KR102339255B1 - Continuous filtration collectro of particles in water - Google Patents

Abstract

Disclosed is an apparatus for continuous filtration and collection of water particles. The continuous water particle filtration and collection device according to the present invention includes a ring-shaped upper support installed in a through hole formed in the upper plate of the frame, a hollow lower support installed in the lower region of the frame, and an upper portion of the upper region a filter net fixed to a support, a lower region is fixed to the lower support, for filtering the filtered water supplied from the filtered water supply pipe, and each upper end is fixed to the upper support and a lower end is fixed to the lower support to connect the upper support and the lower support Filtering unit including a plurality of connecting members to connect; a washing pipe installed in the frame provided with a plurality of washing nozzles for spraying washing water from the outside of the filter net to the inside at intervals from the top to the bottom; And upper and lower rotation support means for rotatably rotationally supporting the upper and lower supports, and for forward and reverse rotation of the upper support rotatably provided to the frame by the upper rotation support means and the lower rotation support means It includes a rotation driving unit consisting of a rotating means, supplying filtered water to the filtered water supply pipe while rotating the filter unit with the rotation driving unit, and spraying the washing water to the washing nozzle to uniformly wash the entire filter network while continuously filtering the filtered water to particles in water It is characterized in that it is intended to collect.

Description

CONTINUOUS FILTRATION COLLECTRO OF PARTICLES IN WATER

The present invention relates to a continuous filtration and collection device for underwater particles, and more particularly, to continuous filtration of particles in water having an efficient rinsing function so as to continuously filter and collect fine particles, for example, microplastics or microalgae in a water environment. It is about the collection device.

In general, a tool called a plankton collecting net or plankton net is used to collect ballast water discharged from ships, or plankton inhabiting seawater or freshwater, or to filter and collect fine particles (such as microplastics). . This tool is a metal circular ring that is wrapped around a sturdy fabric to connect a fabric net that can filter water. is the structure

The process of collecting using such a plankton collecting network is as follows. First, a rope is hung on the circular ring side of the plankton collecting net, put it in water, and when the rope is pulled, the water is filtered and collected by filtration by collecting living organisms or micro-materials in the water at the bottom.

However, this method had a problem in that the collection efficiency was lowered because it could not be collected while continuously supplying fresh water, seawater, or ballast water.

As a prior art to solve this problem, Republic of Korea Patent No. 10-2031180 (published on October 11, 2019) discloses a collecting device for each size of underwater particles with a code end attached thereto. Such a collecting device was able to filter and collect fine substances contained in the filtered water by continuously filtering the filtered water by supplying filtered water after arranging a plurality of collecting members having different eye sizes at intervals.

However, the collecting device of this structure had a problem in that it could not perform a smooth filtration function when the particles contained in the filtered water block the eyes of the collecting member. There was a problem in that the filtration collection efficiency was significantly lowered because it had to be used again afterward.

On the other hand, as another prior art, Republic of Korea Patent Registration No. 10-1399084 (published on May 27, 2014) discloses a sampling apparatus for ballast water for ships with improved rinsing function. In this sampling device, continuous filtration of the filter was possible by spraying the washing water from the outside of the filter using a washing nozzle installed in the rinsing pipe. However, since the sampling device having such a structure is configured such that the cleaning nozzle is sprayed only in a certain direction, there is a problem in that the cleaning of the area where the fine particles are actually attached is not smoothly performed.

. Republic of Korea Patent No. 10-2031180 (Announcement Date: 2019.10.11) . Republic of Korea Patent No. 10-1399084 (Announcement Date: 2014.05.27)

It is an object of the present invention to provide a continuous filtration and collecting device for water particles having an efficient rinsing function so that fine particles in a water environment can be continuously filtered and collected.

