CN104181009A - Benthonic animal collection quantification frame - Google Patents

Abstract

The invention provides a benthonic animal collection quantification frame which is characterized by comprising a framework with certain surrounding area, a recycling rope connected to the framework, and a fixed structural member which is connected to the framework and is used for temporarily fixing the framework to the water bottom in a collection environment.

Description

A kind of zoobenthos gathers quantitative frame

Technical field

The present invention relates to a kind of zoobenthos and gather quantitative frame, relate in particular to the zoobenthos that is suitable for the collection environment that current are stronger and gather quantitative frame.

Background technology

In surface water body, there are many planktonic organisms and zoobenthos, it has very important value to water environment evaluation monitoring, Hydrobiology, ecological study, and people have successively invented sampling apparatus and the method for various floating biology and zoobenthos.

As plankton collecting device, plankton net is the most common, according to survey objective, can carry out planktonic qualitative survey and quantitative interview with it, even can also carry out qualitative examination to the sand grain in water body with it.But it still has the following disadvantages:

In the quantitative interview of animal plankton, drainage amount large (being generally 20L～50L water body) is larger to field sampling personnel's physical consumption;

For the river of some severe contaminations, there are a lot of volatile contaminants, in the time of quantitative collection animal plankton, larger to sampler's healthy threat;

Can accurately not quantify sample contents (for example sand grain) content in water body and the ratio between them of each grain-size grade.

In addition, as zoobenthos harvester, according to the difference of qualitative survey and the such survey objective of quantitative interview, conventional quantitative interview instrument has: the inferior bottom sampler of Peter and improvement type thereof, it sinks under water by own wt, take out the bed mud of certain area, thereby calculate the quantity of zoobenthos in monitoring waters; Suo Bai net, it is transferred to the substrate in the sample boxes of certain area in the string bag, thereby collects zoobenthos.Common qualitative survey instrument has D type net, and it is collected the bed mud of sampled point etc. in the string bag, then filters, sieves and obtain zoobenthos; Right angle net (operating type is identical with D type net); Artificial substratum class sampling instrument, is placed on sampled point a period of time, after zoobenthos freely creeps and enters in it, collects, analyzes.But above-mentioned sampling instrument exists following not enough:

In current zoobenthos sampling instrument,, not yet there is a different water depth that is applicable in comprehensive general deficiency, and possess the zoobenthos harvester of qualitative collection and quantitative collection function simultaneously;

The sampling instruments such as above-mentioned sampling instrument, particularly D type net and rope uncle net, need sample collector to carry the sampling of paddling of sampling instrument, thus be Mud Sediment or winter when subglacial when investigating the water body environment of sampling, all very high to sample collector's physical efficiency requirement, requirement of shelter;

To contaminative river, have many noxious pollutants, in the time utilizing above-mentioned zoobenthos sampling instrument, often contact with water body more, larger to sample collector's threat;

In addition, artificial substratum class sampling instrument enters in it because needs zoobenthos freely creeps, therefore often need to place it in a period of time (general about 8 weeks) in investigation waters, investigate length consuming time, be unsuitable for large watershed flow-type Sampling Survey, and investigation apparatus easily suffers artificial destruction in put procedure.

Summary of the invention

The present invention researches and develops in view of the problem of above-mentioned various existing sampling apparatuses.A technical scheme of the present invention is that a kind of zoobenthos gathers quantitative frame, comprising: enclose the certain framework of area; Be connected in the recovery rope of described framework; And be connected in described framework, gather the water-bed fixed component of environment for described framework is temporarily fixed on.

Described fixed component can be the staple of anchor, pouring weight or at least diagonal position of being located at described framework.Described staple can be located at the upper and lower surface side of described framework.

Described framework can be right angle U-shaped, has for making the chute that suction nozzle stretches into and slides of adopting with limit component on the dual-side of this U-shaped frame.Now, described fixed component is the staple of being located at respectively two bottom comer of described U-shaped framework and the open end of two side, and this staple can be located at the upper and lower surface side of two bottom comer of described framework and the open end of two side.

Can be connected with respectively buoy in the open end of two bottom comer of at least diagonal position of described framework or described U-shaped framework and two side.

Brief description of the drawings

Fig. 1 is the one-piece construction figure of the hydrobiont harvester of the embodiment of the present invention.

