RU131751U1 - DEVICE FOR PRODUCING FRESH WATER - Google Patents

Abstract

1. A device for producing fresh water from atmospheric air, containing a container located in the ground, characterized in that it contains a condenser pipe connected to the container with its lower end, the upper end of which, if necessary, can be protected by a protective visor for supplying air directly to it or through an incoming air heater, connected to it if necessary, inside of which a pipe for venting air is placed with a gap, with whose upper end a wind fan is connected. 2. The device according to claim 1, characterized in that the container is sealed. The device according to claim 1, characterized in that the container is made with holes. The device according to claim 1, characterized in that the container is made of mesh. The device according to claim 1, characterized in that the connection of the tank with the pipe-condenser is made detachable. The device according to claim 1, characterized in that the connection of the condenser pipe to the heater, which is attached if necessary, is detachable. The device according to claim 1, characterized in that the connection of the pipe for exhaust air with the wind fan is made detachable. The device according to claim 1, characterized in that the upper end of the condenser pipe, if necessary, can be protected by a protective visor. The device according to claim 1, characterized in that the tank and the lower end of the condenser pipe are located in the soil at a depth where the soil temperature is maintained below the dew point during the day or any part of the day.

Description

The utility model relates to devices for producing fresh water from atmospheric air in arid regions for use as drinking or for organizing irrigation, including automatic.

Closest to the utility model is a plant for the production of fresh water (application for invention of the Russian Federation No. 98121030, published September 10, 2000) having a condensate chamber, characterized in that the plant precipitates water vapor directly from atmospheric air, while the flow of atmospheric air is provided forcibly or by gravity due to the energy of the sun or wind into the condensate chamber, and the source of the lowered temperature for the condensate chamber is the deeper layers of water or soil, for which the condensate chamber is located It is immersed under water or in the ground at a depth that does not have seasonal temperature changes, while the condensate chamber is insulated from air intake and discharge. In addition, the air intake is automatically oriented towards the wind, for which the air intake is made in the form of a weather vane.

A disadvantage of the utility model is the impossibility of mobility when using the device due to very stringent requirements for the location of the condenser chamber at a depth that does not have seasonal temperature changes (for water this is a depth of over 500 meters _temper _vo% 20 vremeni.html, and for soil 15-20 meters), the requirements for thermal insulation of the condenser chamber from air intake and discharge, as well as the difficulties associated with the organization of automatic irrigation using the obtained water, which for these purposes need to be raised by turning NOSTA via an additional pump.

The technical result, to which the utility model is directed, is to create a universal mobile device for producing fresh water or organizing watering plants, including automatic, in arid regions.

The technical result is achieved in a device containing a container for collecting and / or distributing water, located in the soil at a depth where the temperature of the soil is kept below the dew point during the day or any part of the day, and connected to the surface using a pipe for air exhaust, inside of which there is a pipe - condenser with a gap, in which water is condensed from the air, the inflow of which is provided by a wind fan located directly on the upper end of the pipe - condenser or through a heater incoming air, which provides extra heating of the incoming air.

Figure 1 shows a diagram of a device for receiving water from air with a container for collecting and / or distribution of water. A tank 1 for collecting and / or distributing water is located in the soil 2 at a depth where the soil temperature is maintained below the dew point during the day or any part of the day, and is connected to the soil surface using a pipe-condenser 3 for air supply, inside which with a gap is placed a pipe for venting air 4, where in the lower part of the pipe 3, located below the temperature corresponding to the dew point 5, condensation of water 6 from air 7 occurs, the inflow of which is provided by a wind fan 8 located on the top tse pipe for venting 4. Condensate 6 is collected in the tank 1 in the form of a liquid 9, ready for use. At the upper end of the pipe - condenser 3 is a protective visor 11 to prevent dust and sand from entering the system.

Figure 2 shows a diagram of a device for receiving water from air with a tank for collecting water and with a heater for incoming air. A tank 1 for collecting and / or distributing water, is located in the soil 2 at a depth where the soil temperature is maintained below the dew point during the day or any part of the day, and is connected to the soil surface using a condenser pipe 3 for air supply, inside of which a pipe for venting air 4 is placed with a gap, in the lower part of the pipe 3 there is condensation of water from the air, the inflow of which is provided by a wind fan 5 located at the upper end of the pipe 4. Air is supplied through the heater 10 of the incoming air, located mounted on the condenser pipe 3 providing additional heating of the incoming air. At the upper end of the pipe - condenser 3 is a protective visor 11 to prevent dust and sand from entering the system.

