EP2980511A1 - Cooling devices, cooling modules and cooling fin modules and use of the same - Google Patents

Abstract

The present invention relates to a cooling device (1), in particular a freezer, comprising a) at least one cooling chamber (6) with an upper side and an opposite bottom side, comprising at least one removal opening, a closure device (4), a product receiving area, a bottom side b) at least one cooling element (8) arranged on the bottom side, in particular a thermoelectric cooling element, j) at least one liquid discharge device, k) at least one cooling fin module with a multiplicity of spaced liquid drainage grooves containing a Dripping, separate cooling fins (20), which are arranged in the cooling and first circulating air region (14) and are in thermal operative connection with the cooling side of, in particular thermoelectric, Kuhlelements, the Flüssigkeitsablaufrinnen in the direction of Flüssigkeitsableitun gsvorrichtung, in particular Flüssigkeitseabitungsöffnung, are inclined. The invention further relates to a cooling device, in particular a refrigerated display case, comprising a) at least one cooling space, comprising a removal opening, a closure device, a product receiving area (12), and a rear, adjoining the product receiving area cooling and first recirculation area, b c) at least one partition wall for separating the cooling and first circulating air area and product receiving area, with at least one first inlet opening (30) for recirculating air, d) at least one first outlet opening (32) for accommodating the e) at least one second inlet opening, the at least one first outlet opening and the at least one second inlet opening (36) being connected to one another via at least one first recirculation line, wherein the second inlet is connected to one another via at least one first recirculation line f) at least one first fan device, designed and arranged for feeding circulating air via the at least one first inlet opening into the cooling and first recirculating air area, j) at least one liquid discharge device (54), k) at least one cooling fin module with a plurality of spaced, by Flüssigkeitsablaufrinnen containing a dripping end, separate cooling fins (20) which are arranged in the cooling and first recirculation area and in thermal operative connection with the cooling side of the, in particular thermoelectric, cooling element, wherein the cooling fin module is arranged substantially vertically and wherein the cooling fins and the liquid drainage channels extend horizontally and / or obliquely in the direction of the liquid discharge device, so liquid via the at least one Flüssigkeitsablaufrinne and / or cooling fin, esp Other gravity-driven, to the liquid discharge device, in particular liquid discharge opening (52), is transferable. Moreover, the invention relates to cooling modules, including cooling rib modules, as well as these cooling fin modules, and the use of refrigerators, cooling modules and cooling fin modules for the cooling of confectionery, drinks and medicines.

Description

The present invention relates, in particular compact, cooling units and cooling modules and cooling fin modules and their use.

Refrigerators are everyday items both in the home and in the commercial use. Although often portable, cooling units are relatively bulky and heavy, not least because of the compressor technology used in most cases. For certain applications, for example in boat construction, compact refrigerators are often required due to limited space. The here u.a. cooling units used make use of Peltier elements for the purpose of saving space. However, such refrigerators have the disadvantage that the desired cooling temperature is reached only after a very long pre-cooling phase. Also, the efficiency of these devices is low.

Another problem that is common to all refrigerators is icing of condensation. However, this disadvantage is often accepted and the icing problem is solved by intermittently interposing extended heating phases as needed to thaw the formed ice and drain the water before initiating the next cooling phase. This procedure is very energy-intensive and takes the risk that chilled goods will be affected for lack of sufficient continuous cooling.

It would therefore be desirable to be able to resort to improved cooling equipment. The present invention therefore an object of the invention to make refrigerators available, which are no longer subject to the disadvantages of the prior art and in particular ensure a continuous cooling, without defrost intervals for iced To have to interpose condensate and / or allow a very compact design, without having to accept long pre-cooling times, and at the same time ensuring compliance with a preset cooling temperature within narrow limits, in particular without having to interpose defrost intervals for iced condensed water.

1. a) mindestens einen Kühlraum mit einer Oberseite und einer gegenüberliegenden Bodenseite, enthaltend
   1. i) zwischen Ober- und Bodenseite eine oder mehrere Seitenwände mit dem Kühlraum zugewandter und dem Kühlraum abgewandter Seite,
   2. ii) mindestens eine, insbesondere im Wesentlichen oberseitig oder seitenwandseitig angeordnete, Entnahmeöffnung zur Entnahme von gekühlten Produkten aus dem Kühlraum,
   3. iii) mindestens eine, insbesondere klappbare oder verschiebbare, Verschlussvorrichtung zum reversiblen Öffnen und Verschließen der Entnahmeöffnung,
   4. iv) einen Produktaufnahmebereich, insbesondere begrenzt durch die Oberseite und/oder begrenzt durch die Verschlussvorrichtung, besonders bevorzugt unterhalb der Verschlussvorrichtung vorliegend, wenn diese die Entnahmeöffnung verschließt,
   5. v) einen bodenseitig angeordneten, unterhalb des Produktaufnahmebereichs vorliegenden Kühl- und ersten Umluftbereich und
   6. vi) einen oberhalb des Produktaufnahmebereichs vorliegenden zweiten Umluftbereich, insbesondere begrenzt durch die Oberseite oder die im Wesentlichen oberseitig angeordnete Verschlussvorrichtung,
2. b) mindestens ein bodenseitig angeordnetes Kühlelement, insbesondere umfassend mindestens ein thermoelektrisches Kühlelement, beispielsweise ein Peltier-Element,
   1. i) mit einer zur Oberseite ausgerichteten Kühlseite bzw. Kaltseite und
   2. ii) gegebenenfalls einer gegenüberliegenden, bodenseitig ausgerichteten Warmseite,
   3. iii) wobei inbesondere die Kühlseite bzw. die Kaltseite den Kühl- und ersten Umluftbereich bodenseitig begrenzt und/oder in diesem mindestens teilweise vorliegt,
3. c) mindestens eine erste Einlassöffnung für Umluft, insbesondere unterhalb des Produktaufnahmebereichs, zur Einleitung von Umluft in den Kühl- und ersten Umluftbereich,
4. d) mindestens eine erste Auslassöffnung zur Aufnahme der über die erste Einlassöffnung in den Kühl- und ersten Umfluftbereich einleitbaren bzw. eingeleiteten Umluft, insbesondere unterhalb des Produktaufnahmebereichs,
5. e) mindestens eine erste Lüftervorrichtung, insbesondere Rotationslüfter, ausgelegt und eingerichtet zur Einspeisung von Umluft, insbesondere über die mindestens eine erste Einlassöffnung, in den oder zur Generierung von Umluft in dem Kühl- und ersten Umluftbereich,
6. f) mindestens eine zweite Einlassöffnung, eingerichtet und angeordnet zur Einspeisung von Umluft in den Produktaufnahmebereich und/oder den zweiten Umluftbereich, insbesondere benachbart oder beabstandet zur Oberseite und/oder zur Entnahmeöffnung und/oder im Wesentlichen angrenzend an die Verschlussvorrichtung, vorzugsweise in einer Seitenwand vorliegend,
   1. i) wobei die mindestens eine erste Auslassöffnung und die mindestens eine zweite Einlassöffnung über mindestens eine erste Umluftleitung miteinander verbunden oder verbindbar sind,
7. g) gegebenenfalls mindestens eine zweite Lüftervorrichtung, insbesondere Rotationslüfter, insbesondere angeordnet in der ersten Umluftleitung, ausgelegt und eingerichtet zur Einspeisung von, insbesondere der ersten Umluftleitung entstammender, Umluft über die mindestens eine zweite Einlassöffnung in den Produktaufnahmebereich und/oder den zweiten Umluftbereich,
8. h) mindestens eine zweite Auslassöffnung eingerichtet und angeordnet zur Aufnahme der über die zweite Einlassöffnung in den Produktaufnahmebereich und/oder den zweiten Umluftbereich eingeleiteten oder einleitbaren Umluft, insbesondere benachbart zur Oberseite und/oder benachbart zur Entnahmeöffnung und/oder im Wesentlichen angrenzend an die Verschlussvorrichtung, vorzugsweise in einer Seitenwand vorliegend,
   1. i) wobei die mindestens eine zweite Auslassöffnung und die mindestens eine erste Einlassöffnung über mindestens eine zweite Umluftleitung miteinander verbunden oder verbindbar sind, wobei vorzugsweise die erste Lüftervorrichtung in der zweiten Umluftleitung angeordnet.

Accordingly, a refrigerator, in particular a freezer, found (also called first inventive cooling device or first cooling device), comprising

1. a) at least one cold room with a top and an opposite bottom side, containing
   1. i) between the top and bottom side one or more side walls facing the refrigerator compartment and the refrigerator compartment side facing away,
   2. ii) at least one, in particular substantially on the upper side or side wall side arranged, removal opening for removing cooled products from the refrigerator,
   3. iii) at least one, in particular foldable or displaceable, closure device for the reversible opening and closing of the removal opening,
   4. iv) a product receiving area, in particular bounded by the upper side and / or bounded by the closing device, particularly preferably present below the closing device when it closes the removal opening,
   5. v) a bottom side arranged, present below the product receiving area cooling and first recirculation area and
   6. vi) a second circulating air region present above the product receiving region, in particular delimited by the upper side or the closure device arranged substantially on the upper side,
2. b) at least one bottom-side arranged cooling element, in particular comprising at least one thermoelectric cooling element, for example a Peltier element,
   1. i) with an upper side facing the cooling side or cold side and
   2. ii) optionally an opposite, bottom-facing hot side,
   3. iii) wherein in particular the cooling side or the cold side delimits the cooling and first circulating air region on the bottom side and / or is at least partially present in the latter,
3. c) at least one first inlet opening for circulating air, in particular below the product receiving area, for introducing circulating air into the cooling and first circulating air area,
4. d) at least one first outlet opening for receiving the circulating air introduced or introduced via the first inlet opening into the cooling and first circulating area, in particular below the product receiving area,
5. e) at least one first fan device, in particular a rotary fan, designed and set up for supplying circulating air, in particular via the at least one first inlet opening, into or for generating circulating air in the cooling and first circulating air region,
6. f) at least one second inlet opening, arranged and arranged for feeding circulating air into the product receiving area and / or the second circulating air area, in particular adjacent to or spaced from the top and / or the removal opening and / or substantially adjacent to the closure device, preferably present in a side wall .
   1. i) wherein the at least one first outlet opening and the at least one second inlet opening are connected to one another or connectable via at least one first recirculating air line,
7. g) if appropriate, at least one second fan device, in particular a rotary fan, in particular arranged in the first recirculation line, designed and adapted for feeding recirculating air, in particular of the first recirculation line, via the at least one second inlet opening into the product receiving area and / or the second circulating air area,
8. h) at least one second outlet opening is arranged and arranged for receiving the circulating air introduced or introduced via the second inlet opening into the product accommodating area and / or the second circulating air area, in particular adjacent to the top side and / or adjacent to the unloading opening and / or substantially adjacent to the closure device, preferably present in a side wall,
   1. i) wherein the at least one second outlet opening and the at least one first inlet opening are connected to one another via at least one second recirculation line or are connectable, wherein preferably the first fan device arranged in the second recirculation line.

With the first cooling device according to the invention, a very effective recirculation or cooling air management succeeds in refrigerators which, in the sense of freezer chests, allow, in particular, top-side access to the cooled products.

