DE1601874A1 - Cool container - Google Patents

Description

"Refrigerated container" The invention relates to a refrigerated container a complete cooling device permanently installed in the container.

The cooling device can be of any design are essentially three different cooling devices, namely devices with compressor cooling, with nitrogen cooling and with dry ice cooling.

The compressor cooling is outside the usable space of the container apart from a drive motor, the compressor with the condenser is arranged while the evaporator, which is also part of the coolant circuit, is on the top of the usable space. The heat transported out of the usable space is absorbed by the Condenser released to the outside air. To ensure proper heat dissipation, the condenser must be surrounded by fresh air to a sufficient extent. This When shipping the Qontainer, the claim can only be taken into account that the container is stacked at a sufficient distance from each other and for one Forced air circulation ensures.

It is obvious that this, on the one hand, allows the utilization of the Ship space is impaired and on the other hand a considerable effort for the Forced air circulation system operated me3. . Refrigerated O-container with compressor cooling are consequently only poorly suited for transport by ship.

When cooling with liquefied nitrogen or liquefied nitrogen Air are arranged outside the oontainer usable space nitrogen storage container, from which regularly liquid with the help of an overpressure device Nitrogen is introduced into a tube located at the top of the utility room and is sprayed from here through nozzles. The evaporation cold of the sprayed Gas is used for cooling. This type of cooling allows only relatively short cooling times from about 100 hours to, there is a certain relationship between the size of the storage container for the coolant and utility parameters must not be exceeded. One turns this cooling daner only for the transport over short distances, so z. B. for the Rail or road transport. Purely for shipping, containers are the last mentioned type practically only suitable if on the ship one there is a facility for liquefying nitrogen or air; otherwise have to namely undesirably high dead loads-n are carried along.

The same disadvantages as with the second type of cooling also occur the cooling with dry ice, because this too is during the cooling process consumed. The fact that the filling shafts also has an unfavorable effect here for the rock ice are regularly arranged on the top of the container and the containers would be locked when stacking one on top of the other.

The above statements indicate that none of the known Containers, especially for collective transport on ships over long distances suitable is. The object of the invention is to remedy this deficiency and to develop a container that can also be stored in a confined space can be properly cooled for any length of time. This task is solved in that the refrigerated container according to the invention is equipped with an auxiliary cooling system is, which has different properties than the main cooling device and this with regard to of the area of application added. The auxiliary cooling system is incomplete here and the container with at least one connection for that located in its Isutzraux Auxiliary cooling system provided by an outside of the container and can be operated from this independent additional cold source. The refrigerated container According to the invention has the advantage that the auxiliary skühlsystem everywhere there Cooling of the Oontainer can take over, where the function of the main cooling device impaired is, so z. B. on ships and in warehouses. Since the auxiliary cooling system is not a container's own If a cooling unit is required, it can also be constructed and therefore much simpler cheaper than the main cooling device if it is independent from it.

However, the investment costs can be kept even lower if the auxiliary cooling system is created using lines of the main cooling system, connected to at least one connection for the additional cold source and optionally charged with coolant from this or from the main cooling unit can be. The utilization in particular of lines of the main cooling system offers for containers whose main cooling pipe system is filled with a brine that is cooled by means of dry ice.

In a particularly simple embodiment of the invention, the Auxiliary cooling system of coils or the like. formed from the outside with a cold carrier or refrigerant can be charged, the or that to him via connections of is fed to the independent additional cold source.

Instead of an open auxiliary cooling system, a closed one can also be used Auxiliary cooling system and heat exchanger are worked. In such a case the auxiliary cooling system of pipes or the like. formed having a heat exchanger run through, whose cooling part can be charged with a cold carrier or refrigerant is fed to it from the independent additional cold source.

This embodiment will be preferred when used as a cooling liquid not a pure refrigerant, but a refrigerant that is used in the iltskühisystem evaporates.

In the case of an open pipe system, this would have to be taken into account that the same refrigerant is used in the auxiliary cooling system and in the outdoor system will. Letteres is difficult to make.

Further details of the invention emerge from the patent claims and the following description of exemplary embodiments of the invention Refrigerated container.

In the single figure 11 is a container with dry ice cooling, 12 a container with nitrogen cooling and 13 a container with a bi-machine cooling system.

The container 11 has a storage space on its one end face 14 for dry ice, run through the lines 15,16 with four heat exchangers 17 are connected. There is a brine or ammonia solution in the pipes, that the heat transfer from the heat exchangers to the filled with dry Container 14 takes over. The dry ice container, the filled pipes and the heat exchangers form a complete cooling system. the same that represents the main cooling device The container is equipped with an auxiliary cooling system. This auxiliary cooling system is formed by taking advantage of the heat exchanger 17, in which these with connections 18,19 are provided via which a connection to connections by means of newspapers 20,21 22,23 of tubes 24,25 of an external cold source 26 can be produced.

