COOLING DEVICE, AND CHILLED GOODS SUPPORT THEREOF
A chilled goods support for a cooling device comprising a liquid crystal temperature display unit. A supporting element of said chilled goods support is used as a thermal buffer to which the liquid crystal temperature display unit is fixed in a planar manner.
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The present invention relates to a cooling device, especially a chilled goods support for such a cooling device.
The temperature distribution in the interior of a cooling device is not homogeneous, which especially in cooling devices with an internal temperature above the freezing point, allows differently temperature-controlled areas of the interior to be used for different types of chilled goods which make different demands on the storage temperature. However, a specific usage of the temperature differences in the interior for this purpose assumes that the user knows, at least qualitatively, the temperatures prevailing in the different compartments of the interior. For this purpose, an interior configuration for a cooling device has been proposed in DE 102 05 589 A1 wherein a plurality of liquid crystal temperature displays are distributed on the different compartments of the interior of a cooling device to allow the user to optimally utilise the suitability of each individual compartment for storing different groups of chilled goods.
These temperature displays can be placed in a compartment at different locations, it being dependent on a favourable choice of location whether the temperature detected by the display is representative for the compartment of the interior where it is attached. From the point of view of a representative temperature recording, it would be desirable per se to attach a temperature display in a compartment centrally between the heat sink, usually the rear wall of the interior chamber bearing the evaporator, and the main heat source, i.e. the door seal. For this purpose however, the temperature display would need to be attached to a side wall of the inner container and such a display would be difficult for a user to read. From the point of view of readability, attachment to the front edge of a chilled goods support, facing the door of the cooling device, is to be preferred: However, such a display is subjected to strong disturbing influences from warm air which penetrates into the interior when a user opens the door so that the temperature recorded and indicated by such a display is possibly no longer representative of the stationary state of the cooling device even after opening the door for a short time.
In order to obviate this problem, it is proposed in DE 102 05 589 A1 that the heat-sensitive liquid crystals of such a liquid crystal temperature display should be held in contact with a thermal buffer accommodated in a housing of the display in order to thus impart a desired inertia to the display.
It is the object of the present invention to provide a chilled goods support or a cooling device with such a chilled goods support which can achieve the advantages of the known interior configuration described above by simpler and more cost-effective means.
The object is achieved by a chilled goods support having the features of claim 1 or a cooling device having the features of claim 9.
Since, according to the invention, a supporting element of the chilled goods support is used as a thermal buffer for the liquid crystal temperature display, which supporting element generally has a not insignificant mass and therefore thermal capacity as a result of its function, it is superfluous for the temperature display to have its own thermal buffer so that space and costs can be saved.
The thermal buffer is preferably formed by a frame moulded on a plate of the chilled goods support. The temperature display unit can be located directly on this frame on a side facing the door of the cooling device in the mounted state of the chilled goods support so this can be conveniently read by a user who has opened the door.
In the interests of good readability, it is also preferable if the liquid crystal temperature display unit is attached to an outer side of the frame oriented obliquely to the plate, which points obliquely upwards in the mounted state.
As a consequence of a first embodiment, a portion of the frame which supports the liquid crystal temperature display unit is an extruded profile which can be formed of plastic or metal.
The liquid crystal temperature display unit can also be arranged on a frame which is moulded in one piece around the plate of the chilled goods support.
In order to facilitate readability, the liquid crystal temperature display unit is divided into a plurality of discrete elements each having different colour change temperatures. Alternatively, a display zone of the liquid crystal temperature display unit can be provided wherein a transition zone is continuously movable between a low-temperature colour and a high-temperature colour depending on temperature so that a user can estimate the temperature from the location of the transition zone. In order to quantify the estimate, a scale can be constructed on the supporting element adjacent to the display zone.
Further features and advantages of the present invention are obtained from the following description of the exemplary embodiments with reference to the appended figures. In the figures:
The chilled compartment 1 is divided into a plurality of part compartments of regions 5, 5′ by chilled goods supports 4 suspended on the side walls 3 of the housing. The two lowest regions 5′ are each defined by a pull-out box 18, the regions 5 located thereabove are open towards the door 7. They are cooled by an evaporator located behind the rear wall 6 of the chilled compartment 1 at the height of region 5 which is not visible in the figure. In each of these regions 5 there exists a non-vanishing temperature gradient from a coldest point on the rear wall 6 to a warmest point near the door 7. Since the cold air in the chilled compartment 1 tends to sink, the lower-lying regions 5 are generally colder than the higher ones, i.e. the global temperature difference between the warmest and the coldest point of the entire chilled compartment 1 is greater than the temperature differences existing in the individual regions 5.
A group of comparatively warm regions 5″ is formed by box-shaped door compartments 8 mounted on the inside of the door 7 as chilled goods supports.
