KR101801747B1 - Apparatus for making salt from sea water - Google Patents

Abstract

The present invention relates to a salt production apparatus, and more particularly, to a salt production apparatus using seawater capable of producing salt by evaporating seawater under natural forces.
According to the present invention, there is provided an air conditioner comprising a sea water tank including a roof,
Wherein the evaporating unit comprises a first evaporating water tank provided on the ground and having a predetermined area, and a second evaporating water tank provided above the bottom of the first evaporating water tank and spaced upward from the bottom of the first evaporating water tank, A second evaporation water tank having a small area and a third evaporation water tank spaced upward from a bottom surface of the second evaporation water tank and having an area smaller than an area of the second evaporation water tank, 2 evaporation water tank and the third evaporation water tank are formed with a plurality of drain holes drilled in the bottom so that the seawater flows into the lower first evaporation water tank and the second evaporation water tank, And a circulation pumping unit circulating the seawater of the evaporator through a process of injecting the evaporated water from the upper part of the evaporator to the evaporation unit.

Description

[0001] APPARATUS FOR MAKING SALT FROM SEA WATER [0002]

The present invention relates to a salt production apparatus, and more particularly, to a salt production apparatus using seawater capable of producing salt by evaporating seawater under natural forces.

Generally, the production of salt using seawater is carried out in a tidal field where the seawater is trapped like a rice field in a large area and evaporated by natural forces such as sunlight and wind.

The tidal field is composed of a reservoir in which seawater is stored, a primary evaporator (intractable) that is concentrated by evaporating the primary water by receiving the seawater in the reservoir, and a second evaporator (Tongue), evaporation of concentrated sea water from the second evaporation site, evaporation of final concentration of salt crystals, and prevention of lowering the salinity of the second evaporation and deconditioning seawater due to snow or rain. , A seawater desalination tank (fresh seawater) for desalinating seawater, and a salt repository for storing the salt produced from the deciduous ground.

Most of the domestic tidal currents are in the area of about 10,000 square meters, except for some areas such as the Taipyeong tidal field of Shinan-myeon. However, due to the area occupied by essential facilities such as reservoirs, first evaporation sites and seawater desalination tanks, The area of the decision paper that affects the production amount is an inefficient structure which is less than 30% of the total area.

In addition, since the seawater stored in the reservoir is exposed to the outside environment without a separate shutoff facility, the seawater is contaminated by the influx of living wastewater, pesticides, chemical fertilizer, and animal excrement around the reservoir. The salt produced by evaporating the contaminated seawater is unhygienic and distrusted by consumers who are interested in health.

Accordingly, apparatuses and methods for artificially manufacturing salt in a sanitary environment by attracting seawater to a factory rather than to a salt have been developed.

Conventional techniques for artificially producing salt are disclosed in Japanese Patent Publication No. 63-27290, Korean Patent Laid-Open Publication No. 2014-0132480, Korean Registered Patent Publication No. 0535229, Korean Registered Utility Model No. 0248296.

Conventional techniques for producing salt in an artificial manner at a factory were more hygienic than torsion and higher yields in relatively small area compared to torsion. However, the salt produced by such an artificial method has a very low content of a beneficial ingredient compared to natural salt, and the content of ingredients such as calcium, magnesium and minerals, which are nutrients necessary for the human body, There is a problem that it is very poor in edible state.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a method and an apparatus for efficiently using a salted area, cleanly managing seawater, And to provide a salt production apparatus using seawater which can be increased.

Another object of the present invention is to provide a salt production apparatus using seawater capable of shortening the salt production time by promoting the evaporation rate of seawater.

