DE102010032673B4 - System, technology, function and method of mobile and submersible fish cages for the open sea - Google Patents

Abstract

Fish cage for the open sea according to patent 10 2008 057 515, wherein the axial service pipe (1) of fish cage A is replaced by an axial, cylindrical pipe construction (20) having integrated, stable (21) and flexible (22) air ballast chambers the volume of stable air chambers does not allow the cage to sink lower than 30 meters according to the Archimedes principle, and the volume of flexible air chambers raises the cage more than half out of the water and controls it at any desired depth up to 30 meters.

Description

The invention relates to a fish cage for the open sea according to patent 10 2008 057 515.

The inventive system and technology of the main patent is a stable, cylindrical and horizontally floating, retractable and rotating fish cage A for the open sea ( 1 according to the main patent). In the center over the entire length of the cylindrical cage, the axial service pipe is arranged. In and around the service tube are the ballast chambers for air and / or water to control the entire cage at any desired depth. This axial service tube gives the cylindrical cage the central stability of the entire fish cage.

The axial service pipe of fish cage A according to the main patent, can be replaced by two design variants.

Variation 1 is fish cage B - Fig. 1

The axial service tube in fish cage A according to the main patent is characterized by an axial, cylindrical tube construction ( 20 ) in the fish cage B ( 1 ) replaced. The construction of the axial, cylindrical pipe framework ( 20 ) has longitudinal struts ( 23 ), Round struts ( 24 ) and spokes ( 25 ) and depending on the length of the entire cage several sections ( 26 ). In the cylindrical tube construction ( 20 ) are stable ( 21 ) and flexible ( 22 ) Integrated air ballast chambers. The diameter of the central pipe construction ( 20 ) of plus / minus 1.5 m, depends on the static calculations for the volume of stable ( 21 ) and flexible ( 22 ) Air ballast chambers, based on the size and weight of the entire fish cage in its floating positions depending on weather conditions and service in the fish cage. So there are two types of ballast chambers. Stable, non-adjustable air ballast chambers made of stainless steel ( 21 ) and flexible air ballast chambers as cylindrical rubber tanks ( 22 ), which are folded flat and can be inflated. Alternatively, the Nirosta steel sheet chambers ( 21 ) be replaced by a marine rubber tank with an air pressure of about 6 bar. According to the principles of Archimedes, the volume of stable air ballast chambers ( 21 ) so that the buoyancy causes the entire cage to swim approx. 7 meters below the lowest possible troughs. That's 20 to 30 meters deep. The cage can never sink lower.

The volume of flexible air ballast chambers ( 22 ) is sized so that the variable volume of air can lift the fish cage in any desired positions and sink. The entire air volume of the stable and flexible air chambers raises the cylindrical fish cage up to half of the water. The stable and flexible air chambers are distributed in the axial tube construction so that the fish cage is always balanced horizontally. The cylindrical, flexible ballast chambers ( 22 ) are on a longitudinal strut ( 23 ), inside in the axial tube construction ( 20 ) and folded flat without air. All rubber tanks ( 22 ) are connected to a compressed air hose ( 27 ) connected. The compressed air hose ( 27 ) leads from the fish cage to the compressed air tank and compressor on the service boat or trawler. Via a two-way valve, the air supply and air discharge is controlled manually or by a computer program to the fish cage B ( 1 ) to be able to control in any desired depth position. Fishing nets ( 28 ) with predetermined mesh sizes are stretched around the entire, cylindrical fish cage and for the separation of the sections. The technology of fish cage B ( 1 ), makes it possible that the fish cage is lowered in strong storms and the fishing boat is hung. The fish cage B ( 1 ) floats on an anchored rope alone and safely in the water flow about 7 m below the deepest troughs. After the storm, the cage is reconnected to the fishing cutter and the respective service functions activated. The outer, cylindrical pipe frame of fish cage B ( 1 ) has longitudinal struts ( 29 ), Round struts ( 30 ), Spokes ( 31 ) and half-round cage ends. Fish cage C ( 2 ) has the same cage construction.

Variant 2 is Fish Cage C (Figure 2).

The axial service tube ( 1 ) in fish cage A according to the main patent is characterized by a drekelkelige construction ( 35 ) in fish cage C ( 2 ) replaced. It consists of three tubes ( 36 . 37 . 38 ), which are three-legged welded with steel plates and thus form an air space. The leg width of plus / minus 1.5 m and the size of the three tubes ensures the axial stability for the entire fish cage. The air volume of the three tubes and the three-legged air space, are dimensioned so that the entire fish cage looks up to the axial construction of the water. The three pipes ( 36 . 37 . 38 ) have a volume that causes the fish cage to sink about 7 meters below the deepest troughs when filled with water. Like fish cage A, fish cage C, 2 , controlled with water and air in any desired depth position.

