KR101850699B1 - Method and device for gathering sedimentation materials of aquaculture place - Google Patents

Abstract

The present invention relates to a method and an apparatus to collect sediments in a fish farm, capable of collecting sediment particles, settled on the floor under the water around a fish farm, into a collection chamber through a sedimentation pipe, including the collection chamber assembled with the bottom, by erecting the sedimentation pipe on the floor under the water around the fish farm. More specifically, after the sedimentation pipe including the collection chamber is filled with salt water of 5-10 wt% concentration, the sedimentation pipe as well as a support is erected on the floor under the water around the fish farm, and then, a pipe cover is separated from the upper part of the sedimentation pipe to open the mouth of the sedimentation pipe, and in order to collect the sediment particles into the collecting chamber, a drain valve connected with the sedimentation pipe is opened in a position right above the collecting container to discharge a sedimentation inducing solution stored in the pipe to a position in which the valve is installed. As such, the present invention is capable of improving the efficiency of collection by clearly directing sediment particles into the collecting container via the surface of the sedimentation inducing solution, which is higher in specific gravity than seawater, and obtaining a more accurate sample and efficiently reusing the sedimentation inducing solution by preventing the sediment particles from being disturbed or leaked due to the overflow of the sedimentation inducing solution caused when the collecting chamber is separated.

Description

TECHNICAL FIELD [0001] The present invention relates to a method and a device for collecting sediment from a farm,

The present invention relates to a sedimentation apparatus which assemble a collection tube at a lower end of a sedimentation pipe having a predetermined height and a diameter and a sedimentation pipe which is set up vertically on the underwater floor around a farm site together with a cradle, Type sedimentation materials that are generated by the metabolism process of feedstuffs or feed residue are sampled as samples by collecting sediment components in the sedimentation pipe through the sedimentation pipe to analyze sedimentation amount per unit area and its composition factor This paper deals with a method for collecting sediment from aquaculture and a collection device for identifying the cause of marine pollution such as eutrophication of a water area where a farm is installed.

Generally, a caged fish farm is a facility where a cage net is set up in a certain range in the waters of the coastal waters and the outer sea, and a variety of aquatic organisms are cultivated at a high density therein. Most of the footsteps in the form of a roughly "paddy" form are firstly made to provide space and passageways and then the paddle net is connected along the inner circumferential surface of the footstep structure while the paddle is connected to the lower side of the footstep structure .

In the cage culture technique described above, seawater inside and outside the cage is freely passed through the mesh of the cage net, so that the exchange of seawater and the supply of oxygen are smoothly performed. In addition, various wastes and extra Since the feed residue is also automatically discharged to the outside through the cage net, the water quality in the cage itself does not deteriorate even if a large amount of aquatic organisms are cultured at a high density. Due to these advantages, the cage culture technique is widely applied to aquaculture .

However, recently, marine pollution such as red tide due to eutrophication has been increasing mainly in the area where a caged fish farm is installed. This is due to the metabolic process of the aquatic organism and the feed residue, It is presumed that the substances are stagnated and decayed for a long time at a relatively high water temperature after sedimentation to the underwater floor around the farm, so that the sediment per unit area of the particulate sediment component And it is necessary to regularly investigate and analyze the composition and its compositional factors.

As a representative example of the investigation and analysis of the particulate sediment component generated from a farm site as described above, a collecting vessel is assembled to the lower end of a sedimentation pipe having a predetermined height and diameter, This type of sediment can be collected vertically on the underwater floor in the vicinity of the aquaculture farm, so that the particles can be collected from the aquaculture to the underwater floor in 1 to 2 days. A sediment trapping apparatus for estimating a pollutant load is known from Korean Patent Laid-Open Publication No. 10-2017-0037113 (published on Apr. 04, 2017).

