KR100711304B1 - Device and method for picking salt water of high concentration - Google Patents

Abstract

The present invention relates to a high concentration of water harvester and a collecting method, conventionally, due to a lot of influence on natural conditions, water harvesting is not stable, a large amount of harvesting is impossible, a large amount of labor and cost consumption, economic problems are poor there was.

Therefore, in the present invention, the cap 112 is installed at both ends, and the upper surface has a plurality of through-holes 111 formed in the inside of the mud flat 200 with a certain depth buried in the hole 200 The lamellar crushed layer 130 and the sea layer 140 are sequentially stacked on the outside thereof, and the inside of the perforated pipe 110 is connected to the pump 121 and the pump 121 and selectively by a valve 122. High water concentration of the mud flats 200 having increased the evaporation amount by using the sun, wind and power by configuring a water harvester by installing a water tank 120 provided with a controlled first outlet 123 and a second outlet 124 Since water is collected into the water-containing tank together with the water-soluble minerals contained in the tidal-bed, high-quality water can be obtained efficiently and economically, thus saving labor and improving productivity, and obtaining high-quality salt.

Water, salt, perforated pipes, pumps, ganban crushed stone, sea sand, tidal flats, seawater, evaporation, minerals

Description

Device and method for picking salt water of high concentration

Figure 1 is a perspective view of the main portion illustrating a hole pipe for water collection according to the present invention.

2 is a sectional view of the main parts illustrating the configuration of the water extractor according to the present invention;

Figure 3 is a sectional view of the main portion illustrating a state in which the water extractor installed in the tidal flat according to the present invention.

4 is an enlarged view of FIG. 3.

Explanation of symbols for the main parts of the drawings

110: memorial hall 111: through-air

112: cap 120: water tank

121: pump 122: valve

123: first outlet 124: second outlet

130: macban crushed layer 140: maritime layer

The present invention relates to a high concentration of the water-containing collector and a collecting method, more specifically, a high concentration of the water containing the water-soluble minerals of the tidal-flat layer is configured to be collected quickly and effectively and a large amount of water-soluble minerals in the water-containing tank The present invention relates to a high-density water harvester and a method for collecting high-quality salt economically and efficiently.

In general, salt is a salty representative material of which sodium chloride is the main ingredient, and is used for industrial, medical, and edible. Among them, sodium is an important cation in human extracellular fluid, which controls the osmotic pressure of body fluids, It is involved in the production of gastric acid as well as neurostimulatory transporting substances to form a digestive fluid, is involved in enzymatic activity, and because it has the purest salty taste is used as a seasoning to enhance the taste of food and storage.

As a method of obtaining such salts, a method of concentrating seawater is mainly used. The primary salt salt produced by the sun salt method and the sun salt produced by the sun salt method are obtained by drawing sea water into a salted salt facility and evaporating water by wind and wind. It is roughly classified into purified refined salt method. The sun salt has a salinity of 80-88% or more and a low salinity, but also contains impurities together with natural minerals. The refined salt produced by the refined salt method has a salinity of 95-99% or more. There are few harmful ingredients in the body, but there are few minerals beneficial to the human body.

Therefore, in order to obtain high-quality salt containing natural minerals, the sun salt method should be used. The sun salt method is highly influenced by natural conditions, which makes it impossible to collect hydrated water, and also does not collect much, labor and cost are high. There was a problem of low economic efficiency.

Therefore, an object of the present invention is to solve the above problems, by using a water extractor to collect a high concentration of water containing natural minerals in an effective and large amount, thereby reducing labor and improving economic efficiency In addition, the present invention provides a high concentration of water extractor and harvesting method for producing high quality salt containing natural minerals.

The object of the present invention is achieved by constructing a water harvester that is installed at a constant depth inside the mudflat to collect water, that is, both ends are blocked by a cap and a plurality of holes are formed in the upper portion of the surface. Indent the length of the perforated pipe to a predetermined depth in the interior of the mud flat, but form a banban crushed stone layer and a sea bed in order to the outside of the perforated pipe, the perforated pipe is connected to the water tank equipped with a pump for each section of the predetermined length The first discharge port and the second discharge port which are connected to the pump and discharge the impurities and the water in the water tank to the outside of the tidal flat are connected to the pump and are achieved by configuring the water harvester to be selectively controlled by the valve. will be.

The present invention can produce a high-quality salt using the high concentration of the collected function as the high concentration of water, which is increased by evaporation using sunlight, wind and power is collected in the water tank together with the water-soluble minerals of the tidal flat, labor This can be reduced and the productivity can be further improved to achieve the above object.

