KR101436813B1 - Ships for eliminating algae - Google Patents

Abstract

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to provide a vessel for removing algae, which is small in size, light in weight, small in volume, and improved in processing efficiency,
In order to achieve the above-mentioned object, the present invention provides a bird-removing vessel for removing algae from contaminated raw water such as a lake, comprising: a main body; a main body provided at a lower portion of the main body; A bubble refinement device connected to the pressurizing pump, and a control device connected to the bubble refinement device and provided in front of the front end of the bubble control device and containing fine bubbles flowing out from the bubble refinement device, Wherein the bubble refiner comprises a tube-shaped flow tube provided with an air inlet for introducing outside air into the side portion, and a fine filter provided inside the flow tube and having micropores formed therein .
The present invention has the effect of improving mobility as compared with a conventional algae removing vessel in which a huge air tank and a large-capacity compression pump for compressing the air tank are installed, because it provides fine bubbles required for the pressurized floating treatment by utilizing the bubble refining apparatus.

Description

SHIPS FOR ELIMINATING ALGAE

More particularly, the present invention relates to a ship capable of economically and efficiently removing algae from a large area such as an artificial dam, a lake, a harbor, a maritime port, and a harbor through a simple device.

Due to the deterioration of water quality caused by nutrients such as nitrogen and phosphorus contained in fertilizer, livestock wastewater, domestic wastewater, and factory wastewater, green algae occur in rivers and lakes and red tides occur in the oceans, destroying ecosystems. Water eutrophied by the nutrients contained in wastewater causes the flourishing of birds.

If the algae thrive on the surface of water, it inhibits the penetration of rays to prevent smooth photosynthesis of aquatic organisms, and lowers the rate of dissolved oxygen in the water, thus losing its ability to function in the water. Green algae and red tide caused by eutrophication can shut off the oxygen supply in the water and kill the inhabitants that live in the water.

In addition, when a red tide phenomenon occurs in a water source, this hobby problem due to algae occurs, and a highly purified water treatment must be performed, and excessive chlorine disinfection can form a toxic tricyclic trihalomethane (THM). In Korea, there are several hundred billion won damage every year due to the occurrence of green tide and red tide, which is an annual event in spring and autumn. Therefore, there is a need for an effective treatment method of algae.

In order to remove algae such as green tide and red tide occurring in lakes, dams, rivers and seas, a method of removing algae using a ship equipped with a floating separation device using air is used.

11, in a ship disclosed in Korean Patent Laid-Open Publication No. 2002-0005181, a compressor 31 for supplying compressed air to a pressurizing tank, a compressor 31 for supplying compressed air to the pressurized water, And a pressurizing tank 32 for storing pressurized water containing dissolved air is disposed in the line 11.

The compressor 31 in the prior art has to use a large capacity pump having a high compression capacity in order to increase the solubility of air.

In addition, the pressurized tank 32 in which compressed air and water are stored is also required to have a large capacity so that the air can be dissolved well in the water.

Therefore, due to the size and weight of the compressor 31 and the pressurizing tank 32, the volume and weight of the vessel for removing algae also increase, resulting in poor mobility and operation efficiency.

This problem is particularly serious when the capacity of a large capacity is required, the size and weight of the compressor and the pressure tank are further increased, and the mobility of the ship and the operation efficiency are drastically reduced.

Particularly, when the algae removing treatment is performed in a large area, the mobility of the ship and the deterioration of the working efficiency become more serious.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a sludge treatment device and a sludge treatment method, It is a technical object to provide a vessel for removing algae suitable for large-capacity processing.

In order to solve the above-described problems, the present invention provides a bird-removing vessel for removing algae from contaminated raw water such as a lake, comprising: a main body; a main body provided at a lower portion of the main body; A bubble refinement device for finely fusing and pressurizing the raw water discharged by the pressurizing pump to suck and pressurize the contaminated raw water; and a bubble refining device for spraying the raw water in which the fine bubbles have been dissolved by the bubble refining device And a collecting means for collecting the sludge floated by the injecting means, wherein the injecting means and the collecting means are arranged on an extension of the flow of the raw water.

