NO176741B - Device for collection of waste from marks, and use thereof - Google Patents

Abstract

A device (26) for collecting waste from a. Farming cages (10) comprising a line (20) leading from the bottom of the cage to a waste management device, as well as a pump connected to the line, are characterized in that a waste collecting unit (22a) in a collecting container (22) is connected to the line. (20), and the pump means (26) is arranged downstream of the collecting unit (26a) in order to be able to suck up a waste / water mixture from the cage (10) through the line (20) and that a screening means (24) is arranged downstream (26b ) for the collecting unit (2 2a), in order to enrich marrow waste over a given particle size in the collecting unit (2 2a) of the container (22). A device for easy movement of the collecting container including the pump (22,26) from the marrow is also mentioned. to mares in a fish farm.

Description

The present invention relates to a device for collecting waste from a breeding mare comprising a line leading from the bottom of the mare to waste management, as well as a pump connected to the line.

Furthermore, the present invention relates to the use of the device for collecting waste from a number of mares in a breeding facility.

There are strict conditions for the discharge of waste and any infectious substances from breeding facilities. When it comes to waste consisting of food remains and excrement, it is desirable to carry out cleaning of this, by taking it ashore and disinfecting it, before possibly releasing it back into the sea. This is particularly important when the fish are fed with medicines such as antibiotics. The spread of such substances outside the mare plant itself into the marine environment is one of the major problems within the aquaculture industry.

When there is disease among the fish in a facility, this usually leads to dead fish sinking to the bottom of the pond on a daily basis. Such fish normally represent a large and dangerous source of infection for the wild fish on the outside of the dam. And it is desirable to remove such dead fish as quickly as possible from the marine environment.

Against this background, it is necessary to produce methods and collection systems with which waste and dead fish can be quickly and frequently brought to the surface for treatment and disinfection/destruction.

According to the state of the art, it is known to arrange a funnel-shaped dense cloth or similar devices under each of the dams to collect downward-sinking waste. Normally, the lower part of the mærnot itself will consist of such a dense, funnel-shaped cloth part. From the bottom of the funnel, the waste is then pumped up to the surface and processed.

The purpose of the present invention is, based on the state of the art, to produce a new device for effectively bringing dead fish and other waste to destruction and similar treatment.

Furthermore, it is an object of the invention to produce a system with which the above-mentioned device can easily be used in connection with a breeding facility with a larger number of mares.

The device according to the present invention is characterized by the fact that a waste collection unit is connected to the line, and the pump member is arranged downstream of the collection unit in order to be able to suck up a waste/water mixture from the mother through the line, and that a screening member is arranged downstream of the collection unit, in order to rich waste above a given particle size in the collection unit, and the unit consisting of the installation line, the collection unit, and a continuation line arranged downstream of the pump member, is closed to the atmosphere.

Further features of the device according to the invention appear from claims 2-7.

The device is used according to the invention for the collection of waste from a number of mares in a breeding facility where each mare includes its own installation line that leads into a main waste line that further leads to a common separation container for the facility, and that the collection unit is connected to the main waste line between the separation container and the mares .

When carrying out the collection of the waste, a single collection unit can be moved, e.g. by means of a father cloth, is moved from mother to mother to connect the unit to the main waste line between the separator container and the mothers.

The greatest advantage of the present invention is achieved by the collection container including the pump as well as the lines upstream and downstream of the container forming a system closed to the atmosphere. This means that the need for pumping capacity is reduced since the water is only "moved" instead of being lifted out of the sea. According to a particularly preferred embodiment, the entire aforementioned pump system is submerged in the water so that the water's lifting height from the bottom of the lake is reduced. A further significant factor is that the collection container is placed between the pump itself and the inlet to the line. A suction pump will also provide a high degree of efficiency.

For a more detailed review of the invention, reference should now be made to the accompanying figures, in which: Fig. 1 shows a side section of the device according to the invention. Fig. 2 shows a plan view of how a number of meters are connected to a collection line for suction and discharge of waste. Figure 3 shows how the device's collection container is handled, such as during emptying, by means of a vessel.

In the figures, elements that are similar are indicated with the same reference number.

Initially, reference should be made to fig. 1 which schematically shows the essential parts of the device according to the invention.

Fig. 1 shows a breeding mare 10 which, with the help of floating bodies 12, floats in the sea. The sea surface is shown at 14. In the lake 10, food or nursery fish are raised. Waste (mainly excrement), from the fish, all feed that is not eaten, as well as dead fish will sink downwards to the bottom as a quantity of waste. This quantity of waste is collected by the fact that the lower part 16 of the container consists of dense cloth with a tapering funnel shape. A tractor gantry 18 is arranged inside the bottom of the måre to collect the downward-sinking waste.

