NO334289B1 - Apparatus for cleaning aquaculture rings - Google Patents

Abstract

An apparatus and method for cleaning an aquaculture ring in an aquaculture plant, the apparatus (1) comprising a support device for supporting the ring above sea level during a cleaning operation, a propulsion device for propelling the ring through the apparatus during the cleaning operation, and a washing station (17) comprising washing fluid device (48) for applying a washing fluid to the ring to remove fouling from the surface of the ring. The apparatus comprises a fountain-waste system (24) comprising a container (25) positioned below the washing station for collecting fouling removed from the ring of the applied washing fluid, and a drainage system for emptying the fouling collected in the container (25).

Description

APPARATUS FOR CLEANING AQUACULTURE RINGS

The present invention relates to an apparatus for in situ cleaning of an aquaculture ring in an aquaculture facility, the apparatus comprising an essentially horizontally directed and rotatable first support device for supporting at least one segment of the aquaculture ring above sea level during a cleaning operation, a propulsion means for propelling the at least one segment through the apparatus during the cleaning operation, and a washing station comprising washing fluid means for supplying a washing fluid onto the at least one segment to remove fouling, i.e. unwanted deposits or coatings, from the surface of the at least one segment .

The invention also relates to a vessel comprising such an apparatus and a method for in situ cleaning of an aquaculture ring in an aquaculture facility.

Within the framework of this specification, in situ cleaning of the aquaculture ring shall be understood to mean cleaning of the ring at the site of the aquaculture facility without having transported the ring on land or to any significant distance from the operational position of the ring.

As is known in the aquaculture industry, floating aquaculture rings, such as floating rings used in cages, must be cleaned regularly so that fouling is removed from the rings. This cleaning is preferably carried out without having to move the rings a distance from their respective locations.

WO 2011/087371 Al describes an apparatus of the above-mentioned type. The device must be attached to a vessel, preferably a boat, for cleaning floating rings on cages. The device comprises at least one pair of wheels attached to a support device, as well as at least one upwardly directed nozzle arranged before or after the pair of wheels. The floating rings to be cleaned must lie against the top side of the wheel track and be guided over the aforementioned one or more nozzles.

However, the apparatus in WO 2011/087371 Al is operated in such a way that the fouling removed from the ring can contaminate not only the cleaning apparatus itself and the vessel carrying the apparatus, but also other parts of the cage being cleaned, including already cleaned parts of the ring, or other cages in surrounding areas , for example other cages in the aquaculture facility. This is a problem as regulations may require that the cages in an aquaculture facility must be taken ashore to be washed, disinfected and quarantined if disease is found at the facility.

The purpose of the present invention is generally to improve known apparatus for washing aquaculture rings, and in particular to solve or at least alleviate the above-described problem and to provide an apparatus that prevents the removed fouling / contamination from contaminating other objects and environments .

The above-described objects are achieved by an apparatus comprising a fouling-waste system comprising a container positioned below the washing station for collecting fouling/pollution removed from the at least one segment of the supplied washing fluid, and an emptying system for emptying the fouling/pollution collected in the container , and also a method comprising the steps in claim 13. Further advantageous features are defined in the dependent claims.

Due to the container and the emptying system, the fouling / contamination removed from the ring in the device can be collected and stored in an efficient and controlled way. The fouling / pollution is preferably stored in a storage tank on board the vessel carrying the cleaning device, which allows the fouling / pollution to be destroyed in a controlled manner at a later time, for example when the vessel is docked at the port.

Due to the container and the emptying system, as a consequence, the fouling pollution will be prevented from being put back into the water, and a number of advantages are achieved compared to devices of the prior art.

Firstly, the device and the method according to the invention effectively prevent parasites and bacteria or viruses that infect biological material in the fouling / pollution from spreading - not only to other cages in the aquaculture facility to be cleaned, but also to other aquaculture facilities where the cleaning device is then used .

Secondly, the apparatus and method according to the invention reduces the build-up of dead biological material on the bottom under the cage, where the material otherwise has to be collected in piles and rot, thereby consuming available oxygen during the rotting process and producing hydrogen sulphide which can kill farmed fish and permanently destroy the natural habitat of the benthos zone below the aquaculture facility.

Thirdly, the device and the method according to the invention prevent the released fouling / pollution from contributing to the amount of biological material in the water column, where the material could otherwise feed on naturally existing algae and promote algae growth or otherwise be harmful to the marine environment below the aquaculture facility , and even promote disease or death of fish.

