JP2021110086A - Device for rapidly producing drinking water from air - Google Patents

Abstract

To provide a device that can safely produce water with a single machine when the water is needed in a hurry.SOLUTION: The device comprises: installing a cooling cooler d in an outer layer if there is a warming heater b in an inner layer of three spaces surrounded by a wall that has a triple structure; lowering artificially a dew point which is a temperature at which saturated water vapor in air liquefies, by increasing the temperature difference between walls of the triple structure; lowering an amount of the saturated water vapor that can be contained in an intermediate layer; and generating water by generating water droplets inside the intermediate layer.SELECTED DRAWING: Figure 1

Description

The present invention relates to a drinking water rapid generator for producing drinking water from the air.

There is no conventional technology that has existed on the earth so far, and this application is a brand new development of human industrial technology.

In emergency areas where there is no water, in the event of a disaster, when it is troublesome and time-consuming to go to fetch water in places where water supply is not widespread in developing countries, when it is dangerous, daily life, camping, etc. However, there is no water supply, and the purpose is to safely generate water with this machine when water is needed in a hurry.

In order to solve the above problems, the air-to-drinking water rapid generator of the present invention uses an intake fan to pressurize the middle air layer in the middle of the triple space made up of triple walls having a triple structure or the like. With the air inflow in the state, the water vapor in the air is liquefied by the concept of saturated water vapor and dew point by the thermal heater and cooling cooler of the outer layer and the inner layer, and the water is stored in the storage tank as safe water that can be drunk, from the air. It is characterized by the rapid production of drinking water.

Even in places where there is no water or no water system, this machine can generate safe drinking water on the spot, from cold regions to tropical regions.

Cross section Front view Top view Bottom view Right view Left side view Rear view Plan view

It is a three-dimensional structure with a triple structure or more where air and wind easily circulate, and a powerful intake fan (ventilation fan) that sucks in air is attached to the main body, and the intake fan is connected only to the middle air layer of the triple structure. , Sends air to the middle layer.

Either the thermal electric heater or the cooling electric cooler is built in the inner layer and the outer layer of the three spaces surrounded by the triple-structured wall, and the warm heater is in the inner layer. If there is, the outer layer has a cooling cooler, if there is a cooling cooler in the inner layer, a warm heater is installed in the outer layer, or if a hot / cold air conditioner or a hot / cold heater cooler is installed in both. Is to make it possible to control the temperature difference with an electronic control panel so that there is a temperature difference between the two, and by increasing the temperature difference of the wall surface of the triple structure, air from the wall on the cooling cooler side By artificially lowering the dew point, which is the temperature at which the saturated water vapor inside liquefies, the amount of saturated water vapor that can be contained in the intermediate layer is lowered, and the situation where dew condensation of the triple structure is likely to occur is scientifically and artificially. Water droplets are generated inside the intermediate layer, and when the water droplets accumulate in the intermediate layer, water vapor (H2O), which is an element of humidity in the air, causes a liquefaction phenomenon and changes (liquefies) into water.

Since the air pressure inside the intermediate layer is set to positive pressure to accelerate the liquefaction of water vapor (water generation), the ventilation fan should have a strong intake force, and conversely, the exhaust side takes in air to make the air pressure positive. Make the air outlet smaller than the fan air inlet area.

By making the intermediate layer a thin tube or a narrow space like a hose type, the air is cooled and reaches the dew point while the air containing the water vapor sucked by the intake air circulates, and the liquefied water becomes a liquid of water. The mechanism is such that it flows down into the storage tank.

It is a very useful device for areas where water services are not well developed, emergency medical care, campsites, and emergencies such as in the event of an emergency disaster.

a. Intake fan Ventilation fan
b. Inner layer with built-in thermal heater or cooling cooler
c. Intermediate / water generation layer
d. External layer with built-in thermal heater or cooling cooler
e. Control panel
f. Exhaust port
g. Storage aquarium
h. Intake port
i. Exodermis of the outer layer
j The wall that separates the outer layer from the middle layer
k. The wall that separates the middle and inner layers

Claims (9)

When the main body has a triple structure, etc., and the intermediate layer, which is an air layer containing water vapor, is both an outer layer outside the intermediate layer and an inner layer inside the intermediate layer, and one of them is a warming layer. The other is a cooling layer. Both the outer layer and the inner layer shall have both a hot / cold air conditioner or a device that causes a temperature difference on the surface of both layers such as an electric heater and an electric cooler. The intake fan that takes in air into the middle layer is arranged so that a lot of air is taken into the middle layer from the outside powerfully and quickly, and the area where the air at the exhaust port comes out is smaller than the area where the air at the intake port enters, and it is in the middle. Designed so that the air pressure inside the layer is always positive. There is an exhaust port and an intake port for the air sucked from the intake fan to escape from the exhaust port through a thin pipe in the middle layer. There is a storage tank for the water vapor liquefied in the middle layer to become water and flow into the storage tank. A control panel is provided to control the heat heater, cooling cooler, and power switch of the main unit. The material (i) of the outermost layer should be a heat insulating material with low thermal conductivity. The material (j) of the layer between the outer layer and the intermediate layer shall be a material with high thermal conductivity. The material (k) of the layer between the intermediate layer and the inner layer shall be a material with high thermal conductivity.

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