KR101186362B1

KR101186362B1 - Floating water purification device equipped with a photovoltaic device in the sea surface of the reservoir or coastal area.

Info

Publication number: KR101186362B1
Application number: KR20080079701A
Authority: KR
Inventors: 민승기
Original assignee: 민승기
Priority date: 2008-08-12
Filing date: 2008-08-12
Publication date: 2012-10-02
Also published as: KR20100020401A

Abstract

The present invention relates to a water purifier in which a photovoltaic device is addressed to filter harmful suspended matter in a reservoir or coastal water .

In general, it is harmful to floating at sea level, and Frankton, such as red tide and blue tide, which have a high decay density or high growth density, proliferates at high temperatures in the summer, such as heat waves, and also proliferates due to pollution and contaminates water quality and promotes toxin generation. As a result, problems such as odors and the death of fish such as cage farms occur.

In addition, it provides the necessary power by using solar power at the sea level where the sun is near the heat wave. The installation of the power generation board in the narrow conditions such as ships is used to prevent wind damage by inducing wind movement to the air in case of typhoon. As an invention to provide, it will be described in detail,

The separator is projected downward from the bookkeeping 113 used as the moving path 115 at the edge of the farm 110 installed at the sea surface 100 and fixed on the line of the work line 105 of the farm 110. It is provided with a protective cap 220 that is integrally coupled to the support pillar 213, protruding through the frame 223 to protrude in both directions from the protective cap 220, it is formed fixed in the vertical direction The upper and lower power generation plates 211 and 212 constitute a photovoltaic device 200 driven in a direction in which sunlight moves, and a transfer hole from the dewatering device 360 installed on the work line 105. (353) In the water purification device which is provided so as to be connected to the pre-formed pipe, and provided with the photovoltaic device 200, to filter the floating water of the sea surface 100,

Protrudes the separator downward from the bookkeeping 113,

The separator forms a protective tent 120 provided with an entrance 125,

Induces a strong wind to the guide bar 230 protruding upward from the outer side edges of the upper and lower power generation plates (211, 212), the water purifier is formed with a filtration device 300 and the transfer port (353) The invention is characterized in that the dewatering device 360 is connected to the pipe is configured.

In addition, the induction passage 240 is formed on the surfaces of the upper and lower power generation plates 211 and 212, and an boogie 330 is provided below the filtering device 300, and the filtering device 300 is provided on both sides. The left and right chambers 308 and 310 are formed to be fixed, but the ribs 305 are fixed, and a discharge pump 380 is connected to one side wall surface of the left chamber 308, and the right chamber 310 is formed. While forming a suction port 333 on one side wall of the), the suction port 333 to the door lock 350 provided in the upper rib 305 while forming a moving groove 343 so that the opening and closing door 340 is interlocked with the suction port ( 333 to open and close the support wire mesh 320 in both directions in the rib 305 to form a transfer section 312 in the left and right chambers 308 and 310 formed in the rib 305, respectively. It is provided, but in the inner section of the support mesh 320 is fixed to the filter bag 309 with a rib 305, in the left, right chambers (308, 310) section A section between the support wire mesh 320 is provided as a transfer section 312, the transfer section 312 is connected to a pipe formed with a transfer port 353 to be provided with a valve 396, the transfer section ( 312 is an invention characterized in that the supply port 385 is provided with a perforated supply pipe 352.

Sea Level, Guided Passage, Float, Garment Bag

Description

Floating water purification device equipped with photovoltaic device at sea level in reservoir or coastal area.

The present invention relates to a floating water purification device equipped with a photovoltaic device at the sea level of a reservoir or a coastal area, and specifically, contaminates the water quality by abnormally multiplying by an increase in the sea water temperature in the summer, such as heat waves, and pollution and eutrophication. It is an invention for filtering and removing suspended matter that promotes.

In general, the sea level of reservoirs or coastal areas is highly decayed due to abnormal high temperatures in summer, and the density of proliferation of frankton or jellyfish, such as red and blue tide, is very high. It is being provided for the cause of our death.

In addition, most fishermen are distributing ochers as they turn around the cages, but this is not a fundamental measure.

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In addition, to reduce the damage of strong winds caused by typhoons blowing from coastal areas, windbreak forests are used depending on the coastal areas, but this requires a long period of growth and covers the area of the region to create windbreak forests depending on the region. Difficulties arise.

