RU2721578C1 - Calamary fishing device - Google Patents

Abstract

FIELD: capturing of animals.

SUBSTANCE: device includes a compressed air source with a control unit and pneumatic fish sound emitters, a flexible pipeline and valves arranged under the water. Minicomputer is used as control unit. Pneumatic emitters of fish sounds are combined into at least one unit. In the unit there are pneumatic radiators of fish sounds of not less than two types, providing the possibility of attracting certain types of fish from different distances, note here that they are structurally separated from each other horizontally and vertically by controlled valves. Besides, each pneumatic radiator of fish sounds is connected through a controlled valve to adjacent pneumatic radiators and to a reducer connected to a source of compressed air, and control input of a reducer is connected to minicomputer.

EFFECT: device makes it possible to intensify calamary fishing process.

4 cl, 1 dwg

Description

The invention relates to the field of industrial fishing, namely, hydroacoustic devices for fishing marine invertebrates and fish, including squid, sardine, mackerel, anchovy, etc.

Currently, there are many different sound-emitting devices for attracting and concentrating fish and marine invertebrates in order to intensify fishing.

A well-known sonar installation, including an emitter of electrodynamic or piezoceramic type, a tape recorder with a set of records of sound signals: power sounds of the yellow-tail caudal, the sound of the ship's reverse, a series of pulses with a frequency of 600 Hz, rain noise, and an electric power amplifier. The emitter during fishing is lowered from the side of the vessel into the water, the tape recorder and signal amplifier are placed on the vessel (Volova L.A. Use of underwater acoustics to control the behavior of fish in coastal fishing // Overview. Industrial fishing. M. TsNIITEIRKh, 1978. Issue .2, pp. 19-21).

The use of acoustic signals allows you to enhance the effect of the attracting action of the light field and increase the efficiency of squid fishing due to the additional exposure to it by sound vibrations propagated in the water column.

However, the known installation has a number of significant disadvantages, namely, insufficient efficiency of the process of attracting and concentration of squids due to their quick adaptation to uniform sounds, as well as insufficient efficiency of the process of attracting and concentration of squids due to the low quality of the emitted signals, since the electrodynamic or piezoceramic emitters when expanding the operating frequency band in the low-frequency region distort reproducible biosignals.

Also, increasing the power of emitted sounds to attract fishing objects from long distances is not always acceptable, since an unnaturally strong signal can scare off squids that are already near the emitter.

In addition, there is insufficient intensity of biting of squids attracted by light and sound to jig gear due to the lack of spatial movement of the sound field.

A device is known - a fish sounds simulator, containing a source of compressed air, to the output of which a control unit is connected, containing an electromagnetic valve and a time relay, as well as pneumatic emitters of fish acoustic signals connected in series by a flexible pipe, united in groups of three emitters. Each group of emitters of fish acoustic signals is equipped with a limit check valve and a receiver with a fixed larger volume than in the previous group (ed. St. USSR No. 1575334, class A01K 79/00, 1990).

The disadvantage of this device is the low effectiveness of the squid due to the lack of a vertical component of the movement of the emitters of acoustic signals of fish.

It is known that immersed and pop-up objects additionally attract squids, increase its mobility and stimulate throws on jigging gear (Sidelnikov II, Production of Pacific fish and squids into the light. M.: Light and Food Industry, 1981, pp. 45-46) . Therefore, the lack of vertical movement of the sound field is a significant drawback of the known device and the reason for the low intensity of biting squid on jig gear during fishing.

Known sonar device - a simulator of fish sounds for the concentration of fish in the area of action of fishing gears. The fish sounds simulator consists of an electronic signal conditioning unit, a power supply and an amplifier in one housing connected by a cable to a hydroacoustic transducer in the form of a spherical piezoceramic head, to which positive buoyancy is attached (RF patent No. 2182765, class A01K 79 / 00.2002) .

