KR101459675B1 - Apparatus for removing water-bloom or red tide - Google Patents

Abstract

The present invention provides an apparatus for removing green and red algae comprising: an impeller; a casing including an impeller space part, wherein the impeller is installed and sucked water is forcibly flowed to the neighborhood by the operation of the impeller, and a pressurized water discharge part intercommunicating with the impellor space part to extend upward, having a side surface opened, and having a suction pipe for sucking water according to the operation of the impeller and a filtration filter supporting part for supporting a filtration filter to be able to move along the side surface; a filtration filter supported by the filtration filter supporting part to be able to move along the side surface of the casing, continuously installed and filtering green algae or red algae included water by passing the water, which has been forcibly flowed to the neighborhood by the operation of the impellor, outside the casing; and a filtration filter supply and recovery device including a filtration filter supply drum for accommodating a filtration filter not in use supplied to the casing and a filtration filter recovery drum for accommodating a filtration filter used in the casing, wherein the filtration filter is replaced with the filtration filter not in use supplied by the filtration filter supply drum in the casing when the filtration filter is recovered in the filtration filter recovery drum as the filtration filter extending from the filtration filter supply drum extends along the side surface of the casing to connect to the filtration filter recovery drum.

Description

[0001] APPARATUS FOR REMOVING WATER-BLOOM OR RED TIDE [0002]

The present invention relates to a rust trough removing apparatus, and more particularly, to a rust trough removing apparatus capable of removing a green trough or a red trough while filtering seawater or fresh water generated from a green trough or red tide using a filtering filter.

As a conventional method of treating marine red tide, methods such as a method using natural microorganisms, an electrolysis method, an ultrasonic ozone treatment method, a sea surface recovery and sedimentation method are known. Dredging, and spraying of copper sulfate are known.

However, the above-mentioned methods have disadvantages such as hazardousness, temporary effect and costly, and thus are not widely utilized. Among the known methods, the loess spraying method is widely used. However, a large amount of clay spray is rather disadvantageous to contaminate the underwater environment, and therefore, improvement measures are required.

Of the various known methods for removing rust troughs, the filter filter method is recognized as the most harmless method to the underwater environment. The water containing the rust trough is sucked and passed through the filter to filter out the rust trough, and the filtered water is reduced to water.

However, in the case of this filtration filter method, when there is a large amount of the green tide in the water, the green tide is accumulated in the filtration filter in a short time, and the filtration filter is clogged. Therefore, there is a disadvantage that the manager needs to replace the filter frequently in known filtering apparatuses. In addition, the conventional filtration apparatus has disadvantages that the management burden of the manager is further increased because the filtration apparatus must be disassembled to replace the filtration filter.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above-mentioned problems, and it is an object of the present invention to provide a filtration apparatus and a filtration apparatus in which water containing a rust bellows is sucked and passed through a filtration filter, And to provide a rust trough removal device that can be used.

It is another object of the present invention to provide a rust trough removal device that can be automatically replaced without being disassembled and assembled by a control or operator's operation.

It is another object of the present invention to provide a rust-trough removing apparatus which removes a rust-bellied trough with a filtration filter and simultaneously provides a pressurized floating water to enable a pressurized flotation separation of the rust-trough.

In order to achieve the above object, the present invention provides an impeller comprising: an impeller; An impeller space in which the impeller is installed and inhaled water is forced to flow to the periphery by driving of the impeller and a pressurized water discharging portion extending upwardly in communication with the impeller space portion, A casing provided with a suction pipe through which water is sucked in accordance with the driving of the impeller, the casing having a filtering filter support portion movably supporting a filtering filter on a side surface thereof; And the water is forced to flow around the casing by the driving of the impeller and passes through the outside of the casing so that the green or red tide contained in the water passes through the casing A filtering filter for filtering; And a filtration filter recovery drum in which the unused filtration filter supplied to the casing is housed, and a filtration filter collection drum in which a filtration filter used in the casing is received, wherein a filtration filter extending from the filtration filter supply drum is disposed in the casing So that the filter is replaced with an unused filter filter supplied from the filter filter supply drum in the casing when the filter filter is recovered in the filter filter recovery drum, And a filtration filter supplying and collecting device.