In addition, the problem to be solved by the present invention is not limited to the technical problems mentioned above, and other technical problems not mentioned are clearly to those of ordinary skill in the art to which the present invention belongs from the description below. can be understood

The above object is, according to the present invention, a ring-shaped upper support installed in a through hole formed in the upper plate of the frame, a hollow lower support installed in the lower region of the frame, and the upper region is fixed to the upper support and a lower region fixed to the lower support and a filtering network for filtering the filtered water supplied from the filtered water supply pipe, and each upper end is fixed to the upper support and the lower end is fixed to the lower support, connecting the upper support and the lower support a filtration unit including a connecting member; a washing pipe installed in the frame provided with a plurality of washing nozzles for spraying washing water from the outside of the filter net to the inside at intervals from the top to the bottom; and upper rotation support means for rotatably supporting the upper support body on the upper plate, lower rotation support means for rotatably supporting the lower support body on the lower side of the frame, upper rotation support means and the lower rotation and a rotation driving unit comprising a rotation driving unit for forward or reverse rotation of the upper support rotatably provided on the frame by a supporting unit, and supply filtered water to the filtered water supply pipe while rotating the filter unit with the rotation driving unit and spraying the washing water with the washing nozzle to uniformly wash the entire filter network while continuously filtering the filtered water to collect the particles in the water.

The upper support may include an upper outer ring; and an upper inner ring having a lower end coupled to the upper outer ring with an upper end of the filtering net interposed therebetween, and an upper end extending in the horizontal direction and rotatably supported on the upper plate by the upper rotation support means, the lower The support body, the lower inner ring; and a lower outer ring having an upper end coupled to the lower inner ring with a lower end of the filtering net interposed therebetween, and a lower end being rotatably supported on the frame by the lower rotation support means.

The upper rotation support means and the lower rotation support means may be formed of a ball bearing or a thrust bearing.

The rotation driving means may include a driven gear portion provided at an upper end of the upper inner ring; and a driving motor provided on one side of the upper plate by having a driving gear engaged with the driven gear unit.

The rotation driving means, the upper end is fixed to the upper inner ring, the lower end is fixed to the lower inner ring, the middle portion is provided with an extension twisted at an angle of 30 - 100 ° with respect to the upper end and the lower end, radially arranged multiple It may be composed of four water wheel members, and the filter unit may be configured to rotate as the filtered water supplied from the filtered water supply pipe applies pressure to the expanded portion.

The filtered water supply pipe may include a main supply pipe and a divided supply pipe divided into three at the lower end of the main supply pipe, and the divided supply pipes may be disposed to be inclined downward at a predetermined angle and in the rotational direction of the filter unit, respectively.

The rotation driving means is composed of the connection member having a washing water resistance portion provided by extending a middle portion except for an upper end and a lower end, and the washing water sprayed from the washing nozzles applies pressure to the washing water resistance portion to filter the filtration The portion may be configured to rotate.

The washing nozzles may be installed to spray the washing water in a tangential direction of the filtering net.

The lower support may be provided with a manually or automatically operated valve for discharging the collected underwater particles.

The valve may be configured to automatically bottle the collected water particles in connection with the automatic bottling device.

A water level sensor is provided inside the filtering net, and the control unit blocks the filtered water when the water level of the filtered water supplied through the filtered water supply pipe reaches a set level based on the water level detection signal detected by the water level sensor. , a supply valve provided in the filtered water supply pipe may be controlled to reduce the filtered water supply amount.

The lower rotation support means further includes a tube rotation connector installed between the lower end of the lower outer ring and the valve, wherein the tube rotation connector includes an insertion part into which the lower end of the lower outer ring is inserted is shorter than the inner diameter. a lower connector formed; a bearing provided between the lower end of the lower outer ring and the inner diameter of the insert to support rotation of the lower end of the lower outer ring; and an O-ring installed to maintain airtightness between the lower end of the lower outer ring and the inner diameter of the insert.

According to the present invention, by configuring the filtration unit to be able to rotate and rotating the filtration unit when filtered water is supplied and washing water is sprayed, the washing efficiency of the filtration network can be remarkably improved, and accordingly, filtration and collection of water particles contained in filtered water It becomes possible to provide an effect that is continuously enabled.

1 is a schematic cross-sectional view showing a continuous filtration and collecting apparatus for water particles according to the present invention.
FIG. 2 is a plan view illustrating the rotation driving means shown in FIG. 1 .
3 to 5 are schematic side and plan views showing another embodiment of the rotation driving means shown in FIG.
6 and 7 are schematic side views and plan views showing still another embodiment of the rotation driving means shown in FIG. 1 .
8 is an enlarged cross-sectional view showing the lower rotation support means shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the present invention, descriptions of already known functions or configurations will be omitted in order to clarify the gist of the present invention.

In addition, the terms used herein are for the purpose of describing the embodiments and are not intended to limit the present invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, the terms 'comprises' and/or 'comprising' do not exclude the presence or addition of one or more other components.

