SU1068087A1 - Apparatus for taking plankton samples - Google Patents

Abstract

1. A DEVICE FOR TAKING TESTS OF PLANKTON ORGANISMS, mostly fish, when studying their distribution in the water flow, containing conical nets, vertical elements for installing nets in a river at different fishing horizons, and a mechanism for opening and closing cone nets, about one liter and so that, with the aim of simultaneously opening the inlet openings of all conical networks and their simultaneous closure at specified intervals of time and increasing the reliability of the research results, each vertical e The element consists of a rod that is ekered at the bottom of the river, a pipe with a faceted outer surface mounted on it with a gap, and a rack mounted in the upper part of the rod, carrying a pulley at the free end, nozzles are mounted on the pipes for fastening conical rims, and the opening and closing mechanisms the openings of the conical networks are formed from the propeller blades of the figured form, attached to the upper ends of the pipes by means of additional power supplies, and the ca-Nath, passed through the pulleys of the vertical posts with the possibility of changing length, while the blades are installed with the formation between them and the rims of conical nets with an obtuse angle of 135 ° and are connected to the ropes by flexible ties for their movement from the air into the water and HacSopoT with a change in the length of the rope and thus turning pipes with conical nets relative to the flow of water.

Description

2, the apparatus according to claim 1, characterized in that it is provided with limiters of rotation of the tapered nets and propeller blades, reinforced with this, respectively, on the rods and on additional nozzles.

The device relates to biology, 3 specifically to devices, for sampling planktonic organisms, and can be used to study the distribution of fish in a stream of water, for example, when juveniles slope in rivers.

A device for sampling is known, which contains vertical elements towed from a vessel and conical nets fixed to them for sampling. When working with the device, in each riverbed of the river, 15 conical networks are spaced apart by a distance of 40-60 meters in the horizons and distributed along the depth of the river.

Under these conditions, it is impossible to simultaneously test on all cone nets in one spot, which reduces the reliability of the results obtained on the distribution of fish in the river section, as during the rise of the net, the young fish continue to enter it through the open mouth.

The closest to the invention in technical essence and the achieved effect is a device for sampling planktonic organisms containing conical networks, vertical elements for installing networks in a river at different horizons and a mechanism for opening and closing the inlets of conical networks C2.

Although there is a mechanism in the known device for opening and closing the inlets of the cone nets, however, its operation is such that it sequentially opens and closes the inlets of the nets located in different fishing horizons, which reduces the reliability of the results.

The aim of the invention is the one-time opening of the inlet openings of all cone networks and their simultaneous closing at specified time intervals and increasing the reliability of the research results.

In order to achieve the goal in a device for sampling a plan of ktonny organisms, mainly fish of the gfi, studying their distribution in an ox flow containing conical networks, vertical elements for installing nets in the river on various

the fishing horizons and the mechanism for opening and closing the inlets of the cone nets, each vertical element consists of a rod fixed on the river bottom, worn on a tailgate with a gap of a pipe with a faceted outer surface and mounted on the free end of the rod of the stand bearing on the free end of the pulley nozzles for fastening rims of conical nets are mounted, and the mezzanism of opening and closing the inlets of cone nets is formed from propeller-shaped paddles fixed to the upper ends of the pipes by means of additionally nozzles, and a rope passed through pulleys uprights with the possibility of changing its length, wherein the blades are mounted between them to form a rim and mi conical networks Tu. a 135 ° angle and is connected to the rope by flexible ties to move them from air to water and vice versa when the length of the rope is changed and thus the tubes with conical nets are turned relative to the water flow.

In addition, the device is equipped with rotation limiters for conical networks and rowing Blades fixed on rods and on additional nozzles respectively.

FIG. 1 shows a device installed in a cross section of a river, front view; in fig. 2 - the same, plan view (in two working positions of full opening and full closing of the inlets of the cone networks); in fig. 3 - vertical element; in Fig „4 and 5 details of the element.

The device for sampling planktonic organisms consists of conical nets 1, vertical elements 2, mounted on the bottom 3 of the river and a rope 4 connecting the vertical elements 2 (Fig. 1), while the ends of the rope 4 are fixed on the opposite banks, reti through vertical elements 5 and crutches 6, which are driven into the ground