• a) mindestens einen Kühlraum mit einer Oberseite und einer gegenüberliegenden Bodenseite, enthaltend
  1. i) zwischen Ober- und Bodenseite eine oder mehrere Seitenwände mit dem Kühlraum zugewandter und dem Kühlraum abgewandter Seite,
  2. ii) mindestens eine, insbesondere im Wesentlichen oberseitig oder seitenwandseitig angeordnete, Entnahmeöffnung zur Entnahme von gekühlten Produkten aus dem Kühlraum,
  3. iii) mindestens eine Verschlussvorrichtung zum reversiblen Öffnen und Verschließen der Entnahmeöffnung,
  4. iv) einen Produktaufnahmebereich, insbesondere begrenzt durch die Oberseite und/oder unterhalb der im Wesentlichen oberseitigen Verschlussvorrichtung, wenn diese die Entnahmeöffnung verschließt,
  5. v) einen bodenseitig angeordneten, unterhalb des Produktaufnahmebereichs vorliegenden Kühl- und/oder ersten Umluftbereich und
  6. vi) gegebenenfalls einen oberhalb des Produktaufnahmebereichs vorliegenden zweiten Umluftbereich, insbesondere begrenzt durch die Oberseite oder die im Wesentlichen oberseitig angeordnete Verschlussvorrichtung,
• b) mindestens ein bodenseitig angeordnetes Kühlelement, insbesondere umfassend mindestens ein thermoelektrisches Kühlelement, beispielsweise ein Peltier-Element,
  1. i) mit einer zur Oberseite ausgerichteten Kühlseite und
  2. ii) gegebenenfalls einer gegenüberliegenden, bodenseitig ausgerichteten Warmseite,
  3. iii) wobei insbesondere die Kühlseite den Kühl- und/oder ersten Umluftbereich bodenseitig begrenzt und/oder in diesem mindestens teilweise vorliegt,
• c) gegebenenfalls mindestens eine erste Einlassöffnung für Umluft, insbesondere unterhalb des Produktaufnahmebereichs, zur Einleitung von Umluft in den Kühl- und ersten Umluftbereich,
• d) gegebenenfalls mindestens eine erste Auslassöffnung zur Aufnahme der über die erste Einlassöffnung in den Kühl- und ersten Umfluftbereich einleitbaren bzw. eingeleiteten Umluft, insbesondere unterhalb des Produktaufnahmebereichs vorliegend,
• e) gegebenenfalls mindestens eine erste Lüftervorrichtung, insbesondere Rotationslüfter, ausgelegt und eingerichtet zur Einspeisung von Umluft, insbesondere über die mindestens eine erste Einlassöffnung, in den oder zur Generierung von Umluft in dem Kühl- und ersten Umluftbereich,
• f) gegebenenfalls mindestens eine zweite Einlassöffnung, eingerichtet und angeordnet zur Einspeisung von Umluft in den Produktaufnahmebereich und/oder den zweiten Umluftbereich, insbesondere benachbart oder beabstandet zur Oberseite und/oder zur Entnahmeöffnung und/oder im Wesentlichen angrenzend an die Verschlussvorrichtung, vorzugsweise in einer Seitenwand, vorliegend,
  1. i) wobei die mindestens eine erste Auslassöffnung und die mindestens eine zweite Einlassöffnung über mindestens eine erste Umluftleitung miteinander verbunden oder verbindbar sind,
• g) gegebenenfalls mindestens eine zweite Lüftervorrichtung, insbesondere Rotationslüfter, insbesondere angeordnet in der ersten Umluftleitung, ausgelegt und eingerichtet zur Einspeisung von, insbesondere der ersten Umluftleitung entstammender, Umluft über die mindestens eine zweite Einlassöffnung in den Produktaufnahmebereich und/oder den zweiten Umluftbereich,
• h) gegebenenfalls mindestens eine zweite Auslassöffnung eingerichtet und angeordnet zur Aufnahme der über die zweite Einlassöffnung in den Produktaufnahmebereich und/oder den zweiten Umluftbereich eingeleiteten oder einleitbaren Umluft, insbesondere benachbart zur Oberseite und/oder benachbart zur Entnahmeöffnung und/oder im Wesentlichen angrenzend an die Verschlussvorrichtung, vorzugsweise in einer Seitenwand, vorliegend,
  1. i) wobei die mindestens eine zweite Auslassöffnung und die mindestens eine erste Einlassöffnung über mindestens eine zweite Umluftleitung miteinander verbunden oder verbindbar sind, wobei vorzugsweise die erste Lüftervorrichtung in der zweiten Umluftleitung angeordnet ist,
• j) mindestens eine Flüssigkeitsableitungsvorrichtung, insbesondere Flüssigkeitsableitungsöffnung, vorzugsweise in der Bodenseite oder der Seitenwand des Kühlraums,
• k) mindestens ein Kühlrippenmodul mit einer Vielzahl an beabstandeten, insbesondere gleichgerichteten, durch Flüssigkeitsablaufrinnen, enthaltend ein, insbesondere eine Voder U-förmige Einkerbung aufweisendes, Abtropfende, voneinander getrennten Kühlrippen, die im Kühl- und ersten Umluftbereich angeordnet sind und in thermischer Wirkverbindung mit der Kühlseite bzw. Kaltseite des thermoelektrischen Kühlelements, insbesondere Peltier-Elements, stehen,
  1. i) wobei die Flüssigkeitsablaufrinnen in Richtung der Flüssigkeitsableitungsvorrichtung, insbesondere Flüssigkeitsableitungsöffnung, geneigt sind, insbesondere in einem Winkel aus der Horizontalen im Bereich von 1 bis 15°, und wobei deren Abtropfenden oberhalb der Flüssigkeitsableitungsvorrichtung, insbesondere Flüssigkeitsableitungsöffnung, vorliegen, so dass Flüssigkeit über die Abtropfenden der Flüssigkeitsablaufrinnen, insbesondere schwerkraftgetrieben, über die Flüssigkeitsableitungsvorrichtung, insbesondere Flüssigkeitsableitungsöffnung, aus dem Kühlraum ableitbar ist.

Furthermore, a further cooling device, in particular a freezer, found (also called second inventive cooling device or second cooling device), comprising

• a) at least one cold room with a top and an opposite bottom side, containing
  1. i) between the top and bottom side one or more side walls facing the refrigerator compartment and the refrigerator compartment side facing away,
  2. ii) at least one, in particular substantially on the upper side or side wall side arranged, removal opening for removing cooled products from the refrigerator,
  3. iii) at least one closure device for reversibly opening and closing the removal opening,
  4. iv) a product receiving area, in particular bounded by the upper side and / or below the substantially upper-side closing device, when it closes the removal opening,
  5. v) a bottom side arranged below the product receiving area present cooling and / or first recirculation area and
  6. vi) optionally a second recirculating air region present above the product receiving region, in particular bounded by the upper side or the closure device arranged substantially on the upper side,
• b) at least one bottom-side arranged cooling element, in particular comprising at least one thermoelectric cooling element, for example a Peltier element,
  1. i) with a top side facing the cooling side and
  2. ii) optionally an opposite, bottom-facing hot side,
  3. iii) wherein in particular the cooling side delimits the cooling and / or first circulating air region on the bottom side and / or is at least partially present in the latter,
• c) if appropriate, at least one first inlet opening for circulating air, in particular below the product receiving area, for introducing circulating air into the cooling and first circulating air area,
• d) if appropriate, at least one first outlet opening for receiving the circulating air which can be introduced or introduced into the cooling and first circulating area via the first inlet opening, in particular below the product receiving area,
• e) if appropriate, at least one first fan device, in particular a rotary fan, designed and set up for supplying circulating air, in particular via the at least one first inlet opening, into or for generating circulating air in the cooling and first circulating air region,
• f) optionally at least one second inlet opening, arranged and arranged for feeding circulating air into the product receiving area and / or the second circulating air area, in particular adjacent to or spaced from the top and / or the removal opening and / or substantially adjacent to the closure device, preferably in a side wall , present,
  1. i) wherein the at least one first outlet opening and the at least one second inlet opening are connected to one another or connectable via at least one first recirculating air line,
• g) if appropriate, at least one second fan device, in particular a rotary fan, in particular arranged in the first recirculation line, designed and adapted for feeding recirculating air, in particular of the first recirculation line, via the at least one second inlet opening into the product receiving area and / or the second circulating air area,
• h) if appropriate, at least one second outlet opening is set up and arranged for receiving the circulating air introduced or introduced via the second inlet opening into the product accommodating area and / or the second circulating air area, in particular adjacent to the top side and / or adjacent to the unloading opening and / or substantially adjacent to the closure device , preferably in a side wall, present,
  1. i) wherein the at least one second outlet opening and the at least one first inlet opening are connected to one another via at least one second recirculation line or are connectable, wherein preferably the first fan device is arranged in the second recirculation line,
• j) at least one liquid discharge device, in particular liquid discharge opening, preferably in the bottom side or the side wall of the cooling space,
• k) at least one cooling fin module with a plurality of spaced, in particular rectified, by Flüssigkeitsablaufrinnen containing one, in particular a V or U-shaped notch having, dripping, separate cooling fins, which are arranged in the cooling and first recirculation area and in thermal operative connection with the Cooling side or cold side of the thermoelectric cooling element, in particular Peltier element, stand,
  1. i) wherein the Flüssigkeitsablaufrinnen are inclined in the direction of the liquid discharge device, in particular Flüssigkeitseabitungsöffnung, in particular at an angle from the horizontal in the range of 1 to 15 °, and wherein the drip ends above the liquid discharge device, in particular liquid discharge, are present, so that liquid on the drip ends the Flüssigkeitsablaufrinnen, in particular gravity-driven, via the liquid discharge device, in particular Flüssigkeitseabitungsöffnung, can be derived from the cooling space.

In a particularly preferred embodiment, the second cooling device according to the invention also includes all the features of the first cooling device according to the invention.

For the cooling element of the first and second cooling device according to the invention can be used in principle to known cooling units. Particularly preferred here is a thermoelectric cooling element is used. In a particularly expedient embodiment, this thermoelectric cooling element comprises at least one Peltier element. Such thermoelectric cooling elements can be made very thin or flat, require little space per se and allow very compact held first and second cooling devices according to the invention. In the case of these cooling appliances according to the invention, in the preferred use of thermoelectric cooling elements, use is made of these having a cold side and an immediately opposite hot side. The heat energy can be used to evaporate dissipated condensate faster.

Particularly preferred are such second cooling devices according to the invention, which are characterized in that the liquid drainage channels in the direction of the Flüssigkeitsabtropföffnung, in particular the Flüssigkeitsabtropfspalts are inclined, that the Flüssigkeitsablaufrinnen have a first end and an opposite second end, that the dripping end is present at the first end in that the second ends are aligned, in particular adjacent, to the first inlet opening and the second ends aligned, in particular adjacent to the first outlet opening, that the liquid drainage channels and in particular also the cooling ribs are arranged or arrangable substantially from the first inlet opening to the first outlet opening, in particular substantially parallel to the stream of circulating air which originates from the first inlet opening and escapes through the first outlet opening after passage of the cooling and first circulating air region, and preferably that the at least one first fan device is present in or adjacent to the first inlet opening and / or in the second recirculation line. With this further development of the second cooling devices according to the invention, it is possible to particularly effectively prevent the passage of condensation as well as to ensure rapid achievement of the cooling temperature as well as the maintenance of a desired target temperature even with frequent opening and closing of the closure device.

