NO162305B - PROCEDURE AND DEVICE FOR PERFORING A DRILL IN A BORROW THROUGH A FORM CONTAINING HYDROCARBONES. - Google Patents

Description

Method of capture, transport or storage

of marine animals, such as herring and fish.

The present invention relates to a method for catching, transporting or storing marine animals, such as herring, fish, bait and the like, using underwater oscillations.

The traditional way of catching fish has been to use

nets, nets, trawls and similar tools. In order to get profitable fishing with such tools, it is assumed that the quantity of fish has a certain density. When catching with e.g. purse seine or ring seine, which is probably the most effective conventional fishing gear, the amount of fish must not be too deep either. Even though the density of the fish concentration in and of itself is catchable, one will very often find that the fish are so deep that it is impossible to catch them with the help of ring seines, even with the most modern seines, which can be over 100 meters

deep. The disadvantage of the known fishing gear is also that the weather can prevent catching. You experience time and time again that there are large quantities of fish that cannot be caught due to bad weather for long periods.

Over a long period of time, various attempts have been made to achieve more modern fishing tools for fish and the like. For example, attempts have been made to catch fish using electric current in the water. Light has also been used to lure the fish to fixed or moving tools. Sound or other fluctuations in the water have also been tried. A method is also known for collecting or densifying fish using a bubble curtain in the water, which is produced by a perforated, flexible hose that is placed in the water, e.g. from land across a bay. The snake is then pulled into the bay and scares the fish ahead into the bay, where it can be caught using conventional gear, e.g. a land note.

Japanese whaling expeditions have been equipped with transmitter equipment for waves in the water for so-called asdic signals. When the fishing boats chase a whale, the asdic is directed at the animal, and it is then frightened by the signals, so that it panics and races straight ahead. The catching vessel can then follow a fairly straight course, instead of, as before, risking the whale turning sideways during the dive and coming up behind or on the side of the catching vessel.

Apart from the last described method, which has proven to be very effective, none of the other known methods have gained any particular popularity. Electric fishing in seawater has proven to be very expensive and complicated, and the other methods described above have proven to be cumbersome and do not meet expectations.

The present invention therefore aims at a method for catching, transporting or storing marine animals, such as herring, fish and bait, with the help of which scattered fish deposits can be compacted, so that they become catchable with ordinary gear. Furthermore, the method can be used to bring a deep-standing shoal of fish up to a height in the water where they can be caught using e.g. ring note. Furthermore, a quantity of fish can be moved, e.g. from the open sea with rough seas to shallower waters where the school of fish can be caught using conventional equipment, e.g. note. Furthermore, with the help of the method according to the invention, an entire fjord can be closed off, so that a quantity of fish can be kept trapped inside the fjord, so that spawning and breeding of fish can take place under control, and so that predatory

fish can be kept away from the area.

This is achieved according to the invention by a method for catching, transporting or storing marine animals, such as herring, fish and bait, using underwater oscillations, preferably acoustic oscillations in a frequency range that is frightening or unpleasant for fish and the like, but not panic-inducing, and the characteristic feature of the invention is that a volume of water, containing fish or the like, is enclosed, in that the oscillations have the character of directed beam bundles whose source of oscillation can be moved, e.g. along a closed curve, so that a curtain or wall is formed, e.g. in that the beam or the rays form generatrices in the ora-circular surface of the aforementioned water volume.

The oscillation source can be moved both horizontally and vertically, and the frequency can be varied. The beam bundles can e.g. be directed obliquely upwards or downwards, so that together with the surface of the water or the bottom they enclose a cone-shaped volume of water. In a design of the invention, two or more oscillation sources can be used which work together and against each other, so that a volume of water is enclosed which is surrounded by water on all sides.

In practice, the invention involves submerging an oscillation source in the water, which produces one or more beam bundles with oscillations. The beam can be moved in the water, so that it forms a continuous curtain or a wall in the water. be appropriate to have one or more obliquely upward beam bundles and let the source rotate so that the beam or bundles form generatrices in a cone that stands with the point down and which encloses the entire school of fish. The beam source is then slowly raised upwards while simultaneously moving the school of fish in same direction, as the oscillations have an unpleasant character for the fish, so that they will seek away from them. It is important that the oscillations are kept within a specific frequency range for a particular black fish, so that the oscillations are only mildly frightening or unpleasant, but not panic-inducing In this way, you can achieve a quiet movement of a shoal of fish to the place you want it. If the oscillations were of a severe t frightening character, panic would easily be created in the school of fish, and this would then without further ado break through the curtain formed by the oscillations.