However, according to the conventional sediment trapping method, since the surrounding sediments are automatically introduced into and stored in the sedimentation pipe in the process of installing the sedimentation pipe on the underwater floor near the farm with the cradle, The seawater stored therein has the same salinity and specific gravity as the surrounding seawater. As a result, the particulate sediment component temporarily induced to the inside of the upper inlet of the sedimentation pipe is shifted to the flow state (algae) And it was difficult to precisely investigate and analyze the particles due to the decrease of the trapping rate of the granular sediment component.

Particularly, after the collecting operation of the particulate sediment component is completed, the collecting device is recovered to a vessel or land, and then, at the time of separating the collecting container from the sedimentation pipe in order to acquire the particle sediment stored in the collecting container, As the internal seawater pours down to the bottom at the moment, there is a problem that the particle sediments stored in the collection column are severely disturbed together with the seawater, or some sediment of the particles are discharged from the collection column, It has become impossible to acquire samples with accurate accumulated cumulative state over time, which greatly reduces the accuracy and reliability of the analysis work.

On the other hand, in the conventional sediment trapping apparatus, the horizontally measuring unit is provided outside the sedimentation pipe to visually confirm and adjust the upright state of the sedimentation pipe. However, the sedimentation pipe itself is tilted in one direction, There is a problem in that it is very difficult to accurately adjust the upright position of the settling pipe by adjusting the posture or position of the settler. Even if the settling pipe is correctly set in the upright state at the initial stage of the settling apparatus, Of the sedimentation pipe is not properly maintained until the collecting device is recovered, so that it is possible to accurately capture the particulate sediment component There was a problem that the operation was difficult.

Korean Patent Publication No. 10-2017-0037113

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a sedimentation pipe having a sedimentation pipe, It is recommended that the sediment pipeline is installed upright on the underwater floor near the farm and then the pipe cover at the top of the sedimentation pipe is removed to open the inlet of the sedimentation pipe. The drainage valve connected to the sedimentation pipe is opened to allow the sedimentation induction solution stored in the sedimentation pipe to be drained to the position where the drainage valve is installed, so that the particulate sediment component passes through the surface of the sedimentation inducing solution having a higher specific gravity than seawater To be more reliably guided into the interior of the collection bin and to separate the collection bin for the recovery of particle deposits To provide a farm one induction pipe of the internal settler in that precipitated liquid to prevent falling at a time the precipitate collected developer pouring method and collecting device in its main aspect.

In addition, it is also possible to fabricate a frame for holding the settling pipe as a rectangular frame-shaped frame frame, wherein a landing plate in the form of a plate is provided on the lower side of the four vertical frames constituting the landing platform, The bottom plate is provided with a press-in end to the underwater floor, and the bottom plate is arranged in a vertical direction on a rectangular plate-shaped mounting plate with a minimum number of two, and then the mounting plate is placed on the upper surface of the cradle And a horizontally adjusting bolt fastened in a vertical direction toward a bottom surface of each of the corners of the mounting plate is provided on the uppermost horizontal frame constituting the cradle so that the upright state of the settling pipe can be more easily and accurately set On the other hand, during the time from the installation of the collecting device to the recovery, And that of and to be maintained in an upright state is more stable than, that by placing a large number of precipitation than the same area of the pipe to allow sufficient amount of the obtained sample for analysis is also a further aspect.

According to an aspect of the present invention, there is provided a method for collecting sediments in a culture plant, the collection tube is assembled to a lower end of a sedimentation pipe having a predetermined diameter and a height, The method of the present invention comprises the steps of setting a collecting device for placing a collecting device on the underwater floor near a farm site and a collecting device for collecting the particle type precipitating component that sinks from the farm to the underwater floor, A sediment trapping step of collecting the sediment trapped by the trapping device of the collection device recovered from the ship or the land; Separate the collection tank and analyze accumulated sediment on the bottom of the collection tank. A method for collecting sediments in a culture system, comprising the steps of sequentially collecting a sediment collected from a sedimentation tank by a sample, wherein the collecting device setting step comprises filling the sedimentation pipe containing the collecting tank with 5 to 10 wt% And the upper end of the sedimentation pipe is covered with a pipe cover, the sedimentation pipe is vertically installed on the underwater floor near the farm with the cage, and then the pipe cover at the top of the sedimentation pipe is removed, Wherein the sedimentation pipe is separated from the sedimentation pipe by opening the drain valve connected to the sedimentation pipe at a position corresponding to a position directly above the collection column, Is drained to a position where the drain valve is installed.