The draining or dripping of condensed liquid at the cooling unit succeeds in the first and second devices according to the invention in a very effective manner, especially when the drip ends of the liquid drainage channels have a notch, in particular V-shaped or U-shaped.

The first and second cooling devices according to the invention may have, for example, a cylindrical, cubic or cuboid basic shape. Accordingly, it can be provided that the one side wall has a rounded or circumferentially curved course, in particular is cylindrical, or that the plurality of side walls comprise four side walls, wherein adjacent side walls are preferably arranged perpendicular to one another.

In a particularly expedient embodiment of the first and second cooling devices, the removal opening is provided on the upper side of the cooling space, so that the closure device delimits the cooling space on the upper side. Here, the closure device for Example be foldable or movable. Such closure devices are formed in a particularly advantageous embodiment thermally insulating.

On the bottom side, the product receiving area is limited in a suitable embodiment by the cooling and first circulating air area. In the cooling and first circulating air region, air which is provided for the circulating air management of the first and second cooling device according to the invention is cooled by the cooling unit present therein and also forwarded, so that it can be conducted into or through the product receiving region. In this way, the cooling area as the first recirculation area forms part of the circulating air circuit, as is made possible by the first and second cooling units according to the invention.

According to a particularly expedient embodiment, the first and the second cooling device according to the invention further comprise at least one product support element, in particular made of metal, for example in the form of one or more metal plates, which separates the product receiving area from the cooling and first circulating air area. Particularly preferred here is a support or separation plate made of thermally highly conductive material, such as a metal plate used. The product support element, for example in the form of at least one metal plate, in a preferred embodiment is designed to be air-tight and in particular also liquid-tight. In this way, on the one hand, it is ensured that no recirculated air from the cooling and first circulating air region, which has not yet cooled sufficiently, reaches the product receiving region. In addition, condensation can be prevented from entering the cooling and first circulating air areas from above. Alternatively, however, at least one drainage possibility for condensation water in the product support element or adjacent thereto may be provided over the condensate formed in the product receiving area on the Flüssigkeitsablaufrinnen in the cooling and first recirculation area or can be passed immediately into the liquid receiving opening. For this example, the product support element, in particular slightly, be mounted inclined from the horizontal. This drainage option is preferably designed such that an immediate penetration of circulating air from the cooling and first circulating air region is made difficult or prevented, for example by a circulating air deflecting device.

In particular, if the product support element, preferably the metal plate, do not allow the passage of liquid from the product receiving area into the cooling and first circulating air region, such first and second cooling devices according to the invention have proved to be particularly advantageous, in which on the product support element or on the at least one metal plate at least one latticed, reticulated and / or perforated further product support device, in particular plate, in particular of metal or plastic, is present.

The product support elements, in particular the at least one product support plate can in a preferred embodiment of the first and second cooling devices according to the invention rest on the cooling fin combs. Alternatively, it is also possible to anchor the or the product support elements in the side walls of the cooling space or to fly up from the cooling and first air circulation area extending stand. Due to the direct contact with the cooling ribs when resting on at least one cooling rib comb cooling can also be entered via the product support element in the product receiving area.

Alternatively, can be dispensed with a product support element. This is possible in particular when the product (s) come to bear directly on the cooling fin combs and thereby close the product receiving area on the bottom side in such a way that direct entry of circulated from the cooling and first circulating air region into the product receiving region can be prevented.

In the case of the first and second cooling units according to the invention, a particularly effective recirculation management is also ordered by the first inlet opening and the first outlet opening being present in the side wall (s) delimiting the cooling and first recirculating air area and / or arranged substantially opposite one another are.

Particularly suitable first and / or second fan devices comprise at least one rotary fan, in particular transverse fan. Also other radial or axial fans can be used. In the first and second cooling units, cross fans are preferably used as first and / or second fan devices.

In the case of the first and second cooling units according to the invention, it is possible, in particular, to contribute to a particularly effective cooling of the product receiving area be that the first and / or the second circulating air line are limited cooling space side by the side facing away from the cooling chamber side of the side wall and / or that they are in thermal operative connection with the cooling chamber facing away from the side wall. In this way, the product receiving area can already be cooled with on the side walls of the refrigerator. The first and / or the second recirculating air line are preferably limited on the outside by a thermally insulated outer wall of the first and second cooling device according to the invention. The first and / or second recirculation line may extend in a preferred embodiment over the entire width of the side wall of the cooling space.

In a particularly suitable embodiment of the first and second cooling device according to the invention, provision can be made for the second inlet opening and the second outlet opening to be present in the side walls or walls of the cooling space and / or arranged opposite one another. By arranging the second inlet opening and the second outlet opening opposite one another, the most unrestricted circulating air flow can be generated and maintained. In this way one arrives at a particularly effective circulating air circulation or circulating air management. Contribute in particular also those embodiments of the first and the second cooling devices according to the invention, in which the first inlet opening and the first outlet opening are arranged approximately at the same height. In the same way, it is advantageous if the second inlet opening and the second outlet opening are arranged approximately at the same height.

The product support elements, in particular the at least one product support plate can in a preferred embodiment of the first and second cooling devices according to the invention rest on the cooling fin combs. Alternatively, it is also possible to anchor the or the product support elements in the side walls of the cooling space or to fly up from the cooling and first air circulation area extending stand. Due to the direct contact with the cooling ribs when resting on at least one cooling rib comb cooling can also be entered via the product support element in the product receiving area.

Particularly advantageous are also such first and second cooling devices according to the invention have proven, in which at least a third fan device, in particular a rotary fan, is provided, which is set up and designed to generate a recirculating air flow along the hot side of the thermoelectric cooling element, in particular in the direction of the Flüssigkeitsabtropföffnung.

Moreover, it has proved to be very pragmatic to equip the first and second cooling devices according to the invention with at least one liquid collecting device below the liquid dripping opening. This liquid collecting device, for example in the form of a collecting trough, is favorably present in the warm air flow which is generated by the third ventilating device, in particular by virtue of air being connected to the hot side of the thermoelectric cooling element, which is preferably connected to a multiplicity of ribs of thermally conductive material. is directed. Alternatively or additionally, the third fan device may itself have a heating device, e.g. as known from a hair dryer. In order to ensure particularly rapid evaporation of the collected condensed water, the liquid collecting device can be designed to be heatable or comprise a heating device or be equipped with such. Such a suitable heating device can also be accomplished in the first and second cooling devices according to the invention in that the liquid collecting device, in particular on the liquid receiving side, has a thermoelectric coating. Furthermore, such first and second refrigerators according to the invention are particularly preferred, in which the liquid collecting device, in particular on the liquid receiving side, are biocidally equipped, preferably a biocidal metal such as copper or silver, for example, as an alloying ingredient, or formed thereof, and or containing a biocidal compound. In this way, e.g. the formation of microorganisms such as molds or bacteria are prevented.

The object underlying the invention is also achieved by a first cooling module according to the invention with a, in particular substantially horizontal, mounting plane, also called first plane, comprising
at least one, in particular thermoelectric, cooling element, in particular containing at least one Peltier element, with a cooling side and optionally an opposite hot side, and
at least one with the cooling side of, in particular thermoelectric, cooling element, in particular containing at least one Peltier element in thermal operative connection vertical or movable cooling fin module with a plurality of spaced, in particular rectified, by Flüssigkeitsablaufrinnen containing a drip end and the drip end opposite, separate from each other, facing away from the cooling side cooling fins, each comprising a cooling fin body and a cooling fin comb, wherein the cooling fins in a cooling and / or circulating air region can be arranged, wherein the cooling fin combs are preferably substantially in one plane, also called second plane, the Flüssigkeitsablaufrinnen towards the drip end, in particular substantially in the same direction, with respect to the first and / or second plane, in particular at an angle in the range of 1 to 15 °, more preferably in a range of 3 to 10 °, inclined, in particular with a dripping end at least partially increasing depression, and wherein the liquid drainage channels at the draining preferably one, esp particular substantially V- or U-shaped, notch.

The object underlying the invention is further achieved by a first cooling fin module with a, in particular substantially horizontal, mounting plane, also called first plane, with a plurality of spaced, in particular rectified, by Flüssigkeitsablaufrinnen containing a drip end and the drip end opposite end , separate cooling fins, each comprising a cooling fin body and a cooling fin comb, wherein the cooling fins are arranged in a cooling and / or recirculation area, wherein the fins preferably ribs in a plane, also called second plane, the Flüssigkeitsablaufrinnen toward the Dripping, in particular substantially in the same direction, with respect to the first and / or second plane, in particular at an angle in the range of 1 to 15 °, more preferably in a range of 3 to 10 °, inclined, in particular with a drip end at least abs chnittsweise increasing depression, and wherein the liquid drainage channels at the dripping end preferably have a, in particular substantially V- or U-shaped, notch.

The first cooling module according to the invention or the first cooling fin module according to the invention are preferably used in the first and second cooling device according to the invention.

1. a) mindestens einen Kühlraum mit einer Frontseite und einer gegenüberliegenden Rückseite, enthaltend
   1. i) zwischen Front- und Rückseite Seitenwände mit dem Kühlraum zugewandter und dem Kühlraum abgewandter Seite sowie Ober- und Unterseite, jeweils mit einer dem Kühlraum zugewandten und dem Kühlraum abgewandten Seite,
   2. ii) mindestens eine, insbesondere im Wesentlichen frontseitig oder seitenwandseitig angeordnete, Entnahmeöffnung zur Entnahme von gekühlten Produkten aus dem Kühlraum,
   3. iii) mindestens eine, insbesondere klappbare oder verschiebbare, Verschlussvorrichtung zum reversiblen Öffnen und Verschließen der Entnahmeöffnung,
   4. iv) einen Produktaufnahmebereich, insbesondere front- und/oder seitenwandseitig begrenzt durch die Verschlussvorrichtung, wenn diese die Entnahmeöffnung verschließt,
   5. v) einen rückseitig angeordneten, sich an den Produktaufnahmebereich unmittelbar oder mittelbar anschließenden Kühl- und ersten Umluftbereich und
   6. vi) gegebenenfalls einen vor dem Produktaufnahmebereich vorliegenden zweiten Umluftbereich,
   7. vii) gegebenenfalls mindestens ein Produktauflageelement, insbesondere aus Metall, beispielsweise in Form einer oder mehrerer Metallplatten, an oder benachbart zur Unterseite,
2. b) mindestens ein rückseitig angeordnetes Kühlelement, insbesondere thermoelektrisches Kühlelement, beispielsweise Peltierelement,
   1. i) mit einer zur gegenüberliegenden Frontseite ausgerichteten Kühlseite und
   2. ii) gegebenenfalls einer gegenüberliegenden, rückseitig ausgerichteten Warmseite,
   3. iii) wobei die Kühlseite den Kühl- und ersten Umluftbereich rückseitig begrenzt und/oder in der Rückseite mindestens teilweise vorliegt,
3. c) mindestens eine Trennwand zur Trennung von Kühl- und erstem Umluftbereich und Produktaufnahmebereich, insbesondere gebildet aus Metall, mit mindestens einer ersten Einlassöffnung, insbesondere an der Rückseite des Produktaufnahmebereichs, zur Einleitung von dem Produktaufnahmebereich entstammender Luft in den Kühl- und ersten Umluftbereich ,
4. d) mindestens eine erste Auslassöffnung zur Aufnahme der über die erste Einlassöffnung in den Kühl- und ersten Umluftbereich einleitbaren bzw. eingeleiteten und in dem Kühl-und ersten Umluftbereich gekühlten Umluft,
5. e) mindestens eine zweite Einlassöffnung, insbesondere benachbart zur Entnahmeöffnung und/oder im Wesentlichen angrenzend an die Verschlussvorrichtung und/oder vorzugsweise in einer Seitenwand, Oberseitenwand und/oder Unterseitenwand vorliegend, wobei die mindestens eine erste Auslassöffnung und die mindestens eine zweite Einlassöffnung über mindestens eine erste Umluftleitung miteinander verbunden oder verbindbar sind wobei die mindestens eine zweite Einlassöffnung eingerichtet und angeordnet ist zur Einleitung der über die erste Umluftleitung dem Kühl- und ersten Umluftbereich entstammender Umluft in den Produktaufnahmebereich,
6. f) mindestens eine erste Lüftervorrichtung, insbesondere in dem oder benachbart zu dem Kühl- und ersten Umluftbereich, ausgelegt und eingerichtet zur Einspeisung von Umluft über die mindestens eine erste Einlassöffnung in den Kühl- und ersten Umluftbereich.