In the following description, many specific details are set forth to provide a thorough understanding of, and enabling description of, embodiments of the claimed apparatus. However, one skilled in the art will recognize that these embodiments may be practiced without one or more of the specific details, or with other components, systems, etc. In other cases, well-known structures or operations are not shown, or not described in detail, to avoid to make aspects of the described embodiments unclear.

Preferred embodiments of the present invention will now be described with reference to the attached drawings, where Figure 1 is a first perspective view of a first embodiment of the apparatus according to the invention,

Figure 2 is a second perspective view of the apparatus according to Figure 1,

Figure 3 is a third perspective view of the apparatus according to Figure 1,

Figure 4 is a fourth perspective view of the apparatus according to Figure 1,

Figure 5 is a first perspective view of a second embodiment of the apparatus according to the invention showing the apparatus in an open position, Figure 6 is a second perspective view of the apparatus according to Figure 5 showing the apparatus in an open position with a ring segment positioned in the apparatus , Figure 7 is a third perspective view of the apparatus according to Figure 5 showing the apparatus in a closed position, Figure 8 is a fourth perspective view of the apparatus according to Figure 5 showing the apparatus in an open position with a ring segment positioned in the apparatus, Figure 9 is a first perspective view of a third embodiment of the apparatus according to the invention showing the apparatus in an open position, Figure 10 is a second perspective view of the apparatus according to Figure 9 showing the apparatus in an open position with a ring segment positioned in the apparatus, Figure 11 is a third perspective view of the apparatus according to Figure 9 showing the apparatus in a closed position, and Figure 12 is a fourth perspective view of the apparatus according to Figure 9 showing the apparatus in an open position with a ring segment positioned in the apparatus.

The apparatus 1 in Figures 1-4 comprises a support structure or frame 2 which is advantageously made of stainless steel plates. The frame 2 comprises a rectangular, and mainly vertically aligned, stainless steel plate 3 which forms a rear wall of the frame 2. The frame 2 further comprises four mainly vertically aligned, and parallel arranged, stainless steel plates 4-7 which extend from one side of the rear wall 3. A first plate 4 of the said four plates 4-7 extends from the first short side of the back wall 3 and a second plate 5 of the said four plates 4-7 extends from the second short side of the back wall 3, thereby forming respectively a stationary first side wall 4 and a stationary second side wall 5 of the apparatus 1. A third plate 6 and a fourth plate 7 of the aforementioned four plates 4-7 are positioned between the first and second plates 4, 5. The third plate 6 is arranged a relatively short distance from the first plate 4 so that the first plate 4 and the third plate 6 form a first beam structure 8 which protrudes from the back wall 3. In a similar way, the fourth plate 7 is arranged a relatively short distance from the duck re the plate 5 so that the second plate 5 and the fourth plate 7 form a second beam structure 9 which protrudes from the rear wall 3, the second beam structure 9 being essentially parallel to the first beam structure 8. Stay / stiffeners 10, 11 respectively between the first and third plates 4, 6 and between the second and fourth plates 5, 7 ensure structural integrity of the beam structures 8, 9.

The apparatus 1 comprises an essentially horizontally aligned and rotatable first support device 12 which has a rotation axis which is essentially orthogonal to the rear wall 3 and which is rotatably supported by the first beam structure 8. In addition, the apparatus 1 comprises an essentially horizontally aligned and rotatable second support device 13 which also has an axis of rotation which is essentially orthogonal to the rear wall 3, but which is rotatably supported by the second beam structure 9. The support devices 12, 13 extend essentially over the entire length of the beam structures 8, 9 and are essentially in plane so that a ring segment placed on the support structures 12, 13 will essentially be aligned horizontally. Each support device 12, 13 advantageously comprises a cylindrical roller of stainless steel and a rubber cover or mantle covering the roller. However, it should be understood that alternative roll configurations may be used. For example, it should be understood that the support device does not necessarily have to comprise a continuous roller, but may alternatively include several coaxial rollers or wheels, each of which is positioned in an axial direction to the beam structure. At least one of the support devices 12, 13 is preferably motorized, i.e. equipped with a motor, preferably a hydraulic motor so that the rotation speed and direction of rotation of the support device can be regulated. The apparatus 1 further comprises an essentially vertically aligned and rotatable first straightening device 14 which has an axis of rotation which is essentially orthogonal to the axis of rotation of the first support device 12. The first straightening device 14 is rotatably mounted on the end of the first beam structure 8 which faces away from the rear wall 3. In a similar manner, the apparatus 1 comprises a substantially vertically aligned and rotatable second straightening device 15 which has an axis of rotation which is substantially orthogonal to that of the second support device 13 axis of rotation, which second straightening device 15 is rotatably mounted on the end of the second beam structure 9 facing away from the rear wall 3.