Hereinafter, with reference to the accompanying drawings, the technical configuration and operational effects as a preferred embodiment that can effectively achieve the features of the present invention will be described.

That is, Figure 1 is an exploded perspective view illustrating the perforated tube and the cap of the water harvester according to the present invention, Figure 2 is a side cross-sectional view showing a main portion illustrating a state in which the water harvester is installed in the tidal flat according to the present invention, Figure 3 is The main portion is a front sectional view illustrating a state in which the water harvester is installed in the tidal flat, Figure 4 is an enlarged view of the main portion of FIG.

As illustrated in the present invention, both ends of the cap 112 are blocked, and the mud flat 200 does not immerse in the sea water for a certain length of time through the hole 110 of a certain length in which a plurality of through holes 111 are formed on the surface thereof. Buried to a certain depth inside the pore tube 110, the banban crushed stone layer 130 and the sea layer 140 is sequentially stacked, the inside of the hole tube 110, the pump 121 is provided with a function The tank 120 is installed, and the first outlet 123 and the second outlet 124 which are connected to the pump 121 and drawn out of the tidal flat 200 can be selectively controlled by the valve 122. It is characterized in that it is configured to.

In the figure, reference numeral 125 is a lid of the water tank 120, and 126 is an impurity precipitated in the bottom of the water tank 120 as the water flows into the water tank 120.

The present invention is to increase the natural evaporation through a known power operation such as the sand and 200 after the installation of the water harvester inside the tidal flat 200, and the concentration is increased by the known bulky and injection device When the increased water is collected into the water tank through the perforated pipe, the water-soluble minerals contained in the tidal-flat layer are collected together with the water tank, so that high quality water can be obtained, thereby reducing energy consumption and further improving productivity compared to labor. You can make good quality salts with water-soluble minerals.

On the other hand, Figure 1 illustrates a hole tube of the water harvester, Figure 2 illustrates a state in which the hole tube is installed, the hole tube 110 has a plurality of through-holes 111 are formed on the upper side of the surface, both ends thereof Is composed of a cylindrical blocked by the cap 112, the installation position is to be buried in a depth of about 1 ~ 2m from the surface of the tidal flat 200, at this time through the periphery of the periphery of the perforated pipe 110 The macula crushed layer 130 is formed to be wrapped with a larger size of banban crushed stone, the banban crushed stone layer 130 is configured to be wrapped by the sea layer 140 made of sea sand.

That is, the banban crushed stone layer 130 is located on the outer surface of the perforated tube 110 and the haemulhae layer 140 is located outside the banban crushed stone layer 130, the tidal flat (200) outside the seabed layer 140 ) Is located in the high concentration of water and mud flats that are created through the power operation on the tidal flat surface while preventing unnecessary foreign substances from entering the inside of the perforated pipe 110 through the through-hole 111 of the perforated pipe 110. Water-soluble minerals are to be introduced into the hole tube 110 through the through hole 111 through the sea layer 140 and the banban crushed stone layer 130.

In addition, by installing the water-containing tank 120 in the inside of the hole tube 110, it is to be able to remove the impurities in the water flow into the hole by using the water tank 120.

That is, when the water flowing into the hole pipe 110 is collected in the water tank 120, the bottom of the water tank 120, the impurities 126 is settled, and the pump 121 installed in the water tank 120 When activated, the impurities 126 are initially discharged, and after some time, when all the impurities 126 are discharged, the water is discharged.

Therefore, when the function flows into the oil hole pipe 110 and is collected to some extent in the water tank 120, the valve 122 is operated so that the pump 121 is connected to the first outlet 123, and then the pump 121 is operated. The impurity 126 that has settled on the bottom surface of the tank 120 is first discharged to the outside of the tidal flat 200 through the first outlet 123, and after the impurity 126 is completely removed, the valve 122 is removed. By operating the pump 121 is connected to the second outlet 124 and then operating the pump 121 again, the high-quality water collected in the water tank 120 through the second outlet (124) tidal flat ( 200) is discharged to the outside second, the second discharged function is moved to a normal evaporation place is solidified through a multi-step evaporation process and then commercialized as salt.

On the other hand, look at the method of collecting water using the function harvester configured as described above are as follows.

