DE202006012158U1 - cooling unit - Google Patents

Abstract

Cooling unit with a Inner container, in which an evaporator is arranged, characterized in that the inner container a second inner container such surrounds that one Gap formed between the first and the second inner container is.

Description

The The invention relates to a refrigerator with an inner container, in an evaporator and a compressor are arranged.

Usually occur in the refrigerators conditionally high fluctuations due to the discontinuous operation of the compressor the humidity on. This is particularly disadvantageous if in the refrigerator storage goods is to be kept, which is sensitive to moisture changes in the ambient air. Such a sensitive storage goods are for example, cigars or pharmaceutical products. For cigars is as optimum storage temperature a temperature of + 18 ° C at a Humidity of 75% set. So far, there is no cooling device, the one low hysteresis of the humidity in the device.

task The present invention is therefore to provide a cooling device, the storage of allows a stored good, that is sensitive to changes the humidity is. It is to be created - in other words - a refrigerator, for the storage of cigars, pharmaceutical products or another across from Climate variations sensitive stored goods is suitable.

According to the invention this Task starting from a refrigerator according to the preamble of Claim 1 by the combination with the features of the characterizing Part of claim 1 solved. Accordingly, on a refrigerator with a first inner container, in which an evaporator is arranged, a second inner container is provided. It surrounds the first inner container the second inner container such that a Gap formed between the first and the second inner container is. The stored goods are stored inside the second inner container.

by virtue of the provision of the second inner container becomes an airtight Separation between cooling system and storage room created. Thus, the humidity can be within of the second interior during the compressor running time no longer precipitate on the evaporator, what the conventional refrigerators for sudden decline the humidity leads. Due to the provision of the second inner container and the space between the first and second inner container is a uniform cooling of Interior ensured within the second inner container. A drop formation by precipitating moisture on the rear wall of the second inner container is made by the dynamic ventilation Not.

preferred Embodiments of the invention will become apparent from the main claim subsequent Dependent claims.

Therefore can within the second inner container a moistening unit be arranged. Due to the provision of this per se known in the structure Humidification unit can be in the interior of the refrigerator, which enclosed by the second inner container will, a desired Humidity can be adjusted.

Advantageous is the humidification unit by an electromechanical or electronic humidistat controlled with adjustable hysteresis. This means that the maximum permissible fluctuation of humidity according to can be adjusted to be stored stock.

Especially advantageous is in the wall of the second inner container a Dehumidifying flap arranged to connect to the space between allows the first and the second inner container. By opening the appropriate Flap can be moisture laden air in the space between the first inner container and the second inner container flow away, so that the Moisture content in the interior of the second inner container can be reduced. The dehumidifying flap can also be controlled by the hygrostat become.

According to one further advantageous embodiment of the invention can in the space between the first and the second inner container a ventilation device be provided to circulate the air in the space. hereby is a uniform overflow of the Intermediate wall between the intermediate container and the second inner container ensured So that the Temperature in the second inner container due to the uniform temperature the intermediate wall can be quickly adjusted to the desired value can.

Of the in the first inner container arranged evaporator is advantageously foamed.

Below the evaporator, an evaporation tray may be arranged such that yourself in the evaporator forming water in the evaporation tray can expire. In this case, the evaporation tray can be advantageous together with the compressor in a recessed at the bottom of the first inner container Be arranged receiving area. In the wall between the gap and the receiving space may be a connecting channel for the derivation of the in a funnel-like extension of the connection channel be provided collecting water.

Further features, details and advantages of the invention will become apparent from the embodiments illustrated in the drawings. It shows gene:

1 3 is a schematic side view of a cooling device according to a first embodiment of the invention,

2 a schematic sectional view of the refrigerator according to 1 seen from the front,

3 a sectional view accordingly 1 by a cooling device according to another embodiment of the invention,

4 a sectional view through the cooling device according to 3 in the same view as in 2 shown,

5 a sectional view accordingly 1 by a cooling device according to another embodiment of the invention and

6 a sectional view through the cooling device according to 5 in the same view as in 2 ,

In the 1 and 2 is a cooling device 10 represented, which has a first inner container 12 having. With the inner container is in the usual way about hinges a refrigerator door 14 connected. At the rear wall of the inner container 12 is also in a known manner a large-scale evaporator 16 foamed. In the lower rear area encloses the foamed housing 13 a recording room 18 in which a compressor 20 and an evaporation tray 22 are arranged. So far corresponds to the structure of the refrigerator according to the 1 and 2 the construction of already known refrigerators.

