NL1003182C2 - Transportable cooled container for foodstuffs - Google Patents

Abstract

The rectangular insulated container (10) has an aperture near the top to allow the cooling unit (2) to be connected. Air is drawn over the cooled heat exchanger (4) by a fan (5). The air flows between the inner wall of the container and a baffle plate (7). Inside the gap between the wall and the plate are guide baffles (9), which force the air down (P1), up (P2) and over the top of the plate into the main body of the container. After circulating (P3) around the contents, the air leaves the container through the cooling unit (2).

Description

COOLING DEVICE, CONVEYOR PROVIDED WITH COOLING DEVICE, HOLDER AND ASSEMBLY OF COOLING DEVICE AND

HOLDER

The invention relates to an apparatus for cooling and flowing a cooling medium. The invention also relates to a transport means provided with such a cooling device and to a container for cooling products for cooperation with the cooling device. Finally, the invention also relates to an assembly of the cooling device and at least one holder.

The cooling of products usually takes place by placing them in a cooled room, so that after some time the products will assume the temperature of the cooled room. When transporting the cooled products, these are either taken from the cooled room and transferred to a second, for example mobile, cooled room or the whole cooled room is moved as such. The latter solution should, for example, be referred to as so-called refrigerated trucks. Moving refrigerated products from a refrigerated space to another refrigerated space can have the drawback that it is labor-intensive, can have undesired consequences for the cooled products, can cause hygiene problems for the environment, can lead to errors in transport handling, etc. Another drawback consists in that the products usually have to be packaged, so that an insulating layer is present between the cooled space and the product to be cooled. The disadvantage of transporting an entire refrigerated space, however, is that it is economically attractive only with relatively large volumes. Another drawback is that the cooling device attached to the cooled space is relatively susceptible to malfunction and can easily be damaged during loading.

The object of the present invention is to provide a cooling device, container, transport device with cooling device and assembly for cooling device and container with which the above-mentioned drawbacks can be avoided while maintaining the advantages of the prior art.

The invention provides for this purpose a device for cooling and flowing a cooling medium, wherein the device is provided with a pump incorporated in a cooling medium circuit and coupling means for attaching to the device a container for products to be cooled, which coupling means are are designed to be included in the cooling medium circuit and include a passage for the cooling medium. The passage for the cooling medium in the coupling means is preferably closed in the uncoupled position. This is the case, for example, with a so-called shortcut. With such a cooling device, a specially adapted container for products can be cooled. For transporting the products, the container can be disconnected from the cooling device, after which the container is moved to another cooling device to which the container is reconnected. The advantages of this cooling device are that it can cooperate with containers of different sizes and that the cooling device does not have to be transferred when the container is overloaded. This limits the risk of malfunctions and also makes transhipment easier, since a container without a cooling device will be lighter and easier to handle than the cooled space with a cooling device (for instance think of a container provided with a cooling device).

Another advantage of the cooling device is that it can be constructed very simply in construction and that the investments in a cooling device with associated 1003182 3 container will be relatively limited. It is also possible to adapt the capacity and container volume to the need, the condition of course being that the cooling device has sufficient capacity for a possibly increased volume of the container or containers. The advantage of a quick coupling is that these are commercially available as standard and are a good and cheap solution for the coupling means.

In a preferred embodiment, the cooling device 10 comprises a plurality of coupling means for optionally attaching a plurality of holders to the device. With this cooling device, the cooled volume can be varied by coupling or uncoupling one or more containers.

The device may, for example, comprise an absorption or compression system. A cooling device comprising a water supply, for instance a source or connection to the water supply network, a water discharge and a pump for displacing the water, can also be advantageous in specific conditions of use. For the latter constructional solution, one could think, for example, of a farm where relatively large amounts of water are consumed, which water is usually about 8 ° C when extracted from the source or when it comes from the pipeline network. If the products to be cooled, for example carcasses to be cooled on a farm, are not to be cooled back to a temperature lower than 8 ° C, this water can be used for cooling without energy being required other than for moving of the water. The water can either be supplied directly to the container by the coupling means or can cool a cooling medium through a heat exchanger, which cooling medium can be supplied to the container by the coupling means.

