RU197069U1 - CAPACITY FOR RECEIVING WATER FROM ATMOSPHERIC AIR - Google Patents

Abstract

The utility model relates to condensation plants that produce water from atmospheric air. A container with a cube-shaped body for receiving water from atmospheric air, comprising a duct with a confuser and slots, a condenser made with vertically arranged plates, and shelving with a mesh bottom on which moisture-absorbing material is located, as well as air ducts in contact with the heat accumulator, with openings for air passage, a confuser and slots made in the form of an inlet and outlet with lapans connected to each other and to hydraulic cylinders located above the parabolic mirror by a cable, and the outlet is located in the exhaust pipe, also contains a heat accumulator, painted in black, located separately from the tank, which is a flat tank, oriented by a plane to the sun, containing low boiling liquid inside, and pipelines connecting the additional heat accumulator with the tank passing inside the tank body under the shelves, and for regulating the flow of light yaschey fluid piping are installed on the additional valve, which is driven by hydraulic cylinders via cables.

Description

The utility model relates to condensing plants that produce water from atmospheric air.

Known capacity for producing water from atmospheric air, containing an air duct, slots, a condenser with plates, shelves with a mesh bottom, on which is a moisture-absorbing material, as well as air ducts in contact with the heat accumulator. (PM No. 49845 IPC E03B).

A disadvantage of the known capacity is the low productivity of water, due to insufficient heating of the moisture-absorbing material.

The task to which the claimed utility model is directed is to increase productivity by water capacity.

The technical result is achieved in that a container with a cube-shaped body for receiving water from atmospheric air containing an air duct with a confuser and slots, a condenser made with vertically arranged plates, racks with a mesh bottom on which the moisture-absorbing material is located, and air ducts are in the tank’s body in contact with the heat accumulator, with holes for the passage of air, a confuser and slots made in the form of inlet and outlet openings with valves connected to each other and to hydraulic cylinders, a cable located above the parabolic mirror, and the outlet is located in the exhaust pipe, additionally contains a heat accumulator, painted black and located separately from the tank, which is a flat tank oriented by the plane to the sun, containing light boiling liquid inside, and pipelines connecting the additional heat accumulator with a tank passing inside the tank under the racks, and to control the flow of low-boiling liquid in pipelines, additional Filling valves driven by hydraulic cylinders with cables. The utility model is illustrated in the drawing.

In FIG. 1 shows a General view of the tank for receiving water from atmospheric air with an additional heat accumulator.

The container for receiving water from atmospheric air contains a casing 1 in which there is an inlet 2 hole (slot) and an outlet 3 hole (confuser) with valves 4 and 5, respectively, and in the inner plane of the vessel there are racks 6 with a mesh bottom 7 and air ducts 8 in contact with the heat accumulator 9 with openings for the passage of air, while the valves 4 and 5 are connected by a cable to each other and to the hydraulic cylinder 10, inside which is a liquid 11 having a large expansion coefficient.

The hydraulic cylinder 10 is located above the parabolic mirror, one of the faces 12 of the housing 1 is made of heat-conducting material and is in contact with a condenser (heat exchanger) 13 made with vertically arranged plates, one of the lower faces 14 has an opening (slot) 15, through which it is collected into the container 16 condensate. The valve 5 is located in the exhaust pipe 17. An additional heat accumulator 18 is connected to the housing 1 by pipelines 19, which pass under the shelves 6 in the housing, and valves 20, also connected by a cable to the hydraulic cylinder 10, are installed on the pipelines 19 to regulate the flow of low boiling liquid.

The principle of operation for obtaining water from air is as follows. At night, the ambient temperature is lowered and the fluid in the hydraulic cylinder is compressed, while valves 4 and 5 are open. The heat accumulator 9 provides directional movement of air into the exhaust pipe 17, creating a certain vacuum inside the housing 1 and atmospheric air enters the inlet (slot) 2, passes through the air ducts 6 through the mesh bottom 7 and moisture-absorbing material, leaving moisture in this material, while the valves 20 are in the closed position and the heat from the additional heat accumulator 18 through pipelines 19 does not enter the housing 1.

In the daytime, the sun heats the liquid in the hydraulic cylinder 10 and with the help of ropes, the valves 4 and 5 close the hole (slot) 2 and the hole (confuser) 3, and the valves 20 open, inside the cavity of the body 1, the heat is created from heating the body by the rays of the sun and heat, transferred from the additional heat accumulator 18 using pipelines 19, which significantly increases the efficiency of evaporation of moisture from the moisture-absorbing material, and, therefore, increases the capacity of the tank.

Claims (1)

A container with a cube-shaped body for receiving water from atmospheric air, containing a duct with a confuser and slots, a condenser made with vertically arranged plates, shelving with a mesh bottom on which the moisture-absorbing material is located, and also ducts in contact with the heat accumulator in the tank’s body with openings for air passage, a confuser and slots made in the form of inlet and outlet openings with valves connected to each other and with hydraulic cylinders located above the parabolic mirrors ohm, with a cable, and the outlet is located in the exhaust pipe, characterized in that it contains a heat accumulator, painted black and located separately from the tank, which is a flat tank oriented by the plane to the sun, containing light boiling liquid inside, and pipelines connecting an additional a heat accumulator with a tank passing inside the tank under the racks, and additional valves are installed on the pipelines to control the flow of low-boiling liquid x is carried out from the hydraulic cylinders using cables.

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