According to an aspect of the present invention, there is provided a water treatment system including a seawater having a storage space for storing seawater therein and a roof provided at an upper part of the seawater to prevent the seawater from being exposed to the external environment, A vapor production unit comprising: a vaporization unit having a predetermined area for collecting seawater for concentration by evaporation; and a crystal unit in which the sea water supplied from the vaporization unit is high and the salt crystals are formed by evaporation, A second evaporation water tank provided above the bottom of the first evaporation water tank and spaced upward from the bottom of the first evaporation water tank, the second evaporation water tank having an area smaller than that of the first evaporation water tank; A third evaporation water tank that is spaced upward from the bottom surface and has an area smaller than the area of the second evaporation water tank, The second evaporation water tank and the third evaporation water tank are formed with a plurality of drain holes drilled in the bottom so that the seawater flows into the first evaporation water tank and the second evaporation water tank on the lower side, And a circulation pumping unit circulating the seawater in the evaporator through a process of pumping the evaporator and spraying the evaporator from a predetermined height above the evaporator.
In addition, the circulation pumping unit may include a seawater circulation pipe having a channel through which seawater flows, one end connected to the evaporator, and the other end having a nozzle, and a circulation pump disposed vertically on one side of the evaporator, And a circulation pump provided on the seawater circulation pipe for pumping seawater accumulated in the evaporation unit.
In addition, it is preferable that a filtering filter is further provided on the bottom surface of the second and third evaporating water tanks and the seawater circulating tube to filter foreign substances contained in seawater, and a filtering filter including mineral stones and activated carbon.
The determination unit may further include a crystal water tank for concentrating the seawater supplied from the first evaporation water tank, a tile for flattening the bottom surface of the crystal water tank to facilitate the collection of the salt crystals, And a seawater heating means provided at a lower portion of the tile for heating the hot water pipe to flow hot water of high temperature and a hot water boiler for circulating hot water to generate hot water in the hot water pipe, And a rotary fan for generating wind in the first evaporation water tank and the second evaporation water tank is further provided below the third evaporation water tank.

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The present invention maximizes the area of the crystal paper that obtains the salt crystals and maximizes the evaporation of the seawater, thereby eliminating or minimizing the structures such as the reservoir, evaporation paper It is possible to greatly increase the productivity of the salt compared to the normal torsion of the area.

In addition, the present invention can keep the seawater taken from the sea clean until the salt crystals are produced, so that it is possible to produce hygienic salt, and it is possible to produce high-quality salt suitable for consumers' preferences.

1 is a schematic view showing an embodiment of an apparatus for producing salt using seawater according to the present invention,
FIG. 2 illustrates the structure of a circulating pumping unit in the embodiment of FIG. 1;
FIG. 3 is a view showing another embodiment of the evaporator in the embodiment of FIG. 1;
FIG. 4 is a view showing a structure of a second evaporating water tank and a third evaporating water tank in the evaporating unit of FIG. 2;
Fig. 5 is a view showing a structure of a crystal part in the embodiment of Fig. 1; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a salt production apparatus using seawater according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 5 show an embodiment of the apparatus for producing salt using seawater according to the present invention.

1 to 5, the apparatus for producing salt using seawater according to the present invention comprises a seawater tank 100 for storing seawater, an evaporator 200 for concentrating the seawater supplied from the seawater tank 100 by evaporation, A circulation pumping unit 300 for pumping the seawater of the evaporator 200 and injecting the recovered seawater into the evaporator 200 and returning the evaporator 200 to the evaporator 200 for circulation; A determination unit 400 for receiving the salt crystals and a salt storage 500 for storing the salt obtained in the crystal unit 400.

Referring to FIG. 1, the sea water tank 100 includes a storage space 110 in which seawater is stored, and has an open top. The opened upper portion is provided with a roof 120 so that the stored seawater is not exposed to the external environment.

The sea water tank 100 is installed in a sea structure used in a conventional salt water tank, and the sea water tank capacity is set to be larger than the sea water capacity. Therefore, it is possible to utilize the site of the water storage tank provided in the previous tide for other purposes, that is, as the evaporation portion (hard and tongue) and the crystal portion (determination paper)

Further, the roof 120 of the seawater tank 100 may further include an auxiliary space 121 for storing seawater. The auxiliary space 121 of the roof 120 may increase the amount of seawater stored in the seawater 100 and may perform the function of the evaporator 200.

The evaporator 200 is formed in the form of a water tank having a predetermined area to receive seawater from the seawater tank by the supply pump 130 and evaporate the seawater to natural power.

2, the circulating pumping unit 300 includes a seawater circulation pipe 310 having a channel formed therein, one end connected to the evaporator and the circulation nozzle 311 at the other end, and a seawater circulation pipe 310 A circulation pump 330 for pumping the seawater of the evaporator 200 and a water purifier 340 for purifying the seawater of the evaporator 200, consist of.

A synthetic resin hose is used for the seawater circulation pipe 310 so that the position of the seawater circulation pipe 310 can be easily changed by the supply support 320.

The feed support 320 having a variable length is composed of a plurality of pipes 321 having different diameters and a fixing pin 322 passing through the pipes 321 to be fitted to each other.

In other words, when a plurality of pipes 321 are sequentially taken out and fixed with the fixing pin 322 in a state where one end is fitted, the length of the fixing pin 322 is extended. On the contrary, , The length becomes short.

