RU2406300C1 - Method of fishing and catching marine invertebrates - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention may be used in the fishery of aquatic organisms positively reacting to light. Method of catching fish and marine invertebrates is to place on the perimetre of the boat of light sources parallel to the water surface for at least two levels with the possibility of rotation about the vertical and/or one of the horizontal axis and/or towards their longitudinal axis, at that the power of light sources placed on the lower level is lower than the power of light sources located on the upper level. Concentration of catch is carried out by displacement of commercial peak of the spectral characteristic of light sources located on the lower level, towards the red light and/or their alternate turning-off towards the light sources located above the gear. Preferably, the light sources of the upper level with a capacity of up to 5 kW are placed above the deck at the height of the upper tier of ship masts. At the lower level the lamps are used with capacity from 0.5 to 1.5 kW. Upon completion of the concentration with the well-known techniques the object of fishing is captured, the gear is raised, and the catch is notched.

EFFECT: provision of opportunities for regulation of the light field in a wide range at all stages of fishing, from attraction the object of fishing to its seizure by fishing gear, which contributes to the efficiency of fishing.

4 cl, 11 dwg

Description

The invention relates to industrial fishing, namely to fishing and marine invertebrates, and can be used for fishing and marine invertebrates that respond positively to light.

A known method of fishing by creating a light field around a fishing vessel, including placing along its perimeter fishing lights containing incandescent lamps RL 500 with a candle-shaped bulb, a Z-shaped filament and a screw base (lamps are arranged in the same row at the same distance between their centers), and changing the luminous flux emitted by field lighting means by changing the power parameters of the light sources (Sidelnikov II. Production of Pacific fish and squid. M. : Light and food industry, 1981, p.67-70).

The disadvantage of this method is the insufficiency of the created luminous flux, which does not significantly increase the efficiency of fishing. An increase in the luminous flux intensity is achieved by increasing the number of lamps in the hulls of fishing chandeliers, the length of which on modern fishing vessels reaches 3-4 meters. The use of this device in places of low concentration of fish, requiring increased illumination, in fishing conditions is very complicated.

A known method of fishing and marine invertebrates, including setting the fishing gear, giving it a working form and concentration of the fishing object with light by turning off the light sources in the direction of the fishing gear, raising and removing the catch (p. RF No. 2170013, A01K 79/00, publ. 07/10/2001).

However, the known method allows for a sufficient concentration of fish only at the final stage of fishing, over the fishing gear.

Closest to the claimed technical solution is a method of fishing and marine invertebrates, including setting the fishing gear, bringing the fishing gear into working form, the concentration of the catch by turning on and off the light equipment located around the perimeter of the fishing vessel, capturing the fishing object, raising and removing the catch (p. RF No. 2264098, A01K 73/00, publ. 2005).

This technical solution uses linear halogen incandescent lamps of an arbitrary position of combustion, while they are installed in such a way that their glow bodies are located in one line and glow with yellow light. In industrial fishing, this invention provides a wide uniform distribution of light and helps to attract fish and marine invertebrates to the side of the vessel, however, for the concentration of fish, the resulting light flux is often not enough, as a result, the fishing efficiency does not significantly increase. Due to the fact that the transfer of fish and marine invertebrates to the fishing gear area is carried out by gradually turning off the lights on board the vessel, a partial departure of the fish from the side of the vessel is observed, due to both reduced lighting and the use of yellow rays, which are significantly scattered by the water.

The task is to increase the efficiency of fishing due to the ability to control the luminous flux in a wide range at all stages of fishing, from attracting an object to its capture by a fishing gear.

The technical result achieved in solving the problem is expressed in ensuring uniformity and increased light flux density in the fishing zone, which are optimal for each stage of fishing (and optimal for a wide range of fishing objects), and, on this basis, the exclusion of partial departure of fishing objects from the side of the vessel. In addition, it is possible to control the lighting industrial complex, and the range of functional tasks to be solved when using it is expanding.

The claimed technical result is achieved by the fact that in the known method of fishing and marine invertebrates, including setting the fishing gear, the concentration of the catch using light sources placed around the perimeter of the fishing vessel, capturing the fishing object, raising the fishing gear and dredging the catch, according to the invention, the light sources have parallel to the surface of the water at least at two levels with the possibility of rotation relative to the vertical and / or one of the horizontal axes and / or relative to their longitudinal axis, while lower-level light sources lower power light sources arranged on the upper level. The concentration of the catch is carried out by shifting the fishing maximum of the spectral characteristic of the light sources located at the lower level towards the red light and / or by switching off the light sources alternately in the direction of the light sources placed above the fishing gear.

Light sources of the upper level are placed above the deck at the height of the upper tier of the mast of the vessel. As light sources at the upper level, fixtures with a power of up to 5 kW are used.

As light sources at the lower level, lamps with a power of 0.5 to 1.5 kW are used.

In the claimed invention, known devices for field lighting can be used as light sources, in particular, as 1786539 and are protected by patents of the Russian Federation No. 2027360, 2212131, 2320101.

