NO20110903A1 - Collection system for transporting dead fish and / or waste - Google Patents

Description

The subject area of the invention

The present invention relates to a collection system for the transport of dead fish and/or waste from one or more cages to a raft, where the dead fish and waste are pumped up from the cage by a cage pump device and further transported by the system.

The present invention also relates to a method for transporting dead fish and/or waste from one or more cages to a raft.

Known technique

Removal of dead fish, by-products and faeces from breeding cages used in fish farming is a necessary operation in the day-to-day operation of a fish farming facility. Today's size of the cages, the need for rationalization and automation and increasing focus and demands on health, environment and safety (HSE) for breeders on fish farms require the use of systems that can be operated as independently as possible of physical human labour. In this connection, cage pump systems have been developed that remove waste and dead fish from a breeding cage. Such a cage pump system is, among other things, described in the applicant's previous patent application NO20110443 with application date 24.03.11.

A normal cage consists of a floatable, overlying and, for example, ring-shaped collar to which a mesh or cloth forms a cage bag, which is attached to the collar. A cage pump system can essentially consist of a pump connected to a suction hose that sticks into the bottom of the cage bag to suck up dead fish and waste. The suction hose carries the dead fish and waste up to the surface, where it is collected in a container connected to the cage. The dead fish and waste are then removed from the container manually, one cage at a time.

Brief summary of the invention.

The system in accordance with the present invention is thus characterized in that it comprises a pipe system arranged to run from an additional water pump arranged under the water surface to the raft, where the pipe system is connected to the cage pump device in the cage via a branch pipe.

The method in accordance with the present invention is thus characterized in that it comprises the following steps: pumping from the bottom of the cage of the dead fish and the waste by a cage pumping device, and further transport of the dead fish and the waste from the cage to a raft by a collection system in compliance with the system in accordance with the present invention.

Detailed description of the invention.

The present invention will now be described in more detail with reference to the figures, in which: FIG. 1 shows a side view of a collection system in accordance with the invention, where only one cage 40 is connected to the system. FIG. 2 shows a top view of a collection system in accordance with the invention, where three cages 40A, 40B, 40C are connected to the system.

A collection system in accordance with the invention is shown in FIG 1 and 2. As described above, it is known to transport dead fish and waste up from cages using a cage pump system, for collection in a container on the edge of each individual cage. Dead fish and waste must then be collected from each cage at a later stage. This is usually done by driving a vessel around, from cage to cage, and emptying the containers. This is time- and resource-consuming work, and means that the dead fish and waste can remain in the containers for a long time. The purpose of the present invention is to remove this step of manual work, and replace it with a more efficient mechanized solution.

The solution that has been arrived at with the present invention builds on the cage pump device that is already installed in the individual cages. Thereby, one can take advantage of the pressure that has already built up in these systems, to transport the dead fish and/or waste further to a common collection point, usually a raft. The collection point can of course also be on land or in a vessel, but vessels are not practical as the collection point must be stationary in relation to the cages, and usually the farming facilities will be too far out at sea for it to be practical to take the waste all the way to land.

The embodiment of the system in accordance with the invention as shown in FIG 1 and FIG 2 comprises a pipe system 30 which passes past and is connected to the cage pump device in the cages 40A, 40B, 40C with single branch pipes 33A, 33B, 33C in the pipe system 30. One end of the pipe system 30 is connected to the raft 10, and the other end of the pipe system 30 is led down below the water surface 20 where it is connected to an additional water pump 36. The flow in the system is from the additional water pump 36 up into the raft 10, and from the cage pump systems into the pipe system 30.

The pipe system 30 preferably comprises a vertically arranged pipe 35 which leads up from the additional water pump 36 to a horizontally arranged main pipe 32, where the branch pipe 33 is connected to the main pipe 32, and the main pipe 32 at the other end is connected to an additional pipe 31 arranged for transport to the fleet. The main pipe 32 is preferably arranged with floating elements that keep it afloat in the surface of the sea 20. The branch pipe 33 is preferably a Y branch, as shown in FIG 1 and FIG 2. Other designs of the branch pipe are of course also possible, for example one can arrange a cage (40) on each side of the pipe system (33), and simultaneously have outlets for these two cages through an X branch.

A vertically arranged pipe 35 thus leads from the main pipe 32 down into the sea, so that the additional water pump 36 is located below the water surface 20. The vertical pipe 35 must be long enough for the pump 36 to be underwater, preferably also during high seas. The pipe 35 can also be extended if you want to pump water into the system from further down in the sea, for example if the water near the surface is polluted.