According to the present invention, the air inlet pipe is connected to the suction pipe, and when water is sucked by the impeller driving, air flows in together, so that the pressurized water discharged through the pressurized water discharging unit is discharged in the form of bubbles . As a result, it is possible to increase the amount of dissolved oxygen in the water.

According to the present invention, the filtration filter support portion includes guiding grooves which are disposed on the side surfaces of the casing so as to face each other at the front and rear ends thereof and extend along the side surface, And extends along the side surface of the casing.

According to the present invention, the casing is provided with a sensor for sensing the amount of the green or red tide accumulated on the filter, directly or indirectly, and detecting the replacement time of the filter.

According to the present invention, the casing is provided with a sensor capable of detecting a flow rate or a flow velocity between inflow water (A) sucked through the suction pipe and pressurized water (C) discharged through the pressurized water discharging unit, The flow rate or flow rate is compared to detect the replacement time of the filter.

According to the present invention, the pressurized water discharging portion of the casing is provided with a filtration filter to which the deposit is attached and a protection plate for isolating the pressurized water.

The rust trough removal apparatus according to the present invention filters water containing green or red tides and filters the green trough or red tide by passing the filtrate through the filtration filter. The filtration filter having the deposited green trough or red tide is filtered by the filtration filter supply drum and filtration It is automatically replaced by a filter recovery drum in a scroll manner without disassembly of the device. Therefore, it is possible to remove the green tide from the coastal marine, river, lake or the like where a large amount of green tide or red tide is generated, without fear of device failure or inability due to clogging of the filter. In addition, since it is possible to replace the filter without disassembling and reassembling the apparatus, the administrative burden on the administrator is significantly reduced.

In addition, according to the present invention, it is possible to provide a pressurized floating water to remove the rusty trough by the pressurized flotation method, so that the rust trough removal efficiency is improved and the amount of dissolved oxygen is increased to reduce the mortality of aquatic organisms by the rust trough Or can be prevented.

1 is a perspective view for explaining a rust trough removing apparatus according to the present invention.
FIG. 2 is a cross-sectional view showing a section of the impeller receiving part in the rust trough removing device shown in FIG. 1. FIG.
3 is a cross-sectional view showing a section of the pressurized water discharging unit in the rust tide removing apparatus shown in FIG.
4 is a view for explaining the operation of the rust tide removing apparatus according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view for explaining a rust trough removing apparatus according to the present invention, FIG. 2 is a sectional view showing a section of the impeller receiving portion in the rust trough removing apparatus shown in FIG. 1, FIG. 4 is a view for explaining the operation of the rust trough removing apparatus according to the present invention. FIG.

Referring to the drawings, the apparatus for removing rust trough according to the present invention includes a casing 10, an impeller 30, a filtration filter 40, and a filtration filter supply and recovery device.

The casing 10 includes an impeller space portion 10a in which an impeller 30 is installed and a pressurized water discharge portion 10b communicating with the impeller space portion 10a and extending upward, .

The casing 10 includes a front plate 12 and a rear plate 14 and a connecting portion 16 for supporting the front plate 12 and the back plate 14 in a state of being separated from each other. According to the embodiment shown in the drawings, the connecting portion 16 is formed of a narrow plate of a bar shape, and a plurality of connecting portions 16 are arranged apart from each other along the side surface.

The connection portions 16 are provided apart from each other along the side surfaces leading to the left side, the lower side, and the right side surface while forming an opening therebetween. Accordingly, the casing 10 can secure a wide opening area on the side surface while maintaining the mechanical strength.

