NO342818B1 - Pumping device and method for supplying fresh water in a farmed cage - Google Patents

Abstract

Apparatus for improving the aquatic environment in a fish farm for sub-optimal environmental conditions, comprising an electrically driven propeller whose axis is vertically oriented and mounted inside the upper part of a vertically oriented plastic tube leading to water at a greater depth and conductor the water masses to the surface and spreads them out with branching in such a way that a vertical flow is created in the cage outside the device due to temperature and density differences in the water coming to the surface. The device increases the efficiency of such a flow and reduces energy consumption by isolating the upward flow of water throughout the water column from inlet to outlet. At the same time, the device used in combination with conventional lace covers around the cage will have extra effect. The environment is protected by having a strainer / grate fitted at intake and outlet to prevent fish in the cage from being damaged. The device is mounted to a standard float / bend with strap at the outlet end and a solder is installed at the inlet end to maintain a stable vertical and in equilibrium position relative to the desired depth. The device is also fastened inside the cage with rope to the cage float to maintain horizontal position.

Description

Designation

The invention relates to a pump device for the supply of fresh water in a breeding pen, more specifically a device for pumping up water from a desired depth inside a breeding pen, as well as a method for improving the aquatic environment in a breeding pen.

Introduction

The invention relates to a device for improving the aquatic environment in a breeding pen for fish in sub-optimal environmental conditions. The device is a pumping device comprising an electrically driven propeller where the axis of the propeller is vertically oriented and mounted inside the upper part of a vertically oriented plastic pipe which leads to water from a greater depth and leads masses of water to the surface and spreads them out by branching in such a way that a vertical current is set up in the cage outside the device due to temperature and density differences in the water reaching the surface. The device increases the efficiency of such a flow and reduces energy consumption by isolating the upward flow of water in the entire water column from intake to outlet. At the same time, the device used in combination with conventional louse tarps around the cage will have an extra effect.

The environment is protected by the fact that a strainer/grating is fitted at the intake and outlet to prevent fish in the cage from being harmed. The device is fitted to a standardized float/buoy with a strap at the outlet end and a plumb bob is fitted at the intake end so that it stays in a stable vertical and balanced position in relation to the desired depth. The device is also attached inside the cage with rope to the cage float to maintain a horizontal position.

Background and known technique

The farming industry faces challenges in preventing parasite infestation (lice) and harmful microorganisms such as the amoeba AGD. The use of lice tarpaulins for all or large parts of the year is today very widespread to prevent the infestation of lice that are present and come with horizontal currents in the upper bodies of water. The use of such tarpaulins can lead to reduced oxygen and stagnant water masses, which have a negative effect on fish welfare, growth and the possible build-up of micro-organisms. It also happens that for some localities stagnant currents may occur for periods or other work operations take place where there is a need to increase circulation by retrieving fresh water from greater depths or removing waste materials for a period.

NO20150705A1 describes a device for pumping water for the purpose of replacing or removing an upper layer in rearing cages where lice skirts are used to prevent lice-infested water from entering the rearing cage. The device according to the patent document comprises a vertical pipe with an attached plumb line, a grate at the end of the pipe to ensure that fish cannot swim up the outlet hose, a pump and an electrically driven propeller with a vertically oriented axis in the upper part of the pipe, where the pipe continues is connected to a water intake ring having slit openings and a floating element. The device according to the patent draws in water through the intake ring on the surface and drives this downwards via the outlet hose which extends far into the depth of the cage.

Other patents are WO2014/000102A1, NO19832490A, and WO2007/066388A1, all of which describe background technology.

Brief summary of the invention

The invention is a pump device for the supply of fresh water in a breeding pen with a floating collar (M) and groove (x), where the pump device includes the following features:

- a vertically oriented plastic pipe (d),

- where the plastic pipe (d) is equipped with a suspension (g) for a buoyancy buoy (f) designed to lie on the sea surface,

- where the plastic pipe (d) is equipped with a strainer (c) at the deepest end,

- where the plastic pipe (d) is equipped with a plumb line (3) near the deepest end where the pump device is further characterized by

- an electrically driven propeller (a) with a vertical axis and located in an upper part of the plastic tube (d)

- where the propeller (a) is placed under two distribution pipes (b) and where the distribution pipes (b) have a grate located at the top,

, and

- where the pump device is designed to pump up fresh water (1) from a desired depth in the cage and distribute this.

In another aspect, the invention is a method for improving the aquatic environment in a breeding pen to prevent or reduce the infestation of parasites and microorganisms on fish, where the method is characterized by the following steps:

- to install a pump device in a breeding cage with float collar (M) and groove (x), where the pump device includes the following features:

- a vertically oriented plastic pipe (d),

- an electrically driven propeller (a) with a vertical axis and located in an upper part of the plastic tube (d)

- where the propeller (a) is placed under two distribution pipes (b) and where the distribution pipes (b) have a grate located at the top,

- where the plastic pipe (d) is equipped with a suspension (g) for a buoyancy buoy (f) designed to lie on the sea surface,

- where the plastic pipe (d) is equipped with a strainer (c) at the deepest end,

- where the plastic pipe (d) is fitted with a plumb line (e) near the deepest end;

- to drive the pumping device and thereby pump up fresh water (1) from a desired depth and distribute the fresh water (2) from the distribution pipes (b) close to the surface, and where the distributed fresh water (2) due to its higher density sets up a vertical return flow (3) towards the depth of the fish cage.

The purpose of the invention is to be a concrete device and technical device that can be mass-produced and sold and installed in all fish cages and thus lead to a method in the industry to improve fish welfare by creating circulation and vertical flow in an efficient way when needed.