The length of the main pipe 32 will be adapted to individual farming systems. Preferably, the length of the main pipe 32 is between 100 and 600 m. The lower limit allows a plurality of round cages to be connected to the system, while the additional water pump 36 can handle such distances. If the length of the main pipe 32 becomes longer, a very powerful additional water pump 36 will have to be used to keep the pressure in the pipe system 30 up to a satisfactory level, i.e. a level that pumps the dead fish and waste up to the raft quickly enough to to handle the inflow from the cage pump systems, and avoids backflow. The length of the main pipe 32 is also limited by wave and wind movement in the sea, as wear and tear on the pipe system 30 will increase with increasing length.

The pipes in accordance with the system according to the present invention can be manufactured from any material suitable for the purpose, but according to a preferred embodiment, PE pipes are used. This can be, for example, 8 inch PE pipe for the main pipe 32 and the vertical pipe 35, and a PE pipe of somewhat larger dimensions for additional pipe 31. The pipes in accordance with the system according to the present invention can of course be assembled from a number of individual short pipes, this may be particularly necessary for long main pipes 32.

The dead fish and the waste are carried from the main pipe 32 up to the raft 10 by an additional pipe 31, and before the dead fish and the waste enter the raft 10 it preferably passes through a sieve box 11. The sieve box filters the water from the dead fish and the waste, as that only the dead fish and waste ends up in the raft 10, while the water is allowed to return to the sea on 20.

The additional water pump 36 is preferably a flushing water pump ("flushing pump"), and is arranged so that it helps keep the pressure up in the pipe system 30. But it is the pumps in the cage pump systems in the individual cages 40 that mainly create the water pressure that pulls dead fish and waste up from the cages 40 into the system in accordance with the present invention.

According to a preferred embodiment of the system in accordance with the invention, a one-way valve 34 is arranged at the transition from the cage pump device to the branch pipe 33 which prevents backflow from the system to the cage pump device. The valve 34 is mounted on the outlet from the cage at the inlet to the branch pipe, and prevents dead fish from flowing the wrong way. The dead fish will then float into the raft, and will not end up in neighboring cages even if the pressure in the pump system were to drop, for example in the event of a pump failure.

The system according to the present invention is primarily intended to operate a plurality of cages, but can also be used for just one cage. Thereby one does not have to collect waste from each individual cage, but can do this at a main collection unit, i.e. the raft 10. This saves work and time, and thereby makes the operation of the breeding facility more efficient. The main pipe 32 is preferably provided with outlets for a number of branch pipes, so that cages can be connected and disconnected at different positions. These outlets are of course closed when not in use.

Claims (8)

1. Collection system for transporting dead fish and/or waste from one or more cages (40) to a raft (10), where the dead fish and waste are pumped up from the cage (40) by a cage pump device and further transported by the system, characterized whereby the system comprises: a pipe system (30) arranged to run from an additional water pump (36) arranged under the water surface (20) to the raft (10), where the pipe system (30) is connected to the cage pump device in the cage (40) with a branch pipe (33). 2. Collection system in accordance with claim 1, characterized in that a plurality of cages (40A, 40B, 40C) are connected. 3. Collection system in accordance with claim 1, characterized in that a one-way valve (34) is arranged at the connection from the cage pump system to the branch pipe (33) which prevents backflow from the device to the cage pump system. 4. Collection system in accordance with claim 1, characterized in that the branch pipe (33) is a Y branch. 5. Collection system in accordance with claim 1, characterized in that the pipe system (30) comprises a vertically arranged pipe (35) which runs up from the additional water pump (36) to a horizontally arranged main pipe (32), where the branch pipe (33) is connected to the main pipe (32) ), and the main pipe (32) at the other end is connected to an additional pipe (31) arranged for transport to the raft. 6. Collection system in accordance with claim 1, characterized in that it includes the cage pump device. 7. Method for transporting dead fish and/or waste from one or more cages (40) to a raft (10), characterized in that the method includes the following steps: - pumping out the dead fish and waste from the bottom of the cage (40) of a cage pump device, and - further transport of the dead fish and the waste from the cage (40) to a raft (10) of a collection system in accordance with one or more of claims 1-6. 8. Method according to claim 7, characterized in that both the additional water pump (36) and the pump in the cage pump device are used.