The embodiment of the present invention shows a structure in which the front plate 12 and the rear plate 14 are formed by the connecting portion 16 arranged along the side surface, but the front plate 12 and the rear plate 14 are spaced apart from each other Various modifications are possible in which the casing 10 can be formed. For example, the connection part may be formed by connecting the inner surfaces of the front plate 12 and the rear plate 14 to each other. In addition, since the connecting portion is disposed in the form of a rod and is disposed adjacent to the filtering filter 40 and the cylinder is fitted around the rod shape, the filter has a similar structure to the bearing, have.

A filter (40) is installed along the side surface of the casing (10). The filtration filter 40 is movably supported and continuous along the side. The filtration filter 40 uses a flexible filtration filter 40 that is flexible and movable like a fabric. It is also possible to use a porous, thin and flexible metal sheet material other than the fabric type.

The present invention includes a filtration filter support that supports the filtration filter (40) of the casing (10) movably along the side surface.

According to the embodiment of the present invention, the filtration filter support portion includes a pair of guide grooves 22, 24 opposed to each other at the front and rear ends on the side of the casing 10. A first fixing protrusion 21 protruding in a rear direction along the rear surface of the front plate 120 and having a first guide groove 22 formed at an intermediate portion thereof is formed, The second fixing protrusion 24 protruding in the front direction along the first fixing protrusion 21 and the second fixing protrusion 24 formed in the middle portion of the first fixing protrusion 21 are formed in the first fixing protrusion 21, 22 and the other end in the width direction of the second guide groove 24 of the second fixing projection 23 is inserted and extended along the side surface of the casing 10. A pair of guides The grooves 22 and 24 have a function of supporting both ends of the filter filter 40 in the width direction and fixing the same to the casing 10 and a function of guiding the movement of the filter filter 40 when the filter filter 40 is replaced by a scroll method Function.

According to the embodiment of the present invention, the first and second fixing protrusions 21 and 23 are disposed inside the connection portion 16 provided on the side surface, 23 may be disposed outside the connection portion 16. [ Preferably, however, it is arranged inside the connecting portion 16 so that the connecting portion 16 functions to support the outside of the filtering filter 40. The connection portion 16 may function to support the filter 40 when the filter is discharged while being filtered.

Since the side surface of the casing 10 is open, the filtration filter 40 is exposed to the outside through the opening. Further, the filter 40 is also exposed to the inside of the impeller space portion 10a. Therefore, the water in the casing 10 can be discharged to the outside through the filter 40. [

An impeller 30 is installed in the impeller space portion 10a of the casing 10. [ The impeller 30 is eccentrically installed inside the impeller space portion 10a. A drive motor 35 for driving the impeller 30 is installed on the rear surface of the rear plate 14. [ The impeller shaft 32 extends through the rear plate 14 of the casing 10 and the driving motor 35 is installed in contact with the rear plate 14 of the casing 10. [ At this time, the drive motor 25 is installed in the motor protection casing 36 in a watertight state.

The pressurized water discharging portion 10b of the casing 10 extends upward from the other side in communication with the impeller space portion 10a.

A suction pipe 27 is provided in the front plate 12 of the casing 10 in correspondence with the position of the impeller 30 provided in the impeller space portion 10a. The suction pipe 27 is a passage through which water is sucked into the impeller space portion 10a when the impeller 30 rotates.

An air suction pipe (28) is connected to the suction pipe (27). Although only a part of the air suction pipe 28 is shown in the drawing, it extends outside the water surface. Accordingly, when water is sucked through the suction pipe 27 by driving the impeller 30, air is sucked into the impeller space portion 10a through the air suction pipe 28. [

The present invention includes a filtration filter feed and recovery device comprising a filtration filter feed drum (42) and a filtration filter recovery drum (44).

In the present invention, the filtration filter 40 is installed on the filtration filter supply drum 42 and the filtration filter collection drum 44 in such a manner that both longitudinal ends thereof are wound. The filter filter 40 extending from the filter filter supply drum 42 is extended along the side surface of the casing 10 and then connected to the filter filter recovery drum 44 again.

