NO20100106A1 - Device for removing lice from farmed fish - Google Patents

Description

Device for removing lice from farmed fish

The invention relates to a device for removing parasites from farmed fish, in particular salmon lice from farmed salmon.

Background

Salmon louse, Lepeophtheirus salmonis, is a parasite on saltwater salmon. Lice infestation causes skin damage to the fish. Injuries and losses caused by salmonella attacks are today one of the biggest health and economic problems in the farming industry. A high incidence of salmon lice is also considered a serious threat to wild salmon.

The use of chemical agents to combat salmon lice in farms has raised questions about the agents' environmentally toxic effects. To avoid the development of resistance, it is desirable to limit or end the use of vaccines and other forms of treatment with such drugs, which are supposed to kill salmon lice. Moreover, such treatment is time-consuming and expensive.

It is also known to use biological means to combat salmon lice. For example, wrasse and certain other marine organisms have been used.

Finally, various forms of mechanical removal of salmon lice have been tried, either by individual, manual treatment of the fish, or by subjecting it to some form of collective mechanical treatment, for example by irradiation with water. This has led to damage to the fish, which in turn has reduced its value.

The overall conclusion is that there is no method or device that provides a satisfactorily effective removal of salmon lice.

Purpose

The main purpose of the invention is therefore to create a device that can be used for the gentle and effective removal of parasites from fish. Inventor Lillemo has set himself the goal of developing a "salmon lice remover" which removes the need for manual, individual treatment of the fish, excludes the use of chemical or biological agents and which removes salmon lice effectively and without harming the fish.

It is also a goal to create a device that is pollution-free and environmentally friendly in other ways.

Another goal is to create a device that makes it possible to collect lice that have been removed from the fish and also in some cases to record the number of salmon lice, among other things to monitor and map the occurrence of salmon lice.

It is also important to reduce the time consumption and thus the costs of the removal, so that it does not increase the price of the final product or reduce the economy of the construction industry.

The invention

The invention is defined in patent claim 1. It thus includes an element with at least one rough surface that is exposed to the fish. By "rough" surface is meant here a surface that has elevations and/or depressions that form edges against the fish when it strokes against the element. Such an element forms a deworming unit. In each cage, one or more such de-lice units can be placed.

It has been shown that salmon infested with lice become more and more restless. At one stage it seeks barriers, such as the groove wall, in an attempt to rid itself of its troublesome parasite. This seems to be at the stage when the lice get under the scales of the salmon, and really start to bother it directly in the fish meat.

It has surprisingly been shown that an element with a rough surface, which is placed in or close to a cage, will attract salmon that are afflicted with salmon lice, as the salmon will try to scrape off the salmon lice.

In patent claims 2 to 9 advantageous details of this invention are indicated.

It is an advantage if at least part of the rough surface includes openings, preferably with a diameter of 3 - 6 millimeters, especially approx. 4 millimeters.

The element included in the desalination unit can advantageously form a wall in a container which is connected to a pipe for extracting water from the container.

The cross-section of the pipe is then advantageously larger than the combined cross-section of the openings. This ensures a flow of waste water away from the openings, which can carry loose salmon lice.

The container is preferably concave on the exposed side or sides.

In a favorable embodiment, the de-lice unit comprises a perforated pipe with an enclosing pipe jacket with suction. It may have funnel-shaped end portions.

It is important to ensure that the de-lice equipment is kept as clean as the rest of the equipment in the cages, where the salmon have access.

This equipment, together with a lining system, which feeds down into the cage, will work satisfactorily. Lining down in the cage is in itself preventive. Collected lice can be transported to an intermediate warehouse, and from there can be emptied/destroyed or taken to recycling, manually/automatically.

The lice removal unit is connected through a hose to a pump and further to a counting and logging system, which is fed over and into a separation system with quantity measurement of lice. This will ensure the quality of the process, and confirm the effectiveness of the equipment and automate the measurement of the amount of lice.

With the help of this equipment, one can also have precise control over the lice situation in the area, and know whether this is increasing or decreasing. Notification of deviations and unforeseen changes can be entered. In addition, temperature measurement, which is logged together with the rest of the documentation, can give a very good picture of the situation where the equipment is installed.

Placement

The equipment is deployed where there is the most activity or traffic of fish, which varies according to which lining system is used, and where there is the greatest activity in the cage, below the cage or on the surface.

The best result will in all probability be achieved when this equipment is used together with a lining system where the lining takes place in limited places so that the density during de-lice is as high as possible. There are systems that are very suitable for this combination, provided optimal placement and tightness.

In larger cages, it can be advantageous to place several units in strategic places in relation to the amount of fish and traffic. It may also be that a lining system is used that collects the salmon around the feeding area,

It is important to position the element correctly in order to get the de-lice removal as effective as possible, even if the feeding system used in the location is not particularly suitable for this.

By recording the amount of lice from the different lice removal units in a test release, this will point out the best locations for the lice removal in the cage.

The lice collector should not be placed in a field where the fodder will pass, this will give incorrect reporting on the quantity of lice. If you place the lice removal unit above the place of execution, this will ensure a great effect of lice removal, in addition to the amount of lice being correct.

This will also show which times of the day, now it is most effective in the individual lice removal unit, which will again appear from the log of each lice remover, this will be able to provide information about the best location, and the time that is the best to have this active.