The apparatus 1 also comprises a third straightening device 16 (see figure 2) and a fourth straightening device 35 (see figure 3) which are arranged adjacent to the rear wall 3 and the beam structures 8, 9. The third and fourth straightening device 16, 35, which are also rotatable and in essentially vertical device, is rotatably supported by the rear wall 3. In the vertical direction, the straightening devices 14, 15, 16, 35 are positioned a short distance above the support devices 12, 13 so that a ring segment which is placed on the support devices 12, 13 can rest against the straightening devices 14 , 15, 16, 35.

The third and fourth straightening means 16, 35 can be moved automatically or manually in a direction parallel to the support directions 12, 13 so that the lateral space available to receive a ring segment on the support means can be adjusted. This allows a user of the apparatus 1 to set the lateral distance between the third and fourth alignment devices 16, 35 and the first and second alignment devices 14, 15, respectively, to a value slightly greater than the width of the ring segment to be cleaned, thereby guaranteeing that the ring segment will be aligned essentially orthogonally to the support devices 12, 13 when it is placed on the support devices 12, 13.

For the operation of each straightening device 16, 35, the apparatus 1 preferably comprises an actuation device which preferably includes a pneumatic or hydraulic actuator. Such actuation device(s) are not visible in figures 1-4, but in figure 5 actuation device 36 is shown which is identical to the actuation device of the apparatus 1 in figures 1-4. The actuation device 36 comprises a hydraulic cylinder 37 and an arm 38. The arm 38 is rotatably connected to the rear wall 3 at one end so that the arm 38 can swing around an essentially vertical axis of rotation. At the other end of the arm 38, the straightening device 16, 35 is rotatably attached. The cylinder 37 is also rotatably connected to the rear wall 3 at one end so that it can swing around an essentially vertical axis of rotation. At the other end, the cylinder 37 is rotatably connected to the arm 38 so that the arm 38 can be made to swing around its pivoting connection on the rear wall 3 by an actuation movement of the cylinder 37. This means that the arms 38 can, when using the cylinders 37, be rotated, and consequently, the straightening devices 16, 35 are displaced in the manner explained above.

It can be advantageous to motorize at least one of the straightening devices 14, 15, 16, 35 so that the rotation speed and direction of rotation of the straightening device can be regulated. In this case, the speed of rotation and the direction of rotation of the motorized straightening device or directions are preferably synchronized with the speed of rotation and the direction of rotation of the motorized support device or devices.

The apparatus 1 further comprises a washing station 17 mounted on the first side wall 4. The washing station 17 comprises a distribution device 48 for washing fluid to supply a washing fluid to the ring during the cleaning operation. The distribution device 48 for the washing fluid comprises a nozzle set 18 and a distribution pipe 19 for distributing the washing fluid. The nozzles 18 are mounted on the distribution pipe 19, which runs parallel to the first beam structure 8, and are adapted to the geometry and shape of the ring to be cleaned.

The apparatus 1 preferably also comprises a disinfection station which can advantageously be mounted on the second side wall 5. The disinfection station 20 comprises a distribution device 49 for disinfectant for supplying disinfectant to the ring during the cleaning operation. The distribution device 49 for disinfectant comprises a nozzle set 21 and a distribution pipe 22 for the distribution of the disinfectant. The nozzles 21 are mounted on the distribution pipe 22, which runs parallel to the second beam structure 9 and is adapted to the geometry and shape of the ring to be cleaned.

The device 1 preferably comprises a cover 23 which is preferably made of stainless steel plates and which can be maneuvered between an open position and a closed position (for example, cf. figures 5 and 7). The cover 23 is preferably rotatably mounted on the rear walls 3, which allows unobstructed access to the interior of the apparatus when it is in its open position. Figures 1-4 show the cover 23 in the closed position.