A filtering filter 40 to be supplied to the casing 10 is wound around the filtering filter supply drum 42 provided on one side of the casing 10 and the filtering filter 40 uncoiled from the filtering filter feeding drum 42 Extends along the side surface of the casing (10), and the other end is wound around the filtration filter recovery drum (44). The filtration filter supply drum 42 is a portion where a new unused filtration filter for feeding the casing 10 is accommodated. The filtration filter recovery drum 44 is used for filtration inside the casing 10, And the collected filtration filter 40 in which the deposit F is piled up is recovered.

The filtration filter supply drum 42 and the filtration filter recovery drum 44 in the present invention operate in accordance with the control or operation of the operator so that the filtration filter 40 inside the casing 10 can be replaced in a scroll manner . A motor (not shown) is provided in the filtration filter recovery drum 44 to rotate the rotation shaft of the filtration filter recovery drum 44 to wind the filtration filter 40 . When the rotary shaft of the filtration filter recovery drum 44 rotates, the filtration filter 40 attached along the side surface of the casing 10 is pulled, and the filtration filter with the adherend F attached thereto such as red tide or green tide is returned to the filtration filter recovery drum 44, and a new filtration filter 40, which is rotated while the filtration filter supply drum 42 is rotated while being rotated, is moved and supplied to the casing 10. The movement of the filtration filter 40 in the casing 10 is guided by the guide grooves 22, 24 of the filtration filter 40.

With this operation, in the casing 10, the filtration filter 40 to which the attachment F such as a green tide or a red tide is attached, Can be easily replaced with a new filtration filter (40).

The filter filter supply and recovery device can be operated to replace the filter filter 40 periodically at a time interval set by the operator while being controlled by a controller (not shown), and the filter filter is replaced Lt; / RTI >

According to the present invention, the casing may be provided with a detection sensor (50) for detecting the replacement timing of the filtration filter. The detection sensor 50 senses the amount of greenhouse or red tide accumulated in the filtration filter and provides it to the controller, and the controller can determine the replacement time and replace the filtration filter according to the signal provided to the detection sensor. According to the embodiment shown in the drawing, the detection sensor 50 is installed inside the protection plate 29, but it can be installed at various positions.

In addition to the method of directly sensing the amount of green tide or red tide, it is also possible to detect the replacement time of the filtration filter by measuring the flow rate or the relative ratio of the pressurized water (C) discharged to the inflow water (A) flow rate. At this time, when the flow rate measurement is not easy, the flow rate of the influent water A and the discharged pressurized water C may be measured and compared to determine the filter filter replacement timing.

With this configuration, the rust trough removing device according to the present invention can also serve as a monitoring function of red tide or green tide in the ocean, river, lake, or the like. That is, the amount of the green or red tide can be determined from the replacement period of the filter by control of the controller, even if there is no separate green tide or red tide occurrence detection device. If the green tide or red tide grows in large quantities, the replacement period of the filter will gradually become shorter. Administrators managing marine or river, lakes, etc., can take other necessary measures, such as alarms on the occurrence of rust tides, based on this information.

In the present invention, not only the filtration filter can be automatically replaced, but also the filtration filter in which the green or red tide is accumulated is collected and stored in the filtration filter recovery drum. Therefore, the manager or the researcher can easily obtain the sample necessary for the in-depth study of the green bloom.

In the present invention, the pressurized water discharging portion 10b of the casing 10 may further include a protecting plate 29 for covering the filtering filter 40 from the inside to the inner side surface opposed to the impeller 30 mounting position. The protective plate 29 is in a state before being recovered to the filtration filter recovery drum 44. That is, the protection plate 29 is pressed against the filtration filter 40 to which the deposit F such as a green tide or red tide is attached, Thereby preventing the attachment F from falling off.

Hereinafter, the operation of the green tide removing apparatus according to the embodiment of the present invention will be described with reference to FIGS. 1 and 4. FIG. 4 shows the casing, the filter feed drum and the recovery drum omitted, and the filter, the impeller, and the shroud are shown together with the flow of water.