An algae removing vessel according to the present invention is a algae removing vessel for removing algae from raw water contaminated by a lake or the like, comprising: a main body; a main body provided at a lower portion of the main body; A bubble refinement device for refining and dissolving the air pressurized by the raw water discharged by the pressurizing pump and for spraying raw water in which microbubbles have been dissolved by the bubble refinement device; Wherein the spraying means and the collecting means are disposed on an extension of the flow of the raw water, and the spraying means and the collecting means are disposed on the front side of the main body or the main body A partitioning device is provided, and the partitioning device is provided with a pair of detachably installed on one side and the other side in the transverse direction of the main body or the main body A partitioning guide bar formed of a longitudinal guide bar and a fence portion provided to be hung on the longitudinal guide bar and surrounding the front of the main body, And is disposed inside.

The algae removing vessels of the present invention are arranged in parallel, and a partitioning device is provided in front of the main body or the main body of the algae removing device disposed in parallel, and the partitioning device comprises: A partitioning guide bar formed of a pair of longitudinal guide bars detachably attached to a main body or a main body of the ship disposed on both sides of the longitudinal direction of the ship, And the injection means is disposed inside a region surrounded and surrounded by the fence portion.

An algae removing vessel according to the present invention is a algae removing vessel for removing algae from raw water contaminated by a lake or the like, comprising: a main body; a main body provided at a lower portion of the main body; A bubble refinement device for refining and dissolving the air pressurized by the raw water discharged by the pressurizing pump and for spraying raw water in which microbubbles have been dissolved by the bubble refinement device; Wherein the spraying means and the collecting means are disposed on an extension of the flow of the raw water, and at one side of the compartment, A partitioning device is installed, and the partitioning device includes a pair of transversely installed transversely opposite side surfaces of the main body or the main body, And a fence portion formed to surround the front of the support body. The injection means is disposed inside the region surrounded by the fence portion, As shown in Fig.

An algae removing vessel according to the present invention is a algae removing vessel for removing algae from raw water contaminated by a lake or the like, comprising: a main body; a main body provided at a lower portion of the main body; A bubble refinement device for refining and dissolving the air pressurized by the raw water discharged by the pressurizing pump and for spraying raw water in which microbubbles have been dissolved by the bubble refinement device; Wherein the spraying means and the collecting means are disposed on an extension line of the flow of the raw water and the sidewalls of the sludge are arranged on both sides of the sludge, And the compartment dividing device is provided with two pairs of detachably installed front and rear sides of both sides of the main body or the main body, And a fence portion formed to surround the front of the support body, the injection means being disposed in a region surrounded by the fence portion, the partitioning guide bar being formed of a lateral guide bar, And is disposed inside.

In the algae removing vessel of the present invention, the partitioning guide bar further includes a lateral guide bar provided at an end portion of the pair of longitudinal guide bars, and further includes a door portion rotatably coupled to the lateral guide bar And the like.

The vessel for removing algae according to the present invention may further comprise a door portion rotatably coupled to the lateral guide bar provided at the front of the body or the body.

In the vessel for removing algae of the present invention, the bubble refining apparatus includes a tubular flow pipe provided with an air inlet for introducing outside air into a side portion thereof, and a fine filter provided inside the flow pipe and having fine pores formed therein .

In the algae removing vessel of the present invention, a suction pipe extending downward is connected to the pressurizing pump, and the suction pipe is formed to be submerged in raw water.

The tank for removing algae of the present invention may further comprise a storage tank for storing the sludge collected by the collection means and a dehydrator for removing moisture from the sludge stored in the storage tank.

In the algae removing vessel of the present invention, the collecting means is constituted by a skimmer or a conveyor belt.

In the ship for removing algae of the present invention, the conveyor belt is characterized in that raw water is permeated and only sludge is filtered.