Of the accompanying drawings, FIG. 1 is a schematic cross-sectional view showing a continuous filtration and collecting device for underwater particles according to the present invention, and FIG. 2 is a plan view showing the rotational driving means shown in FIG.

As shown in FIGS. 1 to 2, the continuous filtration and collection of underwater particles continuously collects fine particles including micro-organisms (algae, etc.), micro-plastics, etc. contained in fresh water, seawater, or ballast water discharged from ships. to be collected by filtration. That is, the filtered water is supplied to the filtered water supply pipe 50 while rotating the filtering unit 20 with the rotation driving unit 40 and the washing water is sprayed with the washing nozzle 32 to uniformly wash the entire filter network 26 while continuously filtering the filtered water. This was done to collect underwater particles.

This will be described in detail.

The filter unit 20 is for filtering and collecting fine water particles by filtering the filtered water while rotating, and a ring-shaped upper support body ( 22), a hollow lower support 24 installed in the lower region of the frame 10, an upper region fixed to the upper support 22, a lower region fixed to the lower support 24, and a filtered water supply pipe 50 ) a filtering net 26 formed in an inverted cone shape to filter the filtered water supplied from, and each upper end is fixed to the upper outer ring 22A of the upper support 22 and the lower end is the lower outer ring 24A of the lower support 24 It is fixed to and is configured to include a plurality of connecting members 28 connecting the upper support 22 and the lower support 24 .

The upper support 22 has an upper outer ring 22A and a lower end 22B-2 coupled to the upper outer ring 22A with the upper end of the filtering net 26 interposed therebetween, and the upper end 22B-1 is in the horizontal direction. It consists of an upper inner ring (22B) extending to the upper plate (12) rotatably supported by the upper rotation support means (42).

And, the lower support 24, the lower inner ring 24B and the upper end is coupled to the lower inner ring 24B with the lower end of the filtering net 26 interposed therebetween, and the lower end is framed by the lower rotation support means 44 It consists of a lower outer ring (24A) rotatably supported on (10).

The connecting member 28 connects the lower outer ring 24A of the lower support 24, and since the upper and lower ends are fixedly coupled to the lower outer ring 24A of the lower support 24, respectively, the filtering net 26 This inverted cone shape can be maintained in an unfolded state.

On the other hand, a manually or automatically operated valve (B) for discharging the collected underwater particles is installed in the lower outer ring (24A) of the lower supporter (24), and this valve (B) is attached to each extension member (16) fixedly supported. Accordingly, in a state in which a portion of the lower end of the lower support 24 is inserted into the valve B, the lower support 24 is rotated and the valve B can be maintained in a fixed state. At this time, between the lower support 24 and the valve (B), a swivel-structured tube rotation connector (a tube-structured swivel joint - swivel joint) may be provided.

That is, as shown in FIG. 8, the pipe rotation connector 24C installed between the lower end of the lower outer ring 24A of the lower support 24 and the valve B, the lower end of the lower outer ring 24A The insertion part 24C-3 to be inserted is provided between the lower connecting body 24C-1 formed in a stepwise manner, the lower end of the lower outer ring 24A and the inner diameter of the inserting part 24C-3, and the lower outer ring 24A ) is configured to include a bearing (24C-2) for rotationally supporting the lower end. And, between the lower end of the lower outer ring 24A and the inner diameter of the insertion portion 24C-3, O-rings 24C-4 for maintaining airtightness are respectively provided.

Due to the structure of the pipe rotation connecting body 24C, the filtered seawater can be discharged while the filtration unit 20 rotates. That is, continuous filtration of seawater becomes possible.

And, the valve (B), connected to the automatic bottling device 70, configured to automatically bottle the collected water particles, or may be connected to a separate collection container not shown.

This filter unit 20 is possible to rotate by the upper and lower rotation support means (42, 44).

The filter unit supply pipe 50 is for supplying the liquid to be filtered and the filtered water to the inside of the filtering network 26, and the filtered water may be supplied so that it falls toward the lower end of the filtering network 26, but as shown in FIG. 1, The lower end of the filtered water supply pipe 50 is installed to be inclined toward a position deviating from the center line so that the filtered water falls at a predetermined angle (about 20 - 60° angle) with respect to the inclined surface of the filtering net 26 . This is to increase the filtration efficiency by allowing the filtered water supplied from the filtered water supply pipe 50 to fall directly on the inclined surface of the filtering network 26 . That is, the filtered water is directly discharged to the inclined surface of the filtering network 26 so that the filtered water passes directly and the water particles are filtered, thereby shortening the filtration time and preventing the water level of the filtered water from increasing.