Each vertical element 2 (Fig. 3) consists of a rod 7, a pipe 8 with a faceted outer surface, worn with a gap on the rod 7, and a vertical post 9 with a hole 10 along its axis, worn with a gap on the upper part of the rod 7. On pipe 8, nozzles 11 and 12 are installed, on the first of which, propellers are mounted in the upper part of pipe 8. The blades are 13 of a transparent form, and on others - the rim of 14 conical nets 1. At the free ends of vertical posts 9 there are pulleys 15 sec. the grooves for the passage of the rope 4, and the propeller blades 13 are attached to the latter by means of flexible links 16 and are installed so that 14 conical networks are formed with the rim: 1 tu sing angle сА equal to 135. In addition, on each vertical element 2 provided for limiter 17 rotation of the cone networks installed on rod 7, and limiter 18 for turning the propeller blades: mounted on the nozzle 11. On the vertical elements 5 there are also supports 9 and arms for passing the cable 4, and at the ends of the latter there are rings 19 for interacting with the crutches 6. Pere the chain of ring 19, it is possible to adjust the tension of the rope 4 and change its length. The nozzle 11 (FIG. 4) has an axle axis 21 and a cotter pin 22 for mounting the Yusi 21 propeller blade 13, as well as a stopper bolt 23 for fastening to the tube 8. The nozzle 12 is also equipped with a stopper bolt 23 for fastening on the tube 8. Both nozzles 11 and 12 have square windows 24 for planting with a gap on the tube 8 “. In FIG. 5 shows the upper part of the pillar 9 with the axis 25 for mounting the pulley 15 o Racks 9 are equipped with straps 26 that hold the rope 4 in the grooves of the pulleys 15. A supporting ball bearing 27 with a ring 28 is mounted between the tube 8 and the stand 9 to secure the cord 29 with a bark 30 at the end . The pipe 8 contacts the washer 31 mounted on the rod 7 (between them there may be statues of support-ball bearing flax. For concentrating the catch, the tapered nets 1 are equipped with drain cups 32. The pipe 8 may, if necessary, be formed of several parts to adjust its length , and the rods 7 can have different lengths for placing cone networks on river sections with different depths. The device works as follows. When preparing the device for operation, rods 7 and pipes 8 of the required length are selected so that the pulleys 15 are The left rods of the rods 7 in the bottom of the river 3 were equally spaced from the surface of the water. Vertical elements 2 were secured vertically with 29 h Korea bar cords 30 which were fixed in the bottom 3 of the river upstream 33 Rods 7 hammered into the bottom 3 of the river, on their upper ends, protective caps made of soft metal. On pipes 8, nozzles 12 with conical nets 1 are fixed at a given height so that after installing pipes 8 on rods 7, cone nets 1 are at different distances from the surface of the water. The rods 7 are fitted with pipes 8, nozzles 11 with propeller blades 13, bearings 27 and pillars 9, after which the cords 29 are fastened to bearing rings 27, ensuring a stable vertical position of the vertical elements 2. Install the cord 4 on the pulleys 15, put on slats 26 on the rings 19 Flexible connections 16 are fixed on the cord 4, providing such an arrangement of the cone nets 1 downstream 33 (position A), when the entrance to the cone nets 1 is completely closed and the crest blade 13 is in the air in a horizontal position (Fig. 1 and 2). At the same time, the cord 4 and the propeller blade 13 are also in position A, Position A Initial for sampling At a given point in time they begin to take a sample with all conical nets 1. To do this, the rings 19 are re-chained, increasing the length of the cord 4, while the propeller blades 13 are lowered into the water under the action of their own gravity and thinning the pipe 8 and the rim 14 of the tapered nets 1 by about 90® under the action of water flow. The cone nets occupy position B when the entrance to them is fully open, the cord 4 and the crest of the blade 13 are also in the position K (Fig. 2 and 1). During a predetermined time, the accumulation of the cone net x 1 occurs (a sample is taken). Then the length of the cord 4 is reduced, the chain of the ring 19 is retracted, while the propeller blades 13 extend out of the water and the current turns the cone nets 1 into position A, completely closing the outlet and the fish in the cone nets 1. This ends the sampling 32, empty them and record the catches of the nets 1. If the conditions do not allow the cups 32 to be removed in position A, when the cone nets 1 are in the water, then the cone nets 1 must be lifted out of the water. To do this, remove the pillars 9 from the rods 7, the nozzles 11, the bearings 27. and lift up the pipes 8. Before the next fishing cycle begins, they restore the initial position A of the tapered nets 1. For normal operation of the device, the angle “f. was blunt and was 135 °. “Increasing the angle to 180 ° may cause blade 13, lowered into water in position A, to not be able to transfer cone networks 1 to position B, since in practice it will be located in the direction of flow 33 Decrease angle “A d © 90 also does not ensure the translation of the cone networks 1 to the position B for the same reason. The invention allows to obtain reliable results in sampling and can be used in the design of fish protection structures and to study the distribution and distribution of larvae and early juvenile fish, as a result of which the death of the latter is reduced.

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Claims (2)

1. DEVICE FOR TAKING SAMPLES OF PLANKTON ORGANISMS, mainly • fish, when studying their distribution in the water stream, containing cone nets, vertical elements for installing nets in the river at different fishing horizons and the mechanism for • opening and closing the inlets of cone nets characterized in that, with the aim of simultaneously opening the inlet openings of all conical networks and simultaneously closing them at predetermined time intervals and increasing the - g In order to ensure the reliability of the research results, each vertical element consists of a rod mounted on the bottom of the river, worn on it with a pipe gap with a faceted outer surface and installed in the upper part of the rack rod supporting the pulley at the free end, nozzles are mounted on the pipes for fastening the rims of the conical nets , and the mechanism for opening and closing the inlet openings of the conical nets is formed of curly-shaped rowing blades fixed to the upper ends of the pipes by means of additional nozzles, and a rope skipped through the pulleys of the uprights with the possibility of changing its length, the blades being installed with the formation of obtuse angles of 135 ° between them and the rims of the conical nets and connected with ropes by flexible connections for their movement from the air into the water and when changing the length of the rope and thus turning pipes with conical but water flow. relative networks 2. The device according to π. 1, characterized in that it is equipped with rotation limiters of conical nets and propeller blades, which are mounted respectively on the rods and on additional nozzles.