RU2027358C1 - Plant for reception and maintenance of live fish on board of fishing vessel - Google Patents

Abstract

FIELD: fishery. SUBSTANCE: plant has two groups of detachable containers located on the upper deck and in the hold respectively. The containers are provided with atomizers and means of water drain, a closed circulation line with a pump, pipelines, and a water cleaner. The equipment also includes tanks with atomizers for clear water, a water discharge tank, a pipeline with a kingston valve for feed of sea water, and an oxygenizer. The plant is provided with a device for saturation of water with pure oxygen. The device is provided with a distributor open to the atomizers of the containers and tanks as well as the oxygenazer. The pipeline and kingston valve are open to the circulation line by means of another pump, and between the pressure pipeline and pipeline for drain of water from the containers on the upper deck there is a pipeline for discharge of water to the sea. It is expedient to provide the plant with a device for reception of fish. The device should have a fish pump, water separator, hopper with a filling tray, and a vertical neck let fish pass into the containers located in the hold. EFFECT: higher fish stock density in containers; no traumatism. 2 cl, 6 dwg

Description

 The invention relates to fishing and can be used for receiving and keeping live fish when transporting it over long distances.

 Known ship device for receiving and storing a catch, containing the cargo volume of the vessel with an attic system of partitions, including end walls, dividing the cargo volume into separate cells, a hopper-distributor with feed fish pipelines and control valves, a shaft with a discharge fish piping and supply systems for technological and sanitary agents moreover, the bottoms of each cell are inclined to the diametrical plane of the vessel and provided with channels for a coolant, and the supply fish pipelines are installed vertically and equipped with fraternal valves located in the area of each cell, while the discharge fish line is equipped with a receiving tray installed in the lower part of the cargo volume of the vessel, and the end walls of each cell located in the area of the receiving tray are made with doors, in addition, the cells are made with perforated pipelines, associated with the supply systems of technological and sanitary agents (1).

 The following essential features of this technical solution coincide with the essential features of the claimed invention, namely: a ship device for receiving and storing a catch contains a fish pump with fish pipelines equipped with valves, a water separator and a hopper with a discharge chute.

 The specified device does not have removable thermally insulated containers for keeping and transporting live fish, devices for ensuring the vital activity of fish in containers and the regime of adaptation of salmon planting material in fresh water containers to sea water while transporting containers from fish factories to sea commodity farms for subsequent rearing.

 The closest to the invention in terms of features is an installation for keeping and transporting live fish, including a fish tank, aeration device, a device for heat treatment of water, a device for cleaning water from suspensions and a closed circulation circuit with a pump, while it is equipped with a tank for stock clean water connected to the circulation circuit by a pipeline with a valve for supplying sea water and an ozonizer included in the circulation circuit between the aeration device and capacity, and the device for purifying water from suspensions is a sludge separator, and the device for heat treatment is equipped with a thermal relay. In addition, the fish tank is equipped with a grill installed above the bottom with the formation of a cavity for collecting contaminants, perforated pipes for supplying and discharging water and a pipe mounted in the bottom with an ejector for cleaning, while the upper wall of the tank is made inclined and has a loading neck (2) .

 The following essential features of this device coincide with the essential features of the claimed invention, namely: the installation for keeping and transporting live fish contains a container for fish, equipped with a sprayer and means for draining water, a closed circulation circuit with a pump, piping system and means for water purification, connected to the circulation circuit, a tank for the supply of clean water and a pipeline with kingston for supplying sea water and an oxygenator included in the circulation circuit between water purifier and container.

 In the specified device there are no systems for receiving live fish, as well as systems providing an increase in the density of fish in tanks and the adaptation of salmon planting material in fresh water tanks to sea water during transportation of containers from fish factories to sea commodity farms for subsequent rearing.

 The problem to which the claimed invention is directed, is to increase the number of live fish transported, to prevent its injury when taken into containers, to increase the fish landing density in containers, to adapt the salmon planting material in fresh water containers to seawater during the transportation of containers from fish factories to marine commodity farms for subsequent rearing.

 In the inventive installation for receiving and keeping live fish, the technical result is to increase the number of live fish transported, to avoid injury when being taken into containers, to increase the fish landing density in containers, to adapt the salmon planting material in fresh water containers to the adaptation mode to sea water during the transportation of containers from fish factories to marine commodity farms for subsequent rearing.