The washing pipe 30 is provided with a plurality of washing nozzles 32 for spraying washing water from the outside of the filtering net 26 to the inside by maintaining an interval from the top to the bottom, and the frame 10 by the support bracket. is installed on That is, the washing pipe 30 is installed on the support bracket provided on the extension member 16 . Here, the washing water supplied to the washing nozzle 32 uses seawater in a filtered state.

The rotation driving unit 40 includes the above-described upper rotation support means 42 for rotatably supporting the upper support 22 on the upper plate 12 and the lower support 24 to the lower side of the frame 10 ( The upper portion rotatably provided on the frame 10 by the lower rotation support means 44 for rotatably supporting the upper plate (lower region of the upper plate), the upper rotation support means 42 ) and the lower rotation support means 44 . It consists of a rotation driving means 46 for the support 22 to rotate forward or reverse.

The upper rotation support means 42 includes a ball bearing or a thrust bearing installed between the upper surface around the through hole 14 of the upper plate 12 and the upper end 22B-1 of the upper inner ring 22B.

And the lower rotation support means 44 is coupled to the lower outer peripheral surface of the lower outer ring 24A and consists of a ball bearing or thrust bearing respectively supported by the respective vertical members of the frame 10 by the extension members (16). One end of each of the extension members 16 is coupled to each vertical member, and the other end of each is coupled to the outer peripheral surface of the bearing member coupled to the lower outer ring 24A, so that the lower support 24 is stably rotatably supported. can

The rotating means 46 is provided with a driven gear portion 46A provided on the upper end portion 22B-1 of the upper inner ring 22B, and a driving gear 46B meshed with the driven gear portion 46A, the upper plate It is provided on one side of (12) and consists of a driving motor (46C) which is controlled in composition by the control unit (80).

A water level sensor 82 is provided inside the above-described filtering net 26 . The water level sensor 82 is disposed inside the filtering net 26 to detect whether the level of the filtered water supplied through the filtered water supply pipe 50 reaches a set water level, and has one end coupled to the frame 10 It is provided at the lower end of the installation bracket (82A).

The control unit 80 is configured to control the drive motor 46C or to control the opening/closing control or the degree of opening of the valve B when the valve B is an electromagnetic type, and automatically bottle-in in conjunction with the valve B It is configured to control the operation of the device 70 and to control the opening/closing control or the degree of opening of the supply valve 52 provided in the filtered water supply pipe 50 .

In addition, the control unit 80, based on the water level detection signal detected by the water level sensor 82, blocks the filtered water when the water level of the filtered water supplied through the filtered water supply pipe 50 reaches a set water level, or the amount of filtered water supplied The supply valve 52 provided in the filtered water supply pipe 50 is controlled to reduce the

The operation of the continuous filtration and collecting device for water particles configured in this way will be described.

1 and 2 , when the control unit 80 drives the driving motor 46C, the upper support 22 of the filter unit 20 rotates (rotates). This is because the upper support 22 is rotationally supported by the upper rotational support means 42 and the lower support 24 is rotationally supported by the lower rotational support means 44, so that the driving motor 46C is rotated by the upper inner ring 22B. ), the filter unit 20 integrated with each other by the connecting members 28 rotates in a stable state.

Then, filtered water is supplied to the filtering network 26 through the filtered water supply pipe 50 , and the filtered seawater is sprayed into the washing water through the washing nozzles 32 .

As such, the filtered water is supplied to the filtering net 26 and dropped, and at the same time the filtering net 26 is rotated and the washing nozzle 32 sprays the washing water from the outside to the inside of the filtering net 26, the water particles contained in the filtered water are filtered after the filtering network It moves to the lower part of the filtering net 26 without blocking the eyes of (26).

That is, as the filtered water is supplied to the rotating filtration network 26, the washing water sprayed from the washing nozzle 32 backwashes the water particles filtered in the filtration network 26 (washing by spraying from the outside to the inside). It is moved to the lower part of the filtering net 26 by the.