In the algae-removing vessel of the present invention, the main body is provided on both sides of the lower portion of the main body so as to be spaced apart from each other, and the tip of the main body protrudes forward from the main body, And the collecting means is disposed in the space portion.

In the bird-removing vessel of the present invention, the partitioning guide bar is provided with a cover so as to cover the upper portion of the partitioning area.

In the bird-removing vessel of the present invention, the main body is further provided with an engine, and the rotational power of the rotational driving shaft of the engine is connected to the rotational driving shaft of the pressurizing pump.

Since the present invention provides microbubbles necessary for the pressurized flotation treatment utilizing the bubble refinement apparatus, the present invention has the effect of reducing the size and weight of the conventional algae removing vessel requiring a large capacity air tank and improving the mobility .

Further, when the engine is used as the driving source of the pressurizing pump, the weight of the algae removing vessel is further reduced as compared with the case where the generator is used.

In addition, since the dewatering process for the sludge in the vessel is performed by a series of operations, the efficiency of the algae removing operation is improved.

In addition, the sludge floating in the raw water by the suction pipe and the body from the lower part of the ship is guided to the conveyor belt, which is the collection means, and the sludge collection efficiency is improved.

Further, even when the ship is stopped due to the space formed by the body, the algae removing operation is facilitated and the resistance due to the movement is reduced even when the ship moves.

Meanwhile, since the algae removing vessel according to the present invention is divided into one algae removing working vessel, it can be arranged in parallel and is advantageous in that it can be effectively utilized even in the case where large-volume algae removing work is required.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1A is a plan view of a first embodiment of a ship for removing algae according to the present invention, in which the drive source of the pressurizing pump is a generator. FIG.
1B is a plan view of a first embodiment of a ship for removing algae according to the present invention, in which the drive source of the pressurizing pump is an engine.
Fig. 2A is a view showing A - A in Fig. 1, and shows a case where the driving source of the pressurizing pump is a generator.
FIG. 2B is a view showing A - A in FIG. 1, showing a case where the drive source of the pressurizing pump is an engine.
3 is a front view of a first embodiment of an algae removing vessel according to the present invention.
Fig. 4 is a view showing B - B in Fig. 1. Fig.
5 is a view showing a bubble refinement apparatus in a first embodiment of a ship for removing algae according to the present invention.
6 is a plan view of a second embodiment of a ship for removing algae according to the present invention.
7 is a front view of a second embodiment of a ship for removing algae according to the present invention.
8 is a plan view of a third embodiment of a ship for removing algae according to the present invention.
9 is a front view of a third embodiment of a ship for removing algae according to the present invention.
10 is a side view of a third embodiment of a ship for removing algae according to the present invention.
Fig. 11 is a view of a conventional algae-removing vessel.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

[First Embodiment]

BRIEF DESCRIPTION OF DRAWINGS FIG. 1A is a plan view of a first embodiment of a ship for removing algae according to the present invention, in which the drive source of the pressurizing pump is a generator. FIG. 1B is a plan view of a first embodiment of a ship for removing algae according to the present invention, in which the drive source of the pressurizing pump is an engine. Fig. 2A is a view showing A - A in Fig. 1, and shows a case where the driving source of the pressurizing pump is a generator. FIG. 2B is a view showing A - A in FIG. 1, showing a case where the drive source of the pressurizing pump is an engine.

In the present invention, the algae removing vessel 10 is composed of a main body 100 and a body 200 formed at a lower portion of the main body 100.

The main body 100 is configured so that the apparatus can be installed like a barge main body.

A pair of supports 100 are installed at a lower portion of the main body 100 so that the opening 210 is present between the supports 200 as shown in FIG. 4 when the ship 10 is viewed from the front.

At the rear end of the main body 100, an outboard motor 101 that supplies power to the algae removing vessel 10 may be installed as needed.

The body 200 is formed to protrude forward in the longitudinal direction of the main body 100 and a space 220 is formed between the main body 100 and the body 200 and the opening 210 is extended.