Each region 5 is allocated respectively one liquid crystal temperature display unit 9 which is arranged at the front edge of a frame of that compartment base 4 which terminates the relevant region 5 at the bottom. The temperature display 9 is therefore closely adjacent to the region located thereunder but the temperature to which it is exposed is representative of the region located above the compartment base 4 since when the door is closed, cold air from the relevant region flows downwards over the front edge of the compartment base.
Naturally, as shown in
In this fourth exemplary embodiment the temperature display 9 is the same as in the third exemplary embodiment since it is comparatively laborious to construct features such as the webs 12 or the reference marks 20 which make it easier to read the display 9 in an extruded profile.
Claims
1-10. (canceled)
11. A chilled goods support for a cooling device comprising a liquid crystal temperature display, wherein a supporting element of the chilled goods support acts as a thermal buffer to which the liquid crystal temperature display unit is fixed in a planar manner.
12. The chilled goods support according to claim 11, wherein the thermal buffer is formed by a frame mounted on a plate of the chilled goods support.
13. The chilled goods support according to claim 12, wherein the liquid crystal temperature display unit is attached to an outer side of the frame oriented obliquely to the plate.
14. The chilled goods support according to claim 12, wherein a portion of the frame which supports the liquid crystal temperature display unit is an extruded profile.
15. The chilled goods support according to claim 12, wherein the frame is injection molded on the plate in one piece.
16. The chilled goods support according to claim 11, wherein the liquid crystal temperature display unit is back-molded with the supporting element.
17. The chilled goods support according to claim 11, wherein the liquid crystal temperature display unit is divided into a plurality of discrete elements with different color change temperatures.
18. The chilled goods support according to claim 11, wherein the liquid crystal temperature display unit comprises a display zone in which a transition zone is continuously movable between a low-temperature color and a high-temperature color depending on temperature.
19. The chilled goods support according to claim 18, wherein reference marks are formed on the supporting element adjacent to the display zone.
20. The chilled goods support according to claim 18, wherein the cooling device comprises an interior enclosed by a heat-insulating housing.
21. A refrigerator comprising:
- a housing having side walls and a compartment disposed within the compartment;
- a door coupled to the housing for opening and closing the compartment;
- a chilled goods support for supporting goods within the compartment and at least partially defining a region within the compartment, the chilled goods support extending between the side walls and including a front edge facing the door and having a downwardly sloping surface; and
- a liquid crystal temperature display unit disposed on the sloping surface of the chilled goods support indicating the temperature within the region.
22. The refrigerator according to claim 21, wherein the chilled goods support includes a plate and a frame extending around the perimeter of the plate.
23. The refrigerator according to claim 22, wherein the plate is formed from a glass material and the frame is formed from a plastic material injection molded on the plate in one piece.
24. The refrigerator according to claim 21, wherein the liquid crystal temperature display unit is divided into a plurality of discrete elements that change color change in response to the temperature within the region.
25. The refrigerator according to claim 24, wherein the color of the liquid crystal temperature display unit indicates a type of chilled good that is suitable to be stored on the chilled goods support.
26. The refrigerator according to claim 21, wherein the liquid crystal temperature display unit comprises a display zone in which a transition zone is continuously movable between a low-temperature color and a high-temperature color depending on temperature.
27. The refrigerator according to claim 26, further comprising reference marks formed adjacent to the display zone.
28. The refrigerator according to claim 21, further comprising multiple chilled goods supports at least partially defining corresponding regions above each chilled goods support, each chilled goods support including a front edge with a downwardly sloping surface and a liquid crystal temperature display unit disposed on the sloping surface, the temperature display unit indicating the temperature within the corresponding region.
29. A refrigerator comprising:
- a housing having side walls and a compartment disposed within the compartment;
- a door coupled to the housing for opening and closing the compartment;
- a plurality of chilled goods supports extending between the side walls and spaced vertically apart from one another within the compartment, each chilled goods support at least partially defining a corresponding region above the respective chilled goods support and including a front edge with a downwardly sloping surface;
- a liquid crystal temperature display unit disposed on the downwardly sloping surface of each chilled goods support indicating the temperature within the corresponding region, each liquid crystal temperature display unit changing color in response to the temperature within the corresponding region wherein the color of the liquid crystal temperature display unit indicates a type of chilled good that is suitable to be stored on that respective chilled goods support.
30. The refrigerator according to claim 29, wherein the chilled goods support includes a plate formed from a glass material and a frame extending around the perimeter of the plate and being formed from a plastic material injection molded on the plate in one piece.
Type: Application
Filed: Dec 7, 2004
Publication Date: Feb 5, 2009
Applicant: BSH BOSCH UND SIEMENS HAUSGERÄTE GMBH (Munich)
Inventors: Christoph Becke (Grosskarolinenfeld), Hans-Kersten Hrubesch (Bruckmuehl)
Application Number: 10/582,923
International Classification: A47B 96/00 (20060101);