The amounts of coolant withdrawn from the tube 24 are through a Xlagnetventil 27 set, which is controlled by a thermostat 28 with sensor 29 will. It goes without saying that when cooling of the container through the external cold source 26 the connection between the heat exchangers 17 and the dry ice container 14 is interrupted by means not shown. The brine or ammonia solution of the main cooling circuit mixes with the brine or ammonia solution of the external cooling circuit. However, this does not result in any disadvantages.

The container 12 has an auptkühleineinrichtung which is filled with liquid Nitrogen is operated, which from storage containers 30 via a nozzle 31 having Pipe 32 is sprayed into the usable space. The spraying of nitrogen creates evaporative cooling, which evenly cools the entire usable space through a suitable arrangement of the nozzles. In this second container 32 are also on both sides of the spray tube Heat exchanger 17 arranged. These heat exchangers form together with pipes '33> 34 and part of a second heat exchanger 35 the closed, for example circuit of another auxiliary cooling system filled with frigen. The one on the container Installed heat exchanger 35 is also here via connections 36,37 with the pipes 24.25 connected. The heat which Prigen's closed cooling circuit is transported out of the container, is therefore on the brine in the pipes 24,25 transferred and fed from this to the additional cold source 26.

In turn, they are used to regulate the temperature in the usable space of the container a solenoid valve 27 and a thermostat 28 with sensor 29.

The container 13 is equipped with a machine cooling system, from an outside of the utility room, for example from an electrical or internal combustion engine driven compressor 38, a condenser 29 and a Evaporator 40 consists. Included in the auxiliary cooling system of this container as in the case of the container 11, in turn, heat exchangers 17, whose connections 18, 19 above Lines 20,21 are connected to the connections 41,42 of the tubes 24,25. In contrast however, here is the auxiliary cooling system for the first-described embodiment of the invention independent of the main cooling device.

Various types of cold sources can be used for the auxiliary cooling system be used. The cold source shown in the drawing 26 is for example from two coolant circuits, one of which with a refrigerant and the others are operated with a pure cooling agent. Belong to the first cycle essentially an air-cooled condenser 43, a compressor 44 and an evaporator 45, from which the heat is withdrawn from the second circuit, which is drawn from the pipes 24,25,46, the respective auxiliary cooling system of a brine pump 4i and a collecting tank 48 will. It goes without saying that an additional cold source of a different type can also be used is.

Claims (11)

Claims 1) Refrigerated container with a built into the container complete cooling device, in that it is with is equipped with an auxiliary cooling system. 2) refrigerated container according to claim 1, characterized g e k e n n z e i c h n e t that the auxiliary cooling system is incomplete. 3) refrigerated container according to claim 2, characterized g e k e n n z e i c h n e t that it has at least one connection for the one located in the usable space of the container ilfskühlsystem (17) is provided, which is from an outside of the container (11,12,13) arranged and independent of this additional cold source (26) can be operated is. 4) refrigerated container according to claim 1 or dependent claims, characterized in that g It is not noted that the auxiliary cooling system (17) is independent of the main cooling system is. 5) Eühl container according to claim 1 or dependent claims 2 to 3, characterized it is not noted that the auxiliary cooling system of parts of the main cooling system is formed with at least one connection for the additional Cold source (26) are connected (container 11). 6) refrigerated container according to claim 1 or one of the dependent claims 2 to 5, in that the auxiliary cooling system of heat exchangers (17) is formed, which can be charged from the outside with a cold carrier or refrigerant are who or that give them at least one connection from the independent additional Cold source (26) is supplied. 7) refrigerated container according to claim 1 or one of the dependent claims 2 up to 5, in that the auxiliary cooling system is made up of pipes (33,34) or the like. is formed, which pass through a heat exchanger (35), the cooling part can be charged with a coolant or refrigerant, which or that of the independent additional cold source (26) is supplied. 8) refrigerated container according to claim 6, characterized g e k e n n -z e i c h n e t that the auxiliary cooling system is operated with a brine or ammonia solution. 9) refrigerated container according to claim 7, characterized in that g e k e n n -z e i c h n e t that the auxiliary cooling system with brigen or the like. is operated. 10) refrigerated container according to claim 4, characterized g e k e n n -z e i c h n e t that the heat exchanger (17) of the Xilfskühlsystems on the top of the usable space are housed in the area left free by the main cooling device. 11) cooling device for ailfskühlsysteme of containers according to claim 1 and / or dependent claims, characterized in that they are a cooling unit (45) with coolant inlet and outlet lines (24,25), which with taps (22.23; 36.37; 41.42) for the connections to the containers (11,12,13) Connecting lines are provided.