It provides the necessary power by using photovoltaic power generation at the sea level where sunlight is close to the heat wave. The installation of power generation board in the narrow conditions such as ships is largely made possible by the width of the power generation plate used as the solar power generation board. It is to increase the amount of power to be commissioned.

This is to provide not only the power for the water purification operation, but also to reduce the wind sea in the coastal area with a wind guidance device in the case of strong wind or typhoon, such as monsoon.

In addition, the countermeasure against the collection of suspended solids in which the most of the red tide occurs in the summer heat in the coastal region is that the upper part of the inlet for sucking the suspended solids should be exposed above the surface of the water.

In addition, the float removal device is conventionally submitted to the collection of the filtered suspended matter, because the separation bag to collect the collection bag, it is required to provide a simple collection device under bad conditions on the work site, such as sea level.

In addition, in the cold weather during the cold season, cold seas are generated depending on the species of fish farming in the sea level or the reservoir, and to prevent this, it provides thermal insulation by electric power. It is an invention that provides the temperature of the sea to keep warm.

In addition, in order to reduce the damage caused by the red tide occurring during the cold season, the farms are expanding the wastewater treatment plant to purify the wastewater, which is a source of pollution from the streams flowing from the nearby coastal areas, but this is due to excessive time and installation costs. Accordingly, it is necessary to secure budget and construction period.

The present invention is to put a working ship on the sea, while forming a solar power generation plate in the hull upper and lower power generation plate; While fixing this to each other by the connection of the frame, it is configured to protrude upward while obliquely guides the induction guide for the strong winds such as typhoon from both edges to the outside to prevent wind damage to the strong winds,

It is also an object of the present invention to provide a filtration device for inhaling and filtering suspended matters such as red tide and jellyfish, which are toxic due to abnormal growth while floating in the sea level of reservoirs or coastal areas or cages.

It supplies the seawater generated by filtering the suspended solids by suction in the area where the cages are formed in a rectangular shape and connected to each other.Then, the filtered suspended solids are separated by compression and then simply separated and removed. The purpose is to.

The separator is projected downward from the bookkeeping 113 used as the moving path 115 at the edge of the farm 110 installed at the sea surface 100 and fixed on the line of the work line 105 of the farm 110. It is provided with a protective cap 220 that is integrally coupled to the support pillar 213, protruding through the frame 223 to protrude in both directions from the protective cap 220, it is formed fixed in the vertical direction The upper and lower power generation plates 211 and 212 constitute a photovoltaic device 200 which is driven in a direction in which sunlight moves, and a transfer hole in the dehydration device 360 installed on the work line 105. (353) In the water purification device provided to be connected to the pipe formed in the form, the solar power generating device 200 to filter the floating water of the sea surface 100,

Protrudes the separator downward from the bookkeeping 113,

The separator forms a protective tent 120 provided with an entrance 125,

Induces a strong wind to the guide bar 230 protruding upward from the outer side edges of the upper and lower power plates (211, 212),

The water purifying device is an invention characterized in that the dewatering device 360 is connected to the pipe formed with the filtration device 300 and the conveying port 353 is configured.

In addition, the induction passage 240 is formed on the surfaces of the upper and lower power generation plates 211 and 212, and the swelling device 330 is provided below the filtering device 300.

The filtering device 300 is formed by forming left and right chambers 308 and 310 at both sides, and fixing them with ribs 305, and discharging pumps 380 on one side wall of the left chamber 308. And a suction port 333 is formed on one side wall surface of the right side chamber 310, and the suction hole 333 is provided on the upper rib 305 while forming a moving groove 343 so that the opening and closing door 340 is interlocked. The inlet 333 is opened and closed by the door lock 350, and the ribs 305 are formed in the left and right chambers 308 and 310 formed in the ribs 305 to respectively form a transfer section 312. The support wire mesh 320 is provided in both directions, and the cloth bag 309 is fixed to the rib 305 in the inner section of the support wire mesh 320, and the left and right chambers 308 and 310 sections are provided. Equipped with a section between the support wire mesh 320 as a transport section 312,

The transfer section 312 is connected to the pipe formed with the transfer port 353 so that the valve 396 is provided, and the transfer section 312 is provided with a supply pipe 352 perforated with the supply port 385 It is an invention characterized by the above-mentioned.