According to the invention, the apparatus 1 comprises a waste system 24 for fouling pollution for collecting and emptying the fouling that has been removed from the ring during the cleaning operation. The waste system 24 comprises a container 25, which in the manufactured embodiment has the shape of a rigid board, preferably made of stainless steel plates, and positioned under the washing station 17 for collecting washing fluid and fouling/pollution that has been removed from the ring. However, it should be understood that the container does not necessarily have to be a rigid board. A container in the form of a flexible sack or bag can alternatively be used. Preferably, the board 25 has a width and a width that extends over the entire frame 2 of the apparatus 1, and preferably the board 25 is mounted at the bottom of the side wall 3 and the beam structures 8, 9, as shown in figures 1-4. If the device includes a disinfection station, the tray can advantageously be arranged so that any residual disinfectant, i.e. disinfectant which does not stick to the ring at the disinfection station, is also collected in the tray. The bottom of the tray 25 is directed towards a bottom drain 26 so that any washing fluid or fouling/pollution collected in the tray 25 is automatically directed to the drain 26 using the force of gravity.

The waste system 24 also comprises an emptying system 27 for emptying washing fluid and fouling/pollution collected in the tray 25. The emptying system 27 comprises an emptying pipe 28 which starts at the bottom of the tray 25, i.e. at the drain 26, and leads to a suitable storage tank, for example a storage tank located on the vessel carrying the purification device 1.

The waste system 24 preferably comprises a waste unit 29 which is arranged at the drain 26 to crush, cut, strip or otherwise pulverize the fouling/pollution into sufficiently small parts to pass through the emptying pipe 28 to the storage tank.

The movement of the washing fluid and the fouling/contamination from the tray to the storage tank can be achieved using a system known in the field, for example a vacuum system or a system using a suitable pump.

The apparatus 1 also includes a control system 30 which allows the user to control the various subsystems of the apparatus 1, for example the rotation speed and direction of rotation of the motorized rollers, the opening and lowering of the cover 23, the flow rate and pressure of the washing fluid and the disinfectant and the displacement of the third and fourth straightening device 16, 35, etc. The control system preferably comprises a remote control, by using which the user can control the subsystems of the device 1 from a distance.

The frame 2 comprises a fastening system 31 for attaching the device 1 to the rail or rail of a suitable vessel, for example a boat, a barge or a raft, so that the device 1 is positioned a short distance, for example 60 cm, above the sea surface. The device 1 can be positioned on the starboard or port side of the vessel, or at the transom of the vessel, or even at the bow, depending on the vessel and what is considered practical at each location where washing is to be carried out. The fastening system 31, which advantageously includes collars / handles, is preferably mounted at the upper part of the rear wall 3 as shown in Figure 4. The fastening system 31 can preferably be adjusted manually or automatically so that the device 1 can be mounted on different types of vessels.

Any supplies needed to operate the motorized, rotatable devices, the washing station, the disinfection station, the waste unit, etc., such as hydraulic fluid, electricity, washing fluid, disinfectant, etc., are preferably supplied from the vessel carrying the apparatus. By virtue of this, the device includes hydraulic and electrical supply lines or pipes that run from connection positions to the various subsystems, the connections preferably being accessible from the upper part of the rear wall 3.

In the following, a cleaning operation will be described in more detail which, using the device 1 according to Figures 1-4, cleans a cage in a breeding facility. Prior to the cleaning operation, the device 1 is attached to the rail or rail of a suitable vessel using the attachment system 31, and the subsystems until the device 1 is connected to the supply systems on the vessel. The vessel is then driven or towed to the breeding facility and positioned next to the cage to be cleaned.

The user then adjusts the position of the third and fourth straightening device 16, 35 so that the lateral distance between the third and fourth straightening device 16, 35 and the first and second straightening device 14, 15 corresponds to the size of the ring of the cage.

The user then opens the cover 23 and, with the help of a crane on the vessel, lifts part 32 of the ring onto the support devices 12, 13, and then closes the cover 23. In the example shown, the ring segment 32 is composed of two parallel ring tubes 53, 54. On due to the previously adjusted third and fourth straightening devices 16, 35, the ring part 32 will now rest on the support devices 12, 13 mainly parallel to the rear wall 3. When the cover 23 is in a closed position, there must be sufficient space in the vertical direction between the cover 23 and the support devices 12, 13 to allow free passage of a superstructure 33 of the ring part 32. Such superstructures normally protrude vertically from the rings, for example to support plank layers, railings, bird nets, etc.

