KR20130003270A

KR20130003270A - A haejoo of saltpan

Info

Publication number: KR20130003270A
Application number: KR1020110064478A
Authority: KR
Inventors: 김정목; 조종락
Original assignee: 목포대학교산학협력단
Priority date: 2011-06-30
Filing date: 2011-06-30
Publication date: 2013-01-09

Abstract

PURPOSE: A salt water tank is provided to prevent contamination of salt water inside the tank by the corrosion or materials used for making covers. CONSTITUTION: A salt water tank(1) comprises a puddle(400), a cover(300), and a pumping tool(500). The puddle contains salty water(W). The cover covers the top of the puddle. The cover is in a green transparent resin material. The cover is composed of a column(310), a frame(320), and a plate(330). The cover has the transmittance of visible rays in the wavelength of 520-570 nanometers is 50% or greater. The resin is polycarbonate.

Description

A HAEJOO OF SALTPAN}

The present invention relates to a sea of salt, and more particularly, to maintain the temperature of the brine stored in the pond, and to the sanitary sea of salt because there is no corrosion caused by the corrosion of the cover or the material of the cover.

Salt is also referred to as salt, and the chemical name is sodium chloride (NaCl), which is widely used in daily life such as coarse salt and salt salt, and is also used in a large amount in industrial fields such as the production of soda (sodium carbonate).

Salt is rich in minerals and has been known to be essential for all living things to survive and thrive. Salt is an important cation in human extracellular fluid, which regulates the osmotic pressure of body fluids, is involved in acid-base equilibrium, and the production of gastric acid as well as neurostimulatory transporters. Because of this, it is used as a seasoning to enhance the taste of food and increase shelf life.

These salts can be divided into natural salts, rock salts, mechanical salts, recrystallized salts, and processed salts. Most of the world's salt production is rock salts or refined salts, but the traditionally preferred salts are natural salts that suit our taste.

Natural salt has purity of 80-88% or more and low salinity, but contains impurities, and it contains harmful ingredients to human body. Refined salt contains 95-99% or more, and there are few ingredients harmful to human body but few minerals beneficial to human body. It has been known.

Korea's natural salt is one of the world's five tidal flats, specifically the eastern coast of Canada, the eastern coast of the United States, the north coast of Germany, the Amazon river basin of Brazil, and the tidal flats on the west coast of Korea. I am doing it. Based on the production base, sun salt is an alkaline salt that is good for your body. It is low in oxidation and contains various cations such as calcium (Ca), magnesium (Mg) and potassium (K). , Salted fish, etc. have retained its unique taste and flavor.

Salt salt producing sun salt is generally composed of reservoir, evaporation and crystallization. In addition, salt dumps or roads are installed, and all these facilities are disconnected from external waters by tidal dike and internal dike to prevent invasion of broth.

1 is a view conceptually showing the structure of a general salt field. Referring to FIG. 1, the reservoir S is a place where seawater is trapped, and the evaporator E is a place where evaporated water by sunlight and wind from the brine introduced from the reservoir S, and the crystal land C. Refers to the place where the saturated saturated function concentrated in the evaporator (E) is thinned and concentrated, and salt is precipitated and salted. Usually, the evaporation paper (E) is located at the top, and the crystal paper (C) is arranged at the bottom, and the evaporation paper (E) and the crystal paper (C) are each divided into multiple stages, and the flat bottom (1) is divided into the divided areas. Is formed. The salt is stored in a salt bath (G) for removal of the brine.

On the other hand, the sea (H), that is, the sea warehouse for temporarily storing the saturated saturation function in a rainy situation is provided in the middle or one side of the evaporation (E) or crystal (C).

By the way, asbestos slate is mainly used as the roof of the conventional salt torsion, in which case the problem of salt water contamination by asbestos occurs, and when coated steel plate is used, corrosion and salt water by the corrosion are ultimately contaminated. Salt contamination occurs.

In addition, since the conventional Haeju roof is not blocked by sunlight, the temperature of the brine in the sea pool drops and the brine has to be reheated in the evaporation or crystallization for a considerable time in order to evaporate the brine again. there is a problem.

It is an object of the present invention to maintain the temperature of the brine stored in the pond, and the corrosion of the cover or contamination of the material of the cover does not occur to provide a sanitary salt seam.

According to an embodiment of the present invention, a saltwater reservoir includes a puddle containing a brine, and a cover covering an upper portion of the puddle, wherein the cover is green or yellow, for example, a green transparent resin material.

The cover may have a transmittance of 50% or more of visible light having a wavelength of 520 to 570 nm, and may be 50 to 80%.

The resin may be polycarbonate.