In particular, the washing nozzles 32 are arranged consecutively by maintaining a distance from the top to the bottom to spray the washing water, and the filter net 26 rotates, so that the water particles filtered by the filter net 26 are easily separated from the filter net 26 . It can be cleaned (washed) and collected in the lower area of the filter screen 26 . That is, by rotating the filtration net 26, the entire filtration net 26 can be uniformly washed, and thus the washing efficiency of the filtration net 26 can be improved.

When the underwater particles are collected by the filtration network 26 in the above-described process, the valve B is opened and supplied to the automatic bottling device 70 for bottling, or supplied to a separate collection container.

Among the accompanying drawings, FIGS. 3 to 5 are schematic side views and plan views showing another embodiment of the rotating means shown in FIG. 1 .

3 to 4, in another embodiment of the rotating means 46, the upper end portion 47A is fixed to the upper inner ring 22B and the lower end portion 47B is fixed to the lower inner ring 24B, and In the middle portion, an extension portion 47C twisted at an angle of 30 - 100° with respect to the upper end portion 47A and the lower end portion 47B is provided and consists of a plurality of aberration members 47 disposed radially. same as yes

According to the rotating means 46 of this structure, the filter unit 20 integrated with each other rotates as the filtered water supplied from the filtered water supply pipe 50 applies pressure to the expansion part 47A. That is, the filtered water supplied from the filtered water supply pipe 50 is discharged to the expansion part 47A, so that the filtering part 20, which is able to be rotated by the upper and lower rotation support means 42 and 44, can rotate.

In this way, by rotating the filtering unit 20 with the filtered water discharged from the filtered water supply pipe 50 , the component for electrically rotating the filtering unit 20 can be eliminated.

At this time, in order to efficiently rotate the filter unit 20 with the filtered water discharged from the filtered water supply pipe 50 , the filtered water supply pipe 50 may be configured as follows. That is, as shown in FIG. 5, the filtered water supply pipe 50 is composed of a main supply pipe 52 and a divided supply pipe 54 divided into three at the lower end of the main supply pipe 52, and each divided supply pipe ( 54) are arranged to be inclined in the direction of rotation of the downward and filtering unit 20, respectively, at a predetermined angle. In this way, the filtered water supply pipe 50 is divided into three and rotates in different directions (rotational direction of the filter unit), so that the filter unit 20 can be rotated more stably and efficiently. That is, as each of the divided supply pipes 54 is inclined downwardly, each end of each of the divided supply pipes 54 is arranged to be inclined spirally around the main supply pipe 52 so as to face the rotational direction of the filter unit 20, so that the divided supply pipes 54 are separated from each other. Since the discharged filtered water acts on each extension part 47C, rotation of the filter part 20 can be made smoothly.

Among the accompanying drawings, FIGS. 6 and 7 are schematic side views and plan views showing another embodiment of the rotating means shown in FIG. 1 .

6 and 7, the rotation means 46 according to another embodiment is made of a connecting member 28 connecting the upper support 22 and the lower support 24, the upper end portion 28A ) and the middle portion except for the lower portion 28B is expanded to form the washing water resistance portion 28C.

As described above, the washing water resistance unit 28C is formed on each connection member 28, so that the washing water sprayed from the washing nozzle 32 applies pressure to the washing water resistance unit 28C so that the filter unit 20 rotates. do.

For this purpose, the washing nozzles 32 are preferably installed at a predetermined angle to spray the washing water in the tangential direction of the filtering net 26 .

In addition, by configuring two or three washing tubes 30 to spray washing water in various directions, the filter unit 20 can be rotated stably.

As described above, by rotating the filtration unit 20 integrated with the filtration network 26 while supplying the filtered water to the filtration network 26 and spraying the washing water to the filtration network 26, the filtration efficiency of the filtered water and washing of the filtration network 26 It becomes possible to improve the efficiency remarkably.

In the foregoing, specific embodiments of the present invention have been described and illustrated, but it is common knowledge in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. It is self-evident to those who have Accordingly, such modifications or variations should not be individually understood from the technical spirit or point of view of the present invention, and the modified embodiments should belong to the claims of the present invention.