The invention makes it possible to remove lice from the salmon, day and night, without the use of chemicals or wrasse. There is a low risk of damage to the fish. Salmon lice build up no resistance as long as they are picked without toxins. Salmon lice that are removed can be collected and killed, so that they do not lead to new infestations.

The invention makes it possible to reduce the occurrence of salmon lice to a level that does not bother the salmon significantly. The spread of salmon lice to wild salmon will therefore be reduced.

When the salmon is lice-free, it will be fresher and more natural in its movements. This will also reduce stress, and make the breeder more satisfied. It will also improve the economy of the industry. The invention will make it easier to maintain the reputation of salmon farming.

In some cases, the invention can be used together with known procedures with chemical and/or biological de-fleaing agents.

Example

The invention is described below in more detail with reference to the figures, where

Figure 1 shows a schematic side view of a cage with fish and with a de-lice unit in accordance with the invention.

Figure 2 shows a perspective view of a de-lice unit in accordance with the invention,

Figure 3 shows a section through a collection hole in a deworming unit made of plate material with a certain thickness, while

Figures 4 and 5 show cross-sections through two alternative de-lice units.

Figure 1 shows a cage 11 placed in the sea, with a flotation collar 12 and a bag 13 made of net material. In the cage 11, a de-lice unit 14 is attached in an appropriate manner to the float collar 12, for example with two fastening lines 15,16, under the float collar.

The deworming unit 14 is connected to a suction hose 17 which is led to an operating unit not shown, for example on a floating platform or on land. Further details of the de-lice unit 14 are described in more detail with reference to Figure 2.

In order to simplify the presentation and the description, other known equipment, such as walkways, lining equipment and other operating equipment, are not included in the drawing.

Figure 2 shows an example of a de-lice unit 21 which can be used as shown by the de-lice unit 14 in Figure 1. The de-lice unit 21 has the shape of an elongated, generally closed box 22, with concave, longitudinal side walls 23.

Each of the concave longitudinal side walls has a perforation pattern with uniform openings 24 in three symmetrically arranged rows. In one end wall 25, a pipe connection 26 is arranged for connection to a hose or a pipe for pumping out water from the box 22. It is appropriate that the cross-section of the hose is larger than the total cross-section of the openings 24, so that it is possible to achieve an inflow rate through the openings 24 that can draw in loosened salmon lice and transport it on to collection, destruction or utilization.

The de-lice unit 21 can be made with the concave side walls 23 of plate material, for example of stainless steel. The openings 24 will then have sharp edges which help to scrape loose salmon lice. If it is desirable to make the box 22 from a material other than thin sheet, for example plastic sheets, it may be advantageous to make the openings 24 conically divergent inwards as shown in Figure 3. Thus, the outer edge will take the shape of a circular egg, which can scratch loose salmon lice when the salmon rubs against the lice removal unit. As it is circular, it will work in all directions, so that the fish is de-liced regardless of the direction of movement in relation to the surface.

At each end of the deworming unit, a fastening bracket 27 is shown for connecting the lines 15 and 16 in

Figure 1.

Figure 4 shows an alternative form of a box 28 for a de-lice removal unit, with four concave side panels 29, 30, 31, 32. This allows the removal of salmon lice by touching all sides. Such a design requires a correspondingly increased cross-section of the discharge hose 17 (Figure 1).

Figure 5 shows a further embodiment of a de-lice unit 34. Here, the active element is a perforated tube 35 with an opening at both ends, for the flow of water and the passage of fish. Around the perforated pipe 35, a tubular casing 36 is arranged which is closed at the ends and which has a pipe connection 37 for pumping out water.

The ends of the perforated tube 35 can be provided with funnel-shaped entrances to make the salmon's access to the perforated tube easier. It is also possible to provide a flow of water through the perforated tube which stimulates the salmon to enter the tube in a certain direction.

The system for pumping out water from the desalination units can be designed with known pumps. Sensors can be placed in this system to record the number of salmon lice that are scraped off and collected. In this way, it becomes possible to monitor the effect of different placements in a cage, in order to find the placement that gives the best results.

The de-lice unit can also be made as a plate-shaped box with a perforated side.

External sharp edges of the equipment can be covered by padding 38 (Figure 4) of suitable material.

Claims (9)

1. Device for removing parasites from fish, especially salmon lice from salmon, characterized by element (14) with at least one rough surface that is exposed to the fish. 2. Device in accordance with patent claim 1, characterized in that at least part of the rough surface comprises openings, preferably with a diameter of 3-6 millimeters, in particular approx. 4 millimeters. 3. Device in accordance with patent claim 2, characterized in that the element (23) with openings (24) forms a wall in a container (21) which is connected to a pipe (26) intended for extracting water from the container. 4. Device in accordance with patent claim 3, characterized in that the cross-section of the pipe (26) is larger than the combined cross-section of the openings (24). 5. Device in accordance with patent claim 3, characterized in that one side (23) of the container (21) is concave on the exposed side. 6. Device in accordance with patent claim 1, characterized in that the element with a rough surface is a perforated pipe (35) with an enclosing tight pipe jacket (36) with a pipe (37) for extraction. 7. Device in accordance with patent claim 7, characterized in that the perforated tube has funnel-shaped end flanges. 8. Device in accordance with patent claim 3, characterized in that sensors are arranged in the extraction system for recording the number and/or amount of collected salmon lice. 9. Device in accordance with one of the patent claims 1 to 8, characterized in that it is exposed to the fish above the pre-discharge area.