The user then activates the washing station 17 by ensuring that high-pressure washing fluid flows from the nozzles 18 and onto the ring segment 32 so that fouling/pollution is removed from the surface of the ring segment 32 in the area adjacent to the washing station 17. When using motorized support devices 12, 13, possibly supported by motorized alignment devices, the user ensures that the ring segment moves relative to the apparatus 1 so that the ring segment 32 is displaced in the direction from the first side wall 4 to the second side wall 5. As a result, the motorized support devices 12, 13 act as propulsion devices for advancing the ring segment through the apparatus 1 during the cleaning operation. However, it should be understood that other types of propulsion configurations can be used to propel or displace the ring segment 23 through the apparatus 1. For example, it may be sufficient that only one or a majority of straightening devices 14, 15, 16, 35 are motorized. In that case, the support devices 12, 13 do not need to be motorized. In such a configuration, the displaceable straightening devices 16, 35 are preferably configured to press the ring segment 32 against the opposing first and second straightening devices 14, 15 so that sufficient traction can be achieved.

In practice, the vessel is essentially stationary during this displacement movement, and that it is ensured that the cage is moved through the essentially stationary apparatus 1. However, depending on the structure, size, etc., of the ring to be washed and on the vessel used, the cage can be stationary , and that it is ensured that the vessel is moved along the perimeter of the cage.

It should then be understood that the washing efficiency depends on the distance between the individual nozzles 18 and the surface of the ring segment 32. The position of the nozzles 18 and/or the distribution pipe 19 can therefore advantageously be adjusted manually or automatically, thereby allowing the nozzles 18 to be correctly positioned and designed so that the device is allowed to handle rings of different sizes and geometries.

If a particularly fouled/contaminated part of the ring is detected, the user can delay or even reverse the rotation of the support devices 12, 13 so that it is ensured that the particularly fouled/contaminated part can be held in the washing position for a sufficient time to allow the removal of all fouling/contamination . In addition, in such cases the user can temporarily increase the pressure and/or flow rate of the washing fluid.

The washing fluid and the fouling / contamination removed from the ring segment 32 will fall into the tray 25 and the discharge system 27 will transport the mixture of fouling and washing fluid to the storage tank (not shown) on board the vessel. Larger fouling/pollution objects such as larger pieces from incrustation, etc, will be crushed or shredded into smaller pieces by the waste unit 29 prior to the mixture entering the discharge pipe 28. The control system is preferably configured to allow the user to start and stop the mixture discharge after desire, and also to allow the user to adjust the flow rate of the mixture transport.

Since the frame 2 is made of vertically aligned plates as previously described, there are minimal horizontal surfaces that prevent the fouling/contamination from falling into the tray 25 once it has detached from the ring segment 32. As a consequence, the vertical plate configuration of the frame 2 is advantageous when applies to controlled collection of the fouling / pollution. In addition, this configuration includes a minimum of flat surfaces on which the fouling / contamination can collect, and this prevents possible contaminated fouling from spreading from one cleaning environment to another. Furthermore, the vertical plate configuration also contributes to easy cleaning of the appliance. However, it should be understood that alternative frame configurations can be envisaged within the scope of the claimed apparatus.

Finally, a cleaned part of the ring segment 32 will reach the disinfection station 20, and at this point the user will activate this station 20 to ensure that disinfectant flows from the nozzles 21 and onto the ring segment 32 so as to ensure that the disinfectant covers the surface of the ring segment 32 in the area adjacent to the disinfection station 20. Depending on the surface of the tray 25, any residual disinfectant can also be collected by the tray 25 and transported to the storage tank on board the vessel in the same way as the mixture of fouling contamination and washing fluid.

The device 1 preferably comprises at least one heating device (not shown) which is, for example, integrated into the cover 23 so that the inside of the device can be kept above freezing temperatures and thus allow the device to be used efficiently in winter conditions. Such heating devices can be any heating device known in the field, for example an electric heating device or a heating device powered by condensed hydrocarbon gas (LPG).

According to the embodiment shown in Figures 1-4, the cover 23 comprises a part 34 which effectively forms a front wall of the apparatus 1, as well as parts 39, 40 which effectively form side walls of the cover 23. Furthermore, the cover 23 comprises a part 41 which is generally horizontal when the cover 23 is in the closed position and which consequently effectively forms a roof of the cover 23. The front wall part 34 comprises a lower part which is generally vertical when the cover is in the closed position, and an upper part which borders the lower part of the front wall part 34 and roof part 41, and which is inclined in a near vertical direction when the cover is in the closed position. The side wall parts 39, 40, which are generally vertically oriented, are connected to the roof part 23 and the side wall part 34 as shown in Figures 1 and 2. However, while the front wall part 34 has a height such that the lower edge of the front wall part 34 extends to near the level of the support devices 12, 13 when the cover 23 is in the closed position, the height of the side wall parts 39, 40 must be sufficiently small to provide sufficient space for the ring segment 32 and any superstructure 33 to pass under when the cover 23 is in the closed position .