10: frame 12: upper plate
14: through hole 20: filtration unit
22: upper support 24: lower support
26: filtration network 28: connecting member
30: washing tube 32: washing nozzle
40: rotation driving unit 42: upper rotation support means
44: lower rotation support means 46: rotation means
50: filtered water supply pipe 70: automatic bottling device
80: control unit 82: water level sensor

Claims (11)

A ring-shaped upper supporter installed in a through hole formed in the upper plate of the frame, a hollow lower support installed in a lower region of the frame, an upper region is fixed to the upper supporter, and a lower region is fixed to the lower supporter and a filtration network for filtering the filtered water supplied from the filtered water supply pipe, and each upper end is fixed to the upper support and the lower end is fixed to the lower support, a filter unit comprising a plurality of connecting members connecting the upper support and the lower support; a washing pipe provided in the frame with a plurality of washing nozzles for spraying washing water from the outside of the filter net to the inside at intervals from the top to the bottom; and upper rotation support means for rotatably supporting the upper support body on the upper plate, lower rotation support means for rotatably supporting the lower support body on the lower side of the frame, upper rotation support means and the lower rotation and a rotation driving unit comprising a rotation means for forward rotation or reverse rotation of the upper support body rotatably provided on the frame by the support means,
The upper support is
upper outer ring; and an upper inner ring having a lower end coupled to the upper outer ring with an upper end of the filtering net interposed therebetween, and an upper end extending in a horizontal direction and rotatably supported on the upper plate by the upper rotation support means,
The lower support is
lower inner ring; And an upper end is coupled to the lower inner ring with the lower end of the filtering net therebetween, and the lower end is made of a lower outer ring rotatably supported on the frame by the lower rotation support means,
The lower rotation support means,
Further comprising a tube rotation connector installed between the lower end of the lower outer ring and the valve, wherein the tube rotation connector, The lower connector body is formed so that the lower end of the lower end of the outer ring is inserted into the inner diameter is stepped; a bearing provided between the lower end of the lower outer ring and the inner diameter of the insert to support rotation of the lower end of the lower outer ring; and an O-ring installed to maintain airtightness between the lower end of the lower outer ring and the inner diameter of the insertion part,
Supplying filtered water to the filtered water supply pipe while rotating the filter unit with the rotary driving unit, and spraying the washing water with the washing nozzle to uniformly wash the entire filter network while continuously filtering the filtered water to collect particles in the water, characterized in that,
Continuous filtration and collection of underwater particles. delete According to claim 1,
The upper rotation support means and the lower rotation support means are characterized in that made of a ball bearing or a thrust bearing,
Continuous filtration and collection of underwater particles. delete According to claim 1,
The rotating means,
a driven gear unit provided at an upper end of the upper inner ring; and
characterized in that it comprises a driving motor provided on one side of the upper plate by having a driving gear meshing with the driven gear unit,
Continuous filtration and collection of underwater particles. According to claim 1,
The rotating means,
An upper end is fixed to the upper inner ring, a lower end is fixed to the lower inner ring, and an extension part twisted at an angle of 30 - 100° based on the upper end and lower end is provided in the middle part, and consists of a plurality of aberration members arranged radially, ,
Characterized in that the filter part rotates as the filtered water supplied from the filtered water supply pipe applies pressure to the expansion part,
Continuous filtration and collection of underwater particles. 7. The method of claim 6,
The filtered water supply pipe,
It consists of a main supply pipe and a divided supply pipe divided into three at the lower end of the main supply pipe, wherein the divided supply pipes are respectively arranged to be inclined downward at a predetermined angle and in the rotational direction of the filter unit,
Continuous filtration and collection of underwater particles. According to claim 1,
The rotating means,
It consists of the connection member having a washing water resistance part provided by extending the middle part except for the upper part and the lower part,
characterized in that the filter unit rotates as the washing water sprayed from the washing nozzles applies pressure to the washing water resistance unit,
Continuous filtration and collection of underwater particles. 9. The method of claim 8,
The cleaning nozzles are
characterized in that it is installed to spray the washing water in the tangential direction of the filtering net,
Continuous filtration and collection of underwater particles. According to claim 1,
In the lower support,
A manually or automatically operated valve for discharging the collected water particles is provided, and the valve is connected to an automatic bottling device to automatically bottle the collected water particles, or connected to a separate collection container.
Continuous filtration and collection of underwater particles. According to claim 1,
Inside the filter net,
A water level sensor is provided, and the control unit blocks the filtered water or reduces the filtered water supply when the water level of the filtered water supplied through the filtered water supply pipe reaches a set level based on the water level detection signal detected by the water level sensor. Characterized in controlling the supply valve provided in the filtered water supply pipe,
Continuous filtration and collection of underwater particles.

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