DE19840486A1 - Operating portable cold box by keeping moisture frozen using coolant with aggregate state change from solid to liquid at temperature at least ten degrees Celsius below melting temperature of ice - Google Patents

Abstract

The method involves maintaining the accumulating moisture in the frozen state. A coolant is used whose aggregate state change from solid to liquid occurs at a temperature at least ten degrees Celsius below the melting temperature of ice. The coolant is glycol. which can be frozen and/or pumped.

Description

The invention relates to a portable cool box, in particular made of plastic foam and with Cover and with coolant. Cool boxes are well known. They mainly serve that Transport of perishable goods, partly also other tasks.

For handling a portable cool box, the box should be as light as possible have. This requirement alone prohibits operation with an electric one Cooling system, as it is known from refrigerators. The use would be a Battery particularly disadvantageous.

The refrigerated goods are usually placed in the cool box in a cooled form. Perishable Refrigerated goods can then be stored in the cool box for a certain time without any risk there is that the refrigerated goods spoil. If the permissible storage time is exceeded with increasing time a warming through which the growth of bacteria and germination is favored.

It is common to cool the allowable storage time in portable coolers extendable with interchangeable cold rooms. It is art fabric containers, mainly filled with water. The cold rooms are preferably with frozen content placed in the portable cooler. It is recommended that the cold rooms above to put on the refrigerated goods.

The invention has recognized that water collects in cool boxes. The waterfall results mainly from the condensation of air humidity, possibly also from the fact that the Chilled goods release moisture.

The moisture causes a hygiene problem because it distributes the germs and Causes bacteria.

The object of the invention is therefore to prevent the accumulation of water. After Invention this is achieved in that the internal temperature is below zero degrees Celsius is kept and any moisture is frozen. The necessary cooling capacity is preferably shown with a special coolant. A suitable coolant is  Glycol, in which the state of matter change from Melting point of ice is.

The glycol filling can be used depending on the respective glycol temperature determine the cooling duration at which the desired cooling effect is still guaranteed. Particularly favorable conditions result when the glycol is frozen in the Cool box is introduced.

However, there can also be significant advantages if the glycol or another Coolant with a similar cooling effect is kept pumpable. A similar cooling effect occurs when the state of matter changes at a temperature that is at least 10 degrees Celsius below the melting point of ice. This Temperature distance also takes into account the heat transfer from the coolant to the content the cool box, especially the moisture.

For the cooling according to the invention it is also advantageous if the coolant is in the bottom of Cool box is arranged.

The temperature of the coolant according to the invention is theoretically not limited at the bottom. In practice there are considerable limits because the economic presentation of the Initial cooling condition depends on the fact that usually available cooling units are used can be. With conventional refrigeration units, it is usually possible to freeze the food be represented by glycol.

The pumpability of the coolant can be used to reduce the cooling temperature Fill the coolant into the cool box and remove the heated coolant and / or build a cooling circuit. For both it is an advantage if the cool box with corresponding inflow and outflow lines or connections is provided. The cool box is optionally available with a special cooling chamber for the pumpable provided coolant according to the invention. The built-in cooling chamber can advantageously limit the interior of the cool box with a highly heat-conducting wall. So that increases the cooling effect.

It is also convenient to close the connections to the cooling chamber with quick-release fasteners Mistake. Check valves with built-in springs can be used as quick-release fasteners  are used, which operate independently of an internal pressure in the cooling chamber. It is possible to use the freshly supplied coolant in the cooling chamber to push out standing, heated coolant. If there is also a check valve at the outlet is provided, the pressure of the supplied coolant can not only the inlet valve pressure but also the outlet valve pressure for pushing out heated coolant overcome. Alternatively, a purely mechanical actuation by means of filler neck and Exhaust port may be provided.

The cool box with cooling chamber opens up further structural options. This also includes a permanent connection of one or more boxes to a cooling circuit. The advantages are evident. After the intended cooling time and / or after the end of the transport the content does not have to be reloaded or the box does not have to be opened. The cooling can be continued by reconnecting to a new cooling circuit. Unless it is is valuable refrigerated goods such as organs that are intended for transplantation, the cool box according to the invention offers significantly greater operational reliability and Transport security than conventional transport and storage facilities.