The cover parts 34, 39, 40, 41, the back wall 3 and the lower side walls 4, 5 are preferably designed so that the washing fluid, the fouling/pollution and the disinfectant backed up from the ring segment 32 are prevented from splashing to the outside of the device. Such a closed configuration is also advantageous in view of being able to keep the contents of the apparatus at a temperature above the freezing point when using the previously described at least one heating device.

The extension of the tray 25 is such that any washing fluid, fouling/pollution and disinfectant that is captured by the cover 23 falls into the tray 25 with the help of gravity. In other words, the board 25 extends somewhat outside the extent of the cover 23 when the cover 23 is in the closed position.

In the following, a second embodiment of an apparatus 42 according to the invention will be described with reference to Figures 5-8. For the same components, the same reference numbers are used in figures 5-8 as in figures 1-4. Moreover, in terms of the general configuration, operation and function of the apparatus 42 of Figures 5-8, they are similar to the configuration, operation and function of the apparatus 1 of Figures 1-4 unless otherwise noted.

As mentioned above, the general configuration of the apparatus 42 in Figures 5-8 will be the same as that of the apparatus 1 in Figures 1-4. However, the apparatus 42 shows a more closed configuration than the apparatus 1 in that the side wall parts 39, 40 comprise flexible wall parts 43, 44 (see figures 7 and 8) which are arranged to allow the passage of the superstructure 33 of the ring segment 32 when the cover 23 is in the closed the position, as shown in Figure 7. Moreover, the apparatus 42, when compared with the apparatus 1 in Figures 1-4, has a higher configuration in that the cover 23 is higher. In addition to the horizontal part 41, the cover 23 comprises in particular a sloped part 45 which borders the horizontal part 41 and falls off towards the rear wall 3. In addition, in this embodiment, the front wall part 34 of the cover 23 is generally vertical when the cover 23 is in the closed the position, as shown in Figure 7.

Due to the additional height of the cover 23, the device 42 can accommodate ring segments 32 which have a relatively high superstructure 33 (see Figure 7), and consequently there is no need to dismantle such a superstructure prior to the washing operation. The cover 23 should preferably be sufficiently high to accommodate ring segments having a superstructure that protrudes up to 1-2 meters in the vertical direction.

Each flexible side wall part 43, 44 is connected to the inclined and horizontal cover part 41, 45 so that it forms a curtain which hangs down from the parts 41, 45 (see figure 7). The flexible wall part 43, 44 shows several parallel slits 46 which run from the upper part of the part 43, 44 and all the way down to, and through, the lower edge thereof. The slits 46 are generally parallel to the front wall portion 34 and as a result are generally vertically aligned when the cover 23 is in the closed position, as described in Figure 7. The slits 46 define curtain portions 47 which hang down from the inclined and horizontal cover portions 41, 45 Each curtain member 47 can operate substantially independently of its adjacent curtain members, allowing the passage of the ring segment 32 superstructure 33 during the displacement movement while maintaining a side wall which, at least at the level of the superstructure 33, will trap wash fluid, fouling/contamination and disinfectant during the cleaning operation, and prevent these substances from splashing on the outside of the apparatus 42.

The flexible side wall parts 43, 44 are preferably made of canvas or rubber cover.

In addition, the container or tray 25 of the apparatus 42, when compared to the apparatus 1 of Figures 1-4, is deeper and has a clearer funnel shape, as shown in Figure 8. This provides a more efficient way to direct the mixture of washing fluid, fouling and disinfectant towards the bottom drain 26. While this is advantageous in terms of achieving an efficient emptying of the mixture, it will also increase the height of the apparatus, which in certain cases can be a disadvantage, for example when a small vessel is to carry the apparatus.

Furthermore, and as shown in Figure 5, the distribution device 48 for washing fluid comprises two distribution pipes 50, 51 for the washing fluid, which pipes 50, 51 are preferably manually or automatically movable up and down, as well as towards or apart from each other, in the axial direction of the first support device 12, to be able to accommodate ring segments 32 that have different widths, and also to ensure effective cleaning positions of the tubes 50, 51 for different ring geometries, i.e. positions that ensure effective removal of fouling from the surface of the ring segment 32. The tubes 50, 51 is preferably also able to swirl around one or more axes so that it is ensured that jets of washing fluid coming out of the nozzles 18 can hit the ring segment 32 from different directions. The movement of the tubes 50, 51 towards and away from each other is preferably achieved by arranging the tubes 50, 51 in a telescopic manner, i.e. so that a part of the tube 50 can slide into a part of the tube 51 and vice versa. The movement of the tubes 50, 51 is preferably controlled by the previously described control system 30 and can consequently be implemented from a distance.