First step of selecting a suitable tidal flat (200) in a clean state that does not immerse in sea water for about 12 days per month using a little time (小 潮: Neap tide);

Perforated pipes 110 having a plurality of through-holes 111 formed on the surface are buried in the selected tidal flat 200, but connected to the water tank 120 having a pump 121 therein for a predetermined section of the perforated pipes 110. A second step of sequentially installing the impurity and water so that the impurity and the water are collected and sequentially stacking the mach crushed stone layer 130 and the sea layer 140 between the perforated pipe 110 and the tidal flat 200;

Known injectors for increasing natural evaporation through well-known power operations, such as laundering or spraying, and separating the high tidal flats into high-density brine and fresh water with known desalination systems, and spraying the separated high-concentration brine. A third step of increasing the furnace water concentration;

A fourth step in which a high concentration of water passes through the tidal flat through the third step while flowing into the oil hole pipe 110 through the through hole 111 together with the water-soluble minerals and then gathered into the water tank 120;

The impurities 126 deposited on the bottom surface of the water tank 120 by using the pump 121 installed in the water tank 120 are discharged to the outside of the mud flat 200 through the first outlet 123 and then impurities 126. The fifth step is to remove the good quality function to be moved to the evaporation site outside the tidal flat 200 through the second outlet 124; By means of this function, a high concentration of water can be collected.

Here, the evaporation site outside the tidal flat 200 may be classified into a high temperature evaporation paper and a low heat evaporation paper which are commonly used. That is, the function discharged to the second outlet 124 by the pump 121 is moved to a high temperature evaporator maintaining 50 ℃ to remove impurities and sediment through sterilization and precipitation using high temperature and high pressure steam, and then It is moved to low heat evaporation paper that maintains 35 ~ 40 ℃, and it becomes semi-solid state through maintaining natural light, temperature and humidity, and then it is made into high quality salt through the packing step through dehydration and drying.

As described above, the preferred embodiment of the present invention has been described, but the present invention may use various changes, modifications, and equivalents. Therefore, the above description does not limit the scope of the invention defined by the limitations of the following claims.

As described above, the present invention installs a water extractor inside the tidal flat layer to collect high quality high concentration water containing various water-soluble minerals of the tidal flat layer, thereby reducing energy consumption due to water extraction and improving the environment. It is effective in improving the health of people and developing the global industry by providing high quality salt while improving the mechanized salt industry, which is effective, labor-intensive and natural dominant.

Claims (2)

In harvesting high concentrations of water from well-known power operations, such as rafts and sprays, and from known desalination systems, Both ends are clogged with a cap 112, by embedding a certain length of the hole (110) having a plurality of through-holes 111 on the surface to a certain depth inside the tidal flat 200 that is not submerged in sea water for a certain period of a month The macula crushed layer 130 and the sea layer 140 are sequentially stacked on the outside of the perforated pipe 110, and the perforated pipe 110 has a water tank 120 provided with a pump 121 therein for each predetermined length section. The first discharge port 123 and the second discharge port (123) connected to the pump 121 and connected to the pump 121 to discharge the impurities and water in the water tank 120 to the outside of the tidal flat 200 124 is a high concentration water harvester, characterized in that configured to be selectively controlled by the valve (122). In harvesting high concentrations of water from well-known power operations, such as rafts and sprays, and from known desalination systems, A first step of selecting an appropriate tidal flat 200 in a clean state that is not immersed in sea water for a predetermined period of a month; Perforated pipes 110 having a plurality of through-holes 111 formed on the surface are buried in the selected tidal flat 200, but connected to the water tank 120 having a pump 121 therein for a predetermined section of the perforated pipes 110. A second step of sequentially installing the impurity and water so that the impurity and the water are collected and sequentially stacking the mach crushed stone layer 130 and the sea layer 140 between the perforated pipe 110 and the tidal flat 200; Known injectors for increasing natural evaporation through well-known power operations, such as laundering or spraying, and separating the high tidal flats into high-density brine and fresh water with known desalination systems, and spraying the separated high-concentration brine. A third step of increasing the furnace water concentration; A fourth step in which a high concentration of water passes through the tidal flat through the third step while flowing into the oil hole pipe 110 through the through hole 111 together with the water-soluble minerals and then gathered into the water tank 120; The impurities 126 deposited on the bottom surface of the water tank 120 using the pump 121 installed in the water tank 120 are discharged to the outside of the mud flat 200 through the first outlet 123 and then the impurities 126. This removed quality function is a fifth step to be moved to the evaporation site outside the tidal flat 200 through the second outlet 124; High concentration of water collection method, characterized in that consisting of.

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