The inner container 12 surrounds a second inner container 24 such that a gap 26 between the first inner container 12 and the second inner container 24 is formed. In the embodiment according to the 1 and 2 it becomes clear that the gap 26 is formed over the entire surface between the first inner container and the second inner container. The only exception is the front, which is through the door 14 is closed. Within the space is a ventilation device 28 provided with the air located in the space in the direction of the in the 1 and 2 shown arrows is set in motion. Thus, the air in the space sweeps over the partition 30 between the gap 26 and that of the second inner container 24 enclosed interior 32 ,

In the interior 32 is a moistening unit already known in its construction 34 arranged in the floor area. About the humidification unit 34 , which is controlled by a hygrostat not shown here, can a desired humidity in the interior 32 of the refrigerator 10 be set. If necessary, a quick dehumidification in the interior 32 to enable, is a dehumidifying flap, which can be controlled advantageously over the hygrostat 36 in the partition 30 intended. This makes it possible, after opening, moisture-laden air from the interior 32 in the gap 26 to flow in.

As in particular from the 1 the first inner container forms visible 12 in the lower and rear area of the refrigerator 10 one the recording room 18 enclosing paragraph 38 , In this paragraph 38 is a connection channel 40 formed the space 26 and the recording room 18 connects with each other. Below the connection channel 40 is the evaporation tray 22 , which is seated on the compressor housing in the embodiment shown here, arranged. At his to the gap 26 facing the end of the connecting channel widens 40 forming a funnel-shaped receptacle 42 , In this funnel-shaped recording 42 may be in the range of advantageously foamed evaporator 16 collect condensing water. This condensate flows due to gravity through the connecting channel 40 and drip into the evaporation tray 22 ,

The embodiment according to the 3 and 4 corresponds essentially to that according to the 1 and 2 , The main difference here is that the gap 26 between the first and the second inner container does not surround the entire inner container (except for the area of the door). Rather, the gap 26 arranged in this embodiment only in the side area. Furthermore, the ventilation device 28 at the bottom of the refrigerator 10 arranged. Finally, here is different than in the embodiment according to the 1 and 2 no evaporator plate arranged in the rear wall portion of the inner container. Rather, here are the evaporators 16 in each case laterally in the region of the inner container 12 foamed. Due to the arrangement of the gap 26 ensures that the through the aeration device 28 circulated air flow over the cooled surface on the side wall flows to allow the best possible heat transfer here. In the embodiment according to the 3 and 4 is the dehumidifying flap 36 in the intermediate wall in the region of the side wall of the inner container 12 arranged.

The refrigerator according to the 5 and 6 corresponds essentially to that according to 3 , As based on the presentation of the 5 and 6 to see, however, is the gap 26 between inner container 12 and second inner container 24 through which the air according to the arrows in 5 respectively. 6 does not flow into the lower area of the refrigerator 10 pulled, ie in the area in which the humidification is located. Rather, the gap extends 26 here only, as shown by the arrows, above the lower area, in which the humidification takes place. The ventilation device 28 is therefore also located in the upper part of the refrigerator, as is apparent from the 5 and 6 results.

Claims (8)

Refrigerator with an inner container, in which an evaporator is arranged, characterized in that the inner container surrounds a second inner container such that a gap between the first and the second inner container is formed. Cooling device according to claim 1, characterized in that within the second inner container a Moistening unit is arranged. Cooling device according to claim 2, characterized in that the Humidification unit through a humidistat with adjustable hysteresis is controllable. Cooling appliance after one of the preceding claims, characterized in that in the wall of the second inner container a Entfeuchtungsklap PE is arranged, the connection to the space between the first and the second inner container allows. Cooling appliance after one of the preceding claims, characterized in that in Gap between the first and the second inner container one aerator is provided to circulate the air in the space. Cooling appliance after one of the preceding claims, characterized in that the Evaporator in the first inner container lathered is. Cooling appliance after one of the preceding claims, characterized in that below the Evaporator an evaporation tray is arranged such that in Gap in the area of the evaporator forming water in the Can drain off evaporation tray. Cooling device according to claim 7, characterized in that the Evaporative tray together with the compressor in one at the bottom Area of the first inner container recessed receiving area is arranged and that in the Wall between the space and the receiving space a connecting channel is provided for the derivation of the collecting water.