From the bottom of the funnel 18, an inlet line 20 leads inside the mær 10 itself upwards to the sea surface 14 and into a collection container 22. The collection container 22 is a tight container, i.e. that it is closed to the surface, and it can comprise a container of metal or plastic material. The container top includes an emptying opening which is normally closed with a lid (not shown). The lid is tilted upwards when the container is to be emptied. The container 22 is divided into two sections, a first section 22a and a second section 22b. The two sections are separated by a through-flowing wall element in the form of a screen or mesh 24. In the second section 22b of the container 22, a suction pump 26, such as a centrifugal pump, is arranged. The collection container section 22a is consequently located upstream of the suction pump. From the suction pump 26, a continuation line 28 leads on to a sludge separation container 30. The aforementioned centrifugal pump has a larger pipe dimension on the pressure side so that the flow rate of the sludge waste into the container 30 is reduced. Thereby, better sedimentation is achieved in the separation container 30. The sludge separation container 30 floats on the sea surface 14 with the help of floating pontoons 32. The sludge separation container 30 comprises e.g. partitions to promote sedimentation of solid or partially solid residual waste at the bottom of the container, and purified water can be discharged via an overflow at the top of the container 30.

The pump 26 is attached to the collection container 22 itself, and these parts therefore form a unit. This unit can be quickly connected and disconnected from the installation and continuation lines 20,28 by the fact that quick-connecting devices 38,40 are arranged on the pipe connections 39 and 41, respectively, from the unit 22,26, which can easily be joined with corresponding devices on the lines 20,28. Such connecting means can e.g. include bayonet connections which enable the unit 22,26 to be quickly attached and then, when the inflation is finished, quickly released from the wires 20,28.

When the pump 26 is started, a suction effect (negative pressure) is created in the container section 22a, so that the waste is sucked up from the funnel in the bottom of the mare 10 into the collection container 22. Waste above a given particle size, i.e. dead fish and the larger particles, cannot pass the strainer 24, and is therefore collected in the first container section 22a. The sludge that is not retained in the collection container 22 is carried on to the sludge separation container 30 through the line 28. The sludge separation container 30 has a large volume so that the sludge settles without being disturbed by the inflowing mixture of sludge and water.

In a breeding facility with a number of mares, it is therefore only necessary to operate with a single collecting tank and suction pump unit 22,26, and the unit can e.g. is moved from dam to dam with the help of a vessel, while the funnel and the lifting line 20 can be permanently left at/in each dam. The separation container 30 can be emptied and cleaned regularly if necessary.

Fig. 2 shows an application of the present invention. According to this solution, each installation line 20 from a number of meters 10 is led into a collection line 36 which leads to a separation container 30 of the type shown in Figure 1. Downstream of the meters 10, and upstream of the separation container 30, the collection line 36 is arranged for connecting the collection tank and pump unit 22,26 in a similar way as in fig. 1. Thus, the unit is connected by the collection container 22 and the pump 26 to the collection line 36 in that bayonet couplings/quick couplings 38,40 are arranged on the pipe ends 39 and 41 from the unit 22,26, which can easily be joined with corresponding bodies on the lines 36,37. Thus, the unit 22,2 6 can be quickly attached and then, when the inflation is finished, quickly released from the line 36,37.

In this solution, each inlet line 20 is provided with valve means (not shown in the figures) which can open or close the connection between the respective sump 10 and the collection line 36. During sludge suction, the valves are operated so that it is opened for sludge suction from one sump at a time.

According to an alternative solution, it is also possible to arrange the collection container 22 with the pump 26 directly on the line 20 between each sump 10 and the collection line 36. In such a case, only the valve of the sump being operated must be open, while the valves of the other sumps must be closed.

Reference must now be made to fig. 3 which shows an example of how the unit of collection container 22 and suction pump 26 can be operated, the suction pump 26 and the associated pipe fittings and quick-connecting devices being omitted from the drawing for the sake of clarity.

As mentioned above, the unit 22,26 can be moved from mother to mother 10 or from collecting line to collecting line 36, and for this purpose a vessel 42 is preferably used, of which only the stern end is shown. A trolley 4 6 with running wheels 48 is arranged to the upper edge part 44 of the collection container 22 which can be moved in a vertically arranged rail 50. The collection container 22 is arranged to the trolley 4 6 via a horizontal joint, and the container can thus be swung around the joint. The collection container 22 can thereby be moved in a largely vertical direction upwards and downwards. In the figure, the collection container 22 is shown in three positions. A, B and C. In position A, the collection container is in a submerged position just below the water surface 14, in position B, the collection container is raised upwards to an upper position. In position C, the collection container 22 is turned around the joint so that the container sludge is emptied out of the container and into a container on board the vessel 42. The collection container 22 is lifted/tilted over and four with the help of the cable 52.

