BE1019485A3 - CRYOGENIC COOLING PLATE FOR FOOD AND DRINKS. - Google Patents

Abstract

Cooling device (1) consisting of a flat cooling plate (2) provided on a base (3) and a housing, in which a liquefied gas circulates in pipes (8) and wherein the pipes (8) extend at the bottom of the cooling plate (2) and through conduction cooling the cooling plate (2) by a changed state of aggregation of the liquid gas from a liquid to a gas.

Description

Cryogenic cooling plate for food and beverages

The present invention relates to a flat cooling plate for cooling foodstuffs or beverages in the household.

In particular, it concerns a flat cooling plate for use on a table and is provided with a liquid gas for the rapid cooling of trays or beverage containers.

Drinks or food items that are placed on the table during a meal start to warm up over time due to the ambient temperature. This is particularly the case for drinks such as wines, champagnes or beers that should be served cold. These drinks are usually provided in bottles, but some drinks are also served in other beverage containers, such as carafes, or are consumed directly in packaging, such as a beverage carton or a bag-in-box.

Bottles or carafes are usually placed on the table in an ice bucket or in ice-cooled water. The main disadvantages of this are that the cooling does not remain constant during the meal and, on the other hand, when pouring the drink, the bottle drips from the cooling moisture. In addition, some dishes, such as fresh vegetables, should also be kept cool, such as at barbecues during the summer.

To overcome these disadvantages, a number of solutions have been developed.

According to a first technique, use is made of peltier elements according to a thermoelectric effect.

This is described, inter alia, in DE2991303034U or in DE20021752U, as well as in WO2004004475 or DE3901913.

In another technique, an air flow with a fan is developed around the product, such as in US5718124 or DE20019219U.

In other devices, such as described in WO2004042298, use is made of eutectic cooling plates with a cooling liquid.

Furthermore, cooling plates are known which are coupled to an external cooling circuit and where a liquid, such as water, circulates through the plate. This is usually used with presentation boards for products such as vegetables. Such a cooling element is described in WO2007064255 or in US4306616.

The aforementioned techniques have the disadvantages that they cool too slowly, insufficiently or irregularly.

It is also known in the prior art to cool with a cryogen or a liquid gas.

The gas is injected directly into or onto the beverage container and will evaporate into the atmosphere. Self-cooling beverage containers, such as beer cans or soft drinks, operate according to this process, as described in US2007033959. DE202005014967U describes such a cooling device that is located around the beverage container. DE2217678 uses a spray can with a liquid gas (hydrogen fluorocarbon compounds) that is injected into the beverage container.

FR2893121 describes a device with spaces for beverage containers, in which a liquid gas, such as nitrogen, is distributed and communicates with the outside environment.

US2009 / 0044549 describes a device provided with a cooling chamber with a liquid gas in a housing in which a bottle or a can is placed.

These techniques have the disadvantage that they only cool specific shapes, such as bottles or cans, since the beverage containers are placed in a casing.

With most of the aforementioned cooling devices, the gas enters the atmosphere, whether or not in contact with the food or drink.

It is an object of the present invention to overcome the foregoing problems by providing a flat cooling plate which is in contact with a conduit in which a liquid gas, such as preferably isobutane or 1,1,1,2 tetrafluoroethane, is circulating and in which a beverage or food container is cooled by conduction on the flat cooling plate. The conduit and the cooling elements are provided entirely within the housing of the cooling device. This makes external links unnecessary.

According to a first feature of the invention, the cooling circuit is continuous, with the liquid gas alternately being compressed (compression) and relaxed (expansion), thereby releasing heat and thereby causing cooling.

According to another embodiment, the cooling device is provided with a vessel with a liquid gas and a pressure means for effecting a heat exchange between the cooling plate and the beverage or food container by distributing the gas against the underside of the cooling plate.

The cooling plate can also be provided with a heat exchanger at the bottom, thus promoting the conduction between the cooled gas and the cooling plate.

This cooling plate makes it possible to cool beverage containers such as cans, bottles, carafes, beverage cartons and bag-in-box beverage containers as well as flat dishes quickly and for a long time.

With the continuous cooling cycle, there is no contact between the coolant and the food or drink.

The invention is explained in detail with reference to the accompanying figures.

Fig.1: cross sectional side view of cooling plate with continuous cooling cycle

Fig.2: sectional side view of cooling plate with refillable container.

According to figure 1, the cooling device (1) is provided with a flat cooling plate (2). This cooling plate (2) is preferably made from stainless steel or stainless steel, but other materials that conduct heat are also suitable. An aluminum plate can be used to make the device a bit lighter. In a possible embodiment, the cooling plate (2) is arranged slightly inclined so as to guide the condensed water. This is not indicated in the figures.

