RU2029468C1 - Trapping unit - Google Patents

Abstract

FIELD: fishery. SUBSTANCE: unit for trapping bottom-dwelling sea organisms (shellfish, sea stars, molluscs) has a collecting part with sequentially arranged net traps that are pockets secured between the side edges. The unit is provided with bars attached to the side edges, and it also has chains attached for sagging at points of attachment of the bars. It is expedient to provide the unit with cords and cord catches. The catches are bushings bent at an angle of 90 deg. The unit may be provided with shields fabricated from some buoyant material. EFFECT: convenience in operation; higher catching performance. 4 cl, 7 dwg

Description

 The invention relates to industrial fishing and can be used to catch sedentary bottom marine objects, such as sea urchins, stars, gastropods.

 Known generally accepted schemes for the order of traps [1], which include buoys, a ridge with traps attached to it using slings at a certain distance from each other, cargo deepeners or anchors depending on the ground and the speed of the current.

 A trap tier of this design when fishing bottom objects on heavy rocky-clastic sections of the seabed is not very productive, because if they fall on an uneven bottom, traps fixed on the ridge separately can fall into a crevice or in a position in which the entrance to the trap will be difficult or closed , while their deformation is not excluded. It is also difficult to unload the catch from closed traps.

 The closest technical solution is the trap layer of baskets for fishing sea urchin, which is used by Japanese fishermen [1].

 The tier contains two buoys, a buoy lead, two anchors, a ridge. 30-40 baskets with a distance between the leads of baskets of 5.4-5.5 m are attached to the tier of the longline.

 The tier baskets are made of net fabric fixed to a ring of ten-wire wire covered with a vinyl coating. At three points, three lines are attached to the ring. Stage setting is made in the direction of the current. In this case, make sure that the baskets do not turn over.

 Such a line is of little use for catching the above objects on rocky-clastic, uneven sections of the seabed. Traps can roll over, sink to the bottom in an uncomfortable position for fishing (sideways, falling into a crevice, freezing).

 The purpose of the invention is to simplify the design of the tier, increase the catchability and ease of operation.

 The goal is achieved in that the trap tier contains a storage reservoir, between the lateral edges of which trap pockets and rods are fixed. The rods allow you to give the formation the desired shape when setting the tier, and also contribute to a more complete copying of the relief of the seabed, performing the function of the load when the tier stagnates, and maintain the shape of the gutter when lifting.

 At the point of attachment of the rods to the lateral edge, sagging chains are attached to the face and edge. When the trap line is raised, the formation under the weight of the sagging chain and due to the connection of the edges of the formation with rods takes the form of a gutter, not allowing fishing objects to go beyond it. Under the influence of the flow of water and its own gravity, objects roll down to the bottom of a pocket trap.

 The catchability of such a tier is significantly higher than that of the prototype due to the fact that the proposed trap tier accumulates fishing objects not only in traps, but over the entire area of the reservoir.

Pockets traps are equipped with shields. When deepening, the flap contributes to the correct orientation of the tier, as well as the opening of traps-pockets, the working shape of which is constantly maintained due to the fact that the flap and traps are made of material with positive buoyancy, and the slings forming the frame of the trap are passed through the latches in the form of forks, curved at an angle of 90 ^about .

It is known that the most common commercial species of such a sedentary object as a sea urchin, Strongylocentrotus droebachiensic, prefers rocky soil and tidal zones with increased hydrodynamic activity. In such fishing conditions, the use of hydrodynamic guards is particularly effective. The distribution of hedgehogs is group, with a density of 30-40 specimens per m ² [2]. The speed of movement of hedgehogs is from 2 to 4 m / h, which allows you to catch them with the trap tier of the proposed design.

 As a rule, dried kelp is used as bait for hedgehogs, but a study of the nutrition of sea urchins has shown that they are heuris, necro, or detritophages. During experimental fishing, catches on rocky soils when using fish as bait were higher. The proposed longline design allows simultaneously fixing various types of food lures on the face and in traps over the entire surface of the net of the face, increasing the likelihood of attracting a fishing object and providing each object attracted to the face with free access to the bait. Otherwise, fishing objects will not be delayed.

 The proposed trap layer allows you to copy the surface of the seabed of any profile, while all possible positions of the pocket trap can be considered working.

 The tier is more convenient than the prototype in operation due to the fixation of traps on the surface of the reservoir and the elasticity of all its elements. The catch discharge process is easy to mechanize. The tier is easier to manufacture.

 In FIG. 1 shows a trap tier; figure 2 is a tier installed on rocky clastic soil of the seabed (type a in figure 1); figure 3 is a section bB in figure 2; in Fig.4 - node I in Fig.1 (latch strap frame of the trap-pocket); figure 5 - tier, equipped with shields; in Fig.6 - node II in Fig.5 (shield mounted on a trap pocket); 7 is a diagram of the unloading of the catch from the trap tier.

 The proposed trap tier contains a mesh storage layer 1, between the lateral edges 2 of which are fixed mesh traps-pockets 3 and rods 4, which allow the formation of layer 1 to give the desired shape to the layer 1. At the point of attachment of the rods 4 to the edge 2 to the reservoir 1 and the edge 2, sagging chains 5 are attached, while raising the tier together with the rods, they allow the formation 1 to form the groove (Fig. 3).

