DE1125957B - Beverage cooler with an electrothermal cold generator - Google Patents

Description

Beverage cooler with an electrothermal cold generator The invention relates to a cooler for beverages, especially drinking water, with an electrothermal Is equipped with a cold generator.

There are already beverage coolers known in which for the cooling system Thermocouples are used. In these, the mostly ring-shaped serve as the cooling container surrounding heat exchanger assigned to the cold soldering points of the thermocouples either themselves as the wall of the cooling container or they protrude into the liquid to be cooled inside, while the heat exchangers assigned to the warm side of the thermocouples protrude outwards and, if necessary, be cooled by a fan.

In all known embodiments of such beverage coolers with fixed arranged heat exchangers is the utilization of the available cooling capacity usually bad, especially if the container is filled with that to be cooled Fluid fluctuates. Either the entire content is cooled unevenly or, if it is only partially filled, only part of the amount released by the cooling surfaces Transferring cold to the liquid itself. These disadvantages are addressed by the invention be avoided.

This is achieved in that the electrothermal cooling device according to the invention arranged floating in the container on the beverage to be cooled is, wherein the cooling elements protrude down into the water to be cooled and the heat-emitting elements are directed upwards and air-cooled. The Elektrothernüsche Cooling device is mounted in a float, which is partially in the immersed liquid to be cooled. This ensures that the entire Cooling surfaces, regardless of the filling quantity, with the liquid to be cooled in a thermally conductive manner Connected so that the entire cooling capacity can always be used. Another advantage is that the liquid level is uniform distributed cooling surfaces ensure a much more even cooling than this can do cooling surfaces arranged on the side walls.

The invention is explained in more detail below with reference to the embodiment shown in the drawing: FIGS. 1 and 2 show a container which is preferably made of insulating material in order to protect the contents against external heat influences. A floating body 2 is arranged in this container, which can be designed as an insulated hollow body or as a solid sheet of insulating material, which floats on the drink and carries the electrothermal cooling device, which consists of the thermocouple legs 3, the cooling elements 4 and the heat conductors 5. The cooling elements 4 are, as far as the electrical current conduction requires, electrically insulated from one another. Opposite the water surface, a synthetic resin or lacquer layer is applied, preferably sprayed, as a suitable insulation means to the cooling elements 4 or to the connection pieces which conduct the cold and are soldered to the thermocouples. The heat conductors run out in lamellar heat exchangers 6 with a jacket? are surrounded in such a way that a kind of chimney is created that increases air circulation. The warm air rises from the heat exchangers 6 to the top and draws in fresh air again from the side; this enables intensive cooling of the heat conductors 5.

When water is withdrawn from the faucet 11 , the water level and thus also the float 2 with the cooling device drops, so that the cooling elements 4 are always at the same distance from the water. The cooled water sinks as a result of its greater specific weight of the cooling elements 4 in the lower part of the container, so that there is water circulation. In this way, a relatively uniform temperature and cooling can be achieved. The more water is removed and the deeper the float 2 sinks, the lower the amount of water and the lower the cooling requirement. This is smallest when the float has reached its lowest position. If the cooling were now to be continued evenly, there could be the possibility that the water cooling would become so strong that the residual water would freeze. In order to prevent this and the associated dangers, an optionally adjustable ring 8 or 8a is attached to the jacket 7 forming the chimney, and a cover ring 9 is placed on the edge of the container 1. In its lowest position, the ring 8 and the cover ring 9 lie in one plane. As a result, the air circulation through the warm sheet metal lamellas 6 is practically interrupted and in this way the cooling capacity of the cooling device and thus also the cooling effect of the cold heat conductors are greatly reduced. Since the transition to this lowest position is gradual, there is also a uniform throttling of the flow of cooling air, so that this arrangement achieves automatic regulation of the cooling capacity.

The electrothermal cooling device can also when reaching a adjustable lowest water temperature by a thermoregulator, not shown be switched off. The shutdown can also take place when the float 2 has reached the lowest position. Such a shutdown can, for. B. by a be made with a plunger operated limit switch.

In the middle of the sheet metal lamellas 6 there is a filling opening 12 for the drink, which is covered by a lid 13 . To compensate for the weight of the relatively heavy electrothermal cooling device springs 10 are arranged in the lower part of the container, which transfer part of the weight to the bottom of the container 1, so that the floating body 2 lowers or rises only approximately with the water level. Instead of springs, counterweights can also take off part of the weight of the cooling device from the floating body 2 via levers and / or cables. A pipeline 14 can also be connected to the side of the container which, after opening the valve 15, supplies the container with drinking water from a water pipe.

The electrical power supply for the electrothermal cooling system takes place separated from one by a flexible cable not shown in the drawings DC generator set up by the beverage cooler.

The container can be partially transparent to control the water level designed or provided with a water level indicator.

Claims (7)

PATENT CLAIMS: 1. Beverage cooler with an electrothermal cold generator, especially for cooling drinking water, in a preferably insulated container, characterized in that the electrothermal cooler is in the container (1) is arranged floating on the drinking water, the cooling elements (4) after protrude below into the drink to be cooled and the heat exchanger emitting heat (6) are facing up and air-cooled. 2. Beverage cooler according to claim 1, characterized in that the electrothermal cooling device is in a floating body (2) is mounted, as a plate-shaped insulated hollow body or as a solid Isolierstoffplatte is formed. 3. Beverage cooler according to claims 1 and 2, characterized in that the heat-releasing, lamellar heat exchanger (6) are preferably arranged radially concentrically on the floating body (2) and are surrounded at a distance except for their lower part with a jacket (7). 4th Beverage cooler according to claim 3, characterized in that the container with a Cover ring (9) is provided, which in conjunction with one or more rings (8) on the jacket (7) when the water level drops and thus also the electrothermal Cooling device interrupts the flow of cooling air generated by the jacket (7). 5. Beverage cooler according to one of Claims 2 to 4, characterized in that the Floating body (2) with counterbalancing means, such as. B. springs (10) or counterweights is provided. 6. Beverage cooler according to one of claims 1 to 5, characterized in that that the container to control the water level is partially transparent or is provided with a water level indicator. 7. Beverage cooler after one of the Claims 1 to 6, characterized in that the electrothermal cooling device upon reaching the lowest position of the float (2) and / or an adjustable position the lowest water temperature is switched off automatically.