EP2300761A1

EP2300761A1 - Freezer

Info

Publication number: EP2300761A1
Application number: EP09741574A
Authority: EP
Inventors: Wolfgang Flatz; Mario Maier; Fritz Atschreiter
Original assignee: Tridonic GmbH and Co KG
Current assignee: Tridonic GmbH and Co KG
Priority date: 2008-05-05
Filing date: 2009-05-05
Publication date: 2011-03-30
Also published as: WO2009135243A1; AT10757U1; DE112009001021A5

Abstract

The invention relates to a freezer comprising an electric heating element (2) for preventing the formation of condensed water at least on some surfaces of the freezer. To provide an advantageous construction, the parts that are to be protected from the formation of condensed water form cooling bodies (5) for light-emitting diodes (4) that act as electric heating elements (2).

Description

Freezers

The invention relates to freezer furniture with an electric

Heating to prevent condensation on at least parts of the Tiefkühlmöbeloberflache.

To avoid condensation on cooled surfaces of deep-freeze furniture, it is known to electrically heat these surfaces. For example, the heater is designed so that the temperature of the surfaces is always higher than the dew point temperature of water even in the worst case. This has the consequence that the heater is oversized under appropriate weather conditions, which is why it has already been proposed (DE 31 35 799 Al) to regulate the heating current in the sense of always tightly exceeding the dew point temperature at the surfaces. However, these electrical heating systems, in particular electrical resistance heaters, still have a negative impact on the overall energy balance of the refrigeration units without any additional positive effect.

Furthermore, it is known to use light-emitting diodes for illuminating refrigerated furniture, with the known light-emitting diode systems, whether in oblong or flat form, always requiring a relatively large area and thus a large volume for the heat sink compared to the light source itself. The higher the ambient temperature, the more heat sink area is required. Although the use of light emitting diodes in cooling furniture provides a positive contribution to the overall energy balance due to the low electrical power, but still required for the mandatory heat sink volume required in the systems used is still so large that no significant difference. the required volume of construction compared to conventional lighting fixtures, for example Fluorescent tubes od. Like. , consists. In addition, when providing known light-emitting diode systems, in turn, the entire waste heat is introduced directly into the cooling circuit, which again adversely affects the energy balance.

Based on a state of the art of the type described above, the invention has the object to design refrigeration cabinets such that they have an over the prior art improved energy balance and the introduction of excessive waste heat is avoided in the cooling system.

The invention achieves this object by virtue of the fact that the parts to be preserved from condensation form heat sinks for light-emitting diodes which function as electrical heating.

According to the invention, light-emitting diodes are thus provided in those areas or parts of the freezer furniture surface at which condensation formation is to be avoided. In this case, just before the condensation to be preserved parts are used as a heat sink for effective as an electric heater LEDs, making it possible to dispense with the separate, to be provided for the LEDs heat sink partially or completely. The light-emitting diodes are applied, for example, directly to said parts or inserted into this. Further advantages of the invention are a part and cost reduction. In addition, the space requirement is significantly reduced and an optionally still be provided frame heating can be reduced in performance or possibly completely eliminated. In addition, the invention avoids the direct introduction of heat into the cooling circuit and thus improves the overall energy balance of the respective deep-freeze cabinet.

According to an advantageous embodiment of the invention, the light-emitting diodes are mounted in the metal frame of deep-frozen furniture doors. and the metal frame forms the heat sink. This additionally saves space in the area of the doors, which also eliminates the need for additional frame heating in this area or "can be reduced in terms of performance." In addition, particularly advantageous illumination of the goods to be presented in the cooling furniture results.

Another prominent location in a refrigerated cabinet is the frontal area of shelves, in which area the cold air curtain of the refrigeration cycle usually passes to ensure effective heat removal from the refrigerated cabinet. In order to ensure precisely this heat dissipation and to avoid excessive, additional introduction of additional heat in the refrigeration cycle, it is recommended that the light emitting diodes front front rails of shelves are assigned and the rails form the heat sink. This area is usually also formed at the same time as a holder for the price or award signs. Together with the fact that light emitting diodes usually do not emit UV radiation, it is possible to achieve the same cooling results with good illumination of the goods to be presented with comparatively lower energy input.

In order to keep the direct introduction of waste heat of the LEDs in the cooling circuit as low as possible, it is recommended that the light emitting diodes are inserted with the interposition of thermally conductive materials in the heat sink forming parts. The thermally conductive materials od in the usual way thermal compounds, Wärmeleitfolien. The like. be. In addition, it is naturally possible to use the light emitting diodes connected to the parts forming the heat sink, in particular adhesively bonded, welded or soldered, sockets. Furthermore, the invention relates to the use of light-emitting diodes as an electric heater to avoid condensation on at least parts of the freezer furniture surface.