In addition, assembling the filter bag 2 (309) connected to the flange 361 of the pipe formed with the transfer port (353) on one side of the dewatering device 360,

Assembling the support wire mesh 2 (320) inclined to the outside of the bag 2 (309) to the flange 361,

The suction wire 370 is formed in the dehydration container 369 while fixing the dehydration container 369 to the flange 361 while forming a transport section 312 ′ on the outside of the support wire mesh 2 320. The invention is characterized by.

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The water purifying apparatus of the present invention provides eco-friendly conditions of aquaculture by warming and water purification in aquaculture farms, and also prevents wind damage to strong winds in a photovoltaic device, while automatically and automatically removing the floating matters from the sea surface. It is a useful invention that reduces damage such as seaweed.

Therefore, the water quality of the reservoir or coastal area is maintained in a harmless state to provide an environment useful for preventing and living damage to the sea level.

Hereinafter, with reference to the accompanying drawings will be described embodiments of the present invention; The following embodiments are provided as examples to ensure that the spirit of the present invention can be fully conveyed to those skilled in the art.
Therefore, the present invention is not limited to the embodiments described below and may be embodied in other forms. In the accompanying drawings, the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.
1 is a schematic conceptual view of a state in which the filtration apparatus according to the present invention is installed on the sea surface, Figure 2 is a partial perspective view of the main portion in Figure 1, Figure 3 is a partially enlarged perspective view of the main portion provided in the prior art in Figure 1 .
4 is an enlarged perspective view of an embodiment of the main portion in the present invention, Figure 5 is an enlarged perspective view of an embodiment of the main portion in Figure 4, Figure 6 is an exploded perspective view of the main portion in FIG.
7 is an enlarged perspective view of the main part of the present invention, FIG. 8 is a longitudinal sectional view of the main part in FIG. 7, FIG. 9 is a longitudinal sectional view of an operating state in FIG. 8, and FIG. 10 is an enlarged view of the main part of FIG. 8. FIG. 11 is a longitudinal sectional view of the main part in FIG. 7, and FIG. 12 is an exploded perspective view of the main part in FIG. 8.
Therefore, in order to remove harmful substances such as red tide or seaweed causing damage to aquaculture while floating on the sea surface 100, as shown in FIGS. 1 to 2, the sea surface 100 is installed in a predetermined area. At the edge of the farm 110 to form a furnace, the solar power generating work line 105 for power, and a separate filtration device 300 to the transfer port 353 while providing induction in the blowing direction of the typhoon By providing a dehydration device 360 for the dewatering of the filtrate collected by the connection to the work vessel 105, by providing a filtration device 300 and the appropriate capacity according to the size and size of the farm 110 It is preferable to provide a work line 105.
Here, in order to adjust the temperature according to the size of the farm 110 and the separation of the contaminated sea level, the edge of the net for farm 110 is fixed to the bookkeeping 113 so that the floating on the water while moving to the worker (115) constituted; By having a protection tent 120 draped in the water direction toward the outer surface of the bookkeeping 113 in the lower, separated from the surrounding sea water, sometimes one side of the protective tent 120 for the exchange of water used in the farm It is preferable to form and provide a doorway 125 is assembled with a zipper or the like.
In addition, in the sea level 100, which is the main part of the present invention, to remove harmful floating matters generated in the heat of summer, the solar power generating device 200 for preventing the damage to the typhoon while driving to the filtration device 300 By providing power by), it is to provide a drive to the water purification device for filtration to the main part of the present invention.
In addition, in case of typhoons, tying the work vessel 105 to the dock of the fishing port to prevent the wind seas in most cases, where the strong winds blowing induces a direction movement to the air, preventing wind damage to the surrounding ships As the invention for the following, as shown in the accompanying Figures 3 to 6, the bearing 225 on the upper side of the support column 213 is fixed on the line of the work line 105 anchored to the edge of the form farm 110 And assembled with a protective cap 220; Auxiliary gear 226 which is assembled with a spur gear 224 in the circumferential section of the lower side thereof, and drives the rotation so that the power generator 200 described later by rotating the spur gear 224 follows the movement of the sun. ) And the motor 227 interlocked thereto are integrally fixed to the support pillar 213, and are provided in the protruding section of the frame 223 protruding in the left and right direction from the protective cap 220. By fixing and forming the upper and lower power plates 211 and 212, which are provided in a predetermined size and width so as to be fixed in the direction, it is configured to face the rotation according to the direction in which the sunlight moves from morning to afternoon give.
Here, it is preferable to provide a photovoltaic device 200 in which a rotational drive according to movement of the sun is automatically provided by installing a regulator related thereto, such as a sun position tracking device and a wind vane, not shown.