In addition, the apparatus for collecting sediments in aquaculture according to the present invention comprises: a sedimentation pipe having a predetermined diameter and height; a collecting passage assembled and installed at a lower end of the sedimentation pipe; Wherein the sedimentation pipe has a concentration of 5 to 10 wt% as a sedimentation inducing liquid, and a pipe cover is detachably mounted on an upper end of the sedimentation pipe, And a drain valve is connected to an outer side of the sedimentation pipe directly above the collecting container. The sedimentation platform includes four vertical frames having a predetermined height, Shaped frame frame by a horizontal frame connected in the form of a vertical frame, And a vertical frame portion corresponding to a lower side of the landing plate provides a press-in end to an underwater floor, wherein the settling pipe has a rectangular plate shape Wherein the mounting plate is integrally formed with the mounting plate so as to penetrate the mounting plate in a vertical direction and the edge side of the mounting plate is disposed along the upper side horizontal frame forming the mounting table, And a horizontal frame corresponding to each corner of the mounting plate is provided with a plurality of pipes horizontally extending from a lower portion of the frame to a bottom surface of the mounting plate, The adjusting bolt is vertically penetrated, while the bottom surface of each corner of the mounting plate It is characterized in that the retaining grooves of the semi-spherical portion that is the end of the leveling bolt is formed.

According to the present invention, the particle type sediment component introduced into the upper inlet of the sedimentation pipe is separated into sedimentation inducing liquid having higher salinity and specific gravity than the surrounding seawater, that is, The sedimentation rate of the particulate sediment component can be increased to a large extent by the surface of the sedimentation inducing liquid provided with the blocking function for preventing the sedimentation of the sedimented sediment Thereby providing an effect that can be improved.

Particularly, since most of the sedimentation inducing solution stored in the sedimentation pipe can be drained before the sedimentation pipe is separated from the sedimentation pipe in order to recover the particle sediment, a large amount of sedimentation inducing solution (Seawater in the conventional case) is poured through the lower end of the sedimentation pipe at a time, thereby preventing disturbance or leakage of the particle sediment. It is possible to obtain a precisely maintained sample so that the accuracy and reliability of the analytical work can be greatly improved. In addition, the sedimentation inducing solution is drained and stored in a separate container, Effect.

On the other hand, there is a method in which the press-in end of the lower part of the cradle made of a rectangular parallelepiped frame frame is infiltrated into the underwater floor so that the landing plate of the cradle is firmly placed on the underwater floor and the method of tightening the horizontal adjustment bolt in the direction in which the cradle is inclined, It is possible to more easily and accurately set up the upright state of the sedimentation pipe in the installation of the collecting device by using the method of pushing up the corner part along with the sedimentation pipe upwardly, The sedimentation pipe can be stably maintained in an upright state during the sedimentation, and the sedimentation of the particulate sediment component can be performed more accurately.

In addition, since a plurality of sedimentation pipes are connected to the mounting plate at regular intervals with a mounting plate placed on the top of the sedimentation base as a base, it is possible to arrange a number of sedimentation pipes larger than the conventional case It is also possible to obtain a sufficient amount of analytical sample through this, and it is possible to obtain a sufficient amount of sediments per unit area, which is optimized for investigation and analysis of composition factors It is effective to provide a collection method.

1 is a flow chart showing a method for collecting a settling sediment according to the present invention;
FIG. 2 is an external perspective view of the apparatus for collecting sediments in aquaculture according to the present invention. FIG.
Fig. 3 is a front sectional view of Fig. 2; Fig.
4 is a sectional view taken along the line AA in Fig.
Fig. 5 is an enlarged view of the main part of Fig. 3; Fig.