The invention also relates to a method for electrical

Heating to avoid condensation on at least parts of the Kühlmöbeloberfläche, wherein the parts to be preserved from condensation are heated both via effective as an electric heater LEDs and an additional existing electrical heating, and the control of the LEDs and the additional existing electric heater to each other are coordinated.

For advantageous illumination of the refrigerated cabinet, or to avoid the damage of the insulating glazing, the light-emitting diodes acting as electrical heating can be arranged in the region between two insulating glass panes, namely in the region of the peripheral edge forming the insulation of the insulating glazing. In this case, it is recommended that the light-emitting diodes on the one hand on a provided between the two insulating glass panes, preferably metallic, spacing profile are arranged or on the other hand are provided on a provided between the two insulating glass panes L-profile, with a leg between the two insulating glass he - Stretches and the other, parallel to the insulating glass aligned legs which carries light-emitting diodes.

In the drawing, the invention is illustrated schematically using an exemplary embodiment. 1 shows a shelf of a freezer cabinet according to the invention with an effective as an electric heater LED in cross section,

2 shows a construction variant of a shelf with an effective as an electric heater LED in cross section, A possible arrangement of the light emitting diode on a Tiefkühlmöbeloberfläche and

4 and 5 an arrangement of the light emitting diode in an insulating glass pane.

6 shows a possible arrangement of the LEDs

An inventive cooling device, not shown in detail, in particular freezer furniture, comprises an electric heater 2 for preventing condensation on parts of the cooling furniture surface. To illuminate the gap between individual shelves 3 light-emitting diodes 4 are provided, which are attached at least to the parts of the TiefkühlmöbelOberfläche on which the condensation should be avoided. For this purpose, the parts to be preserved from condensation form heatsinks 5 for the light-emitting diodes 4 that act as electrical heaters 2. In particular, the LEDs 4 are assigned to the front end profile rails 6 of the shelves 3 and form the rails 6, the heat sink 5 from.

The LEDs are inserted with the interposition of thermally conductive materials in the rails or optionally applied to a thermally conductive, also the power supply of the LEDs ensuring conductor strip 7, which preferably adhered to the parts to be preserved against condensation forming od. Like. is.

In the embodiment of FIG. 3, the LEDs 4 are covered by a potting compound 8. This lenticular potting compound 8, which is advantageously highly transparent, protects on the one hand the light emitting diodes 4 and on the other hand acts as a lens to align the emitted light emitted from the light emitting diodes 4 and optimally decoupled. The potting compound has a lens effect Contain color conversion material, by means of which, for example, the light of a blue light emitting diode 4 can be converted into white light.

The light-emitting diodes 4 are preferably applied in surface mount technology (SMT) or chip-on-board technology (COB) on the conductor strip 7. By applying the chip-on-board technology (COB) for the application of the LED, a very good thermal coupling of the LED to the conductor strip 7 can be achieved. In addition, the chip-on-board technology allows a very close assembly of LEDs 4, whereby a very homogeneous light distribution can be achieved. The conductor strip 7, for example, by means of a double-sided adhesive tape 9, which advantageously has a high thermal conductivity, are attached to the heat sink 5. As already mentioned, the conductor strip 7 can also carry part of the control electronics for the light emitting diodes 4. Several such conductor strips 7 can be connected as chains in series and fed by a common power supply. The connection between the heat sink 5 and the conductor strip 7 can alternatively be realized by a double-sided adhesive heat-conducting foil or by a plurality of screw connections, wherein in the case of the screw connections, a heat-conducting foil or heat-conducting paste can be provided between the heat sink 5 and the conductor strip 7. The conductor strip 7 may at least partially be formed as a reflector in order to achieve a better Lichtauskoppelung by the LEDs 4.

The freezer can also have temperature sensors. Preferably, at least one temperature sensor can be arranged in the vicinity of the light-emitting diodes 4, for example on the conductor strip 7. But it can also be arranged a temperature sensor in the vicinity of the still existing electric heater 2. With such a temperature sensor, for example, the temperature of the LEDs 4 can be monitored and tions of the temperature in the refrigerator are reacted. If, for example, the heating is activated only for certain periods of time, then the operation of the light emitting diodes 4 can be adapted to it. For example, at a high temperature, the power or the brightness of the light-emitting diodes 4 can be regulated back or, if a higher heating power is required, the power or the brightness of the light-emitting diodes 4 can be increased.