The cooling plate (2) can further be provided with an upright edge in order to ensure that the condensed water does not flow from the cooling plate (2).

The cooling plate (2) is supported by a base (3), which also comprises the housing of the device. This foot (3) is placed on a table.

A control panel can be provided in this housing (3) for activating and deactivating the cooling device (1). This is not indicated in the figures. The cooling device (1) can be provided with a timer to activate the cooling cycle at set times.

The cooling device (1) further comprises according to Figure 1, a liquid reservoir (4) with a cooling liquid. This fluid travels through the lines (8) through an expansion valve (5), where it is sent through the evaporator (9) as a gas. Warm air is therefore cooled. The gas is then compressed in a compressor (6), where it further ends up in the liquid state via a condenser (7) in the liquid reservoir (4). The pipes (8) extend on the underside of the cooling plate (2). Both the fluid reservoir (4) and the various components of the cooling cycle are integrally located within the housing.

This cooling cycle ensures that the coolant cools the cooling plate (2) via the evaporator (9). Beverage container (10), which is located on the cooling plate (2), is cooled by cold air conduction. The beverage container (10) can comprise a bottle, a can, a carafe, a beverage carton, a bag-in-box as well as a saucer or a plate.

This continuous cooling cycle ensures that the cooling plate (2) is kept cool regularly. The coolant does not need to be refilled. Isobutane or 1,1,1,2 tetrafluoroethane is preferably used as the liquid gas or cryogen.

In a possible embodiment, a heat exchanger (11) is provided between the cooling plate (2) and the evaporator (9) to increase the contact surface.

The device (1) is furthermore provided with a drain (12), which allows to collect the condensed water from the cooling plate (2).

Figure 2 illustrates another possible embodiment, provided with a cooling plate (2) on which a tray (13) is placed. The liquid gas in the liquid reservoir (4) is directed through the pipes (8) where it cools down the cooling plate (2). The pipes (8) are in contact with the underside of the cooling plate (2). The cooling liquid in the liquid reservoir (4) is provided in a container which upon opening through a valve forms a gas which flows through the pipes (8) up to the cooling plate (2). As a result of the transition from the state of aggregation from liquid to gas, heat is released, whereby a cooling effect is achieved.

The liquid gas can be supplied under pressure in a spray pipe or by means of a compressor, not shown in the figure. The liquid reservoir (4) can therefore be refilled. Both the liquid reservoir (4) and the pipes (8) are integrally located within the housing (3).

Furthermore, in a possible embodiment, a heat exchanger (11) is provided between the cooling plate (2) and the gas pipes (8).

The main purpose of this device is to cool a beverage container or food container in a short period of time by activating the container at regular intervals. This can be controlled both automatically and manually. A timer can be provided for automatic control.

Claims (14)

A cooling device (1) for cooling food and beverages, comprising a flat cooling plate (2), which is placed on a foot (3) with a housing in which a liquid reservoir (4), which is connected to pipes (8) and in which a cooling liquid or cryogen circulates and characterized in that the pipes (8) are integrally inside the housing and extend at the bottom of the cooling plate (2) and cool the cooling plate (2) by conduction. Cooling device (1) according to claim 1 and characterized in that the cooling liquid circulates continuously. Cooling device (1) according to claims 1 or 2 and characterized in that an expansion valve (5), an evaporator (9), a compressor (6) and a condenser (7) are provided in the housing, in which the cooling liquid alternates from the state of aggregation liquid / gas changes. Cooling device (1) according to claim 3 and characterized in that the evaporator (9) is located on the underside of the cooling plate (2). Cooling device (1) according to the preceding claims and characterized in that the cooling liquid comprises tetrafluoroethane or isobutane. Cooling device (1) according to claim 1 and characterized in that the cooling liquid is provided in a refillable container in the liquid reservoir (4). Cooling device (1) according to claim 6 and characterized in that the holder comprises a spray can with liquid gas. Cooling device (1) according to claim 6 and characterized in that a compressor is provided to keep the liquid gas under pressure. Cooling device (1) according to the preceding claims and characterized in that a heat exchanger (11) is provided under the cooling plate (2). Cooling device (1) according to the preceding claims and characterized in that a control panel is provided in the housing. Cooling device (1) according to the preceding claims and characterized in that a timer can be set for automatically activating or deactivating the cooling device (1). Cooling device (1) according to at least one of the preceding claims and characterized in that the cooling plate (2) is arranged under a slope. Cooling device (1) according to at least one of the preceding claims and characterized in that the cooling plate (2) is provided with an upright edge. Cooling device (1) according to at least one of the preceding claims and characterized in that the cooling plate (2) is provided with a drain (12).