The arrangement of light sources parallel to the surface of the water provides a uniform illumination of the water surface, which avoids sudden changes in illumination, which prevents partial loss of the school (leaving the fish from the fishing zone), which contributes to a greater concentration of the caught object at the side of the vessel.

The placement of light sources at least at two levels allows you to maintain the desired intensity of the light flux, which contributes to the concentration of fish or marine invertebrates (a fished object) near the vessel at all stages of fishing, increasing, in the final result, the effectiveness of fishing. The number of levels can coincide with the number of fixtures in the chandelier and can be from two to four or more, which, by turning them off one by one, allow smoothly adjusting the intensity of the light flux and changing the field maximum of the spectral characteristics of light. This, in turn, can significantly increase the efficiency of fishing, since uneven lighting leads to uneven movement of the caught object to the light source, a change in movement and partial loss of the caught object (leaving the uncomfortable light zone).

Thus, the placement of light sources at the upper level ensures the attraction of fish located in large areas and at a considerable distance from the side of the vessel.

The preferred location of the upper level luminaires above the deck at the height of the upper tier of the mast of the vessel is due to the fact that, otherwise, there is a screening of the illuminated area of the water surface by the side, and over lighting is observed over the deck. Excessive illumination negatively affects the eyesight of personnel, in particular the operators who control the fishing process of the fished object, and also, under certain weather conditions (fog), can scare off the fished object. Moreover, even with a slight roll-off, the extreme light zone moves across the side of the vessel, which causes the effect of “impulsive light”, and fish or marine invertebrates can leave the fishing area. In the end result, this will lead to a reduction in catch. In addition, the high location of light sources allows you to attract fish and marine invertebrates from a larger area. The optimal location is at a height of 6-10 m and is also due to the fact that the location of light sources above the mast of the vessel is technically difficult to carry out.

The use of luminaires with a power of up to 5 kW with a blue spectrum on the upper level makes it possible to attract fish and marine invertebrates that respond positively to light from a larger area by creating a powerful luminous flux. At the upper level, it is preferable to use lamps with a minimum screen, the working fluid of which is as open as possible in all directions, they can be used, in particular, KGP-220-5000 lamps.

Lighting equipment located at the lower level (4-5 m above the water) allows you to concentrate fish and marine invertebrates at the side of the vessel, and due to the lower power from 0.5 to 1.5 kW creates milder comfortable conditions for concentration of the fished object, approximate to the natural conditions that are observed at sunset and evening twilight. As a result, the object being caught is held in the jamb longer, creates a denser cluster and allows itself to be caught.

At the lower level, it is recommended to use light sources that are covered from above with a reflector casing to preserve the light source and prevent overheating of the power cables (Section RF No. 2320101). As a concentrating chandelier at the lower level, placed above the fishing gear, a chandelier equipped with high sides that cover the working body, creating uniform illumination under the chandelier in a limited space, and having a ventilation hole, since a large number of sources are concentrated, can be used light, see p. RF No. 2212131.

The sign "the ability to turn light sources relative to the vertical and / or one of the horizontal axes and / or relative to their longitudinal axis" allows you to change the spatial position of the fishing lighting and provide the illumination necessary at a particular stage of fishing of fish and marine invertebrates, and, as a result, achieve optimal concentration of fish and marine invertebrates at certain stages of fishing (search, attraction, concentration and retention of the object over the fishing gear). In addition, it provides the ability to control the density of the light flux in the fishing zone by superimposing on each other light spots of light sources and, as a result, to a greater extent attracts the caught object to the side of the vessel.

Manipulation of the light flux by shifting the maximum of the spectral characteristic toward red light allows us to briefly, for the period of sampling (raising) of the fishing gear, concentrate the catched jamb in a small area. The fishing maximum of the spectral characteristic is determined by the presence of a stable vector of movement of fish or marine invertebrates towards the vessel with increasing concentration of fish or marine invertebrates at the side of the vessel. This vector is determined at a given moment in time, taking into account fishing conditions and hydrometeorological conditions (wind, waves, water color, atmosphere color, presence of water suspension (fog), twilight lighting, and other factors affecting the fish reaction), and is recorded with using sonar or visually from the ship’s bridge. The shift of the fishing maximum of the spectral characteristic to the red color can be achieved by reducing the voltage of the artificial source, introducing light filters, using gas discharge lamps and incandescent lamps with the necessary emission spectrum.

Moving in the process of fishing and marine invertebrates of the fishing maximum spectral characteristics of light from blue to red provides a change in the depth of penetration of the light flux into the water and a decrease in the area of the illuminated area, thereby ensuring maximum concentration of the fish of the object being caught in the fishing gear, thereby increasing the efficiency fishing. It has been observed that red is more attractive to fish, in particular to Pacific saury Cololabis saira.

The ability to turn off the light sources in turn in the direction of the light sources located above the fishing gear (the shutdown begins with the lamps farthest from the trap), contributes to the focused concentration of the caught object over the fishing gear.