Thus, a method for electric heating is the

Preventing condensation on at least parts of the cooling furniture surface, in particular Tiefkühlmöbeloberfläche allows, which are protected against condensation forming parts both via electric heating (2) effective light-emitting diodes (4) and an additional existing electric heating, and the control of the light emitting diodes ( 4) and the additional existing electric heater (2) are coordinated.

The control of the light-emitting diodes (4) can be carried out depending on the control of the additional existing electric heater.

The control of the LEDs (4) can be done depending on a measurement of a temperature sensor.

According to the exemplary embodiments according to FIGS. 4 and 5, the light-emitting diodes 4 which act as electrical heating 2 are arranged in the region between two insulating glass shades 10, namely in the area of the peripheral edge forming the insulation 11 of the insulating glazing 12. The light-emitting diodes 4 are arranged on the one hand on a provided between the two insulating glass panes 10, preferably metallic, Abstandsprofill3 (Fig. 4) and on the other hand arranged on a provided between the two insulating glass panes 10 L-profile, wherein a Leg 14 extends between the two insulating glass panes 10 and the other, parallel to the insulating glass panes 10 aligned legs 15, the LEDs 4 carries.

The light-emitting diodes 4 on the conductor strip 7 can also be mounted already in a prefabricated profile strand 20 and as a complete light emitting diode module in the freezer, preferably on a rail 6, are attached. The profile strand 20 is preferably designed as a metallic carrier with good heat-conducting properties, which preferably has cooling ribs for improving the heat dissipation. In the direction of the light emission of the LEDs 4, the profile strand 20 can be closed by a transparent cover 21. The transparent cover 21 may have a lens shape and thereby promote improved light output. The transparent cover 21 may optionally contain a color conversion substance by means of which, for example, the light of a blue light-emitting diode 4 can be converted into white light.

By appropriate choice of a light emitting diode 4 with a defined color spectrum (emitted wavelength) and the combination with a color conversion substance with a defined color spectrum (converted wavelength), the lighting of the freezer cabinet with light sources (light emitting diode modules) can be made, which are selectable in their color output (radiated wavelength) and adapted, for example, to the food to be illuminated.

Claims

claims

1. refrigerated cabinets, in particular freezer cabinets, with an electric heater to prevent condensation on at least parts of the freezer furniture surface, characterized in that the parts to be preserved against condensation forming heat sinks (5) for as electrical heating (2) effective light emitting diodes (4) form.

2. Cooling cabinet according to claim 1, characterized in that the light-emitting diodes (4) are arranged in the metal frame of deep-frozen furniture doors and the metal frame forms the heat sink (5).

3. The refrigerator according to claim 1 or 2, characterized in that the light emitting diodes (4) front front profile rails (6) of shelves (3) are assigned and the profile rails (6) form the heat sink (5).

4. The refrigerator according to one of claims 1 to 3, characterized in that the light-emitting diodes (4) are inserted with the interposition of thermally conductive materials in the heat sink (5) forming parts.

5. The refrigerator according to one of claims 1 to 4 with at least one glazing, characterized in that the electric heater (2) effective light-emitting diodes (4) in the region between two insulating glass panes (10), preferably in the region of the insulation (11) Insulating glazing (12) forming peripheral edge, are arranged.

6. The refrigerator according to claim 5, characterized in that the light emitting diodes (4) on one between the two insulating glass panes (10) provided, preferably metallic, Ab- profile (13) are arranged.

7. The refrigerator according to claim 5 or 6, characterized in that the light-emitting diodes (4) on one between the two insulating glass panes (10) provided L-profile are arranged, wherein a leg (14) extends between the two insulating glass panes (10) and the other, parallel to the insulating glass panes (10) aligned legs (15) carrying light-emitting diodes (4).

8. Use of light emitting diodes (4) as an electrical heater (2) to prevent condensation on at least parts of Kühlmöbeloberflächen, especially Tiefkühlmδbeloberflachen.

9. Method for electrical heating to avoid a

Condensation at least on parts of the Kühlmöbeloberfläche, especially Tiefkühlmöbeloberfläche, characterized in that the parts to be preserved from condensation to be heated both via electric heating (2) effective light-emitting diodes (4) and an additionally existing electric heater (2), wherein the control the LEDs (4) and the additional existing electric heater (2) are coordinated.

10. The method according to claim 9, characterized in that the control of the light-emitting diodes (4) depends on the activation of the additional electrical heater (2).

11. The method according to claim 9 or 10, characterized in that the control of the light-emitting diodes (4) takes place as a function of a measurement of a temperature sensor.