Fig. 2 is the structural representation of inhaling device and variation thereof of adopting of the explanation embodiment of the present invention.

Fig. 3 is the figure of the structure of explanation quantitative frame of the present invention and variation thereof.

Fig. 4 be explanation another kind of variation quantitative frame structure and with the figure coordinating that adopts suction nozzle.

Fig. 5 is the machine-processed schematic diagram that explanation is rocked classified filtering device.

Fig. 6 is the structural representation of explanation sample collection device of the present invention.

Fig. 7 is the schematic diagram of the structure of the comb that connects of water delivering orifice of explanation suction pump.

The one-piece construction figure of hydrobiont harvester when Fig. 8 is explanation use vacuum draw mode.

Embodiment

By embodiment, the present invention is described below, but embodiment is only for illustrating, and not forms limiting the scope of the invention.

First the summary of hydrobiont harvester of the present invention is described.Fig. 1 is the one-piece construction figure of the hydrobiont harvester of the embodiment of the present invention.The hydrobiont harvester of the embodiment of the present invention mainly comprises adopting on the whole inhales device 100, classified filtering device 200, main body 300, sample collection device 400, suction pump 500, drainage gathering-device 600.Be illustrated respectively for each constitutive requirements below.

(adopt and inhale device)

Fig. 2 is the structural representation of inhaling device and variation thereof of adopting of the explanation embodiment of the present invention.As shown in Fig. 2 (a), adopt and inhale device 100 and comprise and adopt suction nozzle 101a, sucker rod 102.Adopt suction nozzle 101a for long barrel shape, internal cavities, has elongated suction inlet along its length.Sucker rod 102 is hard blank pipe, be convenient to holding operation and control the movement of adopting suction nozzle 101a, one end of this sucker rod 102 is assemblied in the approximate mid-section position of adopting suction nozzle 101a length direction, be connected with the internal cavities of adopting suction nozzle 101a, when starting of pump station described later, when adopting suction nozzle 101a and drawing hydrobiont based on its suction force, the object to be checked such as water and hydrobiont of drawing is inhaled in sucker rod 102.The other end of sucker rod 102 can be communicated with not shown conduit 103, and this conduit 103 is soft conduit, is convenient to the Object Oriented OO to be checked main body 300 described later of drawing adopting suction nozzle 101a.It should be noted that at this, sucker rod 102 is not adopted the essential features of inhaling device, for example also can make to adopt suction nozzle 101a and directly be connected with the conduit 103 of hard, or outside conduit 103 separately by controlling and adopt suction nozzle 101a with the operating rod of adopting suction nozzle 101a binding.

In addition, in the time zoobenthos being collected to sampling, because zoobenthos is freely distributed in water body unlike planktonic organism, but conventionally live in the more environment of the foreign material such as shale or cobble substrate, therefore sometimes only adopt suction nozzle 101a and can not aspirate efficiently sampling with above-mentioned.For being applicable to such sampling environment, the inventor proposes the suction nozzle of adopting of variation as follows.

As shown in Fig. 2 (b), this variation adopt suction nozzle 101b on above-mentioned basis of adopting suction nozzle 101a, be placed with the harrow nail of some teeth along suction inlet direction in a side of suction inlet.Collecting when sampling, utilize this harrow nail that cobble or impurity are pushed aside, and disturbance is hidden in zoobenthos wherein, by suction inlet, this zoobenthos is sucked and adopts suction nozzle 101a simultaneously.Thus, water-bed bulk object (such as stone, fallen leaves, rubbish etc.) rake can be opened, and the zoobenthos of energy disturbance respective regions, is convenient to suction collection.Preferably harrow nail is arranged in to the direction of scanning advance side of suction inlet.In addition, also can all be arranged with this harrow nail in the both sides of suction inlet, so that adopt the shuttle-scanning suction of suction nozzle.

In addition, Fig. 2 (c) proposed the another kind of suction nozzle of adopting with harrow nail.This adopts suction nozzle 101c entirety for mace shape, and caput is general cylindrical shape, the sealing of columnar one end, and the other end is communicated in conduit 103, is scattered with some outstanding harrow nails laterally along columnar side circumference, and the space between each harrow nail is scattered with suction inlet.Utilize the suction nozzle of adopting of this shape, water-bed bulk object (such as stone, fallen leaves, rubbish etc.) rake can be opened equally, the zoobenthos of the respective regions of energy disturbance simultaneously, is convenient to suction collection.