The invention also relates to a transport means provided with such a cooling device, wherein the cooling device is mounted on a 1003182 transport means and a space is left close to the cooling device on the transport means for containing at least one container. Such a transport means, for instance a refrigerated truck, can go to the locations where containers have to be picked up or delivered, whereby the containers are cooled during transport by the cooling device which is part of the transport means.

The invention also includes a container for cooling products which can cooperate with a cooling device as described above. This holder is provided with coupling means for attaching the holder to the cooling device, which coupling means are designed such that they comprise a passage for the cooling medium. The passage for the cooling medium in the coupling means is preferably closed in the uncoupled state. The coupling means are preferably formed by a quick coupling. The coupling means with passage make it possible to supply the cooled cooling medium to the container 20, so that it can be brought to a desired temperature. When the coupling means are automatically closed in the uncoupled state, it has the advantage that no cooling medium can escape. Another advantage is that the cooling medium remaining in the container will have a retarding effect on reheating a cooled container after it has been disconnected from the cooling device. The greater the mass of the cooling medium remaining in the container, the slower the container will heat up.

In a preferred embodiment, the container is at least partly double-walled and the coupling means for supplying cooling medium connect to the interspace. By this measure a cooling medium can be supplied to the partition wall space with the advantage that the cooling medium does not have to come into direct contact with the product to be cooled.

In another embodiment, the partition wall at the top communicates with the interior of the 1003182 container such that the cooling medium can flow from the partition wall space into the container. The advantage of this construction is that the cooling medium comes into direct contact with the product to be cooled, so that the efficiency of the device will be relatively high. This solution will usually be chosen when there is a cool gas, such as air.

In yet another preferred embodiment the partition wall space is a closed space and coupling means connect to the partition wall space for the discharge of cooling medium. This construction ensures a good separation of the product to be cooled and the cooling medium.

Finally, the invention also encompasses the assembly of the cooling and the container, wherein the cooling device comprises a blade wheel which can be driven by means of a medium flow in the cooling device, which blade wheel is coupled to the pump in the cooling medium circuit. Preferably, a transmission is included between the impeller and the pump. This construction makes it possible to realize a flow in the cooling circuit without the need to include a separate energy-consuming pump for this purpose. The said pump can for instance be used for circulating a cooling liquid such as, for instance, water, but it is also possible to design the pump as a fan for circulating a cool gas.

The present invention will be further elucidated with reference to the non-limitative exemplary embodiments shown in Figures 30 below. Herein shows:

Fig. 1 a perspective, partly cut-away view of an assembly of a cooling device and container according to the invention, FIG. 2 is a partially cut away perspective view of a container in accordance with the present invention that differs from the container shown in FIG. 1, and 1003182 6

Fig. 3 is a perspective view of a transport means provided with a cooling device according to the invention.

Fig. 1 shows an assembly 1 of a cooling device 2 and a container 3. The cooling device 2 comprises a heat exchanger 4 with which a cool gas is cooled which, after being cooled, is blown into a discharge channel 6 by a fan 5 also included in the cooling device 2. The discharge channel 6 also forms part of the cooling device 2.

A container 3 connects to the cooling device 2 in such a way that the discharge channel 6 falls into a specially arranged opening of the container 3. The holder 3 shown in this figure comprises an extra inner wall 7 on one side, whereby an intermediate wall space 8 is created. The cooling gases blown out by the cooling device 2 are led downwards by partitions 9 placed in the partition wall space 8 in accordance with the arrows P1. At the bottom of the partitions 9, space 20 is left in the partition wall space 8, through which the cooling gases will flow upwards in accordance with the arrows P2. At the top of the container 3, the inner wall 7 does not fully connect to a lid 10 of the container 3. This creates a slot between the inner wall 7 and the lid 10. Through this slot, the cooling gases that have flowed upwards will be more or less swirl through the holder 3 in accordance with the arrows P3. Finally, a holder 11 is included in the holder 3, which connects to an opening 30 specially provided for this purpose in the cooling device 2. The fan 5 of the cooling device 2, which takes care of blowing in cooling gases, also functions as a suction unit for the heated cooling gases originating from the holder 3. Depending on the specific use situation, it can be chosen to attach the channels 6 and 11 to either the cooling device 2 or the holder 3. When separating the container 3 from the cooling device 2, it is preferable to close the container 3 in such a way that the temperature in it will not rise quickly. This can be done, for example, by means of a closing element which is placed over the openings that have been created.

