KR20110052849A

KR20110052849A - Haejoo of saltpan

Info

Publication number: KR20110052849A
Application number: KR1020090109542A
Authority: KR
Inventors: 최신일
Original assignee: 최신일
Priority date: 2009-11-13
Filing date: 2009-11-13
Publication date: 2011-05-19

Abstract

PURPOSE: The seawater tank of a salt pond is provided to increase the sanitation of the seawater tank by forming a light- transmissive roof in order to maintain the temperature of stored seawater and prevent the contamination and the corrosion of the roof. CONSTITUTION: The seawater tank of a salt pond includes a reservoir(40) and a roof(30). Seawater is contained in the reservoir, and the roof covers the upper side of the reservoir. The roof is based on a light-transmissive resin material. Wood-based pillars and a frame structure support a plate in order to form the roof. The light transmittance of the roof is 70 to 80%. The seawater tank of the salt pond includes a pumping unit(50) and a float(60). The pumping unit pumps the seawater to the outside of the reservoir. The float is floated on the seawater of the reservoir.

Description

Haze of Salmon {HAEJOO OF SALTPAN}

The present invention relates to salt water, more specifically, the roof is made of a material through which light is transmitted, which can maintain the temperature of the salt water stored by the greenhouse effect and does not cause pollution or corrosion of the roof, which is not only sanitary but also the suction port of the pump. It is related to salt seawater that can be placed in the upper layer of stored brine so that suspended sediment is not discharged from the ponds of the seashore.

In general, 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 osmotic pressure of body fluids, is involved in acidic acid equilibrium, and forms 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 classified as natural salts, rock salts, mechanical salts, recontaminated salts, and processed salts. About two-thirds of the world's salt production comes from rock salts, but the traditionally preferred ones are salts that suit our taste.

The purity of sun salt is 80 ~ 88% or higher and the salinity is low but it contains impurities and it contains harmful ingredients to human body. Refined salt is 95 ~ 99% or more and there are few harmful ingredients to human body but few minerals beneficial to human body. It has been known.

Natural sea salt in Korea is one of the world's five largest tidal flats, which are based on mineral-rich tidal flat saltwater, which is one of the world's five largest tidal flats: 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 west coast of Korea. Based on this production, 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 consists of three reservoirs (s, evaporation and crystallization), and there are also salt exits and roads. Is cut off from external water by the embankment and the inner dike to prevent invasion of the broth.

1 is a view conceptually showing the structure of a general salt field. Referring to Figure 1, the reservoir (S) is a place to trap the sea water, the evaporator (E) is a place to evaporate the water in the sunlight and wind the brine introduced from the reservoir (S), the crystal land (C) is It refers to a place where the saturated saturation function (飽和 된 水) concentrated in the evaporator (E) is thinned and concentrated, and salts are 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) for temporarily storing the saturated saturation function in a situation such as rainy weather is provided in the middle or one side of the evaporation (E) or crystal paper (C). 2 illustrates a conventional general seawater. Referring to FIG. 2, a dike 2 is formed at one side of the bottom of the evaporation or crystallization, and a seaweed is formed on the outside of the dike 2. The pond 4 and the saltwater W are accommodated therein. It consists of a roof 3 covering the top of the pond 4 and pumping means 5 for pumping the brine stored in the pond 4 into an evaporation or crystallization channel or a channel leading to the evaporation or crystallization. The roof 3 is formed by placing a roof plate 3c on top of a frame 3b joined over the top of a wooden pillar 3a, which is usually an environmentally friendly material.

However, slate is used as a plate (3c) of the roof (3) of the conventional salt toner in this case, the problem of contamination by asbestos occurs, and when the coated steel plate is used, corrosion and brine due to the corrosion (W) Is contaminated, which ultimately leads to salt contamination. In addition, since the plate 3c of the conventional Haeju roof 3 is blocked by sunlight and is not transmitted, the temperature of the brine W contained in the pool 4 of the seashore is reduced, and the brine is evaporated again in an evaporation or crystallization. In order to achieve this problem, the problem of having to reheat in an evaporation or crystallization field for a considerable time occurs.

In addition, the suction port of the suction pipe (5b) connected to the suction side of the pump (5a) of the pumping means (5) to pump the salt water (W) contained in the sump (4) for the conventional salt to the bottom of the pool (4) as possible 5c is located at a point close to the bottom of the sump 4, and the suspended matter P which precipitates in the sump 4 is sucked into the inlet 5c and discharged to the outlet 5d connected to the discharge side of the pump 5a. By discharge, the brine containing the floating matter P is supplied to the evaporation or crystallization. In particular, in the brine (W) contained in the pond (4) over time, sediment (P) of the precipitate is made slowly and the concentration of the precipitate (P) is thicker from the upper layer to the lower layer of the brine (W) conventional When the suction pipe 5b of the pumping means 5 is lowered to the vicinity of the bottom of the puddle 4, as shown in FIG.

The present invention was conceived by recognizing the above-mentioned point is an object of the present invention can maintain the temperature of the salt water stored in the greenhouse effect by the light transmitting material to the roof and do not cause pollution or corrosion of the roof sanitary salt It is intended to provide some help.

In addition, another object of the present invention is to provide a seafloor of salt that can prevent the suspended sediment from being discharged from the pond of the seashore by placing the inlet of the pump in the upper layer of the brine stored in the stored pond.

In order to achieve the above object, the salt of the salt in accordance with the present invention, a salt containing the pond and the roof of the salt comprising a roof covering the upper portion of the pool, the roof plate is light transmission Characterized in that formed of a resin material.

In addition, the roof is made of salt, according to the present invention, the plate is supported by the pillars of the wood and the frame structure, the plate of the roof is characterized in that the light transmittance of 70 ~ 80%.

