NO882829L - OPPDRETTSMAERE. - Google Patents

Description

The invention relates to a rearing cream of the kind specified in the introduction to patent claim 1, designated for fish and other marine animals and marine plants.

Background.

The development of fish farming with sea-based, open tanks has led to a number of problems. The most important thing is the pollution problems this creates, both from the farming facility and towards the surroundings and in the opposite direction. Forrester has developed gas, which in some cases has led to fish deaths. The forrests have also been carried by water currents and created problems outside the farming area.

The access of birds has created a risk of transmission of

infection to and from the facilities.

Open facilities also mean a risk of adverse impact

from algae and other organisms in the sea.

Attempts have been made to close the mares by covering them with a waterproof bag or forming the mares directly from such a bag. This only solves part of the problem, as it will, among other things, provide continued access for birds. Moreover, such "closed" mare pouches will require relatively extensive bracing constructions. Nevertheless, they will have stability problems in relation to known, open mares.

Ability 1.

The main purpose of the invention is to create an improved breeding mare, which solves or reduces the aforementioned problems with known mares. It is a particular aim to create a breeding mare which provides the opportunity for the breeding of fish and other marine animals in a closed system. This must be possible at costs that are competitive with current sea-based mares, in order to be able to compete with them and avoid the additional costs that land-based farming entails.

A further purpose is to create a mare that is mechanically as self-supporting as possible, that is, that requires the least possible bracing system and yet withstands seagoing and weather stress.

A further purpose is to create a lake that can also be used for the cultivation of sea plants and other marine organisms.

Principle.

The main purpose of the invention can be achieved by designing the measure as indicated in the characterizing part of patent claim 1.

Further features of the invention are specified in the other patent claims.

Advantages of the system.

Closed floating facilities can be built where the construction costs are significantly cheaper than with land-based breeding facilities. The facilities are also portable.

The systems can be made completely pollution-free, pre-spill, waste, excrement, medicines and infection are not spread in nature if the waste water is treated properly.

Transmission of infection through water, air, wild fish and birds can be effectively prevented.

When cultivating sea plants and algae, the content of nutrients in the water and the composition of the atmosphere in the facility can be controlled without polluting nature.

The temperate water in our deep fjords can be effectively used for better growth.

The lack of pollution makes it possible to place aquaculture facilities closer together, as well as in fjords that cannot otherwise be exploited.

The facilities are not affected by algae because the water can be obtained from deep water that does not contain algae or contamination.

Example.

The invention will be described in more detail below with reference to the drawings, where

fig. 1 shows a schematic representation of a vertical section through an embodiment of the invention,

fig. 2 and 3 show corresponding views as fig. 1 through alternative embodiments, while

fig. 4 shows a side view and a plan view from above of a mare in accordance with the invention.

The invention aims to create a controlled environment for the cultivation of fish, aquatic plants or algae in sea or fresh water, by means of a partially water-filled floating balloon of arbitrary shape and size, (fig. 1), made of flexible cloth of appropriate material ( 1), which is kept inflated using compressed air of appropriate pressure, where stability is ensured by means of a hose or "sausage" (2) filled with air or other floating material and a "sausage" (3) filled with water which also surrounds the balloon . The pressure is regulated appropriately, e.g. through the supply of compressed air in a hose (4). Thereby, the desired shape of the balloon is maintained without the use of supporting elements.

Access to the balloon is arranged through an appropriate lock. If necessary, the balloon can be made of transparent material. If desired, the balloon can be completely submerged, the pressure is maintained by regulating the water pressure.

For organisms that need a supply of oxygen-rich water, precursors, fertilization etc. or of gases other than air, this can be arranged by supply from land or from a vessel, (fig. II), (1). If desired, the waste water can be returned to shore or to the vessel for filtration (2). The pressure in the balloon is kept at the desired level by regulating the outlet level (3) in conjunction with the air pressure in the air supply line (4). If necessary, the balloon can be fully submerged. In order to make use of the warm water in our fjords in winter, the water can be brought up from the depths in the usual way by feeding compressed air into a riser (fig.

