NO20181249A1 - COMBINED FISH FARMING TANK / WAVE POWER PLANT - Google Patents

Description

Combined fish breeding tank/wave power plant

The invention relates to a fish breeding tank with internal water rotation flow and which can simultaneously be used as a wave power plant with integrated heated fresh water or sea water tanks for use in lice control.

A patent has previously been applied for a wave power plant (ref. Pat. 333838) where the pontoons that rotate a generator shaft are aligned, and pat. no. 339796 where a wave lifter is placed under the buoyancy There is also a previously expired patent. on an oscillating column of water a closed chamber that drives an overhead air turbine.

By arranging a conical collar at the top and on the outside of the fish breeding tank which is filled with water and under this collar the upper part from each chamber arrange inclined channels in through the cylinder wall so that when a wave hits the cylinder wall the water level inside the cone rises, compressed air through inclined channels cylinder wall and puts the water inside the tank in a circulation wave This provides a counter current for the fish, which improves fish health.

Several fresh water tanks in the top lid, possibly with heated sea water mixed with fresh water, enable gradual strength and temperature adjustment to fresh water when moving and cleaning fish for salmon

By using the tank lid as a mounting platform for the wave pontoons and hinge them so that the conical ring on the outside comes under the floating pontoons, these will get an extra lift when b hits the cone with greater angular rotation per wave as a result Conical design of the surface of the tank lid, in addition to the wave thickening towards the lid, leads more water under the side pontoon and partly backwards with a greater total lifting angle per wave that rises A waveguide (19) located behind guides residual waves into pontoons to increase wave height. For extra water flow inside the tank, a flow pump (24) is fitted with operation from shaft (12).

By designing the tank lid as a cone, large waves are guided out the sides and under the side pontoons with greater angular movement as a result. By connecting all drive shafts to a continuous circle on the inside of the tank lid before they go into a common gearbox/generator, in addition to wave protection of the shafts, equalization of speed variation is achieved of drive shaft f enters the gearbox/generator. If several flywheels are mounted on the common shaft that drives the generator, smoother rotation in the generator is achieved. If a flow pump is mounted under water with operation from a common drive shaft, additional rotational flow of water along the inside of the tank is achieved.

FIG. 1 shows sm.st., side section tank with tank lid, 2 pcs. pontoon with gearbox mounted in tank lid etc. On the right side is shown a waveguide which will stand behind the tank on the opposite side in relation to the incoming dominant wind direction.

Fig. 2 shows the set in plan, tank with tank lid, 1 pc. do pontoon and 16 pcs single pontoon fitted.

Fig. 3 shows a section of the tank (2) with a mounted wave lifter (3) on the outside of the tank (2), upper part and support columns (13) for the middle water tank (15).

Fig. 4 shows tank (2) seen in plan with support columns (13) for fresh water tank (15), wave lifters (3) placed around the outside of the roof (2) upper part as well as inclined flow channels (17) with escape grate (21) placed on inside tank over hole (17).

Fig. 5. shows a section of the tank lid (1) mounted gearbox (6) with one-way bearing (8), gears (7) and (9), drive shafts and stops f pontoons in upper position (14) and internal water tank (15) for fresh water with heating.

Fig. 6 shows the tank cap (1) seen in plan, mounted 1 pc. double axle (4) and (5) with gearbox (6) and one-way bearing (8) and gear wheel (7), pontoon stopper (14).

Fig. 7. shows section of drive shafts (10) and (11) for pontoon ( (5) with associated gearbox (6) and common gearbox/generator (1 pump (24) and articulated drive shaft (12) mounted flywheel ( Fig. 8 shows (Det. A) double pontoon (4) and (5), gearbox (6) with one-way bearing (8) and worm wheel drive (7) and (9) on drive shaft. (12)

Claims (4)

PATENT REQUIREMENTS: 1. Fish breeding tank in combination with a wave power plant with internal rotational flow on the water using external wave action characterized by the fact that a conical ring (3) with internal ribs (22) is placed on the outside of the tank (2) where, under the conical ring (3) at the tip, slanted holes are placed through the wall with a grate to prevent escape. 2. Patent claim according to requirement 1 is based on the fact that a conical lid (1) is placed over the tank (2) where the pontoons (4) and (5) are hinged and where the drive shaft (12) from each of the hinged pontoons is stored on the inside of the tank cap in a 360 degree 3. Patent claim according to claim k 1-2 a r a c t e r i s e r t e d that under the conical tank lid (1) there are fresh water tanks (16) with the possibility of heating sea water or fresh water cleaning of salmon lice. 4. Patent claims according to claims 1-3 characterized in that the drive shaft ( drives a water circulation pump (24).