In addition, the salt to the salt according to the present invention, the pumping means is provided with a pump for pumping the brine contained in the puddle to the outside of the puddle, and further comprises a float floating in the brine contained in the puddle, the pump The suction port of the suction pipe is connected to the floating body so as to be positioned at a predetermined depth from the surface of the brine, characterized in that the lifting up and down by the elevation of the surface of the brine.

By the configuration as described above, the roof of the salt can according to the present invention as a material through which light is transmitted can maintain the temperature of the salt water stored in the greenhouse effect and does not cause pollution or corrosion of the roof has a hygienic advantage.

In addition, by placing the intake port of the salt water pump according to the present invention in the upper layer of the brine stored in the stored pond has the advantage that the suspended matter is not discharged from the pool of the seashore.

Hereinafter, with reference to the embodiment shown in the drawings will be described in detail the sea salt of the salt in accordance with the present invention.

3 is a view conceptually showing the sea of salt torsion according to an embodiment of the present invention.

Referring to FIG. 2, the salt can be provided on the outer side of the embankment 2 surrounding the bottom 1 of the evaporation or crystallization ground according to an embodiment of the present invention, which includes a puddle 40, a roof 30, and a pumping means. 50 and the floating body 60 are comprised.

The puddle 40 is a space for accommodating the brine (W) is formed deeper than the bottom of the evaporation or crystal ground (1).

The roof 30 is configured to cover the upper portion of the puddle 40. The roof 30 is formed by placing a plate 33 made of a resin material through which light is transmitted to an upper portion of a frame structure formed by combining a wooden pillar 31 and a frame 32. It is sufficient that the resin material to transmit the light of the plate 33 is sufficient, but due to the characteristics of the salt salt, polycarbonate material (aka 'Lexan'), which is resistant to corrosion, has excellent durability and heat resistance to sunlight, impact resistance and excellent light transmittance. This is suitable. According to the present invention, the plate 33 of the roof 30 is made of a light-transmissive resin material, so that the sunlight is passed through the interior space of the roof 30 surrounded by the roof 30, and the pool is formed by the greenhouse effect. The brine (W) stored in 40) is heated. This not only means that evaporation is continuously performed while the brine is stored in the puddle 40, but the brine W discharged from the puddle 40 to the evaporation or crystallization for evaporation or determination is already in the puddle 40. It is possible to evaporate immediately because it is sufficiently heated inside or maintained at the temperature.

On the other hand, the pillars 31 and the frame 32 for mounting the plate 33 of the roof 30 is used eco-friendly wood for the production of edible salt. By the way, if the light passing through the plate 33 is too strong, the pillars 31 and the frame 32 of the timber may dry out by sunlight. Therefore, the plate 33 of the roof 30 has a light transmittance of 70 to 80% so that sufficient greenhouse effect can be obtained and so strong sunlight is not directly irradiated on the pillar 31 and the frame 32. It is preferable.

The pumping means 50 is configured to pump the brine (W) stored in the pond (40) to a channel leading to the evaporation or crystal or evaporation or crystal. Referring to the drawings, the pumping means 50 includes a pump 51, a suction pipe 52 connected to the suction side of the pump 51, and a discharge pipe 55 connected to the discharge side of the pump 51. It is provided is provided.

As described above, the suspended matter P is suspended in the brine W contained in the puddle 40 and is slowly precipitated over time. The present invention is characterized in that the inlet port 53 of the suction pipe 52 is located in the upper layer of the salt water (W) so that the float (P) is not sucked into the salt water (W) pumped by the pump (51). . By the way, the surface of the brine (W) is changed by the pumping or the brine flows from the outside. Therefore, in the present invention, the suction port 53 is connected to the floating body 60 so that the position of the suction port 53 of the suction pipe 52 is located at a predetermined depth from the surface of the water, and the height of the surface with the floating body 60 changes. It characterized in that it is configured to move up and down according to. In the drawing, the pump 51 of the pumping means 50 is installed on the upper part of the floating body 60, and the suction port 53 of the suction pipe 52 connected to the pump 51 is provided with the floating pump (51). 60 shows an example of lifting up and down by floating, but the present invention is sufficient if the suction port 53 of the suction pipe 52 is elevated together with the floating body 60, and unlike the illustrated in the figure, the pump 51 ) May be fixed to the outside of the float (60). However, when the pump 51 is installed on the upper part of the floating body 60 as shown in the drawing, it is not necessary to secure a space for the installation of the pump 51 separately, and the floating body 60 by the weight of the pump 51. There is an advantage of being able to stably sleep.

The salt salt described above and illustrated in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the claims below, and the embodiments which have been improved and changed without departing from the gist of the present invention will be apparent to those skilled in the art. It will be said to belong to the protection scope of the present invention.

1 is a view conceptually showing an example of the structure of a conventional salt field

2 is a view conceptually showing the sea of the conventional torsion

3 is a view conceptually showing the sea of salt torsion according to an embodiment of the present invention;

30 roof

40 pools

50 pumping means

60 floats

Claims

In the sea of salt fields consisting of a pool of salt water inside, and a roof covering the top of the pool,

The roof is made of a salt material, characterized in that the plate is formed of a resin material through which light is transmitted.

The method of claim 1,

The roof is plate supported by wooden pillars and frame structures,

The roof plate has a salt torsion, characterized in that the light transmittance is 70 ~ 80%.

The method according to claim 1 or 2,

Pumping means is provided with a pump for pumping the brine contained in the pool to the outside of the pool, and further comprises a float floating in the brine contained in the pool,

The suction port of the suction pipe of the pump is connected to the floating body so as to be located at a predetermined depth from the surface of the brine, the salt of the brine, characterized in that the lifting up and down by the lifting of the surface of the brine.