Other features:

1. Turning and stabilizing fish cages

The device described in the main patent ( 10 ) of the fish cage A for turning and stabilizing the whole fish cage, by air-filled ( 32 ) and evacuate ( 33 ) Fender ( 1 and 2 ) replaced. At the crossing points of the longitudinal struts ( 23 ) and the round struts ( 24 ) are in the interior or Outside of the fish cage attached inflatable air tank (Fender). To stabilize the fish cage, the two upper air tank rows ( 32 ) in the longitudinal direction of the fish cage filled with air, the lower air tank ( 33 ) Not. So the fish cage is stabilized. To rotate the cage, the air is released from an upper row of air tanks and the adjacent rows of air tanks filled with air. This is how the fish cage rotates and stabilizes in every desired rotational position.

2. Safety airbag

The safety airbags ( 34 ) ( 1 ), consist of compressed air cylinders and inflatable air bags, which are fixed at the beginning, in the middle and at the end of the axial tube construction of the fish cages. If, for some reason, the fish cage can no longer be lifted above the compressed air system, the safety airbags are activated via pressure valves with a remote control so that the compressed air fills the airbags and raises the cage. The volume of the air bags is designed accordingly.

3. oxygenation

At a water flow of 0.6 m / sec, the water has sufficient oxygen for a stocking density of 25 kg fish / m ³ . Less flow and warm water do not meet these values and reduce the stocking density accordingly. A diffuse air supply in the fish cage increases the oxygen content of the water. For this purpose, porous air hoses ( 35 ) ( 1 ), fixed to the lower longitudinal struts of the fish cages, from which compressed air escapes evenly over the entire cage and optimally enriches the water with oxygen. The compressed air comes from a compressor on the trawler.

4. Feed feeding device

The innovative liquid feeding device ( 3 ), based on the principle of the "Bunsen water jet pump". The liquid feeding device consists of a dosing device ( 44 ), a pellet feed ( 45 ), a water pipe ( 46 ) and a bypass tube ( 47 ). A water pump delivers water through the water pipe ( 46 ). The feed is fed via a suction device ( 45 ) as a suction tube with an enlarged opening in the middle of the water pipe ( 46 ). The expanded opening of the suction pipe causes a larger water vortex and does not destroy the pellets. The bypass tube ( 47 ) increases the water pipe ( 46 ) lost water pressure (Bunsen effect).

5. Fish feeding

From the liquid feeding device ( 3 ) on the trawler, the pellets reach the axial feeding tube ( 36 ) ( 1 ), in the fish cage and to the branches for each section. Via a controllable pinch valve ( 37 ) for each section and a flexible hose ( 38 ), the pellets reach a floating buoy ( 43 ) with a rotating baffle plate, which distribute the pellets evenly in the section. The same feeding tube system is suitable for fish cages A, B and C.

6. Fishing harvest and fish sorting

When harvesting the fish with vacuum pumps, the space for the fish in the cage must be reduced. This happens when the cage is lifted halfway out of the water. A further reduction of the section volume for the fish takes place via a section radius net. The innovative section radius net ( 4 ) has a PVC pipe frame ( 50 ), the size of the radius surface of a section. In this tube frame is a fish net ( 51 ) curious; excited. This fish net has a prefabricated hollow on the periphery side of the fish cage ( 52 ). Turning the fish cage reduces the volume of the fish in the section. The fish are forced to the periphery of the section radius network and sucked by the vacuum pump. The section radius network ( 51 ) ( 4 ) with given mesh size also serves for fish sorting. The functionality of the fish sorting is the same as with the fish harvest. The smaller fish sort themselves through the net and remain in the cage section. The larger fish are turned into the section mesh trough by the rotation of the cage ( 52 ) and sucked by a vacuum pump. In the outer net of the fish cage there are several net cage openings with an offshore zipper along a round strut of each section. Depending on the rotational position of the fish cage, the nearest net cage opening for the suction pipe of the vacuum pump is taken. The fish vacuum pump is fixed on a special service boat next to the cage.

7. Management and Economics

• – ein leichtes Versenken und Heben des Fischkäfigs ausschließlich mit Druckluft
• – einen stressfreien Lebensraum der Fische unter den Wellentälern ohne Wellen-Turbulenzen,
• – ein Selbstreinigen der Netze in der Luft/Sonne, wenn der Käfig etwas aus dem Wasser schaut,
• – eine automatisierte Flüssigfütterung unter Wasser, ohne Beschädigung der Pellets,
• – eine einfache Fischernte und Fischsortierung mit Sektions-Radiusnetzen und Vakuumpumpen,
• – eine sichere Sauerstoffversorgung mit Druckluft über poröse Schläuche. Ein störungsfreies, Offshore-Management und eine hohe Wirtschaftlichkeit mit geringem Personalaufwand sind gesichert.