Fig. 2 shows an alternative container 12 which connects to a supply pipe 13 of cooling medium, through the intermediary of a flexible part 14 and a quick coupling 15. The container 12 is largely double-walled and the partition wall 16 is filled with liquid in the figure. The cooling medium is discharged, after the necessary heat has been absorbed, through a discharge pipe 17, through the intermediary of a flexible outer part 18 and quick coupling 19, connected to the partition wall space 16. The flow direction of the cooling medium, in this case liquid, is according to arrows P4.

A pump 20 is included to realize the flow in the inlet 13, the partition wall 16 and the outlet 17.

The container 12 shown in this figure can be used, just like the container 3 shown in figure 1, for cooling all kinds of different products, but perishable goods are particularly considered, such as, for example, carcasses at cattle farmers and food remnants at institutions and restaurants.

Fig. 3 finally shows a truck 21 on which several cooling devices 22 are placed. These cooling devices 22 should not, however, all be designed the same. It is thus possible to place cooling devices 22 with very large capacity and cooling devices 22 with limited capacity. It is also possible to switch one cooling device to several holders 23 to be cooled. It is of course also possible to cool only a part of the holders 23 on the truck 21 and a number of other holders, for instance empty holders or holders with less sensitive contents, not to be cooled.

***** 1003182

Claims (15)

1. Device for cooling and circulating a cooling medium, the device comprising a pump included in a cooling medium circuit and coupling means for attaching to the device a container for products to be cooled, which coupling means are designed such that they are included in the coolant circuit and include a coolant feedthrough. 2. Cooling device according to claim 1, wherein the passage for the cooling medium in the coupling means is closed in the uncoupled state. Cooling device according to claim 1 or 2, wherein the coupling means comprise at least one quick coupling. Cooling device as claimed in any of the foregoing claims, wherein the device comprises a plurality of coupling means for optionally attaching one or more containers to the device. Cooling device according to any one of the preceding claims, wherein the device comprises an absorption or compression system. 6. Cooling device as claimed in any of the claims 1-4, wherein the device comprises a water supply, for instance a source or a connection to the mains water network, a water discharge and a pump for displacing the water. Transport means provided with a cooling device according to any one of claims 1-6, wherein the cooling device is mounted on a transport means and a space is left near the cooling device on the transport means for carrying at least one container. 1003182 8. Container for cooling products, for cooperation with the cooling device according to any one of claims 1-6, wherein the container is provided with coupling means for securing the container to the cooling device, which coupling means are designed such that they provide a passage for the cooling medium. 9. Container as claimed in claim 8, wherein the passage for the cooling medium in the coupling means is closed in the uncoupled state. Holder as claimed in claim 8 or 9, wherein the coupling means comprise at least one quick coupling. 11. Container as claimed in any of the claims 8-10, wherein the container is at least partly double-walled and the coupling means for supplying cooling medium connect to the partition wall. 12. Container as claimed in claim 11, wherein the partition wall space at the top communicates with the interior of the container, such that the cooling medium can flow from the partition wall space into the container. 13. Holder as claimed in claim 11, wherein the partition wall space is a closed space and connecting means connect to the partition wall space for the discharge of cooling medium. 14. Assembly of a cooling device according to any one of claims 1-6, and at least one container according to any one of claims 8-13, wherein the cooling device comprises a blade wheel which is drivable by means of a medium flow in the cooling device, which blade wheel is coupled to the pump in the coolant circuit. 15. Assembly as claimed in claim 14, wherein the impeller is connected to the pump via a transmission. ***** 1003182