CH710469A2 - Atmosphere Waking hardshell backpack for drinking. - Google Patents

Abstract

Mode of operation The atmosphere-changing backpack extracts CO 2 -free, high-efficiency drinking water from the atmosphere and requires no external power supply, even a diesel generator. The energy required to operate the machine is provided by the device from integrated high-performance batteries. These high performance batteries inside the unit supply the two fans of the cooling units with solid CO 2 (dry ice) and the control technology to condense the sucked in air. A special control technology for controlling the system monitors the speed of the fans, the performance level of the batteries. Areas of application Drinking water supply for: 1. First aid for people in disaster areas with destroyed water supply 2. First aid for people in remote regions during periods of drought in developing countries 3. For the military deployment of soldiers in desert areas

Description

1. outer shell

Dimensions 500 x 900 x 300 mm (W x H x D)

2. outer shell material

Multilayer hard shell plastic, inside with high-performance vacuum film.

3. Heat exchanger and fans with water cooling

Provided are two juxtaposed high-performance fan, which blow according to sketch outside air in the atmosphere-converting hard shell backpack. This sucked warm outside air is cooled with 35 ° C in the atmosphere-converting hard shell backpack to a temperature of 15 ° C, whereby it comes to the condensation. The resulting cold and dry air is then used to cool the technical equipment, such as to cool the batteries before they are sent outdoors, or in a suit made specifically for this backpack, to prevent the wearer of the atmosphere converting hard shell backpack from further water loss sweat, because of the high outside temperature of eg 35 ° C to protect. Within the special suit would then be a temperature of about 15-18 ° C.

4. condensate

The condensate formed during cooling of the outside air is collected in a water tank within the atmosphere-converting hard shell backpack. This approximately 15 ° C cool drinking water can be used directly by drinking tube from the wearer of the atmosphere-converting hard shell backpack. On the side of the atmosphere-converting hard shell backpack has a screw cap for additional removal of drinking water.

5. Technique of the device

Eight high performance batteries within the atmosphere converting hard shell backpack are responsible for the production of the required power for the two high performance fans. These high performance batteries also provide the power of the control technology of the atmosphere converting hard shell backpack.

Conclusion

The atmosphere-converting hard shell backpack has the peculiarity to convert air from the atmosphere into pure drinking water and thereby makes its user independent of a reproached water supply. For example, Soldier deployments within the desert over a period of several weeks.

The energy required for the production of drinking water of the atmosphere-converting hard shell backpack receives the device by eight rechargeable and also exchangeable high performance batteries.

The extreme cooling is achieved by the use of solid CO2, by using commercially available dry ice pallets, which can be exchanged as desired, resulting in the peculiarity that the user of this atmosphere-converting hard shell backpack can supply itself for weeks with pure drinking water.

With the atmosphere-converting hard shell backpack in the size 500 x 800 x 300 mm (W x H x D) drinking water production from the air with the use of 2 high-performance fans 3-4 liters per eight hours is achieved. The atmosphere-changing backpack can produce up to 192 hours (eight days) of drinking water without having to recharge its batteries and reaches with a single battery charge, the eight series-connected batteries, a drinking water output of about 72 liters, depending on the relative humidity , The average yield of recovered drinking water from the atmosphere will therefore amount to 6-7 liters per day due to the difference in humidity.

Purpose and field of application

The use of this revolutionary device is in addition to the direct water supply to the population in worldwide disaster areas, including for the water supply of soldiers in the field, provided in remote regions, which, for example. temporarily have too little drinking water, as in desert regions.

Responsible Norbert Lange

Claims (1)

1. The right to protection applies to processes for the production of drinking water from the atmosphere », for a hard-shell backpack. Technical features: The essential features of this process for recovering drinking water from the atmosphere are that the atmosphere-converting hard shell backpack: <tb> 1. <SEP> No electricity needed to produce drinking water <tb> 2. <SEP> Obtains its power from replaceable high-capacity batteries. <tb> 3. <SEP> These high performance batteries are interchangeable and can also be charged by connecting to a mobile photovoltaic foil. <tb> 4. <SEP> The outside air sucked into the unit by two fans with the heat plate exchanger is efficiently cooled down inside the machine by means of efficient cooling technology in the form of solid CO2 (dry ice), whereby the water in the air is recovered as drinking water becomes. <tb> 5. <SEP> The power needed for the two efficient fans is provided by the eight high performance batteries. <tb> 6. <SEP> The monitoring of these complex processes is ensured by a special control technology to ensure a max. To ensure performance. The control system receives the required power from the high-performance batteries. <tb> 7. <SEP> The drinking water is taken from the atmosphere-converting backpack by means of a drinking tube and additionally with a screw cap. <tb> 8. <SEP> The amount of drinking water gained is 3-4 liters for a usage time of eight hours. The atmosphere-changing backpack can produce up to 192 hours (eight days) of drinking water without having to recharge its batteries and reaches with a single battery charge, the eight series-connected batteries, a drinking water output of about 72 liters, depending on the relative humidity , The average yield of recovered drinking water from the atmosphere will therefore be 6-7 liters per day. New and innovative: The various processes described above, which occur simultaneously in the atmosphere-converting backpack in the production of drinking water, the machine can be used anywhere in the world, without the need for a local power or other power source. The atmosphere-changing backpack produces pure drinking water so completely self-sufficient.