NO20161244A1 - Method and apparatus for removing ectoparasites from fish in fish farms - Google Patents

Abstract

Device (100) for removing ectoparasites from fish inside a farmed cage. A container (103) is provided with an inlet (104) and an outlet (105) with groove calf. The bait (107) is arranged in an inlet section (106). For, the inlet section (106) is supplied via hose (120). A stream of water is directed toward the inlet (104) with hose (110). A plurality of suction hoses (112) are arranged downstream of the outlet (105) and connected to collector hose (113) to guide parasites sucked off from the fish to the surface by pump means. A first brush arrangement (115) defines a vertical slot opening (116) where the sides of the fish will be coated as it swims through the slot opening (116). A second brush arrangement (117) defines a horizontal slot opening (118) is the abdomen and the back of the fish will be coated as it swims through the slot opening (118). A guide yarn (109) is arranged at the inlet (104).

Description

The invention relates to a method and a device for removing ectoparasites from fish in aquaculture facilities, as can be seen from the introductory part of patent claims 1 and 11 respectively.

Background

Salmon louse is a crustacean that lives as a marine ectoparasite on anadromous fish. Through regulations from the authorities, the lice limits have been constantly tightened, which has led to more frequent de-lice removal in the industry. Constant deworming and handling of the fish can pose a challenge with regard to fish welfare.

The presence of salmon lice is a serious problem in aquaculture and has a significant negative impact on costs and productivity. Fish welfare can of course also be affected in a negative way.

The fish farming industry implements a number of measures to remove parasites from fish, for example preventive treatment (brittle and similar), chemical treatment, exposure to fresh water, cleaning fish, mechanical treatment and treatment with hydrogen peroxide. Many of these methods involve the handling and transport of fish to a well boat or other vessel for processing outside the farm cage.

While some of the methods have been more or less successful, the problem of ectoparasites in aquaculture remains significant. There is therefore still a need to develop new measures that can at least reduce the ectoparasite problem.

Purpose

The purpose of the invention is therefore to provide a method and device for removing ectoparasites from fish in breeding facilities, without moving the fish out of their accustomed surroundings and without the use of drugs or chemicals.

The invention

This purpose is achieved with a device and method according to the characterizing part of patent claims 1 and 11, respectively. Further advantageous features appear from the independent patent claims.

The invention relates in a first aspect to a device for removing ectoparasites from fish in breeding cages. The device comprises a container with an inlet with grooved calf and an outlet with grooved calf. The net calves ensure that the fish cannot swim back to the inlet, but must swim through the container. The device is further arranged to be lowered into a rearing cage, in which an inlet section at the inlet has at least partially translucent walls. The container is further provided in the direction of the outlet with at least one suction section with a series of suction hoses defining at least one opening, arranged to contact the fish body and suck off ectoparasites together with water, which suction section is connected to the pump member and filter at the surface. The device further comprises at least a first brush section with a number of bristles which project mainly horizontally towards the fish's swimming direction in the container and define at least one mainly vertically projecting slit opening through which fish can swim, and at least one second brush section with a number of bristles which projects mainly vertically into the fish's swimming direction in the container and defines at least one mainly horizontally projecting slit opening through which fish can swim.

The container may be made of any material that allows submersion in seawater and that offers a barrier for the fish from swimming out into surrounding water while swimming through the container. For example, the container may be made of yarn stretched in a frame or it may be made of a cylindrical channel. It is also conceivable to provide the container with different geometries, for example with a square cross-section or a polygonal cross-section. The container may in particular be made of a plastic material, for example polyethylene.

A guide net is preferably arranged at the inlet of the device to guide fish in about the inlet.

In a preferred embodiment, one or more of the walls in the inlet section are provided with a window, so that the fish can see the bait in the inlet section.

A liner hose is preferably arranged in the inlet section to supply liner to the inlet section mixed with water from the surface.

The device according to the invention is arranged floating with the help of a number of floats and ropes or wires, where the rope length can be adjusted to locate the device at the desired depth.

In a second aspect, the invention is directed to a method for removing ectoparasites from fish in breeding facilities, where the fish is led or encouraged to swim freely through a container which exhibits means for mechanically removing parasites from the fish.

More specifically, the method for removing ectoparasites from fish in a farm comprises the use of a device described above, in which the fish is guided and encouraged to swim through the device against flowing water, in which the fish undergo mechanical de-lice by: a) allowing the fish to swim through a or several suction sections equipped with a number of suction hoses, and establish physical contact between the suction hoses and the fish body, in order to suck parasites away from

the fish together with water,

b) to bring water and parasites sucked from the fish in step a) up to the surface and filter the water and destroy the parasites, c) to let the fish swim through one or more brush sections where the sides of the fish are brought into contact with the brushes in the brush section, d) to allowing the fish to swim through one or more brush sections where the belly and back of the fish are brought into contact with the brushes in the brush section, and e) allowing the fish to swim out of the container through the outlet of the device, to effect a final wiping of the fish's skin surface, and further back to the breeding shed.