According to an embodiment of the present invention, the cover of the salt can be maintained in the puddle as the cover is formed of a transparent resin material, and the hygiene has no hygienic advantages due to the corrosion of the cover or the contamination of the cover does not occur. . In addition, when the cover is a green transparent resin material, it is possible to further increase the temperature of the stored brine.

1 is a view conceptually showing an example of a general salt structure.
2 is a view conceptually showing the sea of salt torsion according to an embodiment of the present invention.
3 is a graph measuring the temperature change according to the material of the cover of the salt seashore of salt.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

In accordance with an embodiment of the present invention includes a pond containing salt water, and a cover for covering the top of the pond. The cover is yellow or green, for example, a green transparent resin material.

FIG. 2 is a diagram conceptually showing the sea column 1 of the salt field.

Referring to Figure 2, the salt of the salt (1) is provided on the outside of the embankment 200 surrounding the bottom 100 of the evaporation or crystal paper, the pool 400, the cover 300 and the pumping means 500 It may include.

The puddle 400 is a space for accommodating the brine (W) is formed deeper than the bottom of the evaporation or crystal ground (100).

The cover 300 covers an upper portion of the puddle 400. The cover 300 is formed by placing a plate 330 made of a green transparent material on top of the frame structure formed by combining the pillar 310 and the frame 320.

Sea of salt (1) is a suction pipe 520 connected to the suction side of the pump 510 of the pumping means 500 to pump the brine (W) contained in the pond (400) to the bottom of the pool (400) possible The inlet 530 is located at a point close to the bottom of the puddle 400, the suspended matter (P) precipitated in the puddle 400 is sucked into the inlet 530, the outlet 540 connected to the discharge side of the pump 510 ), The brine containing the suspended solids (P) is supplied to the evaporation or crystallization.

The plate 330 may be formed of a resin material through which light is transmitted. However, the plate 330 is preferably a polycarbonate material that is resistant to corrosion, has excellent durability and heat resistance to sunlight, impact resistance, and excellent light transmittance.

As the plate 330 of the cover 300 is made of a light-transmissive resin material, sunlight is passed through the inner space of the cover enclosed by the cover 300, and thus the pool 400 is caused by the greenhouse effect. The brine (W) stored in can be heated. This not only means that evaporation is continuously performed even in a state in which the brine is stored in the puddle 400, but the brine (W) discharged from the puddle 400 to the evaporation or crystallization for evaporation or determination is already in the puddle 400. It is possible to evaporate immediately because it is sufficiently heated inside or maintained at the temperature.

Meanwhile, the plate 330 of the cover 300 may be a green transparent resin material. When the cover is a green transparent resin material, it is possible to further increase the temperature of the stored brine.

FIG. 3 shows the puddle from 8:24 to 20:24 when the plate 330 of the cover 300 is formed of green polycarbonate, transparent polycarbonate, asbestos slate and polypropylene (PP), respectively. It is a graph measuring the temperature change of the brine (W) contained in (400).

Referring to FIG. 3, it can be seen that the temperature of the brine W is higher when the plate 330 of the cover 300 is polycarbonate than when asbestos slate or polypropylene is used. In addition, it can be seen that the temperature of the brine (W) is higher when the plate 330 of the cover 300 is a green polycarbonate than when the transparent polycarbonate.

On the other hand, the pillar 310 and the frame 320 structure for mounting the plate 330 of the cover 300 may be used eco-friendly wood for the production of edible salt. However, when the light passing through the plate 330 is too strong, the pillar 310 and the frame 320 may be dried and may be caused by sun light. Therefore, in order to obtain a sufficient greenhouse effect and at the same time to prevent too strong sunlight is directly irradiated on the pillar 310 and the frame 320, the plate 330 of the cover 300 is a colorless transparent resin material It is preferable that it is a greener transparent resin material.

That is, the plate 330 of the cover 300 is made of green transparent resin material to prevent corrosion of the pillar 310 and the frame 320 while further increasing the temperature of the brine (W) contained in the puddle 400. When the plate 330 of the cover 300 is a green transparent resin material, the transmittance of visible light having a wavelength of 520 nm to 570 nm may be 50% or more, and 50 to 80%.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1:
100: bottom 200: embankment
300 cover 310: pillar
320: frame 330: plate
400: puddle
500: pumping means
510: pump 520: suction line
530: inlet 540: outlet
C: Crystalline E: Evaporation
G: Salt Warehouse H: Hae
S: reservoir
W: Brine P: Float

Claims

A pool of salt water, and
A cover covering an upper portion of the puddle;
Said cover is made of green transparent resin material.

The method of claim 1,
The cover is a salt seam of 50% or more transmittance of visible light having a wavelength of 520 to 570nm.

The method of claim 2,
The cover is a salt seam of 50 to 80% transmittance of visible light having a wavelength of 520 to 570nm.

The method of claim 1,
The resin is a polycarbonate sea salt.