 Trap pockets 3 are made of net material with positive buoyancy, and as a frame are semi-rigid slings 6, passed through the latches 7, made in the form of forks, bent at an angle of 90 °. The trap is equipped with a flap 8, made in the form of a wing, divided into two equal parts, located on both sides of the net web and the slings 6 of the trap-pocket 3 and interconnected by means of bindings 9. The flap is also made of material with positive buoyancy.

 When setting the tier on the reservoir 1 and inside the traps 3 attach the bait 10 for the fishing object 11. The tier is equipped with slings 12 for attaching to the buirp 13 and buoy 14 and cargo-recesses 15.

 When unloading the catch using a roll drum 16, fixed on board 17 of the vessel, the fishing object 11 under the influence of its own weight rolls out of the trap through the reservoir onto the sorting table.

 Trap tier works as follows.

When descending from the vessel, the tier is deepened with the help of a cargo-deepener 15, and also due to the weight of the rods 4 and chains 5. At the same time, the shields 8 contribute to the correct orientation of the tier, as well as the opening of trap-pockets 3 due to the action of hydrodynamic forces. When using a tier on especially difficult soils, the number of slings 12 is increased to 5-8 and placed in the form of a fan to exclude an accident and hit stones on layer 1 at the moment the movement starts when the tier rises. Having reached the bottom, the net accumulative layer 1 lies in the form of a track, copying its relief. Due to the rods 4, the layer 1 is in a straightened state and is in contact with the seabed along the entire length. The greatest contact is achieved when performing the edges 2 of the layer 1 of the chains or when equipping them with chains. Trap pockets 3 take a working form due to the fact that all of its elements are made of material with positive buoyancy. With stagnation of the tier, the flap simultaneously performs the functions of a float. In addition, the inlet of the trap-pocket 3 is constantly disclosed due to the semi-rigid frame of the slings 6, passed through the clips 7, bent at an angle of 90 ^about . Thus, in any fishing conditions, the traps will be in working condition and accessible to the fishing object.

 The action of the food bait 10, mounted on the reservoir 1 and inside the pockets 3, allows you to concentrate the fishing object 11. The large storage area of the proposed tier allows you to use several types of bait at the same time to attract fishing objects. Attracted by food bait 10 to reservoir 1 and into trap pockets 3, fishing objects 11, eating it, have been in the fishing zone for a long time. Moreover, the fact that a plentiful amount of food bait makes it possible for all attracted objects 11 to freely access it would be of great importance, otherwise they would leave the limits of the trap tier. Almost the entire surface of the net accumulative layer 1 is a kind of trap. After the estimated tier stagnation time, it is raised. When lifting chain 5 at the point of attachment of the rods 4, attached to the edges 2 and to the layer 1, sag along with the net plate 1, forming a groove along which everything that was on its surface rolls into a trap-pocket 3. At the same time, it is of great importance has a U-shaped inlet of the trap-pocket 3 and its full disclosure, since the fishing object 11 over the entire width of the reservoir 1 must have a free passage inside the pocket-trap 3 concentrating the catch, taking into account that the fishing object 11 at this moment may float up. Depending on the purpose of the catch, the size and configuration of the mesh of the net storage reservoir 1 and the pocket trap 3 can be different. Depending on the mesh parameters, face 1 and pocket trap 3 will delay objects 11 of only a certain size, i.e., selective fishing objects will be selectively selected, and small-sized objects will pass through the mesh, which will eliminate their death and injury. The longline is selected by the vessel from the buoy 14 and the buirp 13, then the formation 1 with the traps-pockets 3 is lifted by slings 12 by means of the roll-drum 16, as, for example, on vessels of the Dory type. Sampling can also be carried out if necessary through the slip of the vessel. The sampling process is easy to mechanize. Due to the elasticity of all its elements, the longline easily rolls into a roll, and the catch, due to its own gravity, falls out of the pockets 3, the inlet of which is open due to the semi-rigid frame, the U-shaped shape of which is supported by the latches 7 during unloading of the catch.

 Using the proposed trap tier will allow you to catch sedentary bottom objects in difficult rocky-clastic sections of the seabed and at the same time increase the catchability due to the increase in the working surface accumulating the fishing object during the stagnation of the tier. The tier allows you to simultaneously use several types of food bait, increasing the likelihood of its impact on the object of fishing. The tier is convenient in operation, since the process of its installation and selection is easy to mechanize, and when the tier stagnates, the opening and working position of all pockets traps are guaranteed. The tier is easy to manufacture.

Claims (4)

 1. A TRAIL LAYER comprising a supporting element, net traps, buoys and cargo deepeners sequentially located on it, characterized in that, in order to increase the perceptibility and ease of use, the supporting element is a storage layer, and the traps are made in the form of pockets, located between the lateral edges of the formation, while the tier is equipped with rods attached to the lateral edges of the formation, and chains connected with the possibility of sagging to the lateral edges and to the formation at the point of attachment of the rods. 2. The tier according to claim 1, characterized in that, in order to give the traps a given shape, they are equipped with slings located on their lateral sides, and slings clamps made in the form of forks bent at an angle of 90 ^o .  3. The tier according to claim 1, characterized in that the net traps are made of material with positive buoyancy.  4. The tier according to claim 1, characterized in that each trap is equipped with a shield made of material with positive buoyancy.

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