In the same way, a school of fish can be enclosed and moved horizontally, e.g. from a rough sea area to shallower waters where fishing can be done. Another way of using the method according to the invention is to move a fishing net into a fjord and shut it off there, by creating an oscillation curtain in the mouth of the fjord or in another suitable place. The same can of course be done with a shoal that is already inside the fjord. The shoal can then be kept inside this enclosed area and spawn here, and the fry can grow until they are sexually mature again, so that the second generation spawns, etc. This will result in a fish farm of colossal dimensions. The radiation curtain will prevent the fish from getting out of the fjord, and that

the same curtain or an external one, will keep predatory fish out of the fjord. Predatory fish that had to be in the fjord before the school of fish was brought in could of course have been removed by moving a curtain running across the fjord.

In the following, the invention will be explained in more detail with the help of the drawing, which purely schematically shows some examples of the use of the method according to the invention.

Fig. 1 shows the method used to move a shoal of fish up into a higher water layer, using an oscillation source,

fig. 2 shows the method in use using two oscillation sources, and

fig. 3- shows an example of how the method is used in connection with the closure of a fjord.

In fig. 1, a fishing vessel 1 lies directly above a shoal of fish 2 which stands in such deep water that it cannot be reached with normal equipment, e.g. a ring note. From the fishing vessel, an oscillation generator 4 is lowered into the water by a rope 3 under the school of fish 2. From the oscillation source 4, oscillations are produced in the form of two directed beam bundles 5 and 6. By bringing the oscillation generator 4 "to rotate in the horizontal plane, the beam bundles 5 and 6 form generatrices in an enclosed space 7 which is formed between the water surface 8 and the cone surface generated by the beam bundles 5 °g 6. The oscillation generator 4 can then be slowly raised upwards, and the school of fish 2 will move upwards, as they will be embarrassed by the oscillations in the cone mantle. When the shoal of fish has reached a suitable height, the vessel can set out a ring seine or similar, and catch the shoal. Optionally, the beam bundles 5 °g 6 can be flattened during this operation, so that a horizontal curtain is formed in the water below the seine, to prevent the fish from sticking down before the spinning is done.

When moving a shoal of fish from an open stretch of sea into shallower waters, it may be appropriate to use a device such as that shown in fig. 2. Here, two oscillation generators 4 and 4a are used, one below the other, hanging on the same rope 3" The beam bundles from the oscillation generator 4 are directed at an angle downwards and from the oscillation generator 4a at an angle upwards, so that two cone-shaped spaces are formed in the water which lie with the base facing each other. As a result, the school of fish is enclosed on all sides by swing curtains

and can be moved horizontally through the water to a suitable location.

In fig. 3 shows a fjord 9 which is closed at the outlet by an oscillation curtain 10 which is produced by an oscillation generator such as e.g. can rotate.e vertically in the water. Inside the fjord, a suitable quantity of fish has been moved in beforehand using the device according to fig. 1 or 2.

For the method according to the invention, it may be possible to use different forms of oscillations, but the most relevant will be acoustic oscillations. To generate such oscillations, it may be possible to use spark discharge transducers, magnetostrictive transducers, crystal transducers, ceramic transducers, and ordinary waterproof speakers and the like, and a sound source with reflectors and a turning device can be used.

Herring are affected by sound images in a frequency range from close to 0 up to 4000 Hz and fish from close to 0 to 1000 Hz, but the invention is not limited to sound waves, although these will be relevant for the marine animals caught today. It can e.g. prove in the future that lower animal species such as e.g. food, krill and even smaller animals, can be affected by fluctuations of an electromagnetic nature.

Claims (5)

1. Procedure for catching, transporting or storing marine animals, such as herring, fish or bait, using underwater oscillations, preferably acoustic oscillations in the water in a frequency range that is frightening or unpleasant for fish and the like, but not panic-inducing, characterized by a volume of water (7) } containing fish or the like is enclosed, in that the oscillations have the character of directed beam bundles whose source of oscillation can be moved, e.g. along a closed curve, so that a curtain or wall is formed, e.g. in that the beam or the rays form generatrices in the circumferential surface of the aforementioned volume of water. 2. Method according to claim 1, characterized in that the oscillation source can be moved both vertically and horizontally. 3. Method according to claims 1 and 2, characterized in that the frequency of the oscillations can be varied. 4. Method according to claim 1, characterized in that the beam bundles are directed obliquely upwards or downwards, so that a cone-shaped volume of water is enclosed together with the surface of the water or the bottom. 5. Method according to one or more of the preceding claims, characterized in that two or more sources of oscillation are used which work together and against each other, so that a volume of water is enclosed which is surrounded by water on all sides.