In addition, Fig. 2 (d) proposed the another kind of suction nozzle of adopting with harrow nail.This adopts suction nozzle 101d entirety for seedpod of the lotus head, is scattered with some outstanding harrow nails laterally in the general plane part of shower nozzle, and the space between each harrow nail is scattered with suction inlet.Utilize the suction nozzle of adopting of this shape, water-bed bulk object (such as stone, fallen leaves, rubbish etc.) rake can be opened equally, meanwhile, the zoobenthos of energy disturbance respective regions, is convenient to suction collection.

In addition, the total area of the suction inlet shown in preferably above Fig. 2 (a)～(d), with sucker rod (or conduit) with to adopt the sectional area of suction nozzle connection suitable, the swabbing pressure when ensureing to adopt suction.

(quantitatively frame)

In addition,, in the time that needs carry out the quantitative collection of for example zoobenthos, quantitative frame can be set and coordinate the work of inhaling device 100 of adopting.Fig. 3 is the figure of the structure of explanation quantitative frame of the present invention and variation thereof.(a) of Fig. 3 illustrates a kind of quantitatively frame 104, it comprise rectangle (containing square) framework 1041, be connected in framework 1041 recovery rope 1042, be connected in the mooring anchor 1043 of framework 1041.

The a pair of length of side of design framework 1041, makes it suitable with above-mentioned suction inlet length of adopting suction nozzle (101a or 101b) on one side, and design its another to the length of side, make to meet required quantitative area.

The one end of reclaiming rope 1042 is connected in quantitative frame 1041, and the other end is grasped by user, for reclaiming quantitative frame.

Due to when the quantitative collection zoobenthos, quantitatively frame 104 is actual is placed in water-bedly, and in the time that current are stronger, quantitatively frame is easily moved, and causes intending the area inaccurate of quantitative collection especially.Therefore mooring anchor 1043 is set, is not moved after making quantitative frame 104 fall into the bottom.It should be noted that at this, as long as temporarily fixing the member of the position of quantitative frame 104, be not limited to above-mentioned mooring anchor 1043, pouring weight 1044 that for example also can be as shown in Fig. 3 (b), or at least diagonal position (being four bights in this example) at framework 1041 as shown in Fig. 3 (c) arranges staple 1045, make in the time that quantitative frame 104 is placed in to the bottom, staple 1045 can stretch into water-bed mud or crack of stone, thereby accurately fixes quantitative frame 104.Now, also can staple 1045 be set respectively at the upper and lower surface of framework 1041, no matter which faces down while making framework 1041 fall into the bottom, can pass through staple 1045 fixed position effectively of respective face.In addition, can also as shown in (d) of Fig. 3, connect buoy 1046 by cotton rope respectively at least diagonal position (being four bights in this example) position at framework 1041; buoy 1046 can not only make quantitative frame 104 fall into the bottom according to required posture reposefully; can also play a role as the station location marker of quantitative frame 104; special in the sampling environment of water turbidity, this effect is very outstanding.Certainly, the gross buoyancy of buoy 1046 is less than the weight of quantitative frame 104 own, so that quantitative frame 104 can be sunk under water.

Certainly, above-described quantitative frame is not only applicable to hydrobiont harvester of the present invention, can also effectively be applicable to the zoobenthos harvester of prior art, such as rope uncle net, D type net, right angle net etc.

In addition, Fig. 4 be explanation another kind of variation quantitative frame 104 structure and with the figure coordinating that adopts suction nozzle 101.As shown in Figure 4, quantitatively frame 104 is right angle " U " shape, should on the dual-side of " U " shape frame, have chute 105, and base length matches with the length of adopting suction nozzle 101.In addition, as shown in Figure 4, the two ends of adopting suction nozzle 101 have respectively an outstanding limit component 106 laterally, in the present embodiment, this limit component 106 is for having the nail-like of minor diameter part and large-diameter portion, and one end of minor diameter part is connected in the side of adopting suction nozzle 101, and the other end is connected in large-diameter portion.The path length of minor diameter part is slightly less than the width of the chute 105 of quantitative frame 104, makes to stretch into chute and moves along chute; The path length of large-diameter portion is greater than the width of chute 105, and while making in minor diameter part stretches into chute, large-diameter portion is stuck in the outside of quantitative frame 104, and the movement of suction nozzle 101 in the direction of quantitative frame base adopted in restriction.Thus, in the time will using quantitative frame 104, the minor diameter part of the limit component 106 of adopting suction nozzle 101 two ends is slipped into from one end of corresponding chute respectively, under the restriction of large-diameter portion, adopt suction nozzle 101 and can only move along chute 105.In the case of adopt the length of suction nozzle 101 certain, by designing the length of the chute on the side of quantitative frame, just can gather needed quantitative area.