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

As shown in the flowchart of FIG. 1, the method of collecting sediments of the present invention comprises a collecting device setting step (S1) of placing a collecting device on the underwater floor in the vicinity of a farm, (S2) for collecting the particulate sediment component while maintaining the particulate sediment collecting apparatus in a state where the particulate sediment collecting operation is completed, a collecting apparatus collecting step (S3) for collecting the collecting apparatus having collected the particulate sediment to the ship or the land, (S4) for separating the collecting container storing the particle sediment from the collecting container separating step (S4).

In the collecting device setting step S1, as described in the related art, the collecting container is assembled to the lower end of the sedimentation pipe having a predetermined diameter and height, and the sedimentation pipe is mounted in a vertical direction In the present invention, this step is performed in a state where 5 to 10 wt% of salt water is filled in the sedimentation pipe including the collecting tank with the sedimentation inducing solution. It is characterized by that.

More specifically, prior to submerging the collecting device to the underwater floor near the farm, the sedimentation pipe is filled with the sedimentation inducing liquid at a concentration of 5 to 10 wt%, and then the upper inlet of the sedimentation pipe is connected to the pipe cover In a closed state, after the collection device is submerged from the vessel to the underwater floor near the farm and the collection device is placed securely upright on the underwater floor, remove the pipe cover at the top of the sedimentation pipe, It is done through the process of opening.

As described above, the pipe cover is assembled to the upper end of the sedimentation pipe before the collection device is submerged to the underwater floor around the farm, and the pipe cover is separated from the sedimentation pipe after the collection device is installed on the underwater floor. The reason for using 5 ~ 10wt% concentration of salt water as sedimentation inducing solution is that it is the simplest that can provide higher salinity and specific gravity than seawater while having similar conditions to seawater And it is an economic medium.

In addition, when brine having a concentration of less than 5 wt% is used as the sedimentation inducing solution, the difference is not large compared with the sea salt concentration of 3.3 to 3.8 (average 3.5)% in the coastal waters of the Korean coastal region. Therefore, It is not preferable to use the brine having a concentration of more than 10 wt% as the sedimentation inducing liquid, which is not only economical when the sedimentation induction of the granular component and the composition work of the brine are considered at the same time, The salt component may be eluted from the saline solution during the collection period of the saline solution.

Normally, the salinity concentration of seawater is calculated in terms of per unit (‰: one thousandth), but in the description of the present invention, it is expressed in terms of percentage (%: hundredth of a day) As a representative example, the seawater having a salinity concentration of 32.74 ‰ corresponds to a specific gravity of 1.025 under a water temperature condition of 17.5 ° C., the seawater having a salinity concentration of 37.95 ‰ corresponds to a specific gravity of 1.029, In the present invention, a salt concentration of 5 to 10 wt% (50 to 100 wt%) used as a sedimentation inducing solution has a specific gravity of 1.04 to 2.07.

A sedimentation inducing liquid having a specific gravity heavier than the surrounding seawater is filled in the sedimentation pipe so that the sedimentation inducing liquid is prevented from interfering with the surrounding seawater while being trapped in the sedimentation pipe After the collecting device setting step (S1), the collecting device installed on the underwater floor near the farm site is left for about one to two days at the corresponding position, so that the particulate precipitate component that sinks from the farm to the underwater floor is collected by the sedimentation pipe (S2) for collecting the sedimented particles by the collecting column of the sediment collector.

When the precipitation inducing solution having a specific gravity heavier than seawater is filled in the sedimentation pipe in the sediment trapping step (S2), the particulate sediment component sinking toward the upper inlet of the sedimentation pipe passes through the sedimentation inducing solution (Algae) of the surrounding seawater immediately after passing through the water surface of the sedimentation inducing liquid, so that the sedimentation inducing liquid can be safely descended to the bottom surface of the collection vessel. In this way, After the particle collecting step (S2), the collecting device collecting step (S3) for collecting the collecting device from the bottom of the water around the farm site to the ship or the land is performed.