A partitioning device 230 is formed at the distal end of the support 200. The partitioning device 230 includes a partitioning guide bar 231 formed in a bar shape so as to protrude forward from the front end of the supporting body 200, And a fence portion 232 and a cover 233 which are formed to hang from the partitioning guide bar 231.

The partitioning guide bar 231 is detachably attached to the support body 200.

In the first embodiment, the partitioning guide bar 231 comprises a pair of longitudinal guide bars 231a provided in parallel to the longitudinal direction on the left and right sides of the ship 10, but is not limited thereto. For example, And may be installed so as not to be parallel to the ship 10.

Further, the partitioning guide bar 231 is formed of two metal pipes, but there is no limitation on the material.

In the present invention, the fence portion 232 is provided so as to enclose the front end portion of the vessel 10 with a closed curve, so that the compartment region formed on the inside is separated from the outer region of the vessel 10 for algae removal.

In this embodiment, the fence portion 232 is formed as a floating body to float in the raw water, but the present invention is not limited thereto, and other configurations are possible as long as the structure is such that the sludge does not flow out to the outside of the separation region, such as an oil fence.

Further, the cover 233 is provided so as to cover the upper part of the partitioning area and is fixed to the partitioning guide bar 231. There is no limitation on the type of the cover 233, and any structure can be used as long as the structure of the cover 233 can block the influence of wind or rain. For example, a material such as vinyl can be used.

The cover 233 functions to prevent the sludge collected in the compartment area, etc., from collapsing due to external impact such as rain or wind, to sink into the raw water again.

The main body 100 is provided with a pressurizing pump 310 and a suction pipe 311 penetrating the lower portion of the main body 100 is provided below the pressurizing pump 310.

In the present invention, the suction pipe 311 is disposed between the body 200 on the rear side of the main body 100 and has a length downward to be submerged in raw water. Further, the suction pipe 311 is preferably disposed on the flow line of the raw water of the injection means and the collection means.

In the present embodiment, only one suction pipe 311 is connected to one pressurizing pump 310. However, the present invention is not limited thereto, and if necessary, one suction pump 310 may be connected to a plurality of suction pipes 210 Or a plurality of sets of the pressurizing pump 310 and the suction pipe 210 may be formed.

In this embodiment, as shown in FIG. 1A, a generator 301 is installed as a driving source of the pressurizing pump 310.

In another embodiment of the present invention, the engine 302 may be used as the driving source of the pressurizing pump 310 as shown in FIG. 1B.

When the engine 302 is used as the driving source, the driving portion 302b is formed at the end of the driving rotation shaft 302a of the engine 302. [

A driven portion 310b is formed at an end of the rotary drive shaft 310a of the pressurizing pump 310 and a power transmission means 303 is provided between the drive portion 302b and the driven portion 310b to thereby drive the engine 302 Is transmitted to the pressure pump 310.

In this embodiment, the drive rotation shaft 302a of the engine 302 can basically use the crankshaft of the engine 302, but the present invention is not limited thereto, and other drive shafts receiving power from the crankshaft may be used, Do.

In this embodiment, the driving unit 302b and the driven unit 310b are formed by pulleys and the belt is used as the power transmission unit 303. However, the present invention is not limited thereto.

For example, it is also possible that the driving portion 302b and the driven portion 310b are formed as sprockets and the chain is used as the power transmitting means 303. [

Alternatively, the driving unit 302b and the driven unit 310b may be formed as gears, so that they can be rotated while being in direct contact with each other to transmit power. In this case, the power transmission unit 303 is not included.

In the present specification, only the case of using the engine 302 as the power source of the pressurizing pump 310 is described for the first embodiment, but the present invention is not limited to this, and the same is true for the second and third embodiments .

The pressurizing pump 310 is connected to the bubble refining device 320 by a supply pipe 312. The supply pipe 312 is connected to the chemical tank 330 in which the coagulant necessary for the treatment of wastewater is stored.

5 is a view showing a bubble refinement apparatus in a first embodiment of a ship for removing algae according to the present invention.

