KR20180065841A - manless salt field system of environment-friendly - Google Patents

Abstract

The present invention relates to an eco-friendly unattended tumbler system capable of replacing a crystal paper for generating salt crystals by evaporating seawater supplied from evaporation sites of a tumbler by sunlight and wind,
The eco-friendly unattended tongue-in-salt system, which can replace the determination paper according to the embodiment of the present invention,
The present invention is applied to an eco-friendly unattended torsion system for depositing salt crystals by precipitating salt crystals from seawater supplied from the evaporation sites of torsion troughs,
At least one chamber provided in the frame so as to be floated from the bottom surface and formed of a transparent body so that sunlight is transmitted therethrough;
A conveyance belt mounted to orbit within the chamber;
A seawater pocket which is repeatedly installed on a part of an upper surface of the conveyance belt and accommodates seawater supplied by a predetermined amount of the seawater quantitative feeder and generates salt crystals by evaporation of seawater by sunlight and wind;
A salt transporting unit installed to orbitally move from the conveyance belt to receive the salt falling from the seawater pockets at the time of driving or to receive the salt from the port mounted on the upper surface in one direction;
And a salt separating device for separating the salt remaining in the seawater pocket when the salt falls from the seawater pocket by the orbital motion of the conveyance belt to the salt transportation port. Friendly uninjured torsion system.

Description

[0001] The present invention relates to an environmentally friendly untreated salt exchange system,

The present invention relates to an environmentally friendly uninhaled tinning system capable of replacing crystal paper, and more particularly, to an environmentally friendly tinning system for generating salt crystals by evaporating seawater by solar light and wind.

Generally, it is known that the purity of the sun salt is 80 to 88%, the salinity is low, but some impurities are contained, and the purified salt is 95 to 99% or more, and there is almost no mineral component beneficial to the human body.

The tidal flats that produce the sun salt are a salt-only reservoir that draws and stores the seawater, evaporation paper (having an area of about 70% of the trough) for concentrating the salt water supplied from the reservoir by exposure to sunlight and wind, (Which has an area of about 30% of the tortoise), a crystallization paper in which salt crystals are precipitated by spreading the concentrated saturating function on a salt plate, and a salt warehouse for removing the trace of the coated sea salt .

On the other hand, since sun saliva evaporates seawater, sun saliva is produced from April to October, which is easily evaporated from seawater, and is only 135 days to 150 days out of the year.

As described above, due to the limited climatic conditions for the sun-salt exposure, it is necessary to secure a large area of evaporation sites and determination sites in order to increase the sedimentation amount. .

On the other hand, the tile floor of the crystal paper has a disadvantage that it requires a considerable time and labor to replace the broken tile because the tile used for the bottom finishing member and the pot is excellent in flatness, expensive, weak in impact resistance and abrasion resistance . As a result, a batting plate made of synthetic resin such as PVC is mainly used.

Salt crystals are precipitated as the salt water supplied to the battle plate of the crystal paper is concentrated by the solar heat and the wind. In case of the PVC battle plate, when the external temperature rises more than 20 ° C, the battle plate becomes convex , wave phenomenon), and dimensional deformation. As a result, salt crystals in the crystal are stagnant and the salt crystal formation process may be interrupted.

This causes precipitation of nigari salt (so-called crystal with little salt crystals and tastes) in a state where the quality of the salt is remarkably deteriorated. However, there is a problem in that the salt production amount remarkably lowers due to the precipitation of nigari salt .

In addition, impurities harmful to human body may be precipitated in the sun-salt, which is contaminated by the raw material of the batting plate, resulting in a problem that the commerciality of the sun-salt is deteriorated.

10-2015-0101995 discloses a photovoltaic module dedicated to a salt, a manufacturing method thereof, and a control method thereof.

The embodiment of the present invention is a method for minimizing mixing of foreign matter harmful to the human body in the salt crystallization process by concentrating the seawater supplied from evaporation paper by the sunlight and wind while floating the sea water from the ground, Eco-friendly torsion-free system that can replace water.

The embodiment of the present invention relates to an eco-friendly unattended torsion prevention system capable of replacing a deceleration paper in which the determination paper is not necessary in the torsion span and the area of the evaporation paper is relatively secured to enlarge the amount of the ginseng salting out.

The embodiment of the present specification relates to an environmentally friendly unattended torsion prevention system capable of replacing a determination paper that can reduce the work intensity and eliminate the labor shortage in the field by automating the operation of discharging the sea salt by evaporating the seawater.