Here, when a strong wind blows due to the typhoon, most of the typhoon comes down as rainwater while moving air, so that the description of one embodiment of the aroma guide device for this purpose, in order to provide an effective induction in the fishing port to avoid this, When a strong wind blows by forming a guide bar 230 protruding obliquely in an outward direction from both upper and lower edges of the upper and lower power generating plates 211 and 212 provided on the upper plate of the work line 105 as a protrusion. In addition, the invention provides a direction movement in the air by an oblique inclination of the upper and lower power generation plates 211 and 212 formed concave.
In addition, the convex and groove portions alternately in the upper and lower sections on the surface between the both side guides 230 of the upper and lower power generating plates 211 and 212 on which the direction guide device described above is formed. It is an invention in which the induction passage 240 formed continuously and repeatedly formed in the grooves to be formed is integrally formed so that the blowing strong winds can be easily moved in the air in a flexible manner (FIG. 5).
And the description of one embodiment of the filtration device 300 that is the main part of the present invention, as shown in the accompanying Figures 1 and 7 to 10, the plurality of continuous farms that are used to be connected in series The left chamber 308 and the right chamber 310 are formed to protrude to maintain a predetermined section in both directions while integrally fixing the rectangular rib 305 formed to a predetermined size so as to have a capacity appropriate for the size. It maintains the transfer section 312 in the inner section to form a.
In addition, while forming the support wire mesh 320, which is inclined while protruding into the inner space of the left and right chambers 308 and 310, which are integrally fixed, such as the rib 305 described above, are formed in both directions. An idle space between the inner section of the right side chambers 308 and 310 and the support wire mesh 320 is formed to be provided as a transfer section 312.
In addition, in the inner space of the support wire mesh 320 is fixed to the rib 305 to form a bag 309 of the flexible soft material to be moved by the moving sea water.
In other words, the filter bag 309 is to provide a support for reinforcing durability for the soft filter bag 309 when the water flows by the suction power of the suction pump 380 to filter the suspended matter.
Here, in the space of the transfer section 312 to form a supply pipe 352 in which the supply port 385 is provided with a spiral winding circuit intermittently, the power generation in the photovoltaic device 200 of the working vessel 105 And cold or hot water cooled by a freezer or heater 136 with electric power stored in a capacitor 130 to the inner spaces of the left and right chambers 308 and 310, thereby providing a cold or cold weather. The water is supplied at the temperature of the water, which is adjusted to the appropriate water temperature for the aquaculture farm.
In addition, the outer wall of the left chamber 308 by assembling the suction pump 380 which is controlled to drive by a timer or the like provided in the control device shown in the suction pipe, by a timer or the like provided in the control device not shown As the suction is driven by the operation of the suction pump 380 controlled, the filter bag 309 described above is moved toward the left chamber 308 at the pressure of the water moving while being sucked, and at the same time, the filter bag 309 The invention is provided to filter the suspended matter, wherein the purified water is controlled by the supply temperature of the cooling water supplied to the supply pipe 352, the temperature controlled by the cooling is preferably configured to be supplied to the farm (110) (Fig. 8)
In addition, a rectangular inlet 333 is coupled to the outer wall of the right side chamber 310 in accordance with the outer edge of the right side chamber 310, but is configured to protrude in an inverse trumpet shape, so that the suction pump 380 described above By the suction force, the surrounding water for water purification is provided to be introduced from the rectangular suction port 333.
In addition, by cleaning the suspended matter accumulated by the filtering bag 309 by the filtering operation in the left chamber 310, it will be described an embodiment to provide for continuous long-term use,
Opening and closing doors are formed to be wound around the loaf in the door lock 350 coupled to the ribs 305 to secure the opening and closing doors from the sections of the ribs 305 to the inlet 333 section by assembly. By inserting both edge ends of the 340, the moving groove 343 is connected to the rib 305 from both sides of the right side chamber 310 to the opening and closing door 333 is provided, it is not shown Preferably, the door lock 340 is driven by a control device so that the opening / closing door 340 is provided with a process of opening and closing the movable groove 343 by bonding.
In addition, the description for the process of automatically transferring the suspended matter filtered from the right chamber 310 to the dehydration device 360 provided on the working line 105, one side side of the right chamber 310 In the transfer hole (353) formed while fixing the flange 361 is formed a valve (396), it is connected to the transfer path connected to this, the dehydration device 360 is installed on the signboard of the working ship 105 .
(FIGS. 7, 10-12)
In addition, the bottom side of the filtration device 300 is fixed to the bookkeeping 330, by the buoyancy of the upper side of the suction port 333 exposed to the water surface, to provide a floating suspended matter easily.
