KR101527930B1 - Salt fabrication apparatus from the sea water - Google Patents

Abstract

The present invention relates to a salt production apparatus, and more particularly, to a salt production apparatus having a rectangular shaped seawater heating tank in which an interior is empty and an open top is opened to store seawater; A space formed in the lower part of the seawater heating tank is formed with a heat input port and a heat outlet port so as to allow high temperature heat supplied from a heat source to be introduced into and discharged from the inside thereof. A heating unit for evaporating water contained in seawater; A heat supply pipe connected to one side of the heat input port and the other side connected to a heat source and supplying high temperature heat to the heating unit; And a heat recovery pipe connected to one side of the heat exhaust port and the other side connected to the heat source and for recycling the heat recovered from the heat exhaust port to the heat source. .

Description

TECHNICAL FIELD [0001] The present invention relates to a salt production apparatus using seawater,

The present invention relates to a salt production apparatus, and more particularly, to a salt production apparatus having a rectangular shaped seawater heating tank in which an interior is empty and an open top is opened to store seawater; A space formed in the lower part of the seawater heating tank is formed with a heat input port and a heat outlet port so as to allow high temperature heat supplied from a heat source to be introduced into and discharged from the inside thereof. A heating unit for evaporating water contained in seawater; A heat supply pipe connected to one side of the heat input port and the other side connected to a heat source and supplying high temperature heat to the heating unit; And a heat recovery pipe connected to one side of the heat exhaust port and the other side connected to the heat source and for recycling the heat recovered from the heat exhaust port to the heat source. .

Salt is a salty white crystal whose main component is sodium chloride (Nacl). It is not only an essential mineral to maintain the physiological function of the human body, but also widely used for food taste and food storage in the diet.

Conventional salt production method is to draw seawater into a salt and then dry it to precipitate salt or natural salt. Since the salt or natural salt contains a very small amount of minerals such as calcium and magnesium over 60 times, It is being used advantageously.

Here, in the case of the salt production method, salt is produced by a floating tongue made by attaching a tile or a plastic pallet on the floor. Such a salt production method can not increase the salt tide suddenly when the salt demand is large, There is a problem that the management of the production amount is inefficient because the torsion can not be reduced.

In addition, due to the development of the coastal area, it is becoming increasingly difficult to secure a tidal plate, and in order to produce salt in the tidal field, a lot of manpower is required, and the production of natural salt is decreasing year by year. Artificial salt production methods and apparatuses have been developed.

As a conventional artificial salt production apparatus, a patent disclosed in Japanese Patent Publication No. 63-27290 uses a method of manufacturing salt by an electrical method in which seawater is drawn into a factory and used an ion exchange resin film have. However, when the salt produced by this method is compared with natural salt, the content of the ingredient beneficial to man is very small. Above all, the content of other nutrients such as calcium, magnesium, and minerals, which are necessary for the human body, is so low that it is edible as compared with natural salt.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a salt production apparatus capable of producing natural salt contained in seawater using seawater and capable of producing a large amount of natural salt in a short time, The purpose is to provide.

In order to achieve the above-mentioned object, the present invention provides a seawater heating system comprising: a rectangular seawater heating tank having an interior hollow and an open top to store seawater; And a heat input port and a heat outlet port for introducing and discharging the high temperature heat supplied from the heat source into the inside are formed respectively and the seawater stored in the inside is heated through the high temperature heat, A heating unit for evaporating moisture included in the heating unit; A heat supply pipe connected to one side of the heat input port and the other side connected to a heat source and supplying high temperature heat to the heating unit; And a heat recovery pipe connected to one side of the heat exhaust port and the other side connected to a heat source and for recycling the heat recovered from the heat exhaust port to the heat source, A conveyance conveyor installed; A plurality of water collecting tubes arranged along the outer circumferential surface of the conveying conveyor and having ends corresponding to the bottom surfaces of the seawater heating tanks, A rubber plate which is inclined at a predetermined inclination so as to be able to move to a predetermined position; And an inclined surface formed on one inner wall of the seawater heating tank so that the salt moved to the outer circumferential side by the rubber plate can be discharged to the outside of the seawater heating tank.

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In addition, the salt production apparatus is characterized in that a plurality of upper and lower stages are installed in order to increase the production amount of salt.

The present invention as described above has an advantage that salt can be produced faster than the conventional salt trough method, and a large area for forming a salt trough is not required, and manpower required for producing salt is reduced .

In addition, the present invention can obtain natural salt using seawater, and has the advantage that a person can take various nutrients contained in natural salt.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an illustration of an apparatus for producing salt using seawater according to an embodiment of the present invention; FIG.
2 is an exemplary view of a seawater heating tank according to the present invention.
3 is an illustration of an apparatus for producing salt using seawater according to another embodiment of the present invention.

Hereinafter, exemplary embodiments will be described based on embodiments best suited to an understanding of the technical features of the present invention, and the technical features of the present invention are not limited by the illustrated embodiments, And that the present invention may be implemented with other embodiments. Therefore, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents. In order to facilitate understanding of the embodiments to be described below, in the reference numerals shown in the accompanying drawings, among the components that perform the same function in the embodiments, the related components are denoted by the same or an extension line number.

In order to facilitate understanding of the features of the present invention, the salt production apparatus according to an embodiment of the present invention will be described in detail.

As shown in FIGS. 1 and 2, the apparatus for producing salt according to the present invention has an upper portion opened for inputting seawater, a space for containing seawater therein is formed, and the seawater is heated to evaporate moisture, A seawater heating tank 10 in which a heating unit 11 is formed at a lower portion is provided.