The embodiment of the present invention relates to an apparatus and a method for preventing the introduction of foreign substances such as yellow dust and pollen without recycling a section generated in a salt crystallization process in which sea water is evaporated by evaporating seawater, It is associated with an environmentally friendly unattended tidal system that can be replaced.

The embodiment of the present invention is an eco-friendly unmanned aerial vehicle capable of replacing a determination paper that can increase the amount of solar salt production by increasing the amount of evaporation of sea water and the duration of salt flotation by artificially evaporating seawater by electric power produced by using sunlight in a salt- It is related to the tidal system.

According to one embodiment of the present invention for achieving the above and other objects of the present invention,

The present invention is applied to an eco-friendly unattended torsion system for depositing salt crystals by precipitating salt crystals from seawater supplied from the evaporation sites of torsion troughs,

At least one chamber provided in the frame so as to be floated from the bottom surface and formed of a transparent body so that sunlight is transmitted therethrough;

A conveyance belt mounted to orbit within the chamber;

A seawater pocket which is repeatedly installed on a part of an upper surface of the conveyance belt and accommodates seawater supplied by a predetermined amount of the seawater quantitative feeder and generates salt crystals by evaporation of seawater by sunlight and wind;

A salt transporting unit installed to orbitally move from the conveyance belt to receive the salt falling from the seawater pockets at the time of driving or to receive the salt from the port mounted on the upper surface in one direction;

And a salt separating device for separating the salt remaining in the seawater pocket when the salt is dropped from the seawater pocket by the orbital motion of the conveyance belt to the salt conveyance port. Provide an unattended tidal system.

The present invention having the above-described configuration has the following advantages.

As the seawater supplied from the evaporation ground is floated from the ground, it is evaporated by the sunlight and wind and concentrated. Therefore, due to the nature of the tidal flat, foreign matter generated from the tidal flats minimizes the harmful foreign matter mixing to the sun salt, You can paint it.

In addition, since the crystallization paper is not required in the torsion column, it is possible to secure a relatively large area of the evaporation paper corresponding to the determination paper, thereby increasing the evaporation amount of the salt water per unit area and increasing the amount of the sunny salt transpiration.

In addition, it is possible to automate the process of depositing sun-salt by evaporating salt water to create a pleasant working environment, and improve workability and productivity, thereby reducing labor costs while reducing labor costs. In addition, And the selling price can be lowered.

In addition, since the number of sections generated during the crystallization process of evaporating salt water by evaporating salt water is abolished, only the new water number is utilized, and foreign substances such as yellow sand and pollen are prevented from entering, We can secure competitiveness.

In addition, by heating the seawater evaporator heater by means of the power generated by the sunlight in the salt trough, artificial evaporation of the seawater can increase the amount of sunlight salt by increasing the evaporation amount of the salt water and the duration of the salt flouring.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of an environmentally friendly unattended tinning system capable of replacing a crystal paper according to an embodiment of the present invention;
Figure 2 is a side view of the torsion system shown in Figure 1;
FIG. 3 is a view of a salt separation device for separating salt from a sea water pouring device for supplying seawater to a sea water pocket and a sea water pocket,
FIG. 4 is a view showing the sludge discharged when cleaning the bottom surface of the sea water pocket in the torsion system shown in FIG. 1,
Fig. 5 is a view showing the state of use of the camera for photographing the salt particle size of the seawater in the sea water pocket in the torsion system shown in Fig. 1;
FIG. 6 is a schematic view of a chamber constituting the torsion bar system shown in FIG. 1;
Fig. 7 is a use state diagram of a cleaning nozzle for cleaning the bottom surface of a sea water pocket in the torsion system shown in Fig. 1. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an environmentally friendly unattended torsion prevention system capable of replacing a determination sheet according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIGS. 1 to 7, an eco-friendly unattended tongue-in-salt system capable of replacing a crystal paper according to an embodiment of the present invention

The present invention is applied to an eco-friendly unattended torsion system for depositing salt crystals by precipitating salt crystals from seawater supplied from the evaporation sites of torsion troughs,

(For example, a transparent glass material or a synthetic resin material) so as to allow sunlight to pass therethrough, and a foreign matter such as yellow dust, pollen, dust or the like is introduced from the outside At least one chamber (11) sealed so as to be able to shut off the chamber (11);

A transport belt (12) mounted within the chamber (11) for orbital movement by a drive motor (13);

A seawater storage tank 14 provided outside the chamber 11 for storing seawater supplied from evaporation paper (not shown)