The main disadvantage of this and similar devices for controlling fish behavior is that the fish sound simulator does not allow to efficiently generate fish sounds, since it does not provide the broadband spectrum of the sounds emitted by it, which is characteristic of most biological fish signals, especially in the low-frequency region of the spectrum (below 1 kHz), corresponding to the hearing area of most commercial fish and marine invertebrates. Piezoceramic transducers are more efficiently emitted only near the resonance frequency, and low-frequency resonance can only be achieved with large dimensions of the active element of the simulator, which complicates its use in the field and, in addition, implies the high cost of such a transducer.

The closest in technical essence to the claimed solution is a device for squid fishing, containing a source of compressed air with a control unit at the outlet, pneumatic emitters of fish sounds, check valves and receivers with a volume exceeding the volume of the previous one, connected in series with a flexible pipe, while the source of compressed air with a control unit are placed on the vessel, and pneumatic emitters of fish sounds, check valves and receivers are located under the vessel’s hull in its diametrical plane, while the receivers have a flexible shell and are made of elastic material, each receiver equipped with a load-deepener having a weight exceeding the weight of the previous one (clause of the Russian Federation No. 2338374, IPC A01K 79/00, publ. 2008).

The disadvantages of the known device include:

- limitation of the zone of attracting influence on squids by hydro-acoustic pneumatic emitters of fish sounds due to the fact that the emitted signals have fixed energy characteristics specified by the design features of pneumatic emitters of fish sounds, while an increase in the power of emitted sounds expands the zone of acoustic influence on squids, but an excessively strong signal repels squid, already located near the pneumatic emitters of fish sounds;

- the formation of emitted signals by series-connected pneumatic emitters of fish sounds in the horizontal direction only alternately, from one edge to the other, with each next signal added to the previous one and the signals sound together, and the signals stop forming when the compressed air supply stops, starting with the pneumatic emitter of fish sounds near the source of compressed air. But the consistent movement of sounds in natural conditions is a special case of the movement of a school of fish. Under natural conditions, signals in a school of fish are formed randomly in arbitrary directions. Thus, the known device does not reflect the real picture of the movement of fish in the school and their movement in the aquatic environment, which limits the fishing area and reduces its efficiency;

- air bubbles formed by pneumatic emitters of fish sounds under the bottom of the vessel are located in a shaded space from the light emanating from a lighting garland, and therefore have a light picture less attractive to squid, characteristic for the movement of a school of small fish in the light of natural sources - the Moon and stars;

- there is no assessment of the density (degree of concentration) of squids at various distances from the vessel and the adaptation of the levels of emitted signals to the distance where the squid is located, which significantly reduces the effectiveness of the process of attracting and holding squids in the fishing area.

The technical result of the invention is to intensify the process of attracting and concentration of squid in the fishing zone by increasing the range of impact on the fishing object and increasing the search-trophic activity of aquatic organisms in the fishing process.

To achieve the claimed technical result, in a known squid fishing device comprising a compressed air source with a control unit located on a ship, pneumatic emitters of fish sounds, a flexible pipe and valves located underwater, according to the invention, a minicomputer is installed as a control unit; pneumatic emitters of fish sounds are combined in at least one unit, and the unit contains pneumatic emitters of fish sounds of at least two types, which make it possible to attract a certain type of fish from different distances, while they are structurally separated from each other horizontally and vertically controlled valves. Each pneumatic emitter of fish sounds is connected through a controlled valve to adjacent pneumatic emitters and to a gearbox connected to a source of compressed air, and the control input of the gearbox is connected to a control unit.

Using a minicomputer as a control unit quickly ensures the creation of different operating modes of pneumatic emitters of fish sounds of various species, depending on the fishing situation, which, in the final result, affects the intensification of the process of attracting and concentrating squid in the fishing area.

The combination of pneumatic emitters of fish sounds in at least one block in the fishing zone provides an imitation of the presence of fish and schools of fish of different species that are objects of trophic activity of squids, creates a natural picture of the presence of squid feeding objects in the fishing zone and attracts squids to the fishing zone, which allows you to intensify the process of attracting squid, therefore, to increase the efficiency of harvesting aquatic organisms, which contributes to the achievement of the claimed technical result.