The invention is as follows.

Example 1. Getting fresh water.

In accordance with the chronoisoplets of the soil temperature, depending on the depth for a particular area or by direct measurements, the depth level at which the dew point is reached is determined. So, for example, at an air temperature of 30 degrees Celsius and a relative humidity of 30%, the dew point will be 10 degrees Celsius. This temperature can be obtained at a depth of about 5 -6 meters, which does not allow you to quickly change the location of the device, for example, in field conditions. If the dew point level is below 50 cm, use a device with an air heater according to the scheme of figure 2. An air heater is a known device such as a solar air collector (), which heats the air inside due to the energy of sunlight. Using a preheater allows you to increase the temperature of the air entering the pipe-condenser. In this case, the dew point is shifted, which is determined by humidity and air temperature, to the region of higher temperatures. That is, the condensation of water from air, the temperature of which is artificially raised, will occur at a higher temperature, and, consequently, with less penetration into the soil of the device. If the dew point level is less than the specified value, the use of an additional air heater is not required and a device assembled according to the scheme of Fig. 1 is used. A sealed container 1 is located below the selected depth, which is connected to the surface by means of a pipe 4 for supplying air, and is closed with soil for the purpose of thermal insulation. The connection of the pipe for supplying air to the tank is detachable (for example, using a threaded connection) or one-piece. An air exhaust pipe is inserted into the inside of the exhaust pipe with a gap, the lower end of which is located below the depth of the corresponding dew point, and any type of wind fan 5 is connected to its upper end with a detachable (for example, threaded) connection (for example,

 _id = 560), which ensures the flow of air into the device even with a weak wind regardless of its direction. If it is necessary to use an air heater, it is located at the upper end of the condenser pipe, connecting with it using a detachable connection (for example, threaded). Atmospheric air with the help of a wind fan due to the created air discharge in the pipe to exhaust air, is pumped into the pipe - a condenser. Going down the pipe, the air cools and when it reaches the dew point level on the surface of the pipe - condenser, condensation of water from the air occurs. When using a preheater, the air is preheated in it. Condensed water flows down the walls of the condenser pipe into a sealed container, from which it is then removed by digging the container or in another way (for example, by suction through an additional tube) for use as drinking or for irrigation.

Example 2. For automatic watering of plants.

The device is assembled and installed in the same way as in example 1. However, the used container for collecting water is leaky (for example, contains holes or is made of plastic mesh). At the same time, the water condensed in the pipe-condenser enters through the walls of the tank to collect water directly into the soil and becomes available to nearby plant roots.

The technical result is achieved due to the ability to combine its individual parts to obtain condensed water with a small depth of the device, which reduces labor costs when using it, since large earthworks are not required and allows you to quickly change the location of the device, for example, in traveling conditions, as well as for organizing automatic watering of plants.

Claims (9)

1. A device for producing fresh water from atmospheric air, containing a container located in the ground, characterized in that it contains a condenser pipe connected to the container with its lower end, the upper end of which, if necessary, can be protected by a protective visor for supplying air directly to it or through an incoming air heater, connected to it if necessary, inside of which a pipe for venting air is placed with a gap, with whose upper end a wind fan is connected. 2. The device according to claim 1, characterized in that the container is sealed. 3. The device according to claim 1, characterized in that the container is made with holes. 4. The device according to claim 1, characterized in that the capacity is made of mesh. 5. The device according to claim 1, characterized in that the connection of the tank with the pipe-condenser is detachable. 6. The device according to claim 1, characterized in that the connection of the condenser pipe with a heater, which is attached if necessary, is detachable. 7. The device according to claim 1, characterized in that the connection of the pipe to exhaust air with a wind fan is made detachable. 8. The device according to claim 1, characterized in that the upper end of the condenser pipe, if necessary, can be protected by a protective visor. 9. The device according to claim 1, characterized in that the tank and the lower end of the condenser pipe are located in the soil at a depth where the soil temperature is maintained below the dew point during the day or any part of the day.

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