22 ) in natural, by the cooling capacity of the evaporator ( 21 ) caused con vection current of the air is arranged such that by its function this convection current is supported and preferably conducted into the area of the walls and the door ( 11 ), and that the fan ( 22 ) supports both the cooling process and the defrosting process . 2. Cooling device according to claim 1, characterized in that the fan ( 22 ) below the evaporator ( 21 ) is arranged so that the evaporator ( 21 ) in the suction-side air flow of the fan ( 22 ). 3. Cooling device according to one of claims 1 or 2, characterized in that the fan ( 22 ) is formed out as an axial fan. 4. Cooling device according to one of claims 1 to 3, characterized in that the fan ( 22 ) on the blow-out side is provided with a blow-out air over the width of the cooling compartment ( 16 ) leading cover ( 25 ) which is arranged in the cooling compartment ( 18 ) Refrigerated goods container ( 17 , 18 , 19 ) cooperates in such a way that the blow-out air is supplied to the evaporator ( 21 ) over the area on the door side. 5. Cooling device according to one of claims 1 to 4, characterized in that the air in the lower temperature compartment ( 16 ) is heated by natural heat in the compartment.