More details about embodiments of the invention with reference to figures

By operational unit is meant a unit that is designed to carry out the active actions involved in the process. In addition, the device according to the invention may include non-operating units and components such as buoys for buoyancy, plumb bobs, standardized steel components and ropes for fixing the device in the desired position.

Figure 1 shows a schematic and vertical section of a rearing cage under water with units that form part of an embodiment of the device according to the present invention.

Figure 2 shows an embodiment of the device according to the present invention in a vertical section of a cage with a louse skirt.

Figure 3 shows an embodiment of the device according to the invention and water flow seen from an oblique view from below in a cage with a louse skirt.

Figure 4 shows an embodiment of the device according to the invention and water flow seen from an oblique view from above in a cage with a louse skirt.

Figure 5 shows the device according to the invention.

Figure 6 shows the same as Figure 5 but from a slightly different angle.

Figure 7 shows an embodiment of the upper part of the device according to the invention.

Figure 8 shows an embodiment of the invention with fixation with a rope to a floating collar.

Description of embodiments of the invention

Figure 1 shows a schematic and vertical section of an underwater breeding cage with the components (a-g) of the device according to the present invention. The electric propeller (a) is mounted inside the plastic pipe (d) which pushes water from the intake with strainer c) to the outlets with grate (b). The fresh water masses (1) from deeper water layers are moved up through the pipe in the device and spread out into the surface (2) and then gradually sink and set a vertical current (3) due to temperature and density differences. In this way, stagnant bodies of water are prevented which are unfavorable for the growth of micro-organisms and general fish welfare. The device used together with lice shield/lice tarpaulin (LS) which stops horizontal flows (H) of lice in the upper water layers for fish inside a net bag (x) will define the effect well for the fish in a cage. Lice shield (LS) and groove (x) mounted in floating collar (M) are not a characterizing part of the invention but form part of its context. Float/buoy (f) with fixing (g) to the device, see Fig.5 and 6, as well as plumb bob (e) should help to keep the device in a vertical position and maintain equilibrium in relation to the desired depth. This is regulated by adjusting the length of the link (g), see Fig.6, between the device and the buoy (f).

The device according to the invention can include so-called units and components such as buoy (f) for buoyancy, plumb line (e), standardized steel components and ropes (i) for fixing the device in the desired position. Figure 8 shows an embodiment of the invention with fixation with three ropes (i) extending to three points to a floating collar (M).

The device according to the invention is simple in its design and is assembled where possible from available standardized components in order to be able to fit into the requirement regimes to which fish farms are subject such as NYTEK regulations and NS9415 standard. Be it certified buoys, straps, ropes, shackles, chain, plumb bob, plastic pipe and plastic details welded to the pipe to create attachment points for anchoring. It is therefore important that such a device is designed so that it can be certified or defined as an additional equipment and included in the installation certificate at locations in accordance with NYTEK regulations. Requirements in this respect relate to such a device being considered as extra equipment and taking account of not having characteristics that represent an increased escape risk. The device according to the invention is therefore made as simple and streamlined as possible to avoid contact or chafing against other components.

Emphasis has also been placed on it being able to be mass-produced easily based on known and durable materials in the farming industry. It must be possible to place one or more devices in or around each individual cage as needed and thus typically have several devices in operation at a farming location.

Claims (5)

Patent claims 1. A pump device for the supply of fresh water in a rearing cage with float collar (M) and groove (x), where the pump device includes the following features: - a vertically oriented plastic pipe (d), - where the plastic pipe (d) is equipped with a suspension (g) for a buoyancy buoy (f) designed to lie on the sea surface, - where the plastic pipe (d) is equipped with a strainer (c) at the deepest end, - where the plastic pipe (d) is equipped with a plumb line (3) near the deepest end, - where the pumping device is next c a r a c t e r i s e r t w e d that - an electrically driven propeller (a) with a vertical axis and located in an upper part of the plastic tube (d) - where the propeller (a) is placed under two distribution pipes (b) and where the distribution pipes (b) have grates placed at the top and - where the pump device is designed to pump up fresh water (1) from a desired depth in the cage and distribute this. 2. The pump device according to claim 1, where the distribution pipes (b) are arranged under the buoyancy buoy (f) for placement close to the surface so that the pump device is arranged to set up a resulting vertically downward current (3) inside the rearing cage during driving. 3. The pump device according to claim 1 or 2, where it is provided with attachment points (h) in the plastic tube (d) for three mooring lines (i) extending from at least the upper part of the plastic tube (d) to the float collar (M) and from the lower part of the plastic tube (d) to the same three locations on the float collar (M). 4. Procedure for improving the aquatic environment in a breeding pen to prevent or reduce the spread of parasites and microorganisms on fish, characterized by the following steps: - to install a pump device in a breeding cage with float collar (M) and groove (x), where the pump device includes the following features: - a vertically oriented plastic pipe (d), - an electrically driven propeller (a) with a vertical axis and located in an upper part of the plastic tube (d) - where the propeller (a) is placed under two distribution pipes (b) and where the distribution pipes (b) have a grate located at the top, - where the plastic pipe (d) is equipped with a suspension (g) for a buoyancy buoy (f) designed to lie on the sea surface, - where the plastic pipe (d) is equipped with a strainer (c) at the deepest end, - where the plastic pipe (d) is fitted with a plumb line (e) near the deepest end; to drive the pumping device and thereby pump up fresh water (1) from a desired depth and distribute the fresh water (2) from the distribution pipes (b) close to the surface, and where the distributed fresh water (2) due to its higher density sets up a vertical return flow (3) towards the depth of the fish cage. 5. Method according to claim 4, - including using the pump device in a rearing cage with a lice skirt (LS) mounted from the float collar (M) and which extends a little way down along and on the outside of the wall of the groove (x).