In the following, a third embodiment of an apparatus 52 according to the invention will be described with reference to figures 9-12. The general configuration, operation and function of the apparatus 52 is similar to the configuration, operation and function of the previously described apparatus 42 unless otherwise noted.

The apparatus 52 is configured to clean a ring of a cage which comprises, in addition to the two parallel ring tubes 53, 54, also a bottom tube 55 (see Figure 10) which, during operation of the cage, is suspended below the floating ring tubes 53, 54 on a manner known in the field. To support the bottom pipe 55 during the cleaning operation, the apparatus 52 comprises a third, lower support device 56 which is positioned below the first, upper support device 12, as well as a fourth, lower support device 57 which is positioned below the second, upper support device 13 (see figure 9 ). In order to house the bottom pipe 55, the first and the second support device 12, 13 are each divided into a first 58, 60 and a second 59, 61 support element (see figure 12). The support elements 58, 59; 60, 61 in each support device 12, 13 are arranged coaxially and at a distance from each other, which ensures that the bottom pipe 55 can be lowered into the lower support devices 56 and 57 when the ring segment 32 is to be positioned in the apparatus 52 at the start of the cleaning operation.

Also, to house the bottom tube 55 during the cleaning operation, the tray 25 includes a cut-off portion 62 on each side wall. In a similar way, the pipes 50, 51 to the washing station 17 and also the pipes to the disinfection station (not visible) are adapted to house the bottom pipe 55, for example as shown in figure 9.

It can be advantageous to arrange photo sensors, scanners or other types of sensor equipment in the appliance so that the washing efficiency of the appliance can be automatically controlled and/or so that an alarm can be triggered if an insufficiently cleaned ring area is found that has, for example, been overlooked by the user. It may be advantageous to arrange sensor equipment so that the structural integrity of the ring is also scanned during the cleaning procedure, which will allow defects in the ring structure to be found, such as those resulting from wear. In general, such defects are difficult to find manually, especially if the ring is covered by fouling / pollution. It can also be advantageous to arrange the sensor equipment so that the operation of the device itself can be automatically controlled. For example, level indicators can be arranged in the container to notify the user when the emptying system starts, and ice indicators can be arranged on the frame to notify the user when the at least one heating device is to be activated.

It can be advantageous to arrange nozzles on the inside of the appliance which can be activated automatically or manually after the end of a cleaning operation to flush the inside of the appliance so that any fouling deposited inside the appliance, such as on the beam structures 8, 9 or the struts 10, 11 , is flushed into the tray 24 and thus collected and prevented from contaminating other cleaning areas.

Above, the cleaning device has been described as a separate unit that can be mounted on various vessels. However, it must be understood that the device can be permanently integrated into a vessel.

In the preceding description, various aspects of the apparatus according to the invention have been described with reference to the illustrative embodiments. In order to provide a comprehensive understanding of the device and its operation, explanations, specific figures, systems and configurations were presented. However, this description is not intended to be interpreted restrictively. Various modifications and variations of the illustrative embodiment, as well as other embodiments of the apparatus, which will be apparent to those skilled in the art regarding the subject matter described, shall be within the scope of the present invention.

Claims (16)