III) (2)

connected to the balloon (3) at any point, through a supply line (1). Air and water rose up in the balloon, and flow out through the drain pipe (one or more) (4). The level inside the balloon is regulated by regulating the vertical distance between the intake (5) and the outlet (6) of the drain pipe (4).

If you want to utilize the heat in the seawater from deeper water layers without letting it into the interior of the balloon, this can be achieved by wrapping around the bottom part of the balloon in fig. II, an outer layer of the same material is arranged through which the water can flow. Heating can also take place by warm water being brought up from the depths and rising freely on the outside of the balloon.

The invention also includes the use of "balloons" for complete fish farming facilities.

The mæra is designed as an oblong sausage (fig. IV), with variable length and diameter (1), where the lower part is filled with water to an arbitrary level, possibly completely submerged, where the ends are connected to floating elements designed as bow (2) and stern ( 3), containing the necessary operating machinery and room for necessary etc, as well as arrangements for moorings.

Internal pressure in the "sausage" ensures the necessary shape stability, while longitudinal sausages with compressed air, possibly floating material and water ballast ensure hydrostatic stability.

Water can be brought up from the depths, or supplied directly using pumps or compressed air. The water flows lengthwise through the sausage, thereby forming a so-called "raceway" for the fish. The water flows on through the stern section, which contains pressure regulation and possibly a cleaning system. Alternatively, a removable filter bag (6) can be used which can be changed and towed away for emptying waste, excrement, spillage and dead fish.

Alternate zeal.

The invention can be varied in different ways in relation to the embodiment described above.

In terms of use, it can be adapted for all types of marine organisms that can be "cultivated" in an enclosed volume of water. A particularly relevant area is the cultivation of marine plants, which require warm and stable growing conditions and at the same time a certain protection against wave movement and the possibility of foot affecting the cultivation environment. With the help of the invention, it becomes possible to create a greenhouse effect which can be beneficial in various contexts.

Geometrically, many modifications can be made. Instead of sausage shape, ring shape, comb shape, ball shape or other symmetrical or asymmetrical shapes can be used. The mæra in accordance with the invention is also suitable for chaining together or otherwise connecting several independent units to a larger plant. Furthermore, it is possible to divide a mare into several sections or chambers under a dome. Incidentally, the dome can be made lower than what is illustrated in the drawings.

The supply of for can take place in various known ways. These shall not be described here. In addition, special arrangements can be developed for pretreatment, based on the special features of the invention. For example, it can be admitted through the air supply, where this takes place through the water volume.

The air supply can take place through a riser which is led up from the bottom in relation to the embodiment shown in fig. 1. In addition, a removal of residues can be arranged by extraction from the same bottom area.

Claims (7)

1. Farming mare for fish and other marine organisms, such as sea plants, where a bag-shaped, water-filled cloth is suspended in a volume of water to absorb the cultivation object, and where there are organs for the supply of water and for the supply of feed, characterized in that it includes - a fabric structure (1, fig. 4) which forms a closed space, - a pump system to maintain a predetermined air pressure and possibly replace air in the closed space, - a sluice arrangement to provide access to the closed space, as this sluice arrangement is located in the water measure, - a water pump, to supply water to the interior of the closed space, as well - an overflow device designed to release water from the closed space. 2. Measure in accordance with requirement 1, characterized by its sausage shape. 3. Mare in accordance with requirement 1 or 2, characterized in that the sluice arrangement is intended for connection to a corresponding fastening arrangement on a floating structure which can accommodate operating machinery, for example for pre-supply and air supply. 4. A mare in accordance with one of claims 1-3, characterized in that a mammoth pump is connected through a riser that comes up through the bottom, for the supply of water from deeper water and air through the same opening. 5. A mare in accordance with one of the claims 1-4, characterized in that the closed space is provided with an outlet section for water, where a filter or other mechanism for separating residues and excrement from the outlet water is placed. 6. Measure in accordance with requirement 5, characterized in that the outlet section comprises a detachable filter bag. 7. Gauge in accordance with one of claims 1-6, characterized in that it comprises an enveloping air-filled first hose and an enveloping water-filled second hose placed above this, these hoses having a diameter that is less than 1/20 of the transverse dimension of the closed space .