The object underlying the invention is further solved by a cooling device, in particular in the form of a refrigerator or a refrigerated display case, (hereinafter also referred to as third cooling device according to the invention or third cooling device) comprising

1. a) at least one cold room with a front side and an opposite rear side, containing
   1. i) between the front and rear side walls facing the cooling space and the cooling space facing away from the top and bottom, each with a cooling chamber facing away from the refrigerator and the side,
   2. ii) at least one, in particular substantially at the front or side wall side arranged, removal opening for removing cooled products from the cold room,
   3. iii) at least one, in particular foldable or displaceable, closure device for the reversible opening and closing of the removal opening,
   4. iv) a product receiving area, in particular bounded on the front and / or side wall side by the closure device, when it closes the removal opening,
   5. v) arranged on the back, directly or indirectly adjoining the product receiving area cooling and first recirculation area and
   6. vi) optionally a second recirculating air area present in front of the product receiving area,
   7. vii) optionally at least one product support element, in particular of metal, for example in the form of one or more metal plates, on or adjacent to the underside,
2. b) at least one rear-side arranged cooling element, in particular thermoelectric cooling element, for example Peltier element,
   1. i) with a front side facing the cooling side and
   2. ii) optionally an opposite, back-aligned hot side,
   3. iii) wherein the cooling side delimits the cooling and first circulating air region on the rear side and / or is at least partially present in the back side,
3. c) at least one partition wall for separating the cooling and first circulating air region and product receiving region, in particular formed from metal, with at least one first inlet opening, in particular at the rear side of the product accommodating region, for introducing air originating from the product accommodating region into the cooling and first circulating air region,
4. d) at least one first outlet opening for receiving the circulating air which can be introduced or introduced via the first inlet opening into the cooling and first circulating air area and cooled in the cooling and first circulating air area,
5. e) at least one second inlet opening, in particular adjacent to the removal opening and / or substantially adjacent to the closure device and / or preferably present in a side wall, top wall and / or bottom side wall, wherein the at least one first outlet opening and the at least one second inlet opening via at least one wherein the at least one second inlet opening is set up and arranged for introducing the circulating air, which originates from the first circulating air line into the cooling and first circulating air area, into the product receiving area,
6. f) at least one first fan device, in particular in or adjacent to the cooling and first circulating air region, designed and arranged for feeding circulating air via the at least one first inlet opening into the cooling and first circulating air region.

• a) mindestens einen Kühlraum mit einer Frontseite und einer gegenüberliegenden Rückseite, enthaltend
  1. i) zwischen Front- und Rückseite Seitenwände mit dem Kühlraum zugewandter und dem Kühlraum abgewandter Seite sowie Ober- und Unterseite, jeweils mit einer dem Kühlraum zugewandten und dem Kühlraum abgewandten Seite,
  2. ii) mindestens eine, insbesondere im Wesentlichen frontseitig oder seitenwandseitig angeordnete, Entnahmeöffnung zur Entnahme von gekühlten Produkten aus dem Kühlraum,
  3. iii) mindestens eine, insbesondere klappbare oder verschiebbare, Verschlussvorrichtung zum reversiblen Öffnen und Verschließen der Entnahmeöffnung,
  4. iv) einen Produktaufnahmebereich, insbesondere front- und/oder seitenwandseitig begrenzt durch die Entnahmeöffnung oder die Verschlussvorrichtung, wenn diese die Entnahmeöffnung verschließt,
  5. v) einen rückseitig angeordneten, sich an den Produktaufnahmebereich unmittelbar oder mittelbar anschließenden Kühl- und ersten Umluftbereich und
  6. vi) gegebenenfalls einen vor dem Produktaufnahmebereich vorliegenden zweiten Umluftbereich,
  7. vii) gegebenenfalls mindestens ein Produktauflageelement, insbesondere aus Metall, beispielsweise in Form einer oder mehrerer Metallplatten, an oder benachbart zur Unterseite,
• b) mindestens ein rückseitig angeordnetes Kühlelement, insbesondere thermoelektrisches Kühlelement, beispielsweise Peltier-Element,
  1. i) mit einer zur gegenüberliegenden Frontseite ausgerichteten Kühlseite und
  2. ii) gegebenenfalls einer gegenüberliegenden, rückseitig ausgerichteten Warmseite,
  3. iii) wobei insbesondere die Kühlseite den Kühl- und ersten Umluftbereich rückseitig begrenzt und/oder in der Rückseite mindestens teilweise vorliegt,
• c) mindestens eine Trennwand zur Trennung von Kühl- und erstem Umluftbereich und Produktaufnahmebereich, insbesondere aus Metall, mit mindestens einer ersten Einlassöffnung, insbesondere an der Rückseite des Produktaufnahmebereichs, zur Einleitung von dem Produktaufnahmebereich entstammender Luft in den Kühl- und ersten Umluftbereich,
• d) mindestens eine erste Auslassöffnung zur Aufnahme der über die erste Einlassöffnung in den Kühl- und ersten Umluftbereich einleitbaren bzw. eingeleiteten und in dem Kühl-und ersten Umluftbereich gekühlten Umluft,
• e) mindestens eine zweite Einlassöffnung, insbesondere benachbart zur Entnahmeöffnung und/oder im Wesentlichen angrenzend an die Verschlussvorrichtung und/oder vorzugsweise in einer Seitenwand, Oberseitenwand und/oder Unterseitenwand vorliegend, wobei die mindestens eine erste Auslassöffnung und die mindestens eine zweite Einlassöffnung über mindestens eine erste Umluftleitung miteinander verbunden oder verbindbar sind wobei die mindestens eine zweite Einlassöffnung eingerichtet und angeordnet ist zur Einleitung der über die erste Umluftleitung dem Kühl- und ersten Umluftbereich entstammender Umluft in den Produktaufnahmebereich,
• f) mindestens eine erste Lüftervorrichtung, insbesondere in dem oder benachbart zu dem Kühl- und ersten Umluftbereich, ausgelegt und eingerichtet zur Einspeisung von Umluft über die mindestens eine erste Einlassöffnung in den Kühl- und ersten Umluftbereich,
• j) mindestens eine Flüssigkeitsableitungsvorrichtung, insbesondere Flüssigkeitsableitungsöffnung, insbesondere in der Bodenseite oder der Seitenwand des Kühl- und ersten Umluftraums,
• k) mindestens ein Kühlrippenmodul mit einer Vielzahl an beabstandeten, insbesondere gleichgerichteten, durch Flüssigkeitsablaufrinnen, enthaltend ein, insbesondere eine V-oder U-förmige Einkerbung aufweisendes, Abtropfende, voneinander getrennten Kühlrippen, die im Kühl- und ersten Umluftbereich angeordnet sind und in thermischer Wirkverbindung mit der Kühlseite des, insbesondere thermoelektrischen, Kühlelements, besonders bevorzugt des mindestens einen Peltier-Elements, stehen,
  1. i) wobei das Kühlrippenmodul enthaltend die Vielzahl an Kühlrippen und/oder die Vielzahl an Flüssigkeitsablaufrinnen im Wesentlichen vertikal oder, insbesondere in einem Winkel im Bereich von 1 bis 15°, aus der Vertikalen geneigt angeordnet ist und/oder wobei das Kühlrippenmodul enthaltend die Vielzahl an Kühlrippen und/oder die Vielzahl an Flüssigkeitsablaufrinnen eine Flüssigkeitsablaufebene bilden oder Bestandteil hiervon sind, die im Wesentlichen vertikal oder, insbesondere in einem Winkel im Bereich von 1 bis 15°, aus der Vertikalen geneigt angeordnet ist,
  2. ii) wobei die Kühlrippen und die Flüssigkeitsablaufrinnen, insbesondere geradlinig, horizontal und/oder schräg in Richtung der Flüssigkeitsableitungsvorrichtung, insbesondere Flüssigkeitsableitungsöffnung, verlaufen, so dass Flüssigkeit über die mindestens eine Flüssigkeitsablaufrinne und/oder Kühlrippe, insbesondere schwerkraftgetrieben, zu der Flüssigkeitsableitungsvorrichtung, insbesondere Flüssigkeitsableitungsöffnung, transferierbar ist.

Furthermore, a further cooling device, in particular in the form of a refrigerator or a refrigerated display case was found (also called fourth cooling device according to the invention or fourth cooling device) comprising

• a) at least one cold room with a front side and an opposite rear side, containing
  1. i) between the front and rear side walls facing the cooling space and the cooling space facing away from the top and bottom, each with a cooling chamber facing away from the refrigerator and the side,
  2. ii) at least one, in particular substantially at the front or side wall side arranged, removal opening for removing cooled products from the cold room,
  3. iii) at least one, in particular foldable or displaceable, closure device for the reversible opening and closing of the removal opening,
  4. iv) a product receiving area, in particular bounded on the front and / or side wall side by the removal opening or the closure device, when the latter closes the removal opening,
  5. v) arranged on the back, directly or indirectly adjoining the product receiving area cooling and first recirculation area and
  6. vi) optionally a second recirculating air area present in front of the product receiving area,
  7. vii) optionally at least one product support element, in particular of metal, for example in the form of one or more metal plates, on or adjacent to the underside,
• b) at least one rear-side arranged cooling element, in particular thermoelectric cooling element, for example Peltier element,
  1. i) with a front side facing the cooling side and
  2. ii) optionally an opposite, back-aligned hot side,
  3. iii) wherein, in particular, the cooling side delimits the cooling and first circulating air region on the rear side and / or is present at least partially in the rear side,
• c) at least one partition wall for separating the cooling and first circulating air region and product receiving region, in particular made of metal, with at least one first inlet opening, in particular at the rear of the product receiving region, for introducing air originating from the product accommodating region into the cooling and first circulating air region,
• d) at least one first outlet opening for receiving the circulating air which can be introduced or introduced via the first inlet opening into the cooling and first circulating air area and cooled in the cooling and first circulating air area,
• e) at least one second inlet opening, in particular adjacent to the removal opening and / or substantially adjacent to the closure device and / or preferably present in a side wall, top wall and / or bottom side wall, wherein the at least one first outlet opening and the at least one second inlet opening The at least one second inlet opening is set up and arranged for introducing the circulating air, which originates from the cooling and first circulating air area via the first recirculation air line, into the product reception area, via at least one first recirculation air line.
• f) at least one first fan device, in particular in or adjacent to the cooling and first circulating air region, designed and arranged for feeding circulating air via the at least one first inlet opening into the cooling and first circulating air region,
• j) at least one liquid discharge device, in particular liquid discharge opening, in particular in the bottom side or the side wall of the cooling and first circulating air space,
• k) at least one cooling fin module with a plurality of spaced, in particular rectified, by Flüssigkeitsablaufrinnen containing a, in particular a V- or U-shaped notch having, dripping, separate cooling fins, which are arranged in the cooling and first recirculation area and in thermal operative connection with the cooling side of the, in particular thermoelectric, cooling element, particularly preferably of the at least one Peltier element,
  1. i) wherein the cooling fin module containing the plurality of cooling fins and / or the plurality of liquid drainage channels is arranged substantially vertically or, in particular at an angle in the range of 1 to 15 °, inclined from the vertical and / or wherein the cooling fin module containing the plurality of Cooling fins and / or the plurality of fluid drainage channels form or are part of a fluid drainage plane, which is arranged substantially vertically or, in particular at an angle in the range of 1 to 15 °, inclined from the vertical,
  2. ii) wherein the cooling ribs and the liquid drainage channels, in particular in a straight line, extend horizontally and / or obliquely in the direction of the liquid discharge device, in particular liquid discharge opening, so that liquid flows via the at least one liquid drainage channel and / or cooling rib, in particular gravitationally driven, to the liquid discharge device, in particular liquid discharge opening, is transferable.