In the collecting device collecting step (S3), the collecting device is reliably lifted from the bottom of the water by using a crane installed on the ship so that the sediment component of the sediment that has settled into the collecting container of the settling pipe is not disturbed unnecessarily, After the collecting device is lifted, the collecting barrel is separated from the sedimentation pipe, and finally the collecting barrel separating step (S4) of collecting the accumulated sediment on the bottom of the collecting barrel is performed.

In the present invention, before the collecting container is separated from the sedimentation pipe of the collecting device recovered by the vessel, the drain valve connected to the sedimentation pipe is opened at the position directly above the collecting container, The sedimentation inducing liquid is separated from the sedimentation inducing liquid in a state in which most of the sedimentation inducing liquid has been drained in advance. Through this, a large amount of precipitation inducing liquid (seawater in the conventional case) It is characterized in that the disturbance or leakage of sediment can be prevented in advance.

It is most preferable that the collecting and separating step S4 is performed on the deck of the ship immediately after the collecting device is recovered by the ship. However, if the distance from the sea area where the collecting device is installed is not too far, It is possible to carry out the work in a state where the collecting device is transported to the land, and the sediment amount per unit area and the composition factor for calculating the pollutant load of the aquaculture site are examined and analyzed using the particle sediment obtained from the collecting tank as a sample will be.

As shown in FIGS. 2 to 5, the apparatus for collecting sediments in a culture plant according to a preferred embodiment of the present invention, which has been proposed in order to substantially carry out the method of collecting sediments by the present invention, A sedimentation pipe 1 having a sedimentation pipe 1 having a collecting container 2 assembled at a lower end of the sedimentation pipe 1 and a sedimentation pipe 1 7, the diameter of the sedimentation pipe 1 is about 10 to 15 cm, and the height of the sedimentation pipe 1 including the collecting container 2 is about 1 m.

As a main constituent of the present invention, salt water having a concentration of 5 to 10 wt% is filled as sedimentation inducing liquid 14 in the sedimentation pipe 1 including the collecting column 2, and the sedimentation pipe (1) 1, a pipe cover 3 is detachably assembled to the upper end of the collecting cylinder 2, and a drain valve 4 is connected to the outside of the sedimentation pipe 1 corresponding to the upper portion of the collecting cylinder 2, The overall contents of the sedimentation inducing liquid 14 are as already explained in the above collecting method.

The pipe lid 3 is a cylindrical nut cap and is detachably installed along a helical fastening portion 6 at the upper end of the sedimentation pipe 1. The collection canister 2 is also installed in the sedimentation pipe 1 And a nut type socket holder 5 protruding outwardly by a predetermined thickness is formed at the lower end of the downfalling pipe 1. The socket holder 5 is fixed to the lower end of the downfalling pipe 1 in a screw- , And the collecting barrel (2) is assembled in a screw-tight manner along the inner circumferential surface of the socket holder (5).

The assembling and separating operation of the pipe lid 3 and the collecting container 2 can be performed more easily by using the coupling part 6 and the socket holder 5 on the lower side of the settling pipe 1 as described above The pipe lid 3 may be a general type of fitting cap or a vinyl cover or the like and the sedimentation pipe 1 including the pipe lid 3 and the collecting container 2 may be a sedimentation inducing liquid 14, It is preferable that the drainage valve 4 is made of a plastic material such as PVC so that the filling state of the particle deposit 16 and the accumulation state of the particle sediment 16 can be visually confirmed.

In addition, the cradle 7 includes four vertical frames 11 having a predetermined height, and a horizontal frame 12 connecting the vertical frames 11 in a rim shape to form a rectangular parallelepiped frame frame A landing plate 9 having a predetermined area is connected to each of the vertical frames 11 at the same position and a vertical frame 11 corresponding to a lower side of the landing plate 9, (13) to the underwater floor.