And the description of the dewatering device 360, as shown in the accompanying Figures 7 and 11 to 12, when explaining the structure of the dewatering for the suspended solids filtered by the filtering device 300, Work stopped on the surface of the water while being formed to be integrally assembled to the flange 361 formed at the end of the transfer hole 353 fixedly penetrated by a flange, etc. not shown on one side of the right chamber 310 Is connected to the pipe provided with a feed hole (353) to be transported in a line, the invention is to provide an easy to process the debris float simply dehydrated in the dewatering device 360 of the working vessel 105.
That is, the cloth bag 2 309 is provided to the flange 361 formed at the end of the pipe provided with the transfer hole 353 so that the size can be bundled to be easily assembled to the outside of the flange 361 or assembled. In order to assemble the inclined support wire mesh 2 (320) and to the outside thereof while fixing the dehydration tank (369) in contact with the flange 361.
As described above, it is preferable to provide a fixing string for weaving and tightening the circumferential direction of the injection port of the filter bag 2 309 to be assembled by using the assembly hole of the flange 361.
In addition, one side of the dehydration container (369) is an invention provided by connecting a suction pump (370).
(Example 1)
In addition, a detailed description of the filtration device 300, which is the main part of the present invention, as shown in Figure 7 to 10, by the control device not shown, the discharge pump (one side of the left chamber 308) ( By stopping the driving of the 380, the supply pipe supplied to the farm 110 is blocked by the structure of the discharge pump 380, and the driving of the opening / closing door 340 by the driving of the door lock 350 described above. By closing the inlet 333 of the right side chamber 310 to prepare the inner space of the left and right chambers 308, 310 in a blocked state, the next step of the process,
When the water is sucked by using the suction force by the driving of the suction pump 370 provided in the work line 105, it is connected to the one side wall of the right chamber 310 by a pipe connected to the transfer port 353 is formed. As the suction force is formed from the inner space of the left and right chambers 308 and 310 to be water,
In the usual filtration process, that is, in the process of hanging in the inner space of the filtration device 300, while the water is supplied to the aquaculture farm 110, the sack bag 309 is filled by hanging the floating floating by the left chamber 308 Is directed toward the right chamber 310, and the accumulated suspended matter is transferred to a pipe provided with a transfer port 353 connected to the dewatering device 360, and then the filter provided in the dewatering device 360 The float contained in the sacks 2 (309) is supported by the assembled support wire mesh 2 (320) while the dehydration flows into the transfer section (312 '), the dehydration proceeds and is filtered to filter. Here, by supplying the water flowing in the section of the transfer port (353) for transferring from the filter bag 309 of the filtration device 300 to the filter bag 2 (309) of the dehydration device 360, the float is easy In order to provide the movement, by opening a part of the opening and closing state of the discharge pump 380 provided in the filtration device 300, it is preferable to provide the movement by mixing with each other by the appropriate amount of the movement force of the water supplied. This is to provide an effect provided to facilitate the performing of the filtering process in the dewatering device (360).
Since the dewatering operation is performed on the working line 105 as described above, the separation and assembly of the bag 2 (309) according to the circumferential direction of the inlet of the bag 2 (309) to be made manually It is preferable to provide by using a fixing strap for weaving.
The process for the water purification device for the suspended matter is to be made of a process by the measuring device and the central control system for each process, such as wind vane, pressure gauge.
Therefore, when describing the performing process for the main part of the present invention,
The outer surface of the bookkeeping 113 used as a moving path 115 in the fish market 110 so that the purified water in the present invention by the separation of the surrounding sea water in the farm 110 installed on the sea surface 100 for a long time use Under the protection tent 120 coming down from each other to connect with each other to block the surrounding sea water, on one side thereof is formed by the assembly of the zipper, such as the cleaning entrance (125).
Here, the purified water is supplied to the aquaculture farm 110 by a transfer pipe connected to the discharge pump 380.
In addition, on both side edges of the upper and lower power generation plates 211 and 212 fixed to the frame 233 in the protective cap 220 assembled on the upper side of the support pillar 213 built on the deck of the working vessel 105. Formation of the guide bar 230 protrudes obliquely upwards to the outside, it provides to reduce wind damage by moving in the direction of the air against the strong wind.
In addition, the photovoltaic power generators of the upper and lower power generation plates 211 and 212 are formed to provide an induction passage 240 that is transparent and is formed on the upper and lower sides of the surface to provide power generation, and thus is durable against strong winds and directed in the air direction. Reduction of wind damage by movement enhances the stability of the wind against the surroundings.