(For example, insoluble substances such as sand and mud) contained in the seawater supplied from the evaporation paper to the seawater storage tank 14 on the upstream side of the seawater storage tank 14, A water purification apparatus 15 provided with a filtration filter (not shown)

A storage tank 16 repeatedly mounted on a part of the upper surface of the conveyance belt 12 and communicating with the seawater storage tank 14, a pump (not shown) connected to the storage tank 16, (19) for receiving a predetermined amount of seawater supplied through a seawater supply device (18) composed of a seawater supply nozzle (17) for generating sea water by evaporation of seawater by sunlight and wind, (By way of example, a rectangular shaped container with an open top);

(For example, it is installed so as to orbitally move at an angle of 90 degrees with respect to the orbital movement direction of the conveyor belt 12) separated from the conveyor belt 12, Or a salt transporting port 20 (for example, a conveying belt is shown in the figure) for transferring the salt to a port (not shown) mounted on the upper surface in one direction;

A salt separating device 21 for separating the salt remaining in the seawater pockets 19 when the salt falls from the seawater pockets 19 which are turned by the orbital motion of the conveying belt 12 into the salt conveying port 20, .

And a heater (not shown) mounted on the bottom surface of the sea water pocket 19 for heating the seawater in the seawater pocket 19 by an applied power source to increase the evaporation amount and the evaporation time of the seawater.

In other words, since the seawater pockets (19) are forced to be heated by the heater during the low temperature period due to the evaporation of seawater from the evaporation area like early spring and late autumn, the evaporation amount of the seawater and the evaporation period of the seawater are increased, .

An intake fan 22 for injecting outside air into the chamber 11 and an air filter (not shown) for filtering foreign substances contained in the outside air to be sucked,

And an exhaust fan 23 for exhausting and circulating the internal air from the chamber 11 to the outside.

And a photovoltaic module 25 mounted on the upper surface of the chamber 11 and composed of a plurality of solar panels 24 for producing electric power.

A drive motor 13 for driving the conveyance belt 12 and the salt conveyance belt 20 with electric power generated by the solar power generation module 25 and a heater provided in the seawater pockets 19 for heating, (Not shown) for supplying the seawater of the tank 16 to the seawater supply nozzle 17, and the like.

At this time, the technical content of producing the electric power by the solar power generation module 25 including the plurality of solar panels 24 and outputting the produced electric power to the AC power source to drive the drive motor 13 and the pump, They are used in the related art, and thus detailed description of their constitution will be omitted.

The salt separator 21

A salt separation nozzle 26 mounted on the frame 10 for spraying seawater of high saltiness of the storage tank 27 to the sea water pocket 19,

A rotary brush (not shown), which is not shown in the figure but is rotatably mounted on the frame 10, and is in the form of a roller for brushing or scraping the salt remaining in the sea water pocket 19 during rotation .

The user can take a picture of the size of the salt crystal grains stored in the seawater pockets 19 and transmit the photographing data to the user, And a camera 28 for determining the timing.

When the sea water pockets 19 are turned and moved to a position facing the floor due to the orbital motion of the conveyor belt 12, A cleaning nozzle 29 for spraying low-salt water supplied from the seawater storage tank 31,

The foreign matter falling from the seawater pockets 19 is collected by the sea water sprinkled toward the seawater pockets 19 by the cleaning nozzle 29 and the foreign matter collected from the seawater pockets 19 is collected, (30) formed in an inclined shape in the direction of motion (for example, formed in a downward slope from the tension side of the conveyor belt (12) toward the relaxed side) and formed to be inclined downward from the edge toward the center have.

Although not shown in the drawing, a plurality of chambers 11 are provided in a single dome-shaped warehouse having a large size, so that a saltwater system for filling salt crystals with the sea water pockets 19 is concentrated, 22 and the exhaust fan 23 can be reduced, thereby reducing the cost of the system.

In the figure, reference numeral 32 denotes a cart for transporting the salt transported through the salt transportation port 20 to the salt storage warehouse, and reference numeral 33 denotes a door for accessing the interior of the chamber 11.

Hereinafter, an example of using an environmentally friendly unattended torsion prevention system capable of replacing the determination paper according to the embodiment of the present invention will be described with reference to the accompanying drawings.

The sea water supplied to the evaporation paper from the tidal reservoir can be exposed to the sunlight and the wind to further secure the area of the evaporation paper for concentrating the concentration of the seawater. In addition, it is not necessary to obtain a crystal ground to generate sun salt by precipitating the saturating function concentrated in evaporation paper with salt crystals.

That is, a large number of seawater pockets 19 accommodating seawater of evaporation paper (saturation function) to be precipitated into the salt crystals by sunlight and wind act as substitutes for the crystal papers.