The bubble refinement apparatus 320 includes a tubular flow tube 321 having one end connected to the supply tube 312, a fine filter 322 installed inside the tubular flow tube 321, And an air inlet 323 for receiving the air.

The fine filter 322 is also formed in a tubular shape so as to correspond to the shape of the flow tube, and a plurality of fine pores 322a are formed on the surface of the fine filter 322.

The air inlet 323 is connected to a compressor 340 for compressing and supplying external air.

An air dissolving tank 350 is connected to the other end of the flow tube 321 and an air dissolving tank 350 is formed in a storage tank form.

The raw water in which the fine bubbles discharged through the air dissolving tank 350 are dissolved is supplied to the spraying means 360 through the supply pipe 351.

The spraying means 360 is located in front of the moving direction of the ship 10 and is installed downward so as to be submerged in water.

A plurality of nozzles 361 are formed in the spraying means 360 to discharge the dissolved raw water to the outside.

A conveyor belt 400 is installed in the space 220 between the main body 100 and the body 200 so that the lower portion of the conveyor belt 400 is submerged in water. As shown in FIG.

In addition to the conveyor belt 400, a skimmer means having a known configuration may be used as the collection means.

At the rear end of the conveyor belt 400, a storage tank 410 for storing the sludge moved by the conveyor belt 400 is formed.

The storage tank 410 is connected to the vacuum dehydrator 420 by a sludge supply pipe 411 and a pump 412 may be installed in the sludge supply pipe 411 if necessary.

Next, the operation of the thus constructed algae-removing vessel of the present invention will be described.

First, when the pressurizing pump 310 is driven, raw water such as a lake sucked through the suction pipe 311 is sucked.

In the present invention, the generator 301 may be used as the driving source of the pressurizing pump 310 or the engine 302 may be used.

The use of the engine 302 as a drive source is advantageous in terms of energy efficiency while reducing the volume and weight of the apparatus as compared with the case of using the generator 301. [

The generator 301 must convert the rotational energy of the internal combustion engine into electricity, and then supply the electric power to drive the pressurizing pump 310, so that the efficiency is reduced due to the conversion of the energy type.

On the other hand, when the engine 302 is used as the driving source of the pressurizing pump 310, since the rotational power of the engine 301 is directly transmitted to the pressurizing pump 310 as a rotational power, no additional energy conversion is required, It has advantages in terms of aspect.

Therefore, when the generator 310 is used as a driving source, the capacity of the generator 301 must be increased, so that the size and the volume of the generator 301 are increased as compared with the case of using the engine 302.

On the other hand, the raw water discharged from the pressurizing pump 310 is supplied to the bubble atomizing device 320 while passing through the supply pipe 312.

At this time, the flocculant stored in the chemical tank 330 is supplied to the supply pipe 312.

The raw water mixed with the flocculant flows into the fine filter 322 installed in the bubble refiner 300 and the compressed air by the compressor 340 is supplied through the inlet 330.

The air supplied through the injection port 330 flows into the water through the fine pores 322a formed on the surface of the fine filter 322. [

At this time, air introduced through the fine filter 322 is further reduced by shearing action of the pressurized raw water and is easily dissolved in the raw water, so that a large amount of minute bubbles are dissolved in the raw water.

In the present invention, since bubbles can be finely fined only by the bubble refining apparatus 320 as described above, dissolution into pressurized raw water is facilitated.

Therefore, in the present invention, as in the prior art, it is possible to use only a small-capacity compressor without using a large-capacity compressor in order to miniaturize bubbles, thereby reducing the size and volume of the compressor.

Also, as in the prior art, a large-capacity pressure tank for dissolving air in the pressurized water becomes unnecessary.

Accordingly, the present invention has the advantages that the size and volume of the compressor are reduced, the pressure tank becomes unnecessary, and the size and volume of the drive source of the pressurizing pump are reduced (when the engine is used as the drive source) , The device necessary for refining bubbles is simplified, so that the device cost is reduced and the volume and weight of the device are reduced, thereby improving the mobility of the ship.