In addition, the technical characterictic of the mooring anchor used about above-described quantitative frame, weight block, staple, buoy, quantitatively frame also can have wherein multiple simultaneously, now by the technique effect that has each feature concurrently and bring.

(classified filtering device)

Get back to Fig. 1, the unitary construction of classified filtering device 200 has been shown in Fig. 1.In the example of Fig. 1, classified filtering device comprises three layers of screen 201,202,203 being inclined relative to horizontal on the screen frame 301 that is arranged on main body 300.The sieve aperture (mesh) of three metafiltration sieves 201,201,203 successively reduces, thereby can sort out the object to be checked (such as planktonic organism, zoobenthos, sand grain etc.) of different-grain diameter.The concrete size of the sieve aperture of each metafiltration sieve need to design according to actual sampling.

In addition, screens at different levels are set to certain angle of inclination with respect to the horizontal plane, make the object to be checked that is fed into screen under Action of Gravity Field, to flow downward and to filter on one side on one side, thereby compared with when being horizontally disposed with screen, more be conducive to object to be checked being uniformly distributed on screen, ensure the effect of fully filtering, also help the collection of sample collection device, , because screen tilts, therefore as long as sample collection device 400 is set in screen lower end, the filtrate being filtered out will automatically be collected in sample collection device 400 under the washing away of current, collect operation without specially cleaning again.

Shown in Fig. 1 be three metafiltration sieves parallel oblique the state installed, screen progression is not limited to three layers, for example, can be also one deck, preferably more than two-layer, more preferably, more than three layers, can increase as required or reduce.Multilayer screen also may not need parallel oblique, can such as,, according to the state of current (flow velocity, flow etc.) or the adequacy requirement of filtering etc., set respectively the angle of inclination of each layer.In addition, each metafiltration sieve can not be also to tilt towards a direction, but intersects to tilt with "the" shape state.

In addition,, in the time that the water turbidity being aspirated is up larger, for improving the efficiency of filtering, the effect that adds strong filter, can make each metafiltration sieve rock.About the mechanical realization of realizing this and rocking, that for example can utilize crank connecting rod apparatus is converted into rotation reciprocating mechanical principle, for example, as shown in Fig. 5 (a), a side at screen frame 301 is installed crank axle device 302, and respectively by connecting rod connecting crank shaft device 302 and screen at different levels, specifically, one end of connecting rod is connected in the crank pin of crank axle device 302 in the mode that can freely rotate along the circumferencial direction of crank axle, the other end is connected in screen in mode free to rotate.In addition, the head and the tail two ends of screens at different levels are erected at respectively on the set slide rail of screen frame 301, and screens at different levels can, under the drive of crank connecting rod apparatus, laterally be slided along slide rail.As the manner of screens at different levels, herein exemplified with slide rail, but also can adopt other mechanical realization, for example hang on last layer screen or screen frame 301 in mode that can Free Slosh by messenger wire at four angles of each metafiltration sieve, thus, in the time that the main shaft of crank axle device 302 is rotated, the to-and-fro movement of crank pin drivening rod, and then drive each metafiltration sieve to rock regularly.In addition, also screen 201 that can the Jin Shi the superiors is connected in crank axle device 302, other each metafiltration screening is relative unfixing with the screen 201 of these the superiors by the mode of for example welding, thus, in the time that the superiors' screen 201 rocks with crank axle device 302, below each metafiltration sieve also synchronize and rock with it.

These are only an example, the mechanical schemes of rocking is also not limited to crank axle linkage, for example, can also realize this effect by any-modes such as cam gear, connecting rod of eccentric wheel devices.In addition, be also not limited to make each metafiltration sieve synchronously to rock, as long as ensure that the screen of lower floor can receive the object to be checked after upper strata screen filters completely, also can only make the screen of certain layer rock as required.