As a result, 30% of the crystallized paper can be utilized as the evaporation source when the ratio of the area of the evaporation paper to the area of the crystallization paper is about 70%: 30%.

Therefore, since the area of the evaporation paper can be secured relatively more than the area of the evaporation paper occupying in the conventional tidal field, the evaporation amount of the seawater in the evaporation paper can be increased.

The concentrated sea water is exposed to sunlight and wind in the evaporation paper and is moved by a pump (not shown) and stored in the seawater storage tank 14.

The seawater stored in the storage tank 16 communicating with the seawater storage tank 14 is filled in the seawater pockets 19 by the seawater supply nozzle 17 constituting the seawater quantity supply device 18. [ At this time, since the movement of the conveyance belt 12 that is orbiting is intermittently stopped, the seawater can be filled in the seawater pocket 19 by a predetermined amount.

In the case where 10 mm of seawater is filled in the seawater pockets 19, the sunlight passing through the glass window forming the chamber 11 is circulated by the intake fan 22 and the exhaust fan 23 provided in the chamber 11, (On the other hand, in the case of a salt deposit formed in the open air, the sea water of the evaporation paper is filled with 30 mm in the salt plate of the crystal paper, When the seawater is evaporated by the wind, salt crystals are formed after about 40 hours.

In addition, since the seawater pockets 19 are installed in the chamber 11 of the closed space, the seawater of the crystal paper is moved to the sea floor in the open-type tidal current at the time of rainy weather, The work process becomes unnecessary.

In addition, it is possible to produce the same amount of salt crystals in a large number of sea water pockets 19 having an area of 1/10 of the same area of the salt crystal deciduous paper formed in open-air. As a result, the area of the remaining determined paper can be replaced with evaporation paper.

As described above, the sea water supplied to the plurality of sea water pockets 19 mounted on the conveyance belt 12 is formed into salt crystals by sunlight and wind, so that sanitary solar salt can be coated.

On the other hand, when the sea salt is applied on the salt plate on the bottom of the tidal plate, the harmful substances in the sea salt due to the foreign substances generated due to the nature of the tidal flat and the harmful substances which are deposited on the raw materials of the salt- It may be mixed to deteriorate the hygiene.

On the other hand, by selectively heating the heater provided on the bottom surface of the sea water pocket 19 during the rainy season, early morning or nighttime when the amount of sunshine is low, the seawater filled in the sea water pocket 19 is artificially evaporated, As the period is increased, the production of sun salts can be further increased.

When the salt crystals are produced in the seawater pockets 19 mounted on the conveyor belt 12 as described above, the conveyor belt 12 is orbited by the drive pulley and the driven pulley by the drive of the drive motor 13 The salt generated in the seawater pockets 19 may be dropped and loaded into a separate salt transportation port 20 which is installed separately from the conveyor belt 12 and orbitally moved.

The salt loaded in the salt carrier 20 can be moved in one direction due to the orbital motion of the salt carrier 20 and collected in the cart 32 disposed at the end of the salt carrier. The salt collected in the cart 32 can be carried by the operator to the salt storage warehouse.

When the salt of the sea water pocket 19 is dropped and loaded on the salt transportation port 20, the salt water separated from the salt is passed through the salt water transfer pipe (not shown) It can be transferred to a designated place and discarded.

As a result, the sea water (i.e., the number of sections) generated when the sea water of the evaporation paper is concentrated to produce the salt crystals is collected and treated with wastewater, and only the new water is used, so that it is possible to produce clean high quality sea salt , And the conventional open-salt type salt tanks have a disadvantage in that the taste and quality of the sun salt are lowered due to the use of a mixture of the number of new seasons and the number of seasons.

On the other hand, when salt is dropped from the seawater pockets 19 due to orbital motion of the conveyor belt 12 and loaded on the salt transporting port 20, the high saltiness of the salt stored in the storage tank 27, The salt remaining in the seawater pockets 19 can be shaved off or scraped off by spraying the seawater with the salt separation nozzle 26.

At this time, the use of salt having high saltiness to remove the salt remaining in the sea water pocket 19 can minimize the loss of dissolved salt crystals remaining in the sea water pocket 19.

On the other hand, when the salt determined in the sea water pocket 19 is dropped to the salt transportation port 20 due to the orbital motion of the conveyor belt 12, and then the sea water pocket 19 is moved to a position facing the floor, The foreign matters such as the residue of the salt crystals remaining in the seawater pocket 19 and the tidal flats of the tidal flats due to the low salt water sprayed from the cleaning nozzle 29 mounted to the sea water conveyance belt 12 toward the sea water conveyance belt 10 So that it can be cleaned.