The raw water that has passed through the bubble refinement apparatus 320 is kept in the air dissolving tank 350 for a predetermined time, so that the minute bubbles are sufficiently dissolved in the raw water.

In the present invention, the air dissolving tank 350 may be similar to the pressure tank of the prior art. However, in the present invention, since the bubbles have already been sufficiently dissolved by the bubble refining apparatus 320, And the air melting tank 350 is different in that it is selectively included as needed.

The raw water having passed through the air dissolving tank 350 is transferred to the spraying means 360 through the supply pipe 315 and the raw water in which the minute bubbles are dissolved is discharged through the spraying nozzle 361 in the spraying means 360.

Since the raw water sprayed by the spraying means 360 contains a flocculant, contaminants of the contaminated raw water such as a lake are aggregated to form a sludge. When microbubbles adhere to the sludge, the microbubbles cause the sludge to reach the surface .

In the present invention, since the inner space is partitioned by the fence portion 232 formed as a closed curve, it is not dispersed to the outside of the sludge.

In addition, since the spraying means 360 is disposed on the extension line of the flow of the raw water and the collection means 400, the sludge naturally moves to the collection means 400.

Since the suction tube 311 is installed behind the main body 100 in the aviator 10 of the present invention, the raw water located in front of the ship 10 is sucked by the main body 100, And is introduced into the space portion 220 by being guided by the main body 200 installed to be protruded.

In addition, even when the ship 10 for removing algae moves, the resistance of the raw water due to the movement of the ship 10 is reduced due to the space 200 formed between the dead bodies 200.

Meanwhile, the conveyor belt 400 is formed in the space 220 where the sludge is guided. In particular, since the conveyor belt 400 is formed in a net shape, the raw water permeates and drops, and only the sludge is collected .

In the present invention, the sludge generated by the fine bubbles sprayed by the spraying means is not discharged to the outside of the partitioning device 230 but is collected on the extension means of the injection means 360 and the raw water, .

The collected sludge is collected by the conveyor belt 400 which is guided to the space 220 formed by the body 200 and disposed in the space 220, So as to efficiently perform the operation.

The suspended sludge introduced through the conveyor belt 400 is stored by the reservoir 410 and then transferred to the vacuum dehydrator 420 along with the sludge supply pipe 411 to be dehydrated.

Accordingly, a series of processes such as sludge removal and dehydration are performed integrally in one algae removing vessel 10.

[Second Embodiment]

6 is a plan view of a second embodiment of a ship for removing algae according to the present invention. 7 is a front view of a second embodiment of a ship for removing algae according to the present invention.

In another embodiment of the present invention, it is also possible to connect the algae removing vessels in parallel to increase the algae removing treatment capacity.

In other words, as shown in FIGS. 6 and 7, it is also possible to form two algae removing vessels so that only the segment identifying device 230 is shared.

In the second embodiment, the algae removing vessels are connected in parallel, and the longitudinal guide bars 231a, which are one of the pair of the partitioning guide bars 231, are connected to the outboard marine vessel .

The longitudinal guide bar 231a on the other side of the partitioning guide bar 231 is fixed to the algae removing vessel disposed at the other outermost side of the parallel line and the fence portion 232 is fixed to the longitudinal guide bar 231, And is arranged so as to surround all of the parallel lines of the ship for removing algae.

The operational effects of the second embodiment of the present invention are basically the same as those of the first embodiment.

However, according to the second embodiment, it is possible to connect a plurality of vessels for removing algae in parallel, thereby providing an advantage that the algae removing capacity can be effectively utilized.

[Third Embodiment]

8 is a plan view of a third embodiment of a ship for removing algae according to the present invention. 9 is a front view of a third embodiment of a ship for removing algae according to the present invention. 10 is a side view of a third embodiment of a ship for removing algae according to the present invention.

The third embodiment differs from the first embodiment in that the basic configuration is the same as that of the first embodiment, except that the partitioning device 230 is formed on both sides or one side of the ship 10.