More than show screen frame motionless, make each metafiltration sieve the example relatively rocking.In addition, can also as shown in (b) of Fig. 5, make each metafiltration sieve relative with screen frame fixing, drive whole screen frame and screen to rock with respect to main body by being installed on the crank axle device 302 of main body.

In addition,, in the time adopting the aspirator of vacuum draw mode described later, can drive whole suction filtration case to rock with respect to main body by being installed on the crank axle device 302 of main body.

(sample collection device)

The general structure of the sample collection device 400 of the embodiment of the present invention has been shown in Fig. 1.In the embodiment in figure 1, sample collection device 400 is divided into two kinds--basket type gatherer 400a and funnel type gatherer 400b.As shown in Fig. 6 (a), basket type gatherer 400a is the basket that base plate is scattered with the sieve aperture consistent with the screen size of the screen of corresponding stage, conventionally be installed in the tail end of the superiors' screen 201, its objective is and collect larger-size object to be checked that the superiors screen 201 filters out etc., and drain to the funnel type gatherer 400b of lower floor by the water body that its filter opening may contain object to be checked.

As shown in Fig. 6 (b), the bell mouth 400b1, sectional area that funnel type gatherer 400b comprises the tail end place that is installed in screen from bell mouth 400b1 gradually downwards the cone-shaped collection face 400b2 of convergence, be connected in cone-shaped collection face 400b2 bottom gatherer 400b3 and be arranged on the controlled valve 400b4 of the bottom of gatherer 400b3, the bell mouth of this funnel type gatherer 400b is designed to receive completely the filtrate that corresponding screen filters out.As required, also can on described cone-shaped collection face 400b2, scatter the sieve aperture consistent with the screen size of the screen of corresponding stage, further fully to filter.In addition, can also make gatherer 400b3 for being with graduated transparent gatherer.It should be noted that at this, above-mentioned basket type gatherer 400a is not necessary constitutive requirements of the present invention, basket type gatherer 400a also can be set and for each metafiltration sieve, funnel type gatherer 400b be all set and carry out sample grading sample.

(aspirator)

As shown in Figure 7, aspirator has suction pump 500, can be conventional water pump, be arranged in main body 300, its water inlet is connected in adopts the conduit 103 of inhaling device 100, and water delivering orifice is the superiors' screen 201 discharged to classified filtering device 200 by water, preferably discharged to its initiating terminal.Now, for making the water that aspirates as far as possible equably discharged to screen 201, can make as shown in Figure 7 the water delivering orifice of suction pump 500 be connected in the comb 501 with the freeing port concordant with the initiating terminal of screen 201.The freeing port of comb 501 is erected near the initiating terminal of screen 201.

In addition,, for avoiding object to be checked, particularly hydrobiont by water pump fragmentation, also can adopt the mode of vacuum draw.Specifically, as shown in Figure 8 classified filtering device 200, main body 300, sample collection device 400 are placed in to airtight suction filtration case 701, make to produce negative pressure in suction filtration case by suction filter pump (vacuum pump), based on this negative pressure, be situated between by conduit 103 be communicated in suction filtration case adopt inhale device 100 will produce suction, realize adopt absorb collect object.

(drainage gathering-device)

With reference to Fig. 1, main body 300 is provided with drainage gathering-device 600 below multilayer screen, is equipped with the controlled valve 601 that can make drainage bleed off in the bottom of this drainage gathering-device 600, so that the water after each metafiltration sieve is filtered is collected aftertreatment.In addition, drainage gathering-device 600 can be also transparent material, and band is useful on the scale of weighing drainage volume, so as in quantitative collection using the amount of drainage as quantitative foundation.

In addition, as above about described in the explanation of Fig. 5 (b), when screen frame and each metafiltration sieve are integrally rocked with respect to pedestal, can be as shown in the figure, funnelform drainage gatherer is set below orlop screen, and is connected in the funnelform drainage gathering-device 600 that falls of below by flexible pipe.The flexible pipe that ensures abundant length by employing connects, can only make screen frame and each metafiltration sieve entirety rock, and needn't make the larger drainage gathering-device 600 of the quality that fills drainage of below rock together, for example, therefore can reduce the load that rocks power source (crank axle device).