One side of the heating unit 11 is provided with a heat input port 12 for inputting high temperature heat supplied from a heat source to the inside thereof and a heat outlet port 12 for discharging the heat inside the heating unit 11 to the outside 13 are formed.

The heat input port 12 is connected to a heat supply pipe 21 connected to an external heat source 20. The heat discharge port 13 is provided with a heat recovery pipe for discharging internal heat and re- 22 are installed.

In the present invention, hot air or steam is supplied to the inside of the heating unit (11) to heat seawater stored in the seawater heating tank (10) to a high temperature to evaporate moisture to obtain salt contained in seawater.

In addition, if necessary, a heat pipe having an excellent thermal conductivity can be installed in the heating section to further raise the heat generation temperature. By using a heating medium oil boiler using a heating medium oil having a boiling point of 250 to 300 DEG C as a heat source, This can be done smoothly.

An inclined surface 14 for discharging salt to the outside of the seawater heating tank 10 is formed on the inner wall of one side of the seawater heating tank 10 and a conveying conveyor 30 is provided on the upper portion of the seawater heating tank 10 along the longitudinal direction Respectively.

A plurality of rubber plates 31 are arranged at regular intervals on the outer circumferential surface of the conveying conveyor 30 and the rubber plates 31 are formed to have a length corresponding to the bottom surface of the seawater heating tank.

The rubber plate 31 is rotated along the conveying conveyor 30 to gradually move the salt formed in the seawater heating tank 10 toward the outer circumferential side of one side of the seawater heating tank, A salt reservoir (40) is provided on the outer side of the seawater heating tank so as to store the salt discharged to the outside along the inclined surface.

Although the rubber plate 31 is not shown in the drawing, a plurality of fine grooves are formed so that the seawater can remain in the seawater heating tank 10 and only the salt crystals can be transferred.

1 and 2, the drain 15 is formed on the bottom surface of the seawater heating tank 10. In FIG. 3, the drain 15 is formed on one side of the seawater heating tank 10, A drainage hole 15 is formed in the seawater heating tank 10 to discharge the remaining water remaining in the seawater heating tank to the outside and to connect the drainage pipe 16 to the outside of the drainage hole 15, And a drain valve is provided.

In addition, the present invention is provided with a plurality of upper and lower stages of the salt production apparatuses so as to increase the production amount of the salt.

That is, a plurality of the seawater heating tanks 10 are provided in a plurality of upper and lower stages, a seawater inlet pipe 17 is provided above each seawater heating tank 10, and a conveying conveyor 30 are installed.

As shown in FIG. 3, when the salt production apparatuses are installed vertically and vertically, the seawater is connected to upper and lower ends of both sides of the seawater heating tank 10 by vertically and vertically connecting bolts to a fastening member protruding outwardly .

The heating unit 11 of each seawater heating tank is provided with a heat supply pipe 21 connected to the heat source so as to be able to supply heat of high temperature and is connected to each heat input port. A heat recovery pipe (22) is provided to communicate with the heat outlet.

According to the present invention configured as described above, predetermined seawater is supplied to each seawater heating tank 10, and then high temperature heat is supplied to each heating unit 11 to heat the seawater stored in the seawater heating tank at a high temperature for a certain period of time.

Thereafter, when the salt crystals are formed in the respective seawater heating tanks, the conveying conveyor 30 is operated, and the salt crystals are collected on one side, discharged to the outside of the seawater heating tank, and collected in the salt storage tank 40.

In this case, when a plurality of seawater heating tanks are installed in upper and lower stages as described above, it is preferable that the positions of the inclined surfaces correspond to each other so that the discharged salt is prevented from being lost.

As described above, since the present invention produces natural salt using seawater, it has an advantage that various nutrients contained in natural salt can be ingested by humans, and it is advantageous in that salt can be produced faster than the conventional method using salt And it does not require a large area for forming a salt deposit, and it has an advantage that manpower required for producing salt can be saved.

10: seawater heating tank 11: heating section
12: heat input port 13: heat output port
14: slope 15: drainage
16: Water pipe
20: heat source 21: heat supply pipe
22: heat recovery pipe 30: conveying conveyor
31: Rubber plate 40: Salt storage

Claims (3)

A rectangular seawater heating tank (10) having an empty interior and an open top to store seawater;
A heat input port 12 and a heat outlet port 13 for introducing and discharging high-temperature heat supplied from the heat source 20 to and from the inside are formed respectively in the space below the seawater heating tank, A heating unit (11) for heating the seawater stored therein to evaporate water contained in the seawater;
A heat supply pipe 21 connected to the heat input port 12 at one side and the other end connected to the heat source 20 to supply high temperature heat to the heating unit 11; And
And a heat recovery pipe 22 connected to one side of the heat exhaust port 13 and connected to the other side of the heat exhaust port 13 for recycling the heat recovered from the heat exhaust port 13 to the heat source,
A conveying conveyor 30 installed along the lengthwise direction of the seawater heating tank 10;
A plurality of water collecting pipes arranged along the outer circumferential surface of the conveying conveyor 30 and having ends corresponding to a bottom surface of the seawater heating tank 10, A rubber plate (31) inclined at a predetermined inclination so as to be able to move to the outer periphery of one side of the heating tank; And
An inclined surface 14 formed on an inner wall of one side of the seawater heating tank 10 so that the salt moved to the outer periphery side by the rubber plate 31 can be discharged to the outside of the seawater heating tank;
Wherein the salt is added to the salt.
delete The apparatus for producing salt using seawater according to claim 1, wherein the salt production apparatus is installed in a plurality of upper and lower stages so as to increase the production amount of salt.

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