In the third embodiment of the present invention, the partitioning guide bar 231 includes a pair of lateral guide bars 231b fixed to the front end and the rear end of the body 200 and a horizontal guide bar 231b And a longitudinal guide bar 231b formed to extend in the longitudinal direction.

In the third embodiment of the present invention, the door portion 234 is formed in the transverse guide bar 231a fixed to the front end of the support body 200. [

The door portion 234 includes a hinge portion 234a rotatably hinged to the lateral guide bar 231a and a door 234b formed at the lower portion of the hinge portion 234a.

When the ship 10 is moved, the door portion 234 is opened by the algae and does not generate resistance in the movement of the ship 10. When the ship 10 is stopped So that the sludge inside the partitioning device 230 is prevented from flowing out to the outside.

In the third embodiment of the present invention, since the partitioning device 230 is formed on the side surface of the casing 200, the space 220 is formed in front of the casing 200 as in the case of the first embodiment not.

Unlike the first embodiment in which the conveyor belt 400 and the storage tank 410 are installed in the space 220, in the third embodiment, the conveyor belt 400 and the storage tank 410 Is installed inside the partitioning device (230).

Other configurations and operation effects are the same as in the case of the first embodiment.

In the third embodiment of the present invention, the partitioning device 230 is provided on both sides of the ship 10 in order to increase the aviation elimination processing capacity. However, the present invention is not limited thereto and only one side of the ship 10 It is needless to say that it is also possible to form the partitioning device.

The door portion 234 is also provided for the third embodiment, but the present invention is not limited thereto, and the present invention is also applicable to the first and second embodiments.

This embodiment is an exemplary representation of the technical idea of the present invention and should not be construed as limiting the technical scope of the present invention. Modifications and variations within the technical scope of the present invention fall within the scope of the present invention.

100: main body 200:
310: Pressurizing pump 400: Conveyor belt

Claims (15)