Example description

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

Fig. 1 shows the device according to the invention floating in seawater,

Fig. 2 shows the device in Fig. 1 in more detail, and

Fig. 3a and 3b show examples of embodiments of the extraction section.

Now with reference to figures 1 and 2, there is illustrated a device according to the invention illustrated generally by reference number 100. The device is arranged floating in the water with the help of floats 101 and rope 102. The rope length can be regulated so that the device can be lowered or raised to the water depth which the fish is located in.

A container 103, here illustrated in the form of a cage 103 of gam suspended in a frame, has an inlet 104 and an outlet 105 for the fish and is divided into a number of sections. The inlet 104 is designed as a ribbed calf and prevents the fish from being able to swim back out of the cage 103 through the inlet 104. An inlet section at the inlet 104 is indicated at 106 and defines a chamber through which the fish must swim. The walls of the inlet section 106 are advantageously translucent, for example with a window 119, so that fish can see into the inlet section 106. The inlet section 106 is also provided with artificial small fish and ground 107 suspended in string 108, which serve as bait for the fish so that it swims in. A guide net is indicated by reference numeral 109 and serves to assist in guiding fish into the inlet 104 of the device. The outlet 111 of the inlet section 106 is also designed with a grooved calf. The grooved calf in the outlet 105 of the container 103 can also serve as a final scraping off of ectoparasites as it is tighter than the other grooved calves. The swimming direction of the fish in the container 103 is indicated by reference symbol Li figure 1.

A hose 110 supplies seawater to the inlet section 106 in a flow direction out through the inlet 104 of the cage 103 and towards the seine calf to set up a water flow which will cause the fish to swim voluntarily into the container. This seawater also serves to set the bait 107 in motion to catch the fish's attention. In the direction of the fish's swimming direction through the cage 103, the cage is designed with a number of different processing sections. Lining can be supplied from the surface via hose 120 mixed with water.

In a first treatment section, a number of suction hoses 112 are arranged which project up to the surface via a collecting hose 113 and are connected to a pump (not shown). These suction hoses 112 serve to suck ectoparasites from the fish and bring the ectoparasites to the surface where the water is filtered and the ectoparasites are destroyed. The suction hoses 112 are arranged with a circular opening 114 through which the fish can swim, so that the suction hoses will stroke along the fish body during its passage through the opening and suck ectoparasites from the fish. The internal diameter of the tubes 112 is normally in the order of 6-20 mm, which corresponds to the size of the ectoparasites. The collecting hose 113 is in the order of 32-50 mm.

In the subsequent treatment sections, brushes are arranged which serve to brush off ectoparasites on the fish while it swims through the cage 103.

In a second treatment section, a brush arrangement 115 is provided with bristles which project mainly horizontally towards the center of the cage 103 and form a mainly vertically projecting slit opening 116 at the center of the cage. This brush arrangement serves to perform a mechanical brushing of lice from the fish with bristles contacting the sides of the fish as it swims past.

In a third treatment section, a brush arrangement is provided with bristles 117 which project mainly vertically into the center of the cage 103 and form a mainly horizontally projecting slit opening 118 at the center of the cage. This brush arrangement serves to perform a mechanical brushing of lice from the fish with bristles contacting the belly and back of the fish as it swims past.

Accordingly, these brush arrangements provide for brushing the entire surface of the fish during its passage through the device and further assist in removing parasites from the fish.

The outlet 105 of the cage 103 is also shaped with a net calf to prevent fish from swimming into the cage 103 through the outlet 105. The net calf in the outlet also serves as a final scraping off of ectoparasites as it is tighter than the other net calves.

Figures 3a and 3b show examples of embodiments of the extraction section seen in cross-section and the fish's swimming direction through the container.

As can be seen from the figures, an arrangement of suction hoses 112 is attached to a frame 121. The hoses 112 are sufficiently flexible that they are bent as the fish swims through the suction section but sufficiently dimensionally stable that a first end 112' of the hoses together define a center hole 114 which the fish can swim through. Each suction hose is in this embodiment with its other end 112" attached to a nipple (not shown) in the frame 121, and the frame 121 is hollow and arranged to conduct water, and parasites, sucked off from the skin surface of the fish at the center hole 114 and further through the respective nipples and out into the frame 121. The extracted water with parasites is then sucked to the surface as described above.

