SU1199222A1 - Towed fish driving arrangement - Google Patents

Abstract

1. TOWED FISHERY DEVICE for directional movement of fish in reservoirs containing floating devices, such as rafts, vertically suspended metal chains, two electrodes connected to a current source, while one of the electrodes is made of insulated wire with vertical non-insulated flexible taps located along the rafts and the other is made of bare wire, located horizontally in rafts of water, and the chains are located in front of the electrodes, lowered into the water and fixed on rafts connected 18, with a cable, characterized in that, in order to effectively influence the fish by the electric field and the sound created by the chains, over the entire section of the reservoir with water without flow and to ensure the fish pasture from loose bottom sediments are additionally introduced into rafts hollow supports, lowered vertically into the water, in the cavities of which are additionally installed metal pipes made of telescopic sections, with the chains fixed to the pipes of the front p of the racks and downward from them Scalded down, inside the telescopic tubes of the rear row of racks there are vertical taps, and the lower sections of these tubes have an insulating coating inside and outside and an electrode of bare wire is attached to them. (L 2. The device according to claim 1, characterized in that at the ends of the vertical taps, chain segments are fixed, which have electrical contact with soldering-solder Q; about 1C IN9 to (RIEL

Description

The invention relates to fish protection, in particular to the directional movement of fish when they are distilled off, for example, from an explosion site in water without flow: in a lake, reservoir and the coastal part of the sea. The purpose of the invention is the effective impact on the fish by the electric field and the sound created by the chains throughout the entire section of the reservoir with water without flow and providing fish outcrop from loose bottom sediments. FIG. 1 shows a device unit - one raft carrying chains and electrodes, general view; in fig. 2 same plan; in fig. 3 - the same, side view; in fig. 4 - device during operation. The towed fish-bearing device contains rafts 1, vertically highlighted metal chains 2, electrodes 3 and 4 connected to current source 5. Electrode 3 is made of insulated wire with vertical non-insulated flexible tap-offs 6 located along rafts 1. Electrode 4 is made of bare wire located horizontally in rafts 1 in water. Chains 2 are located in front of electrodes 3 and 4, lowered into water 7 and fixed on rafts 1 connected by a towing cable 8. On the rafts 1, hollow support posts 9, lowered vertically into water 7, are installed in rows; in the cavities of which, additionally installed metal pipes are fixed, made from the telescopic sections 10 and 11. The chains 2 are fixed on the pipes of the front p ay racks 9 and are lowered vertically from them. Inside the telescopic tubes of the rear row of pillars 9 there are vertical solders 6, and the lower sections 11 of these tubes have an insulating coating 12 inside and outside and an electrode 4 of bare wire is attached to them. At the ends of the vertical taps, segments of chains 13 are fixed, having electrical contact with the taps 6. The ends of the towing cable 8 are mounted on the floating craft 14, and the cable 8 is fixed on rafts 1 with brackets 15. Sections 10 of telescopic tubes are fixed in a cavity of racks 9 with pins 16, and sections 10 and 11 of telescopic tubes are fastened together with sticks 17. Chains 2 and Desoldering 6 hang from the ends of the sections 11 telescopic tubes. The length of chains 2, the total length of taps 6 and lengths of chains 13 exceeds the depth 18 of water 7, so that the ends of chains 2 and 13 are located in loose bottom sediments 19. Closses 1 can be assembled from logs and planks, made of inflatable or other floating materials eg foam plastic. The device works as follows. A vessel 14 with a current source 5 tows the rafts 1 to the place of scaring off the fish. Then another vessel 14 for towing cable 8 puts the rafts 1 in the working position (Fig. 4). An electric current is supplied to the system of electrodes 3, 4, and 6, after which both vessels 14 tow the device in the direction of scaring the fish along arrow 20 (Fig. 4), driving the fish away from the explosion site. During towing, chain 2 and 13 devices are dragged across the bottom of the reservoir and fish are driven out of loose sediment, m and various objects. In addition, chains 2 generate irregular sound pulses that scare fish away. Desoldering, 6 reaches the bottom of the reservoir and follow the chains 2, and they are arranged vertically due to sections 10 and 11 of the telescopic tubes and their lower parts deviate from the vertical aod by the action of water flow. By changing the length of the telescopic tubes, it is achieved that during the operation of the device, chains 2 and 13 reach the bottom of the reservoir. The power lines of the electric field are located vertically and cover the entire water column in the reservoir. Their direction at the moment of negative charge of electrode 4 and positive charge of taps 6 is shown in FIG. 1. Such an arrangement of lines of force of the electric current field helps to care for the fish from this floor, as it allows the fish to unfold freely in front of the field attacking them and move away from it. Changing the voltage and frequency of the current source 5 provides the best scaring of fish from the electric field, and the electric field strengths should not exceed 1 V / cm for fresh water and 0.5 V / cm for salt water. The effect of scaring off fish is enhanced by oscillating changes in the frequency of the current in the range from 100 to 700 Hz. Scaring fish with electric current is supplemented by scaring fish with sounds and mechanical waves created by chains 2 and 13. When the device is removed from the explosion site for a given distance, an explosion occurs, after which the device is towed by one vessel 14 to a new explosion site. The invention provides effective scaring of fish from the explosion site, as it creates a complex effect on fish by the sounds of chains and electric field throughout the depth of the reservoir and the width of the device, and can also be used for directional movement of fish in the reservoir over, for example, when towing the device against the current .

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Claims (2)

1. TOWED FISHING DEVICE for the directed movement of fish in water bodies, containing watercraft, for example, rafts, vertically suspended metal chains, two electrodes connected to a current source, one of the electrodes made of an insulated wire with vertical uninsulated flexible strips located along the rafts, and the other is made of a bare wire located horizontally in the water to the rafts, and the chains are located in front of the electrodes, lowered into the water and mounted on rafts connected by axle boxes fl · f - □ from 4 s 1 π _ ’—10 = th i ABOUT 3 3 6 k 11 E Dd tl \ ι £ f! £ I ,12 roving cable, characterized in that. what. in order to effectively influence the electric field and the sound generated by the chains over the fish over the entire cross-section of the reservoir with water without flow and to ensure the fish are driven from loose bottom sediments, the rafts are equipped with additionally inserted hollow support posts, vertically dropped into the water, in the cavities of which are fixed additionally installed metal pipes made of telescopic sections, while the chains are fixed to the pipes of the front row of racks and lowered vertically down from them, inside the telescopic pipes of the rear row The racks are located with vertical solders, and the lower sections of these pipes have an insulating coating inside and outside _the gun, and an electrode of bare wire is fastened to them. 2. The device according to π. 1, characterized in that at the ends of the vertical seals are fixed segments of chains having electric contacts with the seals. fie. 1