In a particularly preferred embodiment, the third cooling device according to the invention also includes all the features of the fourth cooling device according to the invention.

For the cooling element of the third and fourth cooling device according to the invention can be used in principle to known cooling units. Particularly preferred here is a thermoelectric cooling element is used. In a particularly expedient embodiment, this thermoelectric cooling element comprises at least one Peltier element. Such thermoelectric cooling elements can be made very thin or flat, require little space per se and allow very compact held third and fourth cooling devices according to the invention.

In a preferred embodiment of the third and fourth cooling device according to the invention, it is provided that the removal opening is present on the front side of the cooling space and / or that the closure device delimits the cooling space on the front. In this case, the closure device can be foldable or displaceable, for example. Such closure devices are formed in a particularly advantageous embodiment thermally insulating.

In the case of the third and fourth cooling device according to the invention, in an expedient refinement, the product receiving region is delimited on the back by the cooling and first circulating air region.

The third and fourth cooling devices according to the invention have, in particular, at least one second inlet opening in a first side wall and at least one further second inlet opening in the opposite second side wall. The second inlet openings present in the first and second side walls are preferably arranged opposite one another. Particularly preferably, these second inlet openings are adjacent to the removal opening or the closure device. In this way, as a rule, a particularly good complete admission of the product receiving area with cooled circulating air succeeds.

The third and fourth cooling devices according to the invention are preferably also distinguished by the fact that the at least one first circulating air line is delimited on the cold room side by the side of the side wall facing away from the cooling space and / or in thermal operative connection with the side of the side wall facing away from the cooling space. In this way, the product receiving area can already be cooled with on the side walls of the refrigerator. The first recirculation line is preferably on the outside by a thermally insulated outer wall of the third and fourth cooling device according to the invention limited. The first recirculation line may extend in a preferred embodiment over the entire width of the side wall of the cooling space.

A particularly effective recirculation management is achieved in the third and fourth cooling devices according to the invention by using at least one second fan device, in particular a rotary fan, which is set up and designed to generate a recirculating air flow in the first recirculation line and / or in the cooling and first recirculation area.

Such third and fourth cooling devices according to the invention have proven particularly expedient, in which at least one third fan device, in particular a rotary fan, is provided, which is set up and designed to generate a circulating air flow along the hot side of the thermoelectric cooling element, in particular in the direction of the liquid discharge opening, For example, Flüssigkeitsabtropföffnung, and / or along the collecting device.

Moreover, it has proven to be very pragmatic to equip the third and fourth cooling devices according to the invention with at least one liquid collecting device below the liquid dripping opening. This liquid collecting device, for example in the form of a collecting trough, is conveniently located in the hot air flow generated by the third fan device. In order to ensure particularly rapid evaporation of the collected condensed water, the liquid collecting device can be designed to be heatable or comprise a heating device or be equipped with such.

Moreover, it has proven to be very pragmatic to equip the third and fourth cooling devices according to the invention with at least one liquid collecting device below the liquid dripping opening. This liquid collecting device, for example in the form of a collecting trough, is favorably provided in the hot air stream which is generated by the third ventilating device, in particular by passing air on the hot side of the thermoelectric cooling element, which is preferably connected to a plurality of ribs of thermally conductive material becomes. Alternatively or additionally, the third fan device itself may have a heating device, for example as known from a hair dryer. In order to ensure a particularly rapid evaporation of the collected condensed water, the liquid collecting device can be heated be or include a heater or be equipped with such. In the case of the third and fourth cooling devices according to the invention, such a suitable heating device can also be accomplished by virtue of the fact that the liquid collecting device, in particular on the side receiving the liquid, has a thermoelectric coating. Furthermore, such third and fourth cooling devices according to the invention are particularly preferred in which the liquid collecting device, in particular on the liquid receiving side, are biocidically equipped, preferably a biocidal metal such as copper or silver, for example, as an alloying ingredient, or are formed thereof, and or containing a biocidal compound. In this way, for example, the formation of microorganisms such as molds or bacteria can be prevented.

In addition, such third and fourth cooling units according to the invention are of particular advantage, in which the inclined cooling ribs have an arcuate or an angle or roof-shaped course, so that via the intermediate cooling channels condensate gravity driven and / or supported by the air pressure generated by the fan device the dripping ends passes to the liquid discharge device. The angle or roof shape forming legs of the cooling fins have in generic use in particular an angle in the range of 10 ° to 120 °, more preferably an angle in the range of 20 ° to 100 °. In particular straight rectilinear cooling fins form in generic use with respect to the vertical in particular an angle in the range of 20 ° to 60 °, more preferably an angle in the range of 30 ° to 50 °.

1. i) wobei das Kühlrippenmodul enthaltend die Vielzahl an Kühlrippen und/oder die Vielzahl an Flüssigkeitsablaufrinnen, insbesondere die erste Ebene, im Wesentlichen vertikal oder, insbesondere in einem Winkel im Bereich von 1 bis 15°, aus der Vertikalen geneigt anordenbar ist oder vorliegt,
2. ii) wobei die Kühlrippen und die Flüssigkeitsablaufrinnen bei vertikal angeordnetem Kühlrippenmodul, insbesondere geradlinig, horizontal, schräg, dach-bzw. winkel- und/oder bogenförmig verlaufen, so dass Flüssigkeit über die Flüssigkeitsablaufrinnen und/oder Kühlrippen schwerkraftgetrieben zu den Abtropfenden transferierbar ist.

The object underlying the invention is further achieved by a second cooling module with a, in particular substantially vertically arranged, mounting plane, also called first plane, with an upper and an opposite lower edge comprising at least one, in particular thermoelectric, cooling element, in particular containing at least one Peltier element, with a cooling side and optionally an opposite hot side and at least one with the cooling side of, in particular thermoelectric, cooling element, in particular containing at least one Peltier element, in thermal operative connection or bringable cooling fin module with a plurality of spaced apart, in particular rectified, by Flüssigkeitsablaufrinnen containing at least one dripping end, separated from each other, from the cooling side continuous cooling fins, each containing a cooling fin body and a cooling fin comb, in particular at least one present on or in the upper edge, the Flüssigkeitsablaufrinnen verschließendes closing element, preferably end strip, the cooling fins can be arranged in a cooling and / or recirculation area, the fins preferably combs substantially exist in one plane, also called second plane,

1. i) wherein the cooling rib module containing the plurality of cooling fins and / or the plurality of fluid drainage channels, in particular the first plane, is arranged substantially vertically or, in particular at an angle in the range of 1 to 15 °, inclined from the vertical or is present,
2. ii) wherein the cooling fins and the Flüssigkeitsablaufrinnen with vertically arranged cooling fin module, in particular straight, horizontal, oblique, roof or. extend angularly and / or arcuately, so that liquid can be transferred via the fluid drainage channels and / or cooling ribs gravity driven to the drip ends.

1. i) wobei das Kühlrippenmodul enthaltend die Vielzahl an Kühlrippen und/oder die Vielzahl an Flüssigkeitsablaufrinnen, insbesondere die erste Ebene, im Wesentlichen vertikal oder, insbesondere in einem Winkel im Bereich von 1 bis 15°, aus der Vertikalen geneigt anordenbar ist oder vorliegt,
2. ii) wobei die Kühlrippen und die Flüssigkeitsablaufrinnen bei vertikal angeordnetem Kühlrippenmodul, insbesondere geradlinig, horizontal, schräg, dach-bzw. winkel- und/oder bogenförmig verlaufen, so dass Flüssigkeit über die Flüssigkeitsablaufrinnen und/oder Kühlrippen schwerkraftgetrieben zu den Abtropfenden transferierbar ist.

Finally, the object underlying the invention is also achieved by a second cooling fin module with a, in particular substantially vertically arranged, mounting plane, also called first plane, with a top and an opposite bottom edge, with a plurality of spaced, in particular rectified, by Liquid drainage channels, comprising a draining, separate cooling fins, each containing a cooling fin body and a cooling fin comb, in particular at least one present at or in the upper edge, the Flüssigkeitsablaufrinnen verschließendes closing element, preferably end strip, wherein the cooling fins can be arranged in a cooling and / or circulating air area , wherein the cooling rib combs are preferably substantially in one plane, also called second plane,

1. i) wherein the cooling rib module containing the plurality of cooling fins and / or the plurality of fluid drainage channels, in particular the first plane, is arranged substantially vertically or, in particular at an angle in the range of 1 to 15 °, inclined from the vertical or is present,
2. ii) wherein the cooling fins and the Flüssigkeitsablaufrinnen with vertically arranged cooling fin module, in particular straight, horizontal, oblique, roof or. angular and / or arcuate run so that liquid via the fluid drainage channels and / or cooling ribs gravity-driven transferable to the drip ends.

The second cooling module according to the invention and the second cooling fin module according to the invention are preferably used in the third and fourth cooling device according to the invention.

With the first, second, third or fourth cooling devices according to the invention or when using the first or second cooling modules according to the invention or the first or second cooling rib modules according to the invention, a perfect and continuous cooling of products succeeds, in particular in a temperature range of +1 ° C to +8 ° C.

The refrigerators, cooling modules and fin modules according to the invention can be used for a variety of cooling purposes, for example for the cooling of confectionery, beverages, especially carbonated beverages such as soft drinks, energy drinks and / or drinks, as well as for pharmaceuticals, medicines, remedies or components thereof

The present invention was based on the surprising finding that the problem of icing up of condensed water can at least be brought under control by means of a special circulating-air management, in particular in combination with thermoelectric cooling elements, in the case of cooling capacities such as those provided by conventional refrigerators. Furthermore, it was surprising that with the cooling devices according to the invention, the cooling temperature can be set very quickly and also keep in a very narrow temperature range. In addition, it has been found to be advantageous that the formation of ice can be efficiently prevented by geometric peculiarities in the used cooling fin modules with simultaneous use of circulating air as well as the handling of condensed water particularly well, so that the risk of icing can be reduced again. It has also proved to be particularly advantageous that it is made possible with the cooling devices according to the invention to keep the cooled circulating air very dry, so that positive influence can also be exerted on the extent of condensation formation in this way. Furthermore, defrost intervals can be completely or almost completely prevented. It is also advantageous that the interruption of the cooling, for example when reaching the freezing temperature, due to the low inertia of the invention Cooling devices based on thermoelectric cooling elements can be kept very low and is usually less than one minute. This ensures a very uniform temperature profile.