The sedimentation pipe 1 is mounted on the cradle 7 on the basis of the cage frame 7 in the form of a rectangular parallelepiped frame frame provided with the landing plate 9 and the press-in end 13 below each vertical frame 11 as described above. A method of infiltrating the press-in end portion 13 of the cradle 7 into the underwater floor so that each of the cradle plates 9 is placed on the floor in the water can be provided by being vertically connected to the cradle 7 at the center side of the upper surface of the cradle 7 And the sedimentation pipe 1 according to the present invention can be installed upright and more easily and precisely, and the respective landing plates 9 can be installed for a period of time from the installation of the collecting device 10 to the recovery thereof, It is possible to stably maintain the upright state of the collecting device 10 while suppressing uneven settlement of the cradle 7.

It is preferable that the cradle 7 is made of a frame made of an aluminum material so as to attain strength, corrosion resistance and weight at the same time. In order to perform the installation work of the collecting device 10 more quickly and easily, It is also possible to form the lower end side of the landing plate 13 with a sharp infiltration blade, and the landing plate 9 is preferably in the form of a disk having a water-dropping hole formed at a certain interval along the circumference, Or a polygonal plate.

As a more preferred embodiment, the sedimentation pipes 1 are provided so as to vertically penetrate the mounting plate 8 in the form of a rectangular plate with a predetermined number of at least two (four in the figure) The edge side of the mounting plate 8 is placed along the upper side horizontal frame 12 constituting the cradle 7 in such a state that the respective sedimentation pipes 1 are integrally connected to the mounting plate 8 It is preferable to dispose the plurality of sedimentation pipes 1 on one cradle 7 in such a manner that the mounting plate 8 is made of a transparent acrylic material and integrally formed with the sedimentation pipe 1.

Since the number of the sedimentation pipes 1 per unit area can be increased more than in the conventional case through the above-described method, the amount of the particle sediment 16 used as a sample can be sufficiently ensured, The lower body portion of each sedimentation pipe 1 is shown connected to the mounting plate 8. The total height of the trapping apparatus 10 including the sedimentation pipe 1 and the mount 7 is not limited to the collection of particulate sediment It is possible to make various adjustments according to the required depth of water, so that the position at which each settling pipe 1 is connected to the mounting plate 8 can also be adjusted accordingly.

5, the horizontal frame 12 corresponding to each corner of the mounting plate 8 is provided with the bottom surface of the mounting plate 8 from the bottom of the frame 12, as shown in Fig. A horizontal adjustment bolt 15 is vertically penetrated and a hemispherical support groove (not shown) is formed in the bottom surface of each of the mounting plates 8 to receive the end of the horizontal adjustment bolt 15 The horizontal adjustment bolt 15 and the support groove 17 push up the corner portion of the mounting plate 8 corresponding to the direction in which the mounting table 7 is tilted upwardly, 8) to a horizontal state.

In other words, after the collecting device 10 of the present invention is first installed upright on the water floor using the press-in end portion 13 and the landing plate 9, a mechanical or electronic horizontal level gauge is mounted on the mounting plate 8, The horizontal adjustment bolt 15 in the direction in which the holder 7 is tilted slightly is fastened to the upper side and the corner of the mounting plate 8 at the position is lifted slightly upward In this respect, the horizontal adjustment bolt 15 is advantageous in that an eye bolt for providing an annular handle with the head portion of the bar bolt is advantageous.

When the horizontal state of the mounting plate 8 is precisely adjusted in the above-described manner, each of the submerged pipes 1 connected to the mounting plate 8 is in an exactly upright state, and one side edge of the mounting plate 8 The ends of the respective horizontal adjustment bolts 15 are caught by the hemispherical support grooves 17 on the bottom surface of the mounting plate 8 even if the portion of the mounting plate 8 is slightly lifted upward from the mounting table 7, 8 can be stably supported together with the sedimentation pipe 1 without rocking.