The hoses are arranged in an alternating pattern with different lengths of the suction hoses. The longest hoses reach all the way to the center hole 114 in a number large enough that there is no room for more, while it is filled with hoses outwards until there is no more room here as well. See the hose arrangement 112a, 112b, 112c and 112d in Figure 3a. This is repeated beyond the circle until a diameter is formed that is adapted to the size of the fish. For example, for fish with a weight of 3-4 kg, a diameter of approximately 20-25 cm for the center hole 114 will be appropriate. It is also conceivable to arrange several rows of such a hose arrangement 112 one after the other in the fish's swimming direction, either arranged in the same frame 121 or with two or more frames 121 arranged one after the other in the fish's swimming direction.

The suction hoses are consequently arranged in a pattern which means that the entire fish surface is in contact with one or more hoses during the passage.

The frame 121 will conveniently have a circumference corresponding to that of the container 103 and the de-lice unit 100. To achieve the most even possible suction, 2 or more collecting hoses (not illustrated) can be mounted on the frame 121, connected to a pump at the surface.

Figure 3b illustrates an alternative arrangement of suction hoses indicated generally by reference number 112. Here we can see that the hole or center hole 114 defined by the other end 112" of the hose arrangement has a hole 114 of different diameters which can be adapted to fish of different sizes.

The suction section is considered an important component in the device according to the invention for the mechanical removal of parasites from the fish's skin surface.

Summary

The present invention therefore prescribes a device for the mechanical removal of ectoparasites from fish in breeding facilities, where the lice removal is carried out inside the breeding pen without the use of drugs or chemicals. The device is modular and can be expanded with several sections with extraction and brushing.

Modifications

While the invention is described and illustrated in the form of a container constructed of yarn stretched in a frame with straight side walls, the invention is not limited to this. The container can, for example, be designed with closed walls and have a different geometry than the one illustrated, for example a circular tube. The invention is further illustrated with an extraction section and two brush sections, but the container can of course be provided with several extraction and brush sections.

Claims (11)

1. Device (100) for removing ectoparasites from fish in breeding cages, characterized in that the device comprises a container (103) with an inlet (104) with seine calf and an outlet (105) with seine calf and arranged to be lowered into a breeding cage, in which an inlet section (106) at the inlet (104) has at least partially translucent walls, in which the container (103) further in the direction of the outlet (105) is provided with at least one suction section with a number of suction hoses (112) which define in it at least one opening (114), arranged to contact the fish body and suck off ectoparasites together with water, which suction section is connected to pump means and filter at the surface, wherein the device further comprises at least one first brush section (115, 116) with a number of bristles (115) which projects mainly horizontally towards the fish's swimming direction (L) in the container (103) and defines at least one mainly vertically projecting slit opening (116) through which fish can swim, and at least one n second brush section with an array of bristles (117) projecting substantially vertically in the direction of fish swimming (L) in the container and defining at least one substantially horizontally projecting slit opening (118) through which fish can swim. 2. Device according to claim 1, characterized in that the container (103) is made of yarn stretched in a frame. 3. Device according to claim 1, characterized in that the container (103) is made of a cylindrical channel. 4. Device according to claim 1, characterized in that the container (103) is made of a polygonal channel. 5. Device according to one of the preceding claims, characterized in that the container (103) is made of a material comprising plastic, in particular polyethylene. 6. Device according to claim 1, characterized in that the groove in the outlet (105) is sufficiently narrow that it serves as additional mechanical wiping of fish as it leaves the container (103). 7. Device according to claim 1, characterized in that a guide net (109) is arranged at the inlet (104) of the device to guide fish in through the inlet (104). 8. Device according to claim 1, characterized in that one or more of the walls in the inlet section (106) is provided with a window (119), so that the inlet section (106) is visible from the outside. 9. Device according to claim 1, characterized in that a hose (120) is arranged in the inlet section (106) to supply water mixed with water from the surface. 10. Device according to claim 1, characterized in that the device (100) is arranged floating with the help of a number of floats (101) and ropes or cables (102). 11. Method for removing ectoparasites from fish in a rearing pen using a device according to the patent claims above, characterized in that the fish is guided and encouraged to swim through the device according to the claims above against flowing water, in which the fish undergoes mechanical de-worming by: a) letting the fish swim through one or more suction sections equipped with a number of suction hoses, and establish physical contact between the suction hoses and the fish body, in order to suck parasites away from the fish together with water, b) to carry water and parasites suctioned from the fish in step a) up to the surface and filter the water and destroy the parasites, c) allowing the fish to swim through one or more brush sections where the sides of the fish are brought into contact with the brushes in the brush section, d) allowing the fish to swim through one or more brush sections where the belly and back of the fish are brought into contact with the brushes in the brush section, and e) allowing the fish to swim out of the container through the outlet of the device, to effect e a final wiping of the fish's skin surface, and then back to the breeding pen.