Figur 1

eine Ausführungsform des zweiten erfindungsgemäßen Kühlgeräts in schematischer Querschnittsansicht,

Figur 2

eine Ausführungsform des vierten erfindungsgemäßen Kühlgeräts in schematischer Querschnittsansicht,

Figur 3

die Ausführungsform gemäß Fig. 2 in schematischer Längsschnittansicht,

Figur 4

eine schematische Draufsicht auf eine Ausführungsform des zweiten erfindungsgemäßen Kühlrippenmoduls,

Figur 5

schematische Draufsicht auf eine Ausführungsform des ersten erfindungsgemäßen Kühlrippenmoduls und

Figur 6

eine Querschnittsansicht einer Ausführungsform des ersten erfindungsgemäßen Kühlrippenmoduls.

Further features and advantages of the invention will become apparent from the following description in which embodiments of the invention are illustrated by way of example with reference to schematic drawings, without thereby limiting the invention. Showing:

FIG. 1

an embodiment of the second cooling device according to the invention in a schematic cross-sectional view,

FIG. 2

an embodiment of the fourth cooling device according to the invention in a schematic cross-sectional view,

FIG. 3

the embodiment according to Fig. 2 in a schematic longitudinal sectional view,

FIG. 4

a schematic plan view of an embodiment of the second cooling fin module according to the invention,

FIG. 5

schematic plan view of an embodiment of the first cooling fin module according to the invention and

FIG. 6

a cross-sectional view of an embodiment of the first cooling fin module according to the invention.

FIG. 1 takes the schematic cross-sectional view of an embodiment of the second cooling device 1 according to the invention in the form of a freezer. The cross section according to FIG. 1 shows that the cooling device 1 according to the invention in the generic list. The cooling device 1 has on the upper side an opening 2, which can be closed by a closure device 4, for example in the form of a lid or a flap. In the illustrated embodiment, the closure device 4 delimits the cooling space 6 upwards. On the bottom side, the cooling space 6 in the illustrated embodiment extends as far as the cooling element 8, which in the illustrated freezer is a thermoelectric cooling element and comprises a plurality of Peltier elements 10. The cooling space 6 can be subdivided into a product receiving area 12 and a cooling and first circulating air area 14. In the illustrated refrigerated cabinet 1 according to the invention, a product resting element lies in the transition from the cooling and first circulating air area 14 to the product receiving area 12 16 in the form of a metal plate. The product receiving area 12 is bounded laterally by the side walls 18. The cooling and first circulating air region 14, which is located as part of the cooling space 6 below the product receiving region 12, has a multiplicity of cooling ribs 20. These cooling fins 20 are in direct contact with the cooling element 8 and form with this, in particular according to the invention, cooling module 22. The plurality of cooling fins 20 (not shown) is arranged substantially parallel to one another and is separated on the bottom side by a sloping liquid drainage channel 62 (indicated by dashed line).

In one embodiment, the product receiving element 16 may rest on the cooling fin ridges 24 and is in direct thermal contact therewith. The cooling and first circulating air region 14 is bounded on the bottom side by thermally insulated outer wall elements 26 and on the side wall side by thermally insulated outer wall elements 28. Recirculated air passes via the first inlet opening 30 (indicated by the arrow) into the cooling and first circulating air region 14 and escapes from this circulating air region after passing through the cooling module 22 via the first outlet opening 32. The cooling ribs 20 of the cooling module 22 are arranged in this way in that they allow the passage of the circulating air in the direction of the first outlet opening 32 without further ado. About the first outlet opening 32, the cooled circulating air enters the first recirculation line 34, which is formed in the illustrated embodiment by the heat-insulated side wall-side outer wall 28 and the side wall 18, which is thermally well conductive, at least in parts. The outlet of the first recirculating air duct 34 is formed by the second inlet opening 36, through which the cooled circulating air is led into the upper section of the product accommodating area 12. In this case, it is preferable to divert the cooled circulating air out of the first recirculating air line 34 in such a way that it is conducted essentially parallel to the closure device 4 in the direction of the opposite second outlet opening 38. This region of the cooling space 6, through which the cooled circulating air is passed, is also called the second circulating air area 40. Via the second outlet opening 38, the circulating air leaving the cooling chamber 6 passes into the second circulating air line 42. This can again be delimited at least in part by the thermally insulated lateral outer wall 28 and the thermally conductive side wall 18. The second circulating air line 42 finally opens into the first inlet opening 30 and is in this way again supplied to the cooling and first circulating air region 14. To achieve the most efficient recirculation management to ensure the freezer 1 according to the invention, a first fan device 44 is integrated in the illustrated Umluftkreislauf in the form of a rotary fan. This is preferably located adjacent to the first inlet opening 30 within the second recirculation line 42. It has proven particularly expedient to provide a second fan device 46 in the form of a rotary ventilator within the first circulating air line, preferably adjacent to the second inlet opening 36.

The gutters 48 between the respective adjacent cooling fins 20 are configured inclined in the same direction relative to the horizontal, wherein the downward inclination is provided in the gutters 48 from the first inlet opening 30 to the first outlet opening 32. In this way, the circulating air flowing around the cooling fins 20 can assist the transport of condensed liquid into the drainage channels 48. At or below the dripping end 50 of the gutters 48, there is a liquid drip opening 52 in the form of a gap through which the condensed liquid dripping from the drip end 50 leaves the cold room and can be collected in the liquid trap 54. This liquid collecting device 54, for example in the form of a trough, is preferably equipped with a heating device 56, which contributes to a more rapid evaporation of the collected liquid. In the in FIG. 1 illustrated embodiment of a cooling device 1 according to the invention is a thermoelectric cooling device containing Peltier elements are used. Characteristic of Peltier elements is that when applying current on one side of cooling occurs (cold side 57), the opposite side is heated (hot side). This hot side 58 is provided in the illustrated embodiment with a plurality of ribs 59 which receive the heat. In addition, a third fan device in the form of a rotary fan 60 is also provided on the hot side 58, by means of which the heated air is directed in the direction of the liquid collecting device 54. This makes it possible in a particularly effective and energy-efficient manner to evaporate the condensed water collected in the liquid collecting device 54.

With the in FIG. 1 shown inventive freezer is accompanied by the surprising advantageous effect that even with frequent opening of the shutter 4, the cooling temperature can be kept very constant, for example in a range of + 1 ° C to + 8 ° C. In addition, in this case the icing of the formed condensate is not observed even in continuous operation. That is, it is different from the refrigerators of the prior art it is not necessary to interrupt the cooling phase in order to defrost iced condensate and to remove it in this way.

FIG. 2 If one takes an embodiment of the fourth cooling device according to the invention 100 in a schematic cross-sectional view in this fourth cooling device is a refrigerated display case having on the front of the removal opening 102, which can be reversibly opened and closed by the closure device 104 in the form of a hinged door. At the front, the product receiving area 106 fits, which extends back to the cooling and first recirculation area 108. In the illustrated embodiment, the product receiving area 106 is bounded on the side wall side by the opposing side walls 110 and on the rear side by the rear wall 112. These side walls and the rear wall are preferably configured thermally conductive. In the rear wall, there is the first fan device 114, via which circulating air from the product receiving area 106 is fed into the cooling and first circulating air area 108 (see arrows). The cooling device according to the invention according to FIG. 2 is provided in the illustrated embodiment with thermally insulated side walls 116, a thermally insulated rear wall 118 and thermally insulated bottom plate and cover plate (not shown). The cooling and first recirculating air region 108 is limited in the illustrated cooling device variant by the rear wall 112 of the product receiving region and the rear outer wall 118, in which also the cooling element 120 according to the invention, comprising a multiplicity of Peltier elements 122, is integrated. Re-circulated air, which is introduced into the cooling and first recirculating air area 108 via the first inlet opening 124, which is present in the rear wall 112 of the product receiving area, by means of the first fan device 114, which is part of the first inlet opening 124, enters the cooling unit directly there or the cooling element 120 in contact. The circulating air is conducted to the cooling element 120 in the direction of the two first outlet openings 126 in each of the two first recirculating air lines 128. These first recirculating air lines 128 are bounded by the thermally conductive side walls 110 and by thermally insulated side outer walls 116 and open into the second inlet openings 130, respectively. These second inlet openings 130 are, as in the cooling device 100 according to FIG FIG. 2 shown, preferably adjacent to the removal opening 102 attached. In this case, these inlet openings 130 are expediently designed in such a way that the cooled circulating air (see arrow symbol) is conducted into the center of the product receiving area 106. this section of the product receiving area 106, into which the cooled circulating air first enters, is also called the second circulating air area 132. In this second circulating air region 132, there are preferably no products to be cooled. The products are placed in the illustrated embodiment on a bottom-side product support plate 134. According to a further embodiment, it is possible, alternatively or additionally, to provide recirculation lines 135 which run below the product support plate 134 and pass into the product receiving region 106 via inlet openings 137 provided in this product support plate (indicated by dashed lines). The cooling element 120 has on the cold side 136 a plurality of obliquely extending cooling ribs 138. These cooling ribs form or are part of a cooling rib module according to the invention (second cooling rib module). The unit of cooling ribs or cooling rib module and cooling unit 120 forms or is part of a cooling module according to the invention (second cooling module). Details of the fin module according to the invention will be described below in connection with FIG. 4 explained. On the hot side 139 of the thermoelectric cooling element there is likewise a ribbed body 141 in which a laterally extending stream of warm air (see arrows) is generated by a third fan device 140 in the form of a rotary ventilator. In this way, a heat accumulation is avoided and kept the cooling capacity of the thermoelectric cooling element at a high level.

FIG. 3 shows a schematic side view of the second inventive cooling device 100 in cross section. In addition to those already described in the figure description of the refrigerator 100 according to FIG. 2 apparent components and features goes out FIG. 3 the Flüssigkeitsaufnahmeeinrichung 142, which is provided with a heater 144. The condensed water condensed out on the cooling ribs 138 from the circulated air coming from the product receiving region 106 is collected below the cooling ribs and transferred via a liquid drainage opening 146 into the liquid absorption device 142. As in FIG. 3 As shown, the liquid drain opening 146 may include a gutter or trough 148 within the cooling space into which the condensed water from the cooling fins is forced by gravity. This liquid collecting trough 148 can then be connected, as shown, to a liquid line 150, with the aid of which the condensed water is fed to the liquid receiving device 142. In order to evaporate the condensed water collected in the liquid receiving device 146 as quickly as possible, the heat generated on the hot side 139 of the thermoelectric cooling element Heat with the help of the third fan means 140, in particular in the form of a rotary fan, directed in the direction or along the liquid absorption device 142.