Enable innovation

• - A slight sinking and lifting of the fish cage only with compressed air
• - a stress-free habitat of fish under the troughs without wave turbulence,
• - A self-cleaning of the nets in the air / sun, when the cage looks out of the water,
• - automated liquid feeding under water without damaging the pellets,
• - a simple fishery harvest and fish sorting with section radius nets and vacuum pumps,
• - a safe supply of oxygen with compressed air via porous hoses. Trouble-free, offshore management and high efficiency with low staff costs are guaranteed.

LIST OF REFERENCE NUMBERS

20

Cylindrical pipe scaffolding

21

Stable ballast chambers

22

Flexible ballast chambers

23

Longitudinal struts in the cylindrical pipe framework

24

Round struts in the cylindrical pipe frame

25

Spokes in the cylindrical pipe frame

26

Several sections in the cage

27

Compressed air hose for flexible ballast chambers

28

Fishnet around the cage and between the sections

29

Longitudinal struts of the fish cage

30

Round struts of the fish cage

31

Struts (spokes) of the fish cage

32

Air-filled fenders to stabilize the cage

33

Air empty Fender

34

safety airbag

35

Porous tubes for oxygenation in water

36

Axial feeding tube

37

Pinch valve in the feeding tube

38

Flexible feeding tube

39

Buoy with conical bounce plate

40

Three-legged pipe construction

41

Tube a of the three-limb construction

42

Tube b of the three-limb construction

43

Tube c of the three-limb construction

44

Feed dosing device - liquid feeding device

45

Feed feeder - suction pipe

46

Water pipe for the water flow of the pump

47

Bypass pipe

50

Section frame - section radius mesh

51

section network

52

Ready-made hollow

Claims (8)

Fish cage for the open sea according to patent 10 2008 057 515, wherein the axial service pipe ( 1 ) of fish cage A is replaced by an axial, cylindrical pipe construction ( 20 ), the integrated, stable ( 21 ) and flexible ( 22 ), Whereby the volume of the stable air chambers does not allow the cage to sink deeper than 30 m according to the Archimedes principle and the volume of the flexible air chambers raises the cage more than half out of the water and controls it at any desired depth up to 30 m , Fish cage for the open sea according to patent 10 2008 057 515, wherein the axial service pipe ( 1 ) is replaced by an axial, three-legged tube construction ( 35 ) with three tubes ( 36 . 37 . 38 ) and the swimming depth of the cage is checked with water or air in the three tubes. Fish cage according to claim 1 or 2, characterized in that via flexible air chambers ( 32 and 33 ) on each outer longitudinal strut ( 23 ) of the cage, the fish cage is stabilized and / or rotated, always two flexible air chambers are filled with compressed air and wherein any desired rotational and / or stabilization position of the cage is determined. Fish cage according to one or more of the preceding claims, characterized in that compressed air cylinders with highly compressed air and flat folded rubber containers ( 34 ), the safety airbags are provided which lift the fish cage in emergency situations, being filled via a remote control and corresponding valves, compressed air into the flexible air chambers. Fish cage according to one or more of the preceding claims, characterized in that porous air hoses ( 35 ) are fixed to the lower longitudinal struts of the fish cages, whereby air escapes uniformly over the entire cage and wherein the water is optimally enriched with oxygen. Fish cage according to one or more of the preceding claims, characterized in that a liquid feeding device is provided, which is a feeding tube ( 36 ), flexible feeding tubes ( 38 ) and buoys with rotating angle tube and bounce plate ( 39 ), which promotes fish pellets into each section of the cage, leaving the pellets undamaged in the water stream and with no loss of feed. Fish cage according to one or more of the preceding claims, characterized in that a section radius net ( 51 ) intended for harvesting, which is a ready-made hollow ( 52 ), wherein the fish cage is lifted from the flexible air chambers to more than half of the water and then being fed by cage rotation and the prefabricated trough in the section radius network, the fish of the fish vacuum pump and then aspirated. Fish cage according to claim 7, characterized in that a section radius net ( 51 ) with a given mesh size for fish sorting, where the functionality of the fish sorting is the same as the fishing harvest, with the smaller fish sorted through the net and in the cage section remain and the larger fish are fed to the fish vacuum pump and sucked.

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