A vessel for removing algae from contaminated raw water such as a lake,
A main body,
A main body provided at a lower portion of the main body,
A pressurizing pump installed in the main body for sucking and pressurizing contaminated raw water such as a lake,
A bubble refinement device for refining and dissolving the pressurized air in the raw water discharged by the pressurizing pump,
Spraying means for spraying the raw water in which the fine bubbles have been dissolved by the bubble refining device,
And a collecting means for collecting the sludge floated by the injecting means,
Wherein said injection means and said collection means are disposed on an extension of the flow of raw water,
Wherein the body is provided at both ends of a lower portion of the main body so as to be spaced apart from each other and a tip portion of the main body protrudes forward of the main body to form a space between the main body and the main body,
And the collection means is disposed in the space portion. A vessel for removing algae from contaminated raw water such as a lake,
A main body,
A main body provided at a lower portion of the main body,
A pressurizing pump installed in the main body for sucking and pressurizing contaminated raw water such as a lake,
A bubble refinement device for refining and dissolving the pressurized air in the raw water discharged by the pressurizing pump,
Spraying means for spraying the raw water in which the fine bubbles have been dissolved by the bubble refining device,
And a collecting means for collecting the sludge floated by the injecting means,
Wherein said injection means and said collection means are disposed on an extension of the flow of raw water,
A partitioning device is provided in front of the main body or the main body,
The segmentation device comprises:
A partitioning guide bar formed of a pair of longitudinal guide bars detachably installed on one side and the other side of the main body or the main body,
And a fence portion which is installed to hang from the longitudinal guide bar and is formed so as to surround the front of the main body,
Wherein the injection means is disposed inside a region surrounded and surrounded by the fence portion,
Wherein the body is provided at both ends of a lower portion of the main body so as to be spaced apart from each other and a tip portion of the main body protrudes forward of the main body to form a space between the main body and the main body,
And the collection means is disposed in the space portion. The algae removing vessel according to claim 1 is arranged in parallel,
A partitioning device is provided in front of the main body or the main body of the bird-removing vessel arranged in parallel,
The segmentation device comprises:
And a pair of longitudinal guide bars detachably attached to the main body or the main body of the ship disposed at both lateral edges of the ships arranged in parallel,
And a fence portion which is installed to hang from the longitudinal guide bar and is formed so as to surround the front of the main body,
Wherein the jetting means is disposed inside an area surrounded and surrounded by the fence portion. A vessel for removing algae from contaminated raw water such as a lake,
A main body,
A main body provided at a lower portion of the main body,
A pressurizing pump installed in the main body for sucking and pressurizing contaminated raw water such as a lake,
A bubble refinement device for refining and dissolving the pressurized air in the raw water discharged by the pressurizing pump,
Spraying means for spraying the raw water in which the fine bubbles have been dissolved by the bubble refining device,
And a collecting means for collecting the sludge floated by the injecting means,
Wherein said injection means and said collection means are disposed on an extension of the flow of raw water,
A partitioning device is installed on one side of the main body,
The segmentation device comprises:
A partitioning guide bar comprising a pair of transverse guide bars detachably mounted on the front and rear sides of one side of the main body or the main body,
And a fence part which is installed to hang from the transverse direction guide bar and is formed so as to surround the front of the main body,
Wherein the injection means is disposed inside a region surrounded and surrounded by the fence portion,
Wherein the body is provided at both ends of a lower portion of the main body so as to be spaced apart from each other and a tip portion of the main body protrudes forward of the main body to form a space between the main body and the main body,
And the collection means is disposed in the space portion. A vessel for removing algae from contaminated raw water such as a lake,
A main body,
A main body provided at a lower portion of the main body,
A pressurizing pump installed in the main body for sucking and pressurizing contaminated raw water such as a lake,
A bubble refinement device for refining and dissolving the pressurized air in the raw water discharged by the pressurizing pump,
Spraying means for spraying the raw water in which the fine bubbles have been dissolved by the bubble refining device,
And a collecting means for collecting the sludge floated by the injecting means,
Wherein said injection means and said collection means are disposed on an extension of the flow of raw water,
A partitioning device is installed on both sides of the main body,
The segmentation device comprises:
A partitioning guide bar comprising two pairs of lateral guide bars detachably mounted on the front and rear sides of both sides of the main body or the main body,
And a fence part which is installed to hang from the transverse direction guide bar and is formed so as to surround the front of the main body,
Wherein the injection means is disposed inside a region surrounded and surrounded by the fence portion,
Wherein the body is provided at both ends of a lower portion of the main body so as to be spaced apart from each other and a tip portion of the main body protrudes forward of the main body to form a space between the main body and the main body,
And the collection means is disposed in the space portion. The method according to claim 2 or 3,
Wherein the partitioning guide bar further comprises a lateral guide bar provided at an end of the pair of longitudinal guide bars,
Further comprising a door portion rotatably coupled to the lateral guide bar. The method according to claim 4 or 5,
Further comprising a door portion rotatably coupled to the transverse direction guide bar provided at the front of the main body or the main body. The method according to any one of claims 1 to 5,
Wherein the bubble refiner comprises a tube-shaped flow tube having an air inlet for introducing outside air to the side thereof, and a fine filter provided inside the flow tube and having micropores formed therein. The method according to any one of claims 1 to 5,
A suction pipe extending downward is connected to the pressurizing pump,
Wherein the suction pipe is formed to be submerged in raw water. The method according to any one of claims 1 to 5,
A storage tank for storing the sludge collected by the collection means,
Further comprising a dehydrator for removing moisture from the sludge stored in the storage tank. The method according to any one of claims 1 to 5,
Wherein the collection means comprises a skimmer or a conveyor belt. The method of claim 11,
Wherein the conveyor belt is formed in a net shape so that raw water is permeated and only sludge is filtered. delete The method according to any one of claims 2 to 5,
Wherein the partitioning guide bar is provided with a cover for covering an upper portion of the partitioning area. The method according to any one of claims 1 to 5,
The main body is further provided with an engine,
Wherein a rotational power of the rotary drive shaft of the engine is connected to the rotary drive shaft of the pressurizing pump.

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