According to the present invention as described above, the particle type sediment component introduced into the upper end inlet of the sedimentation pipe 1 is supplied to the submerged induction liquid 14 having a higher salinity and specific gravity than the surrounding seawater, that is, Can be more reliably settled into the interior of the collecting container 2 through the surface of the sedimentation inducing liquid 14 provided with a blocking function for preventing the sedimentation state of the particulate matter from being substantially affected by the surface of the sedimentation inducing liquid 14, It is possible to greatly improve the collection rate of the particulate sediment component.

Particularly, prior to separating the collection cylinder 2 from the sedimentation pipe 1 for the recovery of the particle sediment 16, the sedimentation induction liquid stored in the sedimentation pipe 1 A large amount of the sedimentation inducing liquid 14 (seawater in the conventional case) flows through the lower end of the sedimentation pipe 1 at the time of separating the collecting tub 2, It is possible to prevent the disturbance or outflow phenomenon of the particle sediment 16 due to the pouring down of the sediments 16 and thereby to obtain the sample in which the cumulative state of the particulate sediments is accurately maintained over time, The sedimentation inducing liquid 14 can be drained and stored in a separate container and then recycled.

On the other hand, a method in which the landing plate 9 of the cradle 7 is firmly placed on the floor underwater by infiltrating the press-in end 13 of the lower end of the cradle 7 made of a rectangular parallelepiped frame frame into the underwater floor, 7 by tightening the horizontal adjustment bolt 15 on the inclined direction side and pushing the corresponding edge portion of the mounting plate 8 together with the settling pipe 1 upwardly, The upright state of the sedimentation pipe 1 can be set more easily and accurately as well as stably maintained in the upright state of the sedimentation pipe 1 for a period of time from the installation of the collecting apparatus 10 to the recovery thereof , Whereby the collection operation of the particulate sediment component can be performed more accurately.

In addition, a plurality of sedimentation pipes 1 are connected to the mounting plate 8 at regular intervals with a mounting plate 8 placed on the top of the mounting table 7 as a base, It is possible to arrange a larger number of sedimentation pipes 1 than the conventional case for the same area and to obtain a sufficient amount of sample for analysis through the same, It is possible to provide a collection method that is optimized for the investigation and analysis of the amount and the composition factor.

Finally, the present invention described above is a typical example in which the collecting device 10 is set on the underwater floor around the cage farm to be installed in a waterside area such as the coastal waters or the outer sea to collect the particulate sediment component , And the collection method and the collecting apparatus 10 according to the present invention can be applied to a cage farm established in a waterside such as an inland lake or a reservoir.

In other words, the collection method according to the present invention and the collecting device 10 are applied in the same manner, and the concentration of the brine used as the sedimentation inducing liquid 14 is reduced to 1 to 2 wt% It will be apparent to those skilled in the art that the object of the present invention can be achieved by using other types of sedimentation inducing liquids 14 suitable for the present invention and that the present invention is naturally included within the scope of the technical idea to be pursued .

1: settling pipe 2: collection tank 3: pipe cover
4: drain valve 5: socket holder 6: fastening part
7: cradle 8: mounting plate 9: landing plate
10: collecting device 11: vertical frame 12: horizontal frame
13: indentation end 14: sedimentation inducing liquid 15: horizontal adjustment bolt
16: particle sediment 17: support groove

Claims (13)

