RU2020810C1 - Fishing device - Google Patents

Abstract

FIELD: commercial fishery. SUBSTANCE: device positioned on board of fishing vessel 1 includes side hoist trap and lighting system consisting of deck lights 14 and focal lights, all being disposed on arc-like float 8. Concentration of fish near float 8 within limits of illumination fields set up by lights prevents bifurcation of catch by lower rope when picking out trap. EFFECT: prevention of bifurcation of entrapped catch and minimization of adverse effect of rolling on concentration of water surface illumination. 4 dwg

Description

 The invention relates to industrial fishing, in particular to saury fishing by side lifting traps.

 A device for fishing is known, including a fishing vessel and an airborne lifting trap, a cable system connected to the vessel. The trap contains a net web planted on rebounds, tie ropes and rings, as well as an expansion pole to which the top pick is attached. The expansion pole is hollow and also performs the role of buoyancy. To attract saury to the trap’s catchment area, the device includes a fishing lighting system containing luminaires located along the perimeter of the vessel for transferring saury to the trap’s coverage area, as well as a concentration lamp for saury concentration, mounted on the shot and located directly above the trap’s coverage area.

 A disadvantage of the known technical solution is as follows. In practice, the length of the shot on which the concentrating lamp is placed reaches 10-13 m, depending on the size of the vessel. In marine conditions, with side-rolling, this leads to sharp changes in illumination on the surface of the water, which significantly reduces the concentrating capabilities of the lamp. In addition, since the distance from the side of the vessel to buoyancy is 20-50 m, the light spot of the concentrating lamp, taking into account the length of the shot, is located closer to the side of the vessel. Therefore, when sampling the bottom selection of the trap during the fishing of the fish, the selection of the school is dissected, which leads to incomplete fishing of the fish concentrated in the school. Thus, the above disadvantages reduce the effectiveness of saury fishing by side traps in general.

 Closest to the technical nature of the claimed is a device for fishing, including a fishing vessel and an associated cable system side lift trap. The airborne trap contains a reticulated web, tie ropes and rings, as well as an expansion pole to which the top pick is attached. The expansion pole is hollow and also performs the role of buoyancy. To attract saury to the trap’s catchment area, the device includes a fishing lighting system consisting of luminaires located along the perimeter of the vessel to transfer saury to the trap’s area and a group of concentrating lights to maintain fish concentration in the trap’s area. A group of concentrating lights is located on a shot above the trap coverage area.

 A disadvantage of the known technical solution is as follows. The length of the shot, on which the group of concentrating lamps is installed, like that of the analog device, is no more than 10-13 m, depending on the size of the vessel. In marine conditions, with onboard rolling, the concentrating lamps located at the tip of the shot oscillate in the vertical plane, and the amplitude of the oscillations is greater, the stronger the rolling and the longer the shot. Such oscillatory movements of luminaires sharply reduce their concentrating capabilities. Moreover, the differences in illumination that occur during on-board rolling on the surface of the water in the zone of trap action under certain conditions often cause a negative saury reaction to light, which entails the fish leaving the zone of trap action. In addition, since the expansion pole - buoyancy depending on the size of the vessel and the trap is located at a distance of 20-50 m from the side of the vessel, and the length of the shot is limited to 10-13 m (a further increase in the length of the shot complicates its design and operation), then the light spot created by concentrating lights, is not located in the center of the space trapped, but closer to the side of the vessel. This leads to the fact that the lamps concentrate the fish in the immediate vicinity of the side of the vessel, i.e., in the place through which the bottom selection passes during the selection of the trap, dissecting the formed jamb, resulting in an incomplete volume of the jamb. Thus, the aforementioned disadvantages reduce the effectiveness of saury fishing by side traps.

 The purpose of the invention is to increase the efficiency of saury fishing with side traps.

 The goal is achieved by the fact that in the known device for fishing, including a fishing vessel, an associated cable system, an onboard lift trap equipped with buoyancy, and a fishing lighting system containing a group of concentrating lamps, a group of concentrating lamps is located on the buoyancy of an onboard lifting trap. The buoyancy hull has an arched shape.

 Improving the efficiency of fishing is achieved due to the location of the light spot closer to buoyancy, which allows you to concentrate the fish in the area of reliable trapping by the trap and to prevent dissection by lower selection of the jamb when sampling the trap, as well as by eliminating the influence of side rolling on the nature of lighting.

 Figure 1 shows the device, a General view; figure 2 - buoyancy with concentrating lights located on it, side view; figure 3 is the same, a top view; figure 4 - position of the jamb when sampling the trap.