The height of the circulation nozzle 311 is preferably set at about 8 m by varying the length of the supply support 320. Here, when the seawater is sprayed at a high position and dropped, the contact with the air is improved, and the evaporation of seawater is improved.

On the other hand, when the strong wind blows, the circulation nozzle 311 may be installed at a low level so that the seawater sprayed from the circulation nozzle 311 can be sprayed completely to the evaporator without strong winds being swept away.

The water purifier 340 is provided on the seawater circulation pipe 310 to filter foreign substances contained in the flowing seawater and to purify and sterilize the seawater by the built-in activated carbon.

On the other hand, the evaporator 200 can be formed in multiple layers.

3 and 4, the evaporator 200 includes a first evaporation water tank 211 installed on the ground, a second evaporation water tank 212 installed apart from the first evaporation water tank 211 by a predetermined distance, And a third evaporation water tank 213 spaced a predetermined distance above the second evaporation water tank 212.

In this embodiment, the structure of the evaporation water tank is exemplified as a three-layer structure, but the present invention is not limited thereto and four or more layers can be provided.

The areas of the first, second and third evaporation water tanks 211, 212 and 213 are formed so as to be smaller as the area of the first evaporation water tanks 211, 212 and 213 increases. The area of the first evaporation water tank 211 It is preferable that the second and third evaporation water tanks 212 and 213 are reduced by a ratio of 1/2 or 1/3.

It is preferable that the positions of the second and third evaporation water tanks 212 and 213 are disposed biased from the center to the north under the condition that the evaporation water tank is installed to the south.

The second and third evaporation water tanks 212 and 213 have a plurality of drain holes 214 formed in the bottom thereof so that the seawater can flow downward. The drain hole 214 is formed to have a proper diameter so that the seawater drops off.

The bottom of the second and third evaporation water tanks 212 and 213 is provided with a filtering net 240 for filtering various foreign substances contained in seawater and a filtering filter 230 for purifying and sterilizing the seawater.

The filter net 240 is formed of a mesh of a predetermined mesh so as to be able to filter foreign substances having a predetermined particle diameter and is closely attached to the bottom surfaces of the second and third evaporation water tanks 212 and 213. As the filter net 240, a nonwoven fabric or the like may be used.

The filtration filter 230 is formed on the filter net 240 and is composed of granules of minerals such as sand, gravel, quartz, and jade, and activated charcoal such as charcoal.

The water purifier 340 provided in the seawater circulation pipe 310 is also provided with a filter net and a filter.

On the other hand, in the lower part of the second evaporating water tank 212 and the lower part of the third evaporating water tank 213, the sea water dropping down and the first evaporating water tank 211 and the second evaporating water tank 212 are blown up to improve the evaporation of seawater A plurality of rotation fans 250 are provided.

As described above, the multi-layered evaporation unit 200 can reduce the area of the evaporation paper (intractable or tortuous) of the former torsion to convert it to a crystal unit (crystal paper) and use sufficient amount Of concentrated seawater can be obtained. In addition, since the evaporation of seawater is improved, the evaporation time of seawater can be shortened.

The crystal unit 400 is a place where the concentrated sea water is finally evaporated to obtain the salt crystals, and comprises a crystal water tank 410 in which concentrated sea water supplied from the evaporator 200 is collected. Natural tiles 420 are laid flat on the bottom surface of the crystal water tank 410 to facilitate the collection of the salt crystals.

The crystal water tank 410 corresponds to a determination paper in a normal torsion.

In the lower part of the natural tile 420 of the crystal water tank 410, there is provided a seawater heating means 430 for heating seawater to improve evaporation.

The seawater heating means 430 includes a hot water pipe 431 disposed at the bottom of the crystal water tank 410 so as to allow hot water to flow therethrough and buried in the lower portion of the natural tile 420, And a hot water boiler (432).

Hereinafter, the operation and effect of the salt production apparatus using seawater according to the present invention will be described in detail.

In the seawater tank 100, seawater is pumped from the sea and stored immediately. Sea water is taken from deep-seated waters. The seawater stored in the seawater tank 100 is normally stored in a clean manner since it is not exposed to the outside environment unlike a tidal reservoir.

The seawater stored in the seawater tank 100 is precipitated with impurities, and a primary integer is formed.