1. An apparatus (1, 42, 52) for cleaning an aquaculture ring in an aquaculture facility, the apparatus (1, 42, 52) comprising: - an essentially horizontally oriented and rotatable first support device (12) for supporting at least one segment (32) of the aquaculture ring above sea level during a cleaning operation, - a propulsion device (12, 13) for propelling the at least one segment (32) through the apparatus (1, 42, 52) during the cleaning operation, and - a washing station (17) comprising a washing fluid device (48) for supplying a washing fluid to the at least one segment (32) in order to remove fouling / contamination from the surface of the at least one segment (32), characterized in that the device (1, 42, 52) comprises a fouling-waste system (24) comprising: - a container (25) positioned under the washing station (17) for collecting fouling / contamination removed from the at least one segment (32) of the supplied the washing fluid, and - an emptying system (28) for emptying the fouling / pollution collected in the container (25). 2. The apparatus (1, 42, 52) according to claim 1, characterized in that it comprises a disinfection station (20) comprising a disinfection distribution device (49) for supplying a disinfectant to said at least one segment (32) during the cleaning operation, the disinfection station ( 20) is positioned downstream of the washing station (17) relative to the direction of movement of the at least one segment (32) in the device (1, 42, 52), where the container (25) extends below the disinfection station (20) to also collect residual disinfectant, and where the emptying system (28) is also arranged for emptying the disinfectant collected in the container (25). 3. The apparatus (1, 42, 52) according to claim 1 or 2, characterized in that it comprises an essentially horizontally oriented and rotatable second support device (13) for supporting the at least one segment (32) during the cleaning operation together with said first support device (12), where at least one of the rotatable first support device (12) and the rotatable second support device (13) is motorized in order to function as said propulsion device. 4. The apparatus (1, 42, 52) according to any one of claims 1 to 3, characterized in that it comprises a cover (23) which is arranged to cover at least part of said at least one segment (32) during the cleaning operation, the cover (23) can be used between an open position that allows the placement of the at least one segment (32) on the first support device (12), and a closed position, the cover (23) having an extent in the closed position that is equal to or less than the extent of the container (25) so that the washing fluid and the fouling/pollution caught by the cover (23) is able to fall into the container (25) by means of gravity. 5. The device (42, 52) according to claim 4, characterized in that the cover (23) comprises: a front wall part (34) which forms a front wall of the cover (23), which front wall part (34) extends to the level of said first support means (12) when the cover (23) is in the closed position, and side wall parts (43, 44) forming side walls of the cover (23), which side wall parts (43, 44) are flexible to allow the passage of a superstructure (33) of said at least one segment (32) through the side wall parts (43, 44) when the cover (23) is in the closed position. 6. The device (1, 42, 52) according to any one of claims 1 to 5, characterized in that the bottom of the container (25) is funnel-shaped towards a bottom drain (26) so that fouling / pollution and washing fluid collected in the container (25) automatically is led to the drain (26) using the force of gravity. 7. The device (1, 42, 52) according to claim 6, characterized in that the waste system (24) comprises a waste unit (29) which is arranged at the drain (26) to pulverize the fouling / pollution collected in the container into pieces that are sufficient small enough to pass through an emptying pipe (28) to a storage tank. 8. The device (1, 42, 52) according to claim 7, characterized in that it comprises a frame (2) which comprises essentially vertically aligned plates (4-7) to avoid the accumulation of fouling / pollution in the frame (2). 9. The device (1, 42, 52) according to any one of claims 1-8, characterized in that it comprises at least one heating device which allows the inside of the device (1) to be heated to above freezing temperature in winter conditions 10. The apparatus according to any one of claims 1-10, characterized in that the washing fluid distribution device (48) comprises two distribution pipes (50, 51) for the washing fluid, which pipes (50, 51) are movable in order to accommodate ring segments (32) that have different widths and geometries, and also to ensure effective cleaning positions for the pipes (50, 51). 11. The apparatus (1, 42, 52) according to any one of claims 1-10, characterized in that it comprises a fastening system (31) for attaching the apparatus (1) to a rail or a rail of a floating vessel so that the apparatus (1) is positioned along the vessel at least partially above the surface of the water where the vessel is operated. 12. A vessel for cleaning an aquaculture ring in an aquaculture facility, characterized in that it comprises an apparatus (1, 42, 52) according to any one of claims 1-10. 13. A method for cleaning an aquaculture ring in an aquaculture facility comprising the steps of: positioning at least one segment (32) of the aquaculture ring on a first support device (12), which first support device (12) is above sea level, propelling it at least one segment (32) through a washing station (17) comprising a washing fluid distribution device (48), removal of fouling / pollution from the at least one segment (32) by supplying a washing fluid from the washing fluid distribution device (48) on the at least one segment (32) , collecting the fouling / contamination removed from the at least one segment (32) by the supplied washing fluid into a container (25) positioned below the washing station (17), and emptying the fouling / contamination collected in the container (25) into a storage tank. 14. The method according to claim 13, characterized by the steps: collecting into the container (25) also the washing fluid, and emptying the washing fluid into the storage tank together with the fouling contamination. 15. The method according to claim 13 or 14, characterized by the steps: driving the at least one segment (32) through a disinfection station (20) comprising a disinfection distribution device (49), disinfecting the at least one segment (32) by supplying disinfectant from the disinfection distribution device (49) ) on the at least one segment (32). 16. The method according to claim 15, characterized by the steps: collection into the container (25) also residual disinfectant, and emptying the residual disinfectant into the storage tank together with the fouling / contamination.