And the water purification process for the filtration device 300 and the dewatering device 360 which is the main part of the present invention, by operating the door lock 350 to open the suction port 333 to operate the opening and closing door 340, and also to the right When the pipe formed with the transfer port 353 formed on one side of the seal 310 is blocked by the valve 396, and is operated while opening the discharge pump 380, the lower side of the filtration device 300 As the upper portion of the suction port 333 rises above the water surface by the buoyancy of the bookkeeping 330 fixed to the water, the floating water floating on the sea surface is sucked by the suction force of the discharge pump 380, where the seawater and the floating water sucked The left seal 308 centered on the rib 305 which fixes the injection port portion of the bag 309 by a usual fixing bolt or the like according to the flow resistance of the suspended matter filtered by the bag 309. Push to the left, While the support of geolreum turret 309 by a support wire mesh 320 of 308 water is passed through a space of the transfer section 312 it is suspended and put onto a geolreum turret 309.
In addition, the feed section 312 of the left and right chambers 308 and 310 is provided with a supply pipe 352 in which a plurality of supply holes 385 are formed to be fixed by a spiral winding, and thus, the photovoltaic device. Cooled or heated water by the refrigerator 140 or the heater operated by the power generated at 200 is provided to supply the filtered water by injection. (FIGS. 8 to 9).
In addition, when the appropriate amount of suspended matter accumulated in the filtering bag 309 by the filtering process, by operating the door lock 350 by the operation of the not shown for this to block the inlet 333 by the operation of the opening and closing door 340 In addition, while opening the valve 396 of the transfer port 353 connected to the dehydration device 360 and at the same time the operation of the suction pump 370 formed on one side of the dehydration container 369, the left chamber ( 308 to block the discharge pump 380 is connected to the pipe is formed in the transfer port 353, while partially discharging the water by suction, hanging on the support wire mesh 320 while the suspended matter As the bag 309 is pushed toward the right chamber 310, the accumulated matter is trapped by the water moving by the suction pump 370 that is strongly sucked while being connected to the dehydrator 360. Filtration process moving to 2 (309) Carrying out, and also while hanging on a wire mesh support 2 320 for supporting it and performs the dehydration step.
That is, when the structure for dehydration of the suspended solids filtered by the filtration device 300 is described, it is easy to form integrally assembled to the flange 361 formed at the end of the pipe formed with the transfer port 353. To provide dehydration and withdrawal,
The flange 361 formed at the end of the transfer hole 353 is provided with an extra size so as to cover the injection port portion of the bag 2 (309) with the flange 361, and to be assembled to an extra size, the support wire mesh 2 (beveled outward) 320 is assembled and fixed to the outside of the dehydrating container 369 while being in contact with the flange 361.
Here, the water passing through the trapping bag 2 (309) is discharged to the outside by the suction pump 370 while passing through the transfer section (312 '), the suspended solids dehydrated in the trap bag 2 (309) It is preferably provided to separate by hand in a vacuum state (Figs. 11 to 12).
In this case, the separation of the trapping bag 2 (320) is formed by assembling overlapping each other in the flanges 361 formed to protrude outward while forming the assembly jaw at the end of the conveying hole (353), thus assembled as a flange 361 The invention is provided to remove easily dehydrated floating material by forming a support wire mesh 2 (320) which is inclined to facilitate the withdrawal.
In the case of a cold in winter, it is often necessary to increase the temperature of the water temperature. At this time, the solar power generator 200 generates power to provide thermal insulation power stored in the capacitor 130.
It is also an invention that provides the production of warmth and hot water in the cold winter of winter because it can also be used as a solar heat collector.
In addition, when the amount of the photovoltaic power generation for the water purification device of the present invention is insufficient depending on the weather, it is to be used as a separate generator to supplement the insufficient power.
In addition, if the dehydration process by the dewatering device 360 is completely made of the suspended solids filtered by the filter bag 309 for a certain time, it is formed in the transfer port 353 in accordance with the above-described process of the present invention The suction pump 370 is not shown in one side of the left chamber 308 while blocking the valve 396 to be opened and opening and closing the door 340 by the driving of the door lock 350 to open the suction port 333. By the driving of the control device, it is an invention that the water purification process of the present invention is made by the suction port 333 to be configured to be sucked together with the suspended matter floating on the sea surface.
In addition, assembling the protective cap 390 is a protective wire mesh is formed in the suction pipe 333 is an invention that is provided to prevent the mixing of the floating material or a large type of fish of a predetermined size.
Here, the mesh size of the filter bag 309 is adjusted according to the size of the floating material to be purified, and the flexibility of the present invention is enhanced when the fiber having high durability and high durability is used.
In addition, the size of the water purifier to form a rectangular suction inlet (approximately: 1.5 ~ 3m) to match the size of the cage cages, and also to arrange a plurality of water purifiers to be arranged evenly so that the purified water is evenly supplied. It is desirable to provide.
Therefore, the working vessel is an invention to provide the purified water to the sea contaminated with red tide, etc. near the cage farm.