Similarly, in the time adopting as previously mentioned the aspirator of vacuum draw mode, can be as shown in (c) of Fig. 5, be provided for collecting and deriving the flexible pipe of drainage in suction filtration case bottom, airtight below the other end of flexible pipe is sealedly attached to falls funnelform drainage gathering-device 600.The flexible pipe that ensures abundant length by employing connects, and can only make suction filtration case rock, and needn't make the larger drainage gathering-device 600 of the quality that fills drainage of below rock together, for example, therefore can reduce the load that rocks power source (crank axle device).

It should be noted that at this, this drainage gathering-device is not necessary constitutive requirements of the present invention.

(course of work of hydrobiont harvester)

The following describes the overall work process of the hydrobiont harvester of the embodiment of the present invention.

Adopt inhale the suction force of device 100 based on suction pump 500 and from water suction such as, containing the water that needs to be adopted object (planktonic organism, zoobenthos, sand grain etc.), this water is directed to the initiating terminal of the superiors' screen 201 of classified filtering device 200 by conduit 103, and because of the inclination of screen filter while to screen tail end flow, the sieve aperture of screen 201 is larger, therefore through the filtration of screen 201, compared with large filtrate along with the angle of inclination of screen landing collect in basket type gatherer 400a.Water after the superiors' screen 201 filters flows to second layer screen 202, through the filtration of this screen 202, collects the sample of time large scale (particle diameter) in the funnel type gatherer 400b corresponding with this screen 202.Similarly, the water after second layer screen 202 filters continues to flow to the 3rd metafiltration sieve 203, through the filtration of this screen 203, collects the sample of reduced size (particle diameter) in the funnel type gatherer 400b corresponding with this screen 203.Finally, through the drainage after the filtration of the 3rd metafiltration sieve 203 enter drainage gathering-device 600, carry out as required subsequent treatment (for example directly drain, or as quantitative according to).By above process, complete the basic hydrobiont collecting work of the embodiment of the present invention.

It should be noted that at this, in this instructions, be to describe respectively by each ingredient of hydrobiont harvester, and in the explanation of each ingredient, its variation is described or has improved feature, these variation and improvement feature can be carried out various combinations, and the technical scheme after combination will have the Overlay of these features.

The above, only the preferred embodiments of the present invention, not the present invention is done to any pro forma restriction, although the present invention discloses as above with preferred embodiment, but not in order to limit the present invention, any those skilled in the art, do not departing within the scope of technical solution of the present invention, when can utilizing the technology contents of above-mentioned announcement to make a little change or being modified to the equivalent embodiment of equivalent variations, in every case be the content that does not depart from technical solution of the present invention, any simple modification of above embodiment being done according to technical spirit of the present invention, equivalent variations and modification, all throw away in the scope that belongs to technical solution of the present invention.

Claims (10)

1. zoobenthos gathers a quantitative frame, it is characterized in that, comprising:

Enclose the certain framework of area,

Be connected in the recovery rope of described framework, and

Be connected in described framework, gather the water-bed fixed component of environment for described framework is temporarily fixed on.

2. zoobenthos as claimed in claim 1 gathers quantitative frame, it is characterized in that,

Described fixed component is anchor.

3. zoobenthos as claimed in claim 1 gathers quantitative frame, it is characterized in that,

Described fixed component is pouring weight.

4. zoobenthos as claimed in claim 1 gathers quantitative frame, it is characterized in that,

Described framework is right angle U-shaped, has for making the chute that suction nozzle stretches into and slides of adopting with limit component on the dual-side of this U-shaped frame.

5. zoobenthos as claimed in claim 4 gathers quantitative frame, it is characterized in that,

Described fixed component is the staple of being located at respectively two bottom comer of described U-shaped framework and the open end of two side.

6. zoobenthos as claimed in claim 1 gathers quantitative frame, it is characterized in that,

Described fixed component is the staple of being located at least diagonal position of described framework.

7. zoobenthos as claimed in claim 6 gathers quantitative frame, it is characterized in that,

Upper and lower surface side at described framework is equipped with described staple.

8. zoobenthos as claimed in claim 4 gathers quantitative frame, it is characterized in that,

Described staple is located at the upper and lower surface side of two bottom comer of described framework and the open end of two side.

9. the zoobenthos as described in claims 1 to 3,6,7 any one gathers quantitative frame, it is characterized in that,

At least diagonal position at described framework is connected with respectively buoy.

10. the zoobenthos as described in claim 4,5,8 any one gathers quantitative frame, it is characterized in that,

Be connected with respectively buoy in two bottom comer of described framework and the open end of two side.