The rust trough removing device according to the present invention can be installed in an underwater structure or a floating structure in water. The casing 10 is installed in water and includes a filtration filter supply drum and a recovery drum (42, 44) The collection device may be installed to be located out of the water surface. In the attached drawings, the positions of the filtration filter supply drum 42 and the filtration filter recovery drum 44 are for convenience of illustration only and are not limited by the drawings.

1, when the impeller 30 is driven by the rust trough removing device, the water A containing the green tide or red tide is introduced into the impeller receiving portion 10a of the casing 10 through the suction pipe 27, .

The suctioned water is forcedly flowed in the direction of the surrounding filter filter 40 by the centrifugal force of the impeller 30. The water A containing the green filter or the red filter passes through the filter 40 The foreign matter is deposited on the inside of the filter while being caught by the filter, and the filtered water (B) is discharged to the outside of the casing.

A part of the water sucked into the impeller receiving portion 10a by driving the impeller 30 is discharged through the pressurized water discharging portion 10b in the form of pressurized water C. [ When the pressurized water C is discharged, the pressurized water C is separated from the filtration filter 40 to which the deposit F is attached by the protection plate 29, F are prevented from falling off.

Since the air flows in through the air inlet pipe 28 when the water is sucked through the suction pipe 27, the pressurized water C includes a large number of bubbles. Therefore, the bubbles contained in the pressurized water C are attached to the green or red tide to float the green or red tide to the surface of the water. Green algae or red tide floated on the surface of the water are collected by a separate process.

Further, the bubbles contained in the pressurized water C increase the amount of dissolved oxygen in the water and function to prevent the death of aquatic organisms.

It is to be understood that the present invention is not limited thereto and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims and the accompanying drawings. And this also belongs to the present invention.

Claims (6)

An impeller 30;
The impeller 30 is provided with an impeller space 10a through which the water is forced to flow to the periphery by driving the impeller 30 and a water discharge unit 30 which communicates with the impeller space 10a, And a suction pipe (27) which is formed in the shape of an opening with a side and into which the water is sucked in accordance with the driving of the impeller (30). The filter A casing (10) having a filtration filter support portion
The water is forced to flow around the casing 10 by being driven by the impeller 30 by being driven to move along the side surface of the casing 10 by the filtration filter support portion, A filtering filter (40) for filtering the contained green tide or red tide; And
A filtration filter supply drum (42) for receiving an unused filtration filter supplied to the casing (10), and a filtration filter collection drum (44) containing a filtration filter used in the casing, (42) extends along the side surface of the casing (10) and then to the filtration filter recovery drum (44), so that when the filtration filter is recovered in the filtration filter recovery drum (44) And a filtration filter supply and recovery device for replacing the filtration filter with the unused filtration filter supplied from the filtration filter supply drum (42). The method according to claim 1,
The air inlet pipe 28 is connected to the suction pipe 27 so that when the water is sucked by the impeller driving, the air is introduced together with the pressurized water discharged through the pressurized water discharging unit 10b. And is discharged in the form of a vibrating trough. The method according to claim 1,
The filtration filter support portion includes guiding grooves 22 and 24 that are disposed to face each other at the front and rear ends of the casing 10 and extend along side surfaces thereof. Is inserted into the guide grooves (22, 24) and extends along the side surface of the casing (10). The method according to claim 1,
Wherein a sensing sensor (50) is installed in the casing (10) to sense the amount of greenhouse or reddish tidy deposited on the filtration filter (40) directly or indirectly and to detect the replacement time of the filtration filter Red tide removal device. The method according to claim 1,
The casing 10 is provided with a sensing sensor capable of sensing a flow rate or a flow velocity between inflow water A sucked through the suction pipe 27 and pressurized water C discharged through the pressurized water discharging portion 10b Wherein the filter can detect the replacement time of the filtration filter by comparing the measured flow rate or the flow rate. The method according to claim 1,
Characterized in that a filtration filter (40) with an adherend and a protection plate (29) for isolating the pressurized water are provided in the pressurized water discharge part of the casing (10).

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