FIG. 4 shows a schematic plan view of an embodiment of the second cooling fin module 200 according to the invention, as in the cooling device according to Figures 2 and 3 can be used. The cooling rib module 200 has cooling ribs 202 running obliquely with respect to the horizontal. In the illustrated variant, the cooling ribs 202 have an inclination angle of approximately 45 °. In this case, the cooling rib module 200 has two sets of cooling ribs, which are arranged mirror-symmetrically to one another and thus essentially reproduce a roof shape. The respective obliquely converging cooling fins are connected to each other at their respective meeting points. A passage of liquid into the separated by the cooling fin adjacent Flüssigkeitsablaufrinne 204 is therefore not possible. Those inclined cooling ribs, which do not meet, but open into the upper side 206 of the cooling fin module 200, are connected to a closing edge 208 running along this upper side 206. This end edge 2ß8 prevents leakage of liquid over the top 206. The respective mouths 210 of the liquid drainage channels 204 are open, so that condensed liquid can drain or drain through these orifices. Due to the inclined position of the cooling fins, the condensed liquid will, on the one hand, be driven by gravity in the direction of the lower side 212 or the opposite side region 214. This procedure is supported. Outflow direction by the air pressure generated by the first fan device, which is directed directly to the fin module 200. The cooling fins, as well as the upper edge and the base surface 216 of the cooling fin module are preferably made of metal. The condensate dripping down through the orifices 210 is collected in the liquid receiver 148 and discharged via conduit 150 from the cold room to a liquid receiver (not shown).

FIG. 5 shows a schematic plan view of an embodiment of the first cooling fin module 300 according to the invention. The cooling ribs 302 extend substantially parallel to each other. Between the cooling fins 302 are the Flüssigkeitsablaufrinnen 304 before. In order to force the drain of the condensate water, the liquid drainage channels 304 are not flat in cross-section, but designed trough-shaped. Both the drip end 306 and the opposite inlet end 308 of the liquid drains 304 are open. This serves the purpose of permitting circulating air introduced via an inlet opening into the cooling and first circulating air region to freely enter the liquid drain channels 304 via the inlet end 308 and to escape via the dripping end. As a result, the removal of condensed liquid is forced again. A further promotion of the removal of condensed liquid is caused by the, in particular U-shaped or V-shaped, notches 310 which are present at the drip ends 306.

Finally shows FIG. 6 a cross-sectional view of an embodiment of the first cooling fin module 300 according to the invention. The cooling fin combs 314 are in this case oriented substantially horizontally. On this example, a metallic product support plate can be placed. On the other hand, the liquid discharge channels 304 have an inclined course 312 from the inlet end 308 in the direction of the drip end 306. By virtue of the fact that the liquid drainage channels 304 are tilted in generic use in refrigerators, for example the first and second cooling devices according to the invention, the removal of condensed liquid can be significantly increased. This has the consequence that the cooled circulating air can be kept very dry even with frequent opening and closing of the refrigerator, whereby the risk of icing during operation is suppressed or greatly suppressed.

The features of the invention disclosed in the preceding description, the claims and the drawings may be advantageous both individually and in any combination for the realization of the invention.

Claims (19)