The invention is illustrated by the following drawings. In FIG. 1 shows the placement of lighting equipment in the saury fishing from the stern (all lights are turned on), where 1 is the upper level lamps, 2 is the lower level lamps, 3 is a concentrating chandelier located above the fishing gear, 4 is a vessel, 5 is a fishing gear, a trap; figure 2 shows the influence of lighting equipment on the process of attracting saury to the side of the ship (included lights placed on the sides of the ship); figure 3 shows the effect of lighting equipment on the process of attracting saury to the range of fishing gear (included lights located aft); figure 4 shows the influence of the light spectrum on the concentration of the catch when the lamp is on, located above the fishing gear; figure 5 shows the behavior of the fish when changing blue light to red; figure 6 presents the imposition of light spots of light sources in the fodder catch pattern by creating light corridors; Fig.7 shows the reversal of light sources to the stern and the entry of fish into the fishing zone by fishing gear; on Fig shows the phased shutdown of onboard lamps; Figs. 9-11 show the influence of light on the on-board fishing scheme, where Fig. 9 is a top view (all lights are on), the process of attracting fish to the vessel occurs, Fig. 10 shows the process of concentrating fish at the side of the vessel (gradual shutdown luminaires of the upper level, luminaires of the lower level and above the fishing gear are turned on), Fig. 11 shows the concentration of fish above the fishing gear for subsequent fishing, carried out by shifting the fishing maximum of the spectral characteristic from blue to red light.

The method is as follows.

Upon the arrival of the fishing vessel in the fishing area, the operators set the fishing gear 5, turn on the lights of all lighting levels, placed on board the vessel 4, at full power: luminaires of the upper level 1, luminaires of the lower level 2, concentrating the chandelier 3. When fishing begins, the fishing maximum of the spectrum shifted to the blue region of the spectrum at maximum power of light sources. When this is the collection of fish from a large area and depth to the side of the vessel, see figure 1, figure 4 and figure 9. At the top level 1 there are luminaires, the fishing maximum of the spectrum of which is shifted to the blue-green region (wavelength 450-490 nm), they have a power of up to 5 kW. Due to the location of the sources at a height of the mast’s upper tier, 10 m, the light field spreads over a large area, and, as a result, the fish located at a great distance from the vessel shifts to visible light sources. Illumination as it approaches the side of the ship increases, and under the influence of phototaxis the movement is more and more directional. When critical illumination is reached, the fish slows down towards the vessel and moves along the side of the vessel along the line of equal illumination. At this moment, the lights of the upper level 1 are turned off, and the lamps of the lower level 2, which have sources of lower power up to 1.5 kW compared to the lamps of the upper level, form a light corridor. The fish's eye adapts to high light, the distance between the side of the vessel and the fish gradually decreases, and the fish begins to move along the side of the vessel in a spiral. A large concentration of fish near the side is created by turning the lamps of the lower 2 level relative to the horizontal and / or longitudinal axis by creating a light corridor, see Fig.6-8. The collection of fish is monitored visually and with the help of fish finders. At the end of the fish harvesting process, the lights of the top 1 level are turned off. It should be borne in mind that before turning off the luminaires of the upper level 1, the luminaires of the lower level 2 should have a similar emission spectrum, in practice - the lamps should have the same voltage to prevent a sharp color difference that disrupts the consistent movement of the fish. After turning off the fixtures of the upper 1 level, the voltage of the fixtures of the lower 2 levels is reduced, shifting the fishing maximum of the spectrum to the red region (wavelength 590-620 nm) to concentrate the fish, by switching off the fixtures of the lower 2 levels one by one (they start disconnecting from the fixtures farthest from the trap ) are transferred to the range of the implement 5, over which a concentrating chandelier is placed 3. Upon completion of the concentration of fish in the area of the fishing gear, which is visually observed, they are quickly captured so that edotvratit fishes fished withdrawal from the space by lifting the fishing gear to the water, then start to rise trap 5 (fodder pickup) by one of the known methods. Upon completion of the lifting carry out the catch.

Immediately after lifting the trap from the water, all the lights are turned on and the expediency of re-fishing is determined. When a negative decision is made, all lights are turned off.

Figure 9-11 shows the transfer of fish and its concentration when fishing from the board.

Claims (4)

1. The method of fishing and marine invertebrates, including setting the fishing gear, the concentration of the catch using light sources located around the perimeter of the fishing vessel, capturing the fishing target, raising the fishing gear and dredging the catch, characterized in that the light sources are parallel to the water surface at least than on two levels with the possibility of rotation relative to the vertical and / or one of the horizontal axes, and / or relative to their longitudinal axis, while the power of the lower level light sources is lower than the power of the light sources, located on the upper level; the concentration of the catch is carried out by shifting the fishing maximum of the spectral characteristic of the light sources located at the lower level towards the red light and / or turning them off alternately in the direction of the light sources placed above the fishing gear. 2. The method according to claim 1, characterized in that the upper level light sources are placed above the deck at the height of the upper tier of the mast of the vessel. 3. The method according to claim 2, characterized in that as sources of light at the upper level using lamps with a capacity of up to 5 kW. 4. The method according to claim 1, characterized in that as the light sources at the lower level using lamps with a power of 0.5 to 1.5 kW.

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