The installation in the block of at least two types of pneumatically emitting fish sounds characteristic of a given fish species structurally distant horizontally and vertically from each other allows creating an imitation of sounds formed by a school of fish as close as possible to natural conditions, because each pneumatic radiator forms fish sounds in different sequences, durations, periodicities relative to each other, which also allows to intensify the process of attracting and concentrating squids in the fishing zone and contributes to the achievement of a technical result.

The connection of the blocks of pneumatic emitters of fish sounds through a gearbox with a source of compressed air and through controlled valves with a control unit provides control of the emission of fish sounds according to the selected algorithm - sequentially, in parallel, in random order, which allows you to simulate the sound of fish schools in the most reliable way and thereby intensify the process of attracting and the concentration of squid in the fishing area.

The supply of the device with a gearbox with a control input provides for the regulation over a wide range of air pressure entering the pneumatic emitters of fish sounds, which makes it possible to more accurately simulate the presence of different types of fish and the intraspecific variety of fish in the school, stimulating the motor activity of squids to fishing gears, which also contributes to the achievement of technical result.

To further intensify the process of attracting and concentrating squid in the fishing zone, it is advisable to equip the device with an electrodynamic emitter, which helps attract hydrobionts from long distances, up to 2 km, with signals simulating the variety of sounds that occur when predators attack a school of fish or when feeding predatory fish with objects being the food base of squid.

Supplying the device with an echo sounder provides monitoring of hydrobionts in the water area, measuring the distance to accumulations of hydrobionts and providing data to the control unit to calculate the necessary level of exposure to hydrobionts, adapting the levels of emitted signals to the distance where the squid is located, which significantly increases the efficiency of the process of attracting and holding squids in the fishing zone.

Due to the feedback between the emitters and the echo sounder, which assesses the degree of concentration of fishing objects at various distances from the vessel, as well as due to the timely control of the level of radiated power by the electrodynamic emitter and pneumatic emitters of fish sounds, when squid approaches the fishing zone, they provide a constant (approximately equal intensity) the level of sound impact on the auditory receptors of fishing objects as they approach the vessel, which allows to increase the efficiency of attracting and retaining squids in the fishing zone, to increase and maintain high search-trophic activity of aquatic organisms in the fishing process, therefore, to increase the productivity of their fishing, which also contributes to achieving a technical result.

The device is supplied with underwater light sources structurally located in the unit, which provides illumination of air bubbles emerging from the pneumatic emitters of fish sounds, creating a picture of moving fish and enhances the optical effect by attracting squids, ensuring their concentration in fishing gear.

The claimed invention is illustrated in Fig., Which presents a General diagram of a device for fishing squid.

The squid fishing device comprises a compressed air source 4 located on the ship 1, equipped with a lighting string 2, to the output of which a reducer 5 is connected, the control input of which is connected by cable 6 to the minicomputer 3. Also, an echo sounder 8 is connected to the minicomputer 3, containing sonar 8 antenna 9 located in the aquatic environment. Below the sea surface, a block 10 is installed with pneumatic emitters of fish sounds 11 of the first type and with pneumatic emitters of fish sounds 12 of the second kind, connected by a flexible pipe 13 and through controlled valves 14, respectively, connected to the output of the gear 5. In this case, controlled valves 14 by cable 15 connected to the minicomputer 3.

Block 10 is equipped with underwater light sources 16, which are connected by a cable 17 with controlled valves 14 and with a minicomputer 3.

To enhance the effect of attracting squids to fishing gears, an electrodynamic emitter 19 is connected to the minicomputer 3 by cable 18 to the device.

The device operates as follows.

In the fishing area from a squid vessel 1 equipped with technical means for catching squid, for example, jiggers 20, light and hydroacoustic equipment for attracting and concentrating squids, using the echo sounder 8, the distribution of squid in the water area is estimated. After detecting the accumulation of squid, set the floating anchor 21, turn on the garland 2, then carry out the setting in the aquatic environment of the inventive device, and then carry out the setting of fishing gear (jiggers). Then include an echo sounder 8, through which the distribution of squid in the water is estimated. The data obtained from the echo sounder 8 are sent to the minicomputer 3, which after processing the information includes one of the many algorithms for detecting, attracting and holding squids in the fishing zone. If the squid is at a long distance, the minicomputer 3 via cable 18 transmits control signals to the electrodynamic emitter 19, which emits hydroacoustic signals that mimic the variety of sounds that occur when predators attack a school of fish or when feeding predatory fish with hydrobionts, which are the feed base of squid, which attracts squid directing them to the fishing zone.