Refrigerator, in particular freezer, comprising a) at least one cold room with a top and an opposite bottom side, containing i) between the top and bottom side one or more side walls facing the refrigerator compartment and the refrigerator compartment side facing away, ii) at least one, in particular substantially on the upper side or side wall side arranged, removal opening for removing cooled products from the refrigerator, iii) optionally at least one, in particular hinged or displaceable, closure device for the reversible opening and closing of the removal opening, iv) a product receiving area, in particular bounded by the upper side and / or bounded by the closing device, particularly preferably present below the closing device when it closes the removal opening, v) a bottom side arranged, present below the product receiving area cooling and first recirculation area and vi) optionally a second recirculating air region present above the product receiving region, in particular bounded by the upper side or the closure device arranged substantially on the upper side, b) at least one bottom-side arranged cooling element, in particular comprising at least one thermoelectric cooling element, for example a Peltier element, i) with a top side facing the cooling side and ii) optionally an opposite, bottom-facing hot side, iii) wherein, in particular, the cooling side delimits the cooling and first circulating air region on the bottom side and / or is at least partially present in the latter, c) if appropriate, at least one first inlet opening for circulating air, in particular below the product receiving area, for introducing circulating air into the cooling and first circulating air area, d) if appropriate, at least one first outlet opening for receiving the circulating air which can be introduced or introduced into the cooling and first circulating area via the first inlet opening, in particular below the product receiving area, e) if appropriate, at least one first fan device, in particular a rotary fan, designed and set up for supplying circulating air, in particular via the at least one first inlet opening, into or for generating circulating air in the cooling and first circulating air region, f) optionally at least one second inlet opening, arranged and arranged for feeding circulating air into the product receiving area and / or the second circulating air area, in particular adjacent to or spaced from the top and / or the removal opening and / or substantially adjacent to the closure device, preferably in a side wall , present, i) wherein the at least one first outlet opening and the at least one second inlet opening are connected to one another or connectable via at least one first recirculating air line, g) if appropriate, at least one second fan device, in particular a rotary fan, in particular arranged in the first recirculation line, designed and adapted for feeding recirculating air, in particular of the first recirculation line, via the at least one second inlet opening into the product receiving area and / or the second circulating air area, h) if appropriate, at least one second outlet opening is set up and arranged for receiving the circulating air introduced or introduced via the second inlet opening into the product accommodating area and / or the second circulating air area, in particular adjacent to the top side and / or adjacent to the unloading opening and / or substantially adjacent to the closure device , preferably in a side wall, present, i) wherein the at least one second outlet opening and the at least one first inlet opening are connected or connectable to one another via at least one second circulating air line, wherein preferably the first ventilating device is arranged in the second circulating air line, j) at least one liquid discharge device, in particular liquid discharge opening, preferably in the bottom side or the side wall of the cooling space, k) at least one cooling fin module with a plurality of spaced, in particular rectified, by Flüssigkeitsablaufrinnen containing a, in particular a V- or U-shaped notch having, dripping, separate cooling fins, which are arranged in the cooling and first recirculation area and in thermal operative connection with the cooling side of the cooling element, in particular comprising the thermoelectric cooling elements, stand, i) wherein the Flüssigkeitsablaufrinnen are inclined in the direction of the liquid discharge device, in particular Flüssigkeitseabitungsöffnung, in particular at an angle from the horizontal in the range of 1 to 15 °, and wherein the drip ends above the liquid discharge device, in particular liquid discharge, are present, so that liquid on the drip ends the Flüssigkeitsablaufrinnen, in particular gravity-driven, via the liquid discharge device, in particular Flüssigkeitseabitungsöffnung, can be derived from the cooling space. Refrigerator, in particular refrigerator or refrigerated display case, comprising a) at least one cold room with a front side and an opposite rear side, containing i) front side and rear side walls connecting to the refrigerator facing and the refrigerator compartment facing away from and top and bottom, each with a cooling chamber facing away from the refrigerator and the side, ii) at least one, in particular substantially at the front and / or side wall side, in particular at the front, arranged, removal opening for removing cooled products from the cold room, iii) optionally at least one, in particular hinged or displaceable, closure device for the reversible opening and closing of the removal opening, iv) a product receiving area, in particular bounded on the front and / or side wall side by the removal opening or the closure device, when the latter closes the removal opening, v) arranged on the back, directly or indirectly adjoining the product receiving area cooling and first recirculation area and vi) optionally a second recirculating air area present in front of or in the product receiving area, vii) optionally at least one product support element, in particular of metal, for example in the form of one or more metal plates, on or adjacent to the underside, b) at least one rear-side arranged cooling element, in particular thermoelectric cooling element, for example Peltier element, i) with a facing the opposite front side cooling side and ii) optionally an opposite, back-aligned hot side, iii) wherein, in particular, the cooling side delimits the cooling and first circulating air region on the rear side and / or is present at least partially in the rear side, c) at least one partition which separates the cooling and first circulating air area from the product receiving area, in particular formed from metal, with at least one first inlet opening, in particular at the rear of the product receiving area, for introducing air from the product receiving area into the cooling and first circulating air area . d) at least one first outlet opening for discharging the circulated air which can be introduced or introduced via the first inlet opening into the cooling and first circulating air area and cooled in the cooling and first circulating air area, e) at least one second inlet opening, in particular adjacent to the removal opening and / or substantially adjacent to the closure device and / or preferably present in a side wall, top wall and / or bottom side wall, wherein the at least one first outlet opening and the at least one second inlet opening via at least one wherein the at least one second inlet opening is set up and arranged for introducing the circulating air, which originates from the first circulating air line into the cooling and first circulating air area, into the product receiving area, f) at least one first fan device, in particular in or adjacent to the cooling and first circulating air region, designed and arranged for feeding circulating air via the at least one first inlet opening into the cooling and first circulating air region, in particular arranged in the inlet opening or the first recirculating air line, j) at least one liquid discharge device, in particular liquid discharge opening, in particular in the bottom side or the side wall of the cooling and first circulating air space, k) at least one cooling fin module with a plurality of spaced, in particular rectified, by Flüssigkeitsablaufrinnen containing a, in particular a V- or U-shaped notch having, dripping, separate cooling fins, which are arranged in the cooling and first recirculation area and in thermal operative connection with the cooling side of the, in particular thermoelectric, cooling element, particularly preferably of the at least one Peltier element, i) wherein the cooling fin module containing the plurality of cooling fins and / or the plurality of liquid drainage channels is arranged substantially vertically or, in particular at an angle in the range of 1 to 15 °, inclined from the vertical and / or wherein the cooling fin module containing the plurality of Cooling fins and / or the plurality of fluid drainage channels form or are part of a fluid drainage plane, which is arranged substantially vertically or, in particular at an angle in the range of 1 to 15 °, inclined from the vertical, ii) wherein the cooling fins and the liquid drainage channels, in particular straight, horizontally or obliquely in the direction of the liquid discharge device, in particular Flüssigkeitseabitungsöffnung, extend, so that liquid via the at least one Flüssigkeitsablaufrinne and / or fin, in particular gravity driven, to the liquid discharge device, in particular Flüssigkeitseabitungsöffnung is transferable , Refrigerator, in particular freezer, comprising a) at least one cold room with a top and an opposite bottom side, containing i) between the top and bottom side one or more side walls facing the refrigerator compartment and the refrigerator compartment side facing away, ii) at least one, in particular substantially on the upper side or side wall side arranged, removal opening for removing cooled products from the refrigerator, iii) at least one, in particular foldable or displaceable, closure device for the reversible opening and closing of the removal opening, iv) a product receiving area, in particular bounded by the upper side and / or bounded by the closing device, particularly preferably present below the closing device when it closes the removal opening, v) a bottom side arranged, present below the product receiving area cooling and first recirculation area and vi) a second circulating air region present above the product receiving region, in particular delimited by the upper side or the closure device arranged substantially on the upper side, b) at least one bottom-side arranged cooling element, in particular comprising at least one thermoelectric cooling element, for example a Peltier element, i) with a top side facing the cooling side and ii) optionally an opposite, bottom-facing hot side, iii) wherein, in particular, the cooling side delimits the cooling and first circulating air region on the bottom side and / or is at least partially present in the latter, c) at least one first inlet opening for circulating air, in particular below the product receiving area, for introducing circulating air into the cooling and first circulating air area, d) at least one first outlet opening for receiving the circulating air introduced or introduced via the first inlet opening into the cooling and first circulating area, in particular below the product receiving area, e) at least one first fan device, in particular a rotary fan, designed and set up for supplying circulating air, in particular via the at least one first inlet opening, into or for generating circulating air in the cooling and first circulating air region, f) at least one second inlet opening, arranged and arranged for feeding circulating air into the product receiving area and / or the second circulating air area, in particular adjacent to or spaced from the top and / or the removal opening and / or substantially adjacent to the closure device, preferably present in a side wall . i) wherein the at least one first outlet opening and the at least one second inlet opening are connected to one another or connectable via at least one first recirculating air line, g) if appropriate, at least one second fan device, in particular a rotary fan, in particular arranged in the first recirculation line, designed and adapted for feeding recirculating air, in particular of the first recirculation line, via the at least one second inlet opening into the product receiving area and / or the second circulating air area, h) at least one second outlet opening is arranged and arranged for receiving the circulating air introduced or introduced via the second inlet opening into the product accommodating area and / or the second circulating air area, in particular adjacent to the top side and / or adjacent to the unloading opening and / or substantially adjacent to the closure device, preferably present in a side wall, i) wherein the at least one second outlet opening and the at least one first inlet opening are connected or connectable to one another via at least one second circulating air line, wherein preferably the first ventilating device is arranged in the second circulating air line. Refrigerator, in particular refrigerator or refrigerated display case, comprising a) at least one cold room with a front side and an opposite rear side, containing i) between the front and rear side walls facing the cooling space and the cooling space facing away from the top and bottom, each with a cooling chamber facing away from the refrigerator and the side, ii) at least one, in particular substantially at the front or side wall side arranged, removal opening for removing cooled products from the cold room, iii) at least one, in particular foldable or displaceable, closure device for the reversible opening and closing of the removal opening, iv) a product receiving area, in particular bounded on the front and / or side wall side by the closure device, when it closes the removal opening, v) arranged on the back, directly or indirectly adjoining the product receiving area cooling and first recirculation area and vi) optionally a second recirculating air area present in front of the product receiving area, vii) optionally at least one product support element, in particular of metal, for example in the form of one or more metal plates, on or adjacent to the underside, b) at least one rear-side arranged cooling element, in particular thermoelectric cooling element, for example Peltier element, i) with a front side facing the cooling side and ii) optionally an opposite, back-aligned hot side, iii) wherein, in particular, the cooling side delimits the cooling and first circulating air region on the rear side and / or is present at least partially in the rear side, c) at least one partition wall for separating the cooling and first circulating air region and product receiving region, in particular formed from metal, with at least one first inlet opening, in particular at the rear side of the product accommodating region, for introducing air originating from the product accommodating region into the cooling and first circulating air region, d) at least one first outlet opening for discharging the circulated air which can be introduced or introduced via the first inlet opening, into the cooling and first circulating air area and cooled in the cooling and first circulating air area, e) at least one second inlet opening, in particular adjacent to the removal opening and / or substantially adjacent to the closure device and / or preferably present in a side wall, top wall and / or bottom side wall, wherein the at least one first outlet opening and the at least one second inlet opening via at least one wherein the at least one second inlet opening is set up and arranged for introducing the circulating air, which originates from the first circulating air line into the cooling and first circulating air area, into the product receiving area, f) at least one first fan device, in particular in or adjacent to the cooling and first circulating air region, designed and arranged for feeding circulating air via the at least one first inlet opening into the cooling and first circulating air region, in particular arranged in the inlet opening or the first recirculation line. Refrigerator according to claim 1 or 3, further comprising at least one product support element, in particular of metal, for example in the form of one or more metal plates, which separates the product receiving area from the cooling and first recirculation area and in particular rests on the cooling fin combs, and optionally at least one arranged on the product support element gridded, net-shaped and / or perforated further product support element, in particular of metal. Cooling appliance according to one of claims 1, 3 or 5, characterized in that the first and / or the second recirculation line are cold room side limited by the cooling chamber side facing away from the side wall and / or in thermal operative connection with the side facing away from the cooling chamber side wall. Refrigerator according to one of the preceding claims, characterized by at least one third fan device, in particular a rotary fan, arranged and adapted for generating a recirculating air flow along the hot side of the thermoelectric cooling element, in particular in the direction of the liquid discharge device, in particular liquid discharge opening, and / or along the collecting device. Cooling device according to one of the preceding claims, further comprising at least one, in particular heatable, liquid collecting device, in particular below the liquid discharge device, in particular liquid discharge opening. Cooling appliance according to one of claims 2, 4 or 8, if referred back to claim 2 or 4, characterized in that the product receiving area is bounded on the back by the cooling and first circulating air area. Refrigerating appliance according to one of claims 2, 4, 8, when dependent on claim 2 or 4, or 9, characterized in that at least one second inlet opening in a first side wall and at least one further second inlet opening in the opposite second side wall, in particular opposite each other, are arranged. Cooling appliance according to one of claims 2, 4, 8, if referred to claim 2 or 4, 9 or 10, characterized in that the first recirculation line is limited cooling space side by the refrigerator side facing away from the side wall and / or in thermal operative connection with the Refrigerator side facing away from the side wall is. Cooling appliance according to one of claims 2, 4, 8, if referred back to claim 2 or 4, 9, 10 or 11, characterized in that the cooling fins one, in particular rectilinear, horizontal or oblique course or a curved or angular or roof-shaped Have history, wherein the angle or roof-forming legs of the cooling fins in generic use in particular an angle in the range of 10 ° to 120 °, more preferably an angle in the range of 20 ° to 100 ° or wherein the inclined cooling fins at generic use with respect to the vertical in particular an angle in the range of 20 ° to 60 °, more preferably have an angle in the range of 30 ° to 50 °. Cooling appliance according to one of claims 1, 5, 6, 7 or 8, as far as dependent on claim 1, 5, 6 or 7, characterized in that the Flüssigkeitsablaufrinnen in the direction of the liquid discharge device, in particular Flüssigkeitseabitungsöffnung, are inclined, in particular at an angle the horizontal in the range of 1 to 15 °, more preferably in a range of 3 to 10 °, that the liquid drainage channels have a first end and an opposite second end, that the dripping end is at the first end, that the second ends are aligned, in particular adjacent to the first inlet opening and the second ends aligned, in particular adjacent, present to the first outlet opening, that the Flüssigkeitsablaufrinnen and in particular the cooling fins are arranged or arranged substantially from the first inlet opening to the first outlet opening, in particular substantially parallel to the stream in circulating air, d it comes from the first inlet opening and escapes after passage of the cooling and first circulating air region through the first outlet opening, and that the at least one first fan device is present in or adjacent to the first inlet opening and / or in the second recirculation line. Cooling module with a, in particular substantially horizontal, mounting plane, also called first plane comprising
at least one, in particular thermoelectric, cooling element, in particular containing at least one Peltier element, with a cooling side and optionally an opposite hot side, and
at least one with the cooling side of, in particular thermoelectric, cooling element, in particular containing at least one Peltier element, in thermally operative connection or bringable fins module with a plurality of spaced, in particular rectified, by Flüssigkeitsablaufrinnen containing a drip end and the drip end opposite one another separate cooling fins facing away from the cooling side, each comprising a cooling fin body and a cooling fin comb, wherein the cooling fins can be arranged in a cooling and / or circulating air region, the cooling fins preferably being substantially in one plane, also referred to as second plane, the fluid drainage grooves in Direction to the dripping end, in particular substantially in the same direction, with respect to the first and / or second plane, in particular at an angle in the range of 1 to 15 °, particularly preferably in a range of 3 to 10 °, inclined length fen, in particular with a dripping at least partially increasing depression, and wherein the liquid drainage channels at the drip end preferably have a, in particular substantially V- or U-shaped, notch. Cooling rib module with a, in particular substantially horizontal, mounting plane, also called first plane, with a plurality of spaced, in particular rectified, by Flüssigkeitsablaufrinnen containing a drip end and the drip end opposite, separate cooling fins, each comprising a cooling fin body and a cooling fin comb, wherein the cooling fins can be arranged in a cooling and / or circulating air region, wherein the fins preferably present in a plane, also called second plane, the Flüssigkeitsablaufrinnen towards the drip end, in particular substantially in the same direction, with respect to the first and / or second level, in particular at an angle in the range of 1 to 15 °, particularly preferably in a range of 3 to 10 °, inclined, in particular with a dripping end at least partially increasing recess, and wherein the liquid drain channels at the dripping end preferably one, in particular substantially V- or U-shaped, notch. Cooling module with a, in particular substantially vertically arranged, mounting plane, also called first plane, having an upper and an opposite lower edge, comprising at least one, in particular thermoelectric, cooling element, in particular containing at least one Peltier element, with a cooling side and optionally an opposite Warm side and at least one with the cooling side of, in particular thermoelectric, cooling element, in particular containing at least one Peltier element, in thermally operative connection or bringable fins cooling module with a plurality of spaced, in particular rectified, by Flüssigkeitsablaufrinnen containing at least one drip end, separated from each other the cooling side-facing cooling ribs, each containing a cooling fin body and a cooling fin comb, in particular at least one present at or in the region of the upper edge, the liquid drainage channels closing it conclusion element, preferably end strip, wherein the cooling fins can be arranged in a cooling and / or circulating air region, wherein the cooling fins combs are preferably present substantially in a plane, also called second plane, i) wherein the cooling rib module containing the plurality of cooling fins and / or the plurality of fluid drainage channels, in particular the first plane, is arranged substantially vertically or, in particular at an angle in the range of 1 to 15 °, inclined from the vertical or is present, ii) wherein the cooling fins and the Flüssigkeitsablaufrinnen with vertically arranged cooling fin module, in particular straight, horizontal, oblique, roof or. extend angularly and / or arcuately, so that liquid can be transferred via the fluid drainage channels and / or cooling ribs gravity driven to the drip ends. Cooling fin module with a, in particular substantially vertically arranged, mounting plane, also called first plane, with an upper and an opposite lower edge, with a plurality of spaced, in particular rectified, by liquid drainage channels, comprising a draining, separate cooling fins, each containing a cooling fin body and a cooling fin comb, in particular at least one present at or in the upper edge, the Flüssigkeitsablaufrinnen verschließendes closing element, preferably end strip, the cooling fins in a cooling and / or circulating air can be arranged are, wherein the cooling fins combs are preferably substantially in one plane, also called second plane, i) wherein the cooling rib module containing the plurality of cooling fins and / or the plurality of fluid drainage channels, in particular the first plane, is arranged substantially vertically or, in particular at an angle in the range of 1 to 15 °, inclined from the vertical or is present, ii) wherein the cooling fins and the Flüssigkeitsablaufrinnen with vertically arranged cooling fin module, in particular straight, horizontal, oblique, roof or. extend angularly and / or arcuately, so that liquid can be transferred via the fluid drainage channels and / or cooling ribs gravity driven to the drip ends. Use of the cooling devices according to one of claims 1 to 13 or of the cooling module according to claim 14 or 16 or of the cooling rib module according to claim 15 or 17 for the cooling of products in the cooling space, in particular in the product receiving area, in particular in a temperature range from +1 ° C to + 15 ° C, especially from +1 ° C to +8 ° C. Use of the cooling devices according to one of claims 1 to 13 or the cooling module according to claim 14 or 16 or the cooling rib module according to claim 15 or 17 for the cooling of confectionery or of carbonated drinks in particular of soft drinks, energy drinks and / or Kola-containing Beverages, or of medicines, medicines or remedies or components thereof.

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