With reference to fig. 2 and 3, the collection container according to the invention is operated as follows;

The vessel 42 is maneuvered into position for installation of the container 22. The container 22 is moved by means of the cable 52 along the rail 50 down into the sea to position A. In this position, the unit 22,26 is connected between the mother 10 and the separating container 30 using the coupling means 38,40 . The pump 26 is then started, and the waste from the mare is collected in two fractions, the fraction with the larger particle size (dead fish etc.) is collected in the container section 22a, in front of the grate 24, while the remaining waste is collected and sediments in the container 30. When the mare 10 is emptied of waste, the pumping is terminated, the coupling members 38, 40 are released and the unit 22, 26 is hoisted up and emptied on board the vessel 42 as shown in fig. 3. The collection container 22 with motor 26 is now ready to be moved to the next pond to remove waste from it.

With the present invention, a device has been produced which can greatly rationalize the removal of solid and partially solid types of waste from the ponds in a breeding facility. In the facility, it is only necessary to operate one and only collection tank and pump unit 22,26, which can be very easily moved to wherever there is a need for cleaning treatment. The rest of the system, i.e. the funnel 18 in the core 10, the line 20 and the separating container 30, can be arranged stationary in the plant without the need to move them. The facility according to the present invention also provides a major environmental benefit in that the waste can be collected quickly.

It is further a great advantage of the invention that the wiring network 20,28,36 and the associated unit of collection container 22 and pump 26 are immersed in water, and/or form a closed system. This means that less pumping capacity is needed than is usual for the previously known plants. In experiments, it has been shown that the costs of operating pump units that operate underwater or in a closed system can be reduced to about 1/8 of the costs that would be incurred to operate the pump unit above water. It has been shown that this beneficial effect is also achieved as a result of the combination of the pump being arranged downstream of the collection container section 22a, and operating with a closed container and line system. This provides a very effective suction/negative pressure in section 22b.

It is also a great advantage of the invention that the collection funnel 18 (see fig. 1) is located inside the core itself, as it is then possible to change the core groove for cleaning without having to dismantle the collection equipment.

Claims (8)

1. Device (26) for collecting waste from a breeding mare (10) comprising a line (20) leading from the bottom of the mare and to a device for waste management, as well as a pump (26) connected to the line, characterized in that a waste collection unit (22) is connected to the line (20), and the pump member (26) is arranged downstream of the collection unit (22) to be able to suck up a waste/water mixture from the mother (10) through the line (20) and that a screening device (24) is arranged downstream of the collection unit (22), in order to enrich waste above a given particle size in the collection unit (22), and the unit consisting of the installation line (20), the collecting unit (22), and a continuation line (28) arranged downstream of the pump member (26), is closed to the atmosphere. 2. Device in accordance with claim 1, characterized in that the collection unit forms a first section (22a) in a collection container (22) which, with the help of the screening device (24), is divided into said first section (22a) and a second section (22b). 3. Device in accordance with claims 1 and 2, characterized in that the pump member (26) is designed to operate in the second section (22b) of the collection container. 4. Device in accordance with claim 3, characterized in that the pump member (26) is permanently mounted to the collection container (22) to operate in the second section (22b). 5. Device in accordance with one of the preceding claims, characterized by that the collection container (22) includes an inlet pipe connection (39) and an outlet pipe connection (41), and the collecting container (22) can be releasably connected between the installation line (20) and the continuation line (28) by the fact that the respective pipe connections (39,41) comprise connecting members (38,40) which can be releasably joined with corresponding members on the lines (20,28) 6. Device in accordance with one of the preceding claims, characterized in that the collection container (22) with the pump member (26) is designed to be operated submerged in water, the collection container (22) comprising a sealed container and comprising a closable emptying opening. 7. Device in accordance with one of the preceding claims, characterized in that the unit consisting of the collection container (22) and the pump (26) is designed to be lifted up from the sea and emptied for further processing of the waste. 8. Use of a collection unit (22,26) in the device according to claims 1-7 for collecting waste from a number of mares (10) in a breeding facility, where each mare (10) includes its own installation line (20) that leads into a main waste line (36) which further leads to a separation container (30) common to the plant, and the collection unit (22, 26) is connected to the main waste line (36) between the separation container and the mære.