As the squid approaches the vessel 1, the minicomputer 3 changes the signals supplied to the electrodynamic emitter 19, which gradually reduces the signal power, providing the optimal sound pressure level at which the squids move towards the vessel 1. At the same time, the minicomputer 3 switches to one of the attraction and retention algorithms squid in the fishing zone and transmits a signal that through cable 6 enters the source of compressed air 4, and through the gearbox 5 the required air pressure is set. Next, the compressed air enters through the flexible pipe 13 into the block 10, and the control signals from the minicomputer 3 through the cable 15 enter the controlled valves 14, which are turned on according to a predetermined algorithm and through which the compressed air enters the pneumatic emitters of fish sounds 11 and 12, respectively, which hydroacoustic signals begin to emit, similar in spectral-temporal and energy characteristics to the biological signals of small open-bubble fish, which are the subject of squid feeding, while simultaneously creating an air-bubble zone, simulating the turbulent state of the aquatic environment, which attracts squids from medium distances.

To stimulate trophic activity of squids, the minicomputer 3 transmits signals to block 10 according to a predetermined algorithm, simulating separate or joint presence of fish schools of various species in the fishing zone that are the subject of squid feeding.

After the squid has accumulated in the fishing zone, in order to enhance the effect of attracting squids and further concentrating them on the fishing gears 20, the minicomputer 3 via cable 17 transmits control signals to underwater light sources 16, which illuminate air bubbles coming out of the pneumatic emitters of fish sounds 11 and 12, creating a picture of moving fish, which additionally stimulates the activity of squids, forcing them to move on fishing gear 20.

As a result, the operation of the device is a continuous automatic process of turning on, adjusting and turning off the electrodynamic emitter, a block of pneumatic emitters of fish sounds, underwater light sources depending on the sonar data, which allows you to effectively attract, concentrate squids to fishing gears, and enhance their trophic activity.

Thus, the proposed device allows you to intensify the process of squid fishing by attracting, retaining squids in the fishing zone and enhancing the search-trophic activity of squids, which allows you to activate the process of squid fishing with vertical tiers and other fishing gears throughout the fishing period.

Sea fishing trials of the developed squid fishing device were carried out in October 2019 in the Peter the Great Bay on jigging fishing of Pacific squids from the Primorets vessel. The test results showed its high efficiency. The performance of jigger squid fishing using the proposed device has increased during the test 3 times in comparison with squid fishing in the traditional way.

The developed device for squid fishing can be successfully used not only for jigging squid fishing, but also for wallet and trawl fishing of squids using a fishing vessel, as well as other methods of squid fishing, for example, fixed and drift nets, airborne traps and pickups, fish pumps.

In addition, the proposed device can be used to attract and concentrate predatory fish (salmon, tuna, sharks, etc.), mammals and other objects of fishing.

Claims (4)

1. Device for squid fishing, containing a source of compressed air with a control unit located on the vessel, pneumatic emitters of fish sounds, a flexible pipe and valves located under water, characterized in that a minicomputer is installed as a control unit, pneumatic emitters of fish sounds are combined, at least one block, and in the block there are installed pneumatic emitters of fish sounds of at least two types, providing the ability to attract certain types of fish from different distances, while they are structurally separated from each other horizontally and vertically by controlled valves to In addition, each pneumatic emitter of fish sounds is connected through a controlled valve to adjacent pneumatic emitters and to a gearbox connected to a source of compressed air, and the control input of the gearbox is connected to a minicomputer. 2. The device according to claim 1, characterized in that it is additionally equipped with an electrodynamic emitter placed under water and connected to the minicomputer. 3. The device according to claim 1, characterized in that it is additionally equipped with an echo sounder connected to the minicomputer. 4. The device according to claim 1, characterized in that underwater light sources are additionally installed in the block of pneumatic emitters of fish sounds.

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