The seawater of the seawater 100 is supplied to the evaporator 200 and is evaporated and concentrated by the natural force. The seawater of the evaporator 200 is pumped by the circulation pumping unit 300, and the evaporation is improved by repeating the process of spraying at a high position of about 8 m. Thus, the concentrated sea water can be obtained in a relatively short time, and the productivity of the salt is improved.

Further, if the structure of the evaporator 200 is constituted by the first, second, and third evaporation water tanks 211, 212, and 213 in multiple layers, the amount of seawater on the same ground surface can be increased to improve the productivity of salt .

The evaporation unit 200 of the multi-layer structure is evaporated by the sunlight and wind when the seawater is supplied to the first, second, and third evaporation water storage tanks 211, 212, and 213.

The seawater supplied to the second and third evaporation water tanks 212 and 213 is dropped to the first and second evaporation water tanks 211 and 212 through the drain hole 214. At this time, Filtered and purified through the filter 230.

Finally, seawater collected in the first evaporation water tank 211 is re-supplied to the third evaporation water tank 213 by the circulation pump 330 of the circulation pumping unit 300. Therefore, the seawater circulates through the first, second, and third evaporation water tanks 211, 212, and 213.

On the other hand, the evaporation of the seawater dripping from the second and third evaporation water tanks 212 and 213 is improved by the wind generated by the rotary fan 250.

The seawater concentrated to an appropriate concentration in the evaporator 200 is transferred to the crystal water tank 410.

The seawater transferred to the crystal water tank 410 is heated by the seawater heating means 430 to improve evaporation, and salt crystals are produced in a relatively short time. The generated salt is stored in the salt warehouse 500.

The present invention maximizes the area of the deciduous ground that removes or minimizes the structures such as reservoir, evaporation paper (incurable and tongue) occupying an area in the conventional salt tank, and obtains the salt crystals. In addition, the evaporation of seawater is maximized.

And, the seawater taken from the sea can be kept clean until the salt crystals are formed, which makes it possible to produce hygienic salt.

Therefore, it is possible to greatly increase the amount of salt production compared to the conventional salt discharge, and it is possible to produce high quality salt suitable for consumers' preference.

While the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be.

Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

100: sea water tank 200: evaporator
230: Filtration filter 240: Filtration net
300: Circulating pumping unit 310: Seawater circulation pipe
320: feed support 330: circulation pump
400: Crystal part 410: Crystal water tank
420: tile 430: seawater heating means
500: Salt warehouse

Claims (5)

A seawater tank having a storage space for storing seawater therein and a roof provided on the top of the seawater to prevent the seawater from being exposed to the outside environment; And a crystal portion in which the sea water supplied from the evaporator portion is high and the salt crystals are formed by evaporation,
A second evaporation water tank provided above the bottom surface of the first evaporation water tank and having an area smaller than an area of the first evaporation water tank; And a third evaporation water tank which is spaced upward from a bottom surface of the second evaporation water tank and has an area smaller than an area of the second evaporation water tank,
The second evaporation water tank and the third evaporation water tank are formed with a plurality of drain holes drilled in the bottom so that the seawater flows into the lower first evaporation water tank and the second evaporation water tank,
And a circulation pumping unit circulating the seawater in the evaporator unit by pumping seawater in the evaporator unit and injecting the seawater into the evaporator unit at a predetermined height above the evaporator unit.
The method according to claim 1,
The circulating pumping unit includes:
A seawater circulation pipe having a channel through which seawater flows, one end connected to the evaporator, and the other end having a nozzle;
A supply support vertically installed on one side of the evaporator, the supply support being variable in length and fixing the seawater circulation pipe;
And a circulation pump provided on the seawater circulation pipe for pumping seawater pumped into the evaporation unit.
delete 3. The method of claim 2,
And a filtration filter containing a mineral raw material and activated carbon to filter foreign substances contained in seawater on the bottom surface of the second and third evaporation water tanks and on the seawater circulation pipe, .
5. The method of claim 4,
Wherein,
A crystal water tank for concentrating the concentrated seawater supplied from the first evaporation water tank;
A tile formed on the bottom surface of the crystal water tank so as to facilitate the collection of the salt crystals;
And a seawater heating means provided at the lower portion of the tile for heating the seawater poured into the crystal water tank, the seawater heating means comprising a hot water pipe through which hot water flows, and a hot water boiler for circulating hot water in the hot water pipe ,
Wherein the second evaporating water tank and the third evaporating water tank are further provided with a rotating fan for generating wind in the first evaporating water tank and the second evaporating water tank.

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