1 is a schematic conceptual view of a state in which a filtration device according to the present invention is installed on the sea surface

2 is a partial perspective view of the main part in FIG.

Figure 3 is a partially enlarged perspective view of the main portion provided conventionally in Figure 1

Figure 4 is an enlarged perspective view of an embodiment of the main portion in the present invention

5 is an enlarged perspective view of an embodiment in main parts in FIG.

6 is an exploded perspective view of the main part in FIG.

7 is an enlarged perspective view of the main part of the present invention;

8 is a longitudinal cross-sectional view of the main part in FIG.

9 is a longitudinal sectional view of the operating state in FIG.

10 is an enlarged partial perspective view of the main portion of FIG. 8;

11 is a longitudinal cross-sectional view of the main portion in FIG.

12 is an exploded perspective view of the main part of FIG. 8;

100: sea level 113: bookkeeping 115: moving path 120: protective tent

125: exit 140: pump 200: photovoltaic device 211: upper power generation plate

212: lower power generation plate 213: support pillar 230: guide bar 233: frame

240: guide passage 234: spur gear 300: filtration device 305: rib

308: left chamber 310: right chamber 320: support wire mesh 330: bookkeeping

333: inlet 340: opening and closing door 343: moving groove 350: door lock

353: transfer port 385: supply port 360: dehydration device 369: dehydration container

370: suction pump 380: discharge pump

Claims

Protrudes the separator downward from the bookkeeping 113,

The separator forms a protective tent 120 provided with an entrance 125,

The water purification device is a floatation water purification device equipped with a photovoltaic device at the sea level of the reservoir or coastal region, characterized in that the dewatering device 360 is connected to the pipe formed with a filtration device 300 and the transfer port (353).

The method of claim 1,

Induction passages 240 are formed on surfaces of the upper and lower power generation plates 211 and 212,

A boogie 330 is provided below the filtration device 300,

The filtering device 300 is formed by forming left and right chambers 308 and 310 at both sides, and fixing them with ribs 305, and discharging pumps 380 on one side wall of the left chamber 308. And a suction port 333 is formed on one side wall surface of the right side chamber 310, and the suction hole 333 is provided on the upper rib 305 while forming a moving groove 343 so that the opening and closing door 340 is interlocked. To open and close the inlet 333 by the door lock 350,

In the left and right chambers 308 and 310 formed of the ribs 305, support wire meshes 320 are provided at both sides of the ribs 305 so as to form a transfer section 312. Fixing bag 309 to the inner section of the 320 with a rib 305,

In the left and right chamber 308, 310, the section between the support wire mesh 320 is provided as a transfer section 312,

The transfer section 312 is connected to the pipe formed with the transfer port 353 so that the valve 396 is provided,

The transfer section (312) is a floating water purification device equipped with a photovoltaic device in the sea level of the reservoir or coastal region, characterized in that the supply pipe (385) is provided with a perforated supply pipe (352).

The method of claim 1,

Assembling the filter bag 2 (309) connected to the flange 361 of the pipe in which the transfer port 353 is formed on one side of the dewatering device 360,

The suction wire 370 is formed in the dehydration container 369 while fixing the dehydration container 369 to the flange 361 while forming a transport section 312 ′ on the outside of the support wire mesh 2 320. Floating water purification device equipped with a photovoltaic device in the sea surface of the reservoir or coastal region characterized in that.