 The device comprises a fishing vessel 1, on the side of the working board of which an airborne lifting trap 2 is installed. The trap has a web 3, traditional equipment, and is connected to the vessel 1 via ropes 4 of angular loads 5 and a lifting cable 6, wound on the boom block 7 of the vessel for lifting and taking overboard traps. The trap is equipped with tie ropes and rings (not shown), as well as a spacer pole in the form of buoyancy 8. The buoyancy body is a piece of a hollow pipe with a diameter of about 500 mm made of aluminum alloy or, preferably, polyethylene. The ends of the pipe are muffled. The buoyancy body is made arcuate, to give the body such a shape, the ends of the pipe are pulled together by a tie 9.

 This design of buoyancy allows you to ensure a stable position of its body on the surface of the water and in particular to prevent axial rotation, characteristic of traditional direct buoyancy. With a buoyancy hull length of the order of 25 m, the deflection boom h is 1.5-2 m. For buoyancy, using a system of rods 10, supported by a buoyancy body and a tie 9, a group of concentrating lights 11 and 12 is installed. The rod system 10 contains hinges 13 for damping shock loads arising under the influence of waves or possible impacts of the buoyancy hull against the side of the vessel. The luminaires 11 and 12, respectively, of white and red light, are installed at a height of about 1 m above plane A of the deflection of the buoyancy body in the central part of the space bounded by the buoyancy body and screed 9. This arrangement of the lamps eliminates the formation of a shadow zone under the buoyancy body and places a light spot in close proximity to the net part 3 traps. Power fixtures 11 and 12 can be carried out by cable (not shown) from the side of the vessel. To transfer saury to the trap coverage area, the device is equipped with white lights 14 located along the light and partially working sides of the vessel 1, mounted on shots 15.

 The device operates as follows. In the area where the schools of saury are observed, include all deck deck lighting, i.e. luminaires 14, and lower the side lift trap into the water. The trap is set up in the traditional way, diverging the expansion pole 6 buoyancy 8 from the side of the vessel with the help of arrow 7. Further removal of the trap from the side is carried out due to the wind drift of the vessel, since the trap is always placed on the windward side, after which they give slack to cable 6. On the set trapped include 11 white light fixtures. At the same time, saury is concentrated at the sides of the vessel in the light fields of the luminaires 14 and partially in the light field of the lights 11. To transfer all the fish into the catch zone by the trap, the lights are switched off one by one, starting from the stern of the vessel, 14. The saury thus goes along the light side to the bow of the vessel, and then along the working board into the catch zone by a trap. When the last side lamp 14 is turned off, only the light field of the lights 11 is active. Since the lights 11 are located on the buoyancy 8, the saury from the side of the vessel moves towards the buoyancy and begins to concentrate in the light field of the lights 11, in close proximity to the net 3 that hangs freely under action of cargoes 5. Since the jamb of saury is concentrated in the surface layer of water, when excited, the jamb and buoyancy 8 with lights 11 and 12 are synchronous, with the same amplitude of movement, mayor manner does not create sharp edges on the illumination surface of the water, preventing the concentration of fish. The cable 6, when the trap is in the working position, has a slack sufficient so that the vibrations of the hull 1 during rolling are not transmitted to the buoyancy hull 8. Then, the luminaires 11 are simultaneously turned off and the red lights 12 are turned on for a short time, for 1-2 minutes, to maintain concentration of fish while raising traps. The trap is raised by selecting the cables 4. At the same time, the lower selection of the net part 3 is pulled to the side of the vessel, and the net part itself, by selecting the tie ropes on its sides, takes the shape of a bowl. Since luminaires 12 work when selecting ropes 4 and tie ropes, the cant, which is closer to buoyancy 8 than to the side of vessel 1, is not cut by the lower pick-up net part 3. Further operations, i.e. the catch is caught and the trap is lifted to the sides of the vessel in the traditional way.

Compared with the prototype, the proposed technical solution has the following advantages:
1. Due to the installation of concentrating lights on buoyancy, performing synchronous oscillations with the school of fish in the surface layer of water, it eliminates the negative impact of the side rolling of the vessel on the concentrating capabilities of the lamps.

 2. Due to the installation of concentrating lights on buoyancy, it allows you to concentrate the fish closer to the net web of the trap in the buoyancy area and to exclude, thereby, dissection of the jamb with the lower selection when sampling the net part of the trap.

 3. Due to the installation of concentrating lights on buoyancy, it allows them to be brought closer to the surface of the water and thus maintain the level of illumination in the fishing zone with a lower power of the lamps.

 4. The above technical advantages make it possible to increase the efficiency of saury fishing by an onboard lift trap by reducing catch losses during hauling.

Claims (1)

 A FISHING DEVICE, including a fishing vessel, an onboard lift system trap connected with it, a buoyancy trap equipped with buoyancy, and a fishing lighting system containing a group of concentrating lights, characterized in that the group of concentrating lights is located on the buoyancy of a side lifting trap, and the buoyancy body has an arcuate shape form.

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