The collection vessel 2 is assembled to the lower end of the sedimentation pipe 1 having a predetermined diameter and height and the collection apparatus 10 in which the sedimentation pipe 1 is mounted in the vertical direction on the cage 7, (S1) for setting up a collection device on the underwater floor in the vicinity and a collection device (10) installed on the underwater floor around the farm for a predetermined period to settle the granular sediment component that sinks from the farm to the underwater floor A sediment trapping step (S2) of collecting the sediment particles in the collection tank (2) of the pipe (1), a collecting device collecting step of collecting the collecting device (10) (2) is separated from the sedimentation pipe (1) of the collecting apparatus (10) recovered on the ship or land and the accumulated sediments (16) accumulated on the bottom of the collecting cylinder (2) (S4), which is an acquisition step In the farm the precipitate collected via a method comprising,
The collecting device setting step S1 is a step of filling the sedimentation pipe 1 containing the collecting container 2 with the sedimentation inducing liquid 14 at a concentration of 5 to 10 wt% The upper side inlet is installed vertically on the underwater floor near the farm site together with the cradle 7 with the sedimentation pipe 1 in a state of being blocked with the pipe cover 3 and then the pipe cover And separating the sedimentation pipe (3) and opening the inlet of the sedimentation pipe (1). The method according to claim 1, wherein the collecting container separating step (S4) is performed by opening the drain valve (4) connected to the sedimentation pipe (1) at a position corresponding to the upper portion of the collecting container Wherein the sedimentation inducing liquid (14) stored in the pipe (1) is drained to a position where the drain valve (4) is installed. A sedimentation pipe 1 having a predetermined diameter and a height; a collecting container 2 assembled and installed at a lower end of the sedimentation pipe 1; and a sedimentation pipe 1 in which the collecting container 2 is assembled, And a sedimentation pipe (7) for supporting the sedimentation pipe (1) on the underwater floor near the aquaculture site together with the cradle (7) In the collecting device (2), the collecting device (10)
A salt water having a concentration of 5 to 10 wt% is filled as sedimentation inducing liquid 14 in the sedimentation pipe 1 including the collection tank 2 and a pipe lid 3 is provided at the upper end side of the sedimentation pipe 1 And a drain valve (4) is connected to the outside of the sedimentation pipe (1) corresponding to the upper portion of the collecting tank (2). The cradle of claim 3, wherein the cradle (7) comprises four vertical frames (11) having a predetermined height and a horizontal frame (12) connecting the vertical frames (11) The sedimentation pipe 1 is vertically disposed at the center of the upper surface of the holder 7,
A landing plate 9 having a predetermined area is connected to the lower portion of each of the vertical frames 11 at the same position and a portion of the vertical frame 11 corresponding to the lower side of the landing plate 9 is press- Wherein the end portion (13) is provided on the surface of the culture medium. 5. The apparatus according to claim 4, wherein the downfalling pipe (1) is formed integrally with the mounting plate (8) in a state of vertically penetrating the mounting plate (8) Wherein the sedimentation pipe (1) is disposed on the stage (7) in such a manner that the edge side of the sedimentation pipe (1) lies along the upper horizontal frame (12) constituting the stage (7). The apparatus for collecting sediments according to claim 5, wherein the sedimentation pipes (1) are arranged on one mounting plate (8) at a predetermined interval with a minimum number of two or more. The horizontal frame (12) as claimed in claim 5 or 6, wherein a horizontal frame (12) corresponding to each corner of the mounting plate (8) And a hemispherical support groove (17) is formed in the bottom surface of each of the corner sides of the mounting plate (8) for inserting the end of the horizontal adjustment bolt (15) Sediment collecting device. 8. The apparatus of claim 7, wherein the horizontal adjustment bolt (15) is an eye bolt that provides an annular handle to the head of the rod bolt. [7] The apparatus for collecting sediments according to claim 5 or 6, wherein the sedimentation pipe (1) and the mounting plate (8) including the collecting container (2) are made of transparent acrylic material. The apparatus according to any one of claims 4 to 6, wherein the landing plate (9) is in the form of a disk having holes formed at regular intervals along the circumferential direction. 7. The method according to any one of claims 3 to 6, wherein the pipe lid (3) is a cylindrical nut cap and is assembled along the fastening part (6) provided at the top of the settling pipe (1) Sediment collecting device. 7. The apparatus according to any one of claims 3 to 6, wherein a nut type socket holder (5) is provided at the lower end of the settling pipe (1) so as to protrude by a predetermined thickness in the outward direction of the settling pipe (1) Wherein the collecting cylinder (2) is assembled in a screw-tight manner along the inner circumferential surface of the socket holder (5). The apparatus of any one of claims 3 to 6, wherein a valve made of PVC is used as the drain valve (4).

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