Various exemplary embodiments of the invention are shown in the drawing:

Fig. 1 shows an overall view of a cool box 1 with a lid 2 made of plastic foam. In the foot of the cool box 1 there is a dash-dotted cooling chamber 3 for pumpable glycol. The cooling chamber 3 has two valves, an inlet valve 4 and an outlet valve 5 .

The inlet valve 4 is shown in Fig. 2. It is a check valve that sits in the plastic foam wall and opens into the cooling chamber 3 . At the bottom, the cooling chamber 3 is delimited by the plastic foam base 10 , at the top the cooling chamber 3 has a metal foil wall 11 . The entire cooling chamber is filled with glycol. The glycol has a consistency that is just pumpable at a temperature of around 30 degrees Celsius and cools the cooler 1 . According to the invention, the maximum cooling time is determined by the time until it is heated to minus 10 degrees Celsius.

The inlet valve 4 has a housing 13 with an inlet funnel 12 , a valve seat 15 , a valve ball 16 and an abutment 14 and a valve spring 17th The valve spring 17 is supported on the abutment 14 and presses the valve ball 16 against the valve seat 15 with a defined force.

When filling the cooling chamber 3 , a filler neck, not shown, is pressed into the inlet funnel 12 and a pump, not shown, is actuated, so that the above-described glycol is pressed into the cooling chamber from a storage container. At the same time, exchangeable glycol flows out of the outlet valve 5 .

The outlet valve 5 is the same as the inlet valve in the exemplary embodiment and sits in the same way as the inlet valve 4 in the plastic foam wall. The coolant nevertheless flows out of the outlet valve 5 because the valve ball there is pressed inwards by an outlet nozzle (not shown).

In the exemplary embodiment, the cool box has dimensions of 800 × 400 × 500 mm. The In the exemplary embodiment with a content, the cool box has a maximum total weight of 30 kg. This is within reasonable limits for one person.

In other exemplary embodiments, transport with several people is provided. Then the weight is distributed to all people. The weight limit per person will, however adhered to.

With the device according to the invention, a cooling condition can be ensured in the cool box, where the moisture is frozen.

The device according to the invention also unfolds without the cooling according to the invention significant benefits.

Claims (16)

1. A method for operating a portable cool box, in particular made of plastic foam, with a coolant, characterized in that the moisture obtained is kept frozen. 2. The method according to claim 1, characterized by the use of a coolant, whose state of matter change from solid to liquid at a temperature that is at least 10 degrees Celsius below the melting temperature of ice. 3. The method according to claim 2, characterized by the use of glycol as Coolant 4. The method according to claim 2 or 3, characterized by the use of frozen coolant and / or pumpable coolant. 5. The method according to claim 4, characterized by the use of at least one cooling chamber ( 3 ) in the box. 6. The method according to claim 5, characterized by using a highly heat-conducting wall ( 11 ) of the cooling chamber ( 3 ) on the interior of the cool box. 7. The method according to claim 6, characterized by using a metal wall ( 11 ). 8. The method according to any one of claims 5 to 7, characterized by using an inlet and outlet ( 4 , 5 ) on the cooling chamber ( 3 ). 9. The method according to claim 8, characterized by the use of a valve in the inlet and outlet ( 4 , 5 ). 10. The method according to claim 9, characterized in that check valves are used as valves ( 4 , 5 ). 11. The method according to claim 10, characterized by the use of valves ( 4 , 5 ) with spring-loaded valve mechanism ( 16 ). 12. The method according to claim 10 or 11, characterized by the use of the same valves ( 4 , 5 ) for the inlet and outlet. 13. The method according to any one of claims 5 to 12, characterized in that the input and Outlet with a filling and emptying device and / or a cooling circuit is connected. 14. The method according to claim 13, characterized by a mechanical actuation of the Valves by means of filler neck and drainage neck and / or an actuation of the Valves by pump pressure. 15. The method according to any one of claims 1 to 14, characterized in that the Carrying weight of the box is limited to a maximum of 30 kg per person. 16. The method according to any one of claims 4 to 15, characterized by a temporary or permanent connection of the box to a cooling circuit after the Transport for further cooling of the refrigerated goods.