At this time, the foreign substances such as the wash water from which the sea water pocket 19 is washed, the salt residue such as sludge which is desorbed from the seawater pockets 19 and the tidal flats are fed to the lower side of the conveyance belt 12 in one direction (the orbital direction of the conveyance belt 12 , And can be disposed of at a designated place after being collected by the catchment 30 installed at an inclination.

As described above, according to the eco-friendly uninhabited tide system, which can replace the determination paper according to the embodiment of the present invention, a plurality of sea water pockets (not shown) are formed on the conveyance belt 12 installed at any height from the bottom surface of evaporation paper, The seawater stored in the seawater storage tank 14 is accommodated in the seawater pockets 19 provided to maintain a predetermined height from the bottom surface by the seawater quantity supply device 18, Crystals can be generated.

As a result, it is possible to deposit relatively hygienic sunlit salt from the salt crystals formed on the clearing plate of the determined paper by using the footbath, and to increase the amount of seawater evaporation from the evaporation area of a relatively large area .

The saturation function stored in the seawater storage tank 14 is supplied to the seawater pocket 19 by the seawater metering supply device 18 and the salt generated from the salt crystals in the seawater pocket 19 is supplied to the transfer belt 12 A series of work processes for transporting the slurry to the side of the salt transportation port 20 by driving is carried out in an automated work process by an unmanned work so that the work intensity for reducing sun salt is lowered, .

While the present invention has been described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be understood that the invention may be varied and changed without departing from the scope of the invention.

10; frame
12; Conveying belt
14; Seawater storage tank
16; Storage tank
18; Seawater pocket
20; Salt transport
22; Suction fan
24; Solar panel
26; Nozzle for salt separation
28; camera
30; Catch
32; cart

Claims (7)

The present invention is applied to an eco-friendly unattended torsion system for depositing salt crystals by precipitating salt crystals from seawater supplied from the evaporation sites of torsion troughs,
At least one chamber provided in the frame so as to be floated at an arbitrary height from the bottom surface and formed of a transparent body so that sunlight is transmitted therethrough;
A conveyance belt mounted to orbit within the chamber;
A seawater pocket which is repeatedly installed on a part of an upper surface of the conveyance belt and accommodates seawater supplied by a predetermined amount of the seawater quantitative feeder and generates salt crystals by evaporation of seawater by sunlight and wind;
A salt transporting unit installed to orbitally move from the conveyance belt to receive the salt falling from the seawater pockets at the time of driving or to receive the salt from the port mounted on the upper surface in one direction;
And a salt separating device for separating the salt remaining in the seawater pocket when the salt falls from the seawater pocket by the orbital motion of the conveyance belt to the salt transportation port. Environment friendly uninjured torsion system. The method according to claim 1,
And a heater mounted on a bottom surface of the seawater pocket for heating seawater in the seawater pocket by an applied power source to increase evaporation amount of the seawater and evaporation time, Torsion system. The method according to claim 1,
An intake fan for injecting outside air into the chamber and an air filter for filtering foreign substances contained in the outside air to be sucked,
And an exhaust fan for discharging the internal air from the chamber to the outside. ≪ Desc / Clms Page number 13 > The method according to claim 1,
And a photovoltaic power generation module mounted on an upper surface of the chamber, the photovoltaic module including a plurality of solar panels for generating electric power. The apparatus of claim 1, wherein the salt separator
A salt separation nozzle mounted on the frame for spraying seawater having high saltiness in the seawater pocket,
And a rotary brush rotatably mounted on the frame and configured to remove salt remaining in the seawater pocket when the rotary brush rotates. The method according to claim 1,
A camera installed at an arbitrary position of the frame for photographing a size of salt crystal grains accommodated in the seawater pocket and transmitting photographing data to a user to determine a salt filling time of the salt generated in the seawater pocket; Further comprising: an eco-friendly tinnittle system for replacing a crystal paper. The method according to claim 1,
And a cleaning unit for cleaning the foreign matter including the sludge deposited on the bottom surface of the seawater pocket when the seawater pocket is moved to a position facing the bottom surface due to the orbital movement of the conveyance belt. A nozzle,
And a channel-shaped catching part formed to be inclined in the direction of orbital movement of the conveyance belt so as to collect foreign matter falling from the seawater pockets by the sea water sprayed by the washing nozzle and to move the foreign matter to be collected in one direction Which is capable of replacing the crystal paper.

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