 In the proposed installation, the technical result is achieved in that the installation for receiving and keeping live fish on a fishing vessel, comprising a fish container, equipped with a sprayer and means for draining water, a closed circulation circuit with a pump, piping system and water purifier connected to the circulation a tank for clean water supply and a pipeline with Kingston for supplying sea water and an oxygenator included in the circulation circuit between the water purifier and the container, it is filled with additional containers, the design of which is similar to the main one, a supply tank for water connected to a closed circulation circuit, and a device for saturating water with pure oxygen, consisting of series-connected compressors, oxygen generators, a receiver and a device for oxygen distribution, while all containers are removable and divided into two groups, one of which serves for placement on the upper deck, and the other in the hold, the tanks are equipped with a spray mi, sprayers of tanks and all containers, as well as an oxygenator are connected to a device for distributing oxygen through oxygen pipelines, means for draining water of groups of containers located on the upper deck and in the hold are interconnected by pipelines for draining water, the pipeline with kingston is connected to a closed circulation the circuit by means of an additional pump for supplying seawater, and between the pressure pipe of the pump of the closed water circulation circuit and the pipeline of the pump for draining water from a group of containers located on the upper deck, included a pipeline for draining water overboard. In addition, it is equipped with a device for receiving fish, including a fish pump with fish pipelines equipped with valves, a water separator and a hopper with a loading tray, as well as a vertical neck for passing fish into containers located in the hold of the vessel, the upper section of which is connected to the loading tray, and the lower equipped with a feed fish line.

 Comparative analysis with the prototype allows us to conclude that the inventive installation for receiving and keeping live fish on a fishing vessel is different in that it is equipped with additional containers, the design of which is similar to the main, consumable water tank connected to a closed circuit, and a device for saturating water pure oxygen, consisting of series-connected compressors, oxygen generators, a receiver and an oxygen distribution device, while all containers filled with removable and divided into two groups, one of which serves for placement on the upper deck, and the other in the hold, tanks are equipped with spray guns, spray guns of tanks and all containers, as well as an oxygenator are connected to a device for oxygen distribution through oxygen pipelines, means for draining groups of water containers located on the upper deck and in the hold, are interconnected by pipelines for draining water, the pipeline with kingston is connected to a closed circulation circuit through an additional a pump for supplying sea water, and between the pressure pipe of the closed water circulation loop pump and the pump pipe for draining water from a group of containers located on the upper deck, a pipe for draining water overboard is included, in addition, it is equipped with a device for receiving fish, including a fish pump with fish pipelines equipped with valves, a water separator and a hopper with a loading tray, as well as a vertical neck for passing fish into containers located in the hold of the vessel, the upper section of which is connected with agruzochnym tray, and the bottom is equipped with feeding ryboprovodom.

 All the essential features distinguishing from the prototype are sufficient in all cases for which the scope of legal protection is claimed.

 To increase the intake and maintenance of live fish, containers are installed in the hold and on the upper deck.

 A closed water circulation circuit with a pump, piping system, purification filters and aerating device provides the supply and drainage of water to fish containers and the bunker. The hopper serves for the accumulation and sorting of live fish.

 The neck, passing through the upper deck into the hold with fish containers and connected with its upper part to the loading tray, and the lower part to the pipeline, provides loading of live fish in containers installed in the hold.

 The supply water tank and the tank for the supply of clean sea water or fresh water contains water supplied to the fish containers and the bunker. A pipeline connected to a closed water circulation circuit with a kingston connected to a pump is designed to supply sea water.

 A pipeline connected between the discharge pipe of the closed-loop water circulation pump and the drain pipes of the fish containers mounted on the upper deck allows water to be drained overboard from all fish containers. The oxygenator provides saturation with pure oxygen of water supplied to containers with fish and a bunker.

 Sprayers are used to disperse the distribution of pure oxygen in water in fish containers, a supply water tank, and a tank for storing clean sea water or fresh water.

 Figure 1 shows a fishing vessel, side view; figure 2 - fishing vessel with a trawl at the side and a device for receiving live fish into the hopper and removable thermally insulated containers, top view; figure 3 - the hold of a fishing vessel, top view; figure 4 is a section aa in figure 3; figure 5 - a device for supplying and discharging water to the hopper and removable thermally insulated containers; figure 6 - a device for saturation with pure oxygen of water supplied to the bunker and removable thermally insulated containers.

 Installation for receiving and keeping live fish on a fishing vessel 1 contains a device for receiving live fish in the hopper 2 and removable thermally insulated containers 3, a device for supplying and discharging water to the hopper 2 and removable thermally insulated containers 3, a device for saturating with pure oxygen the water supplied to bunker 2 and removable thermally insulated containers 3.

 The fishing vessel is equipped with a trawl 4 with a bag 5 and a fishing device, for example, for onboard trawling (not shown).

 A device for receiving live fish into the hopper 2 and removable thermally insulated containers 3 located on the upper deck 6 and in the hold 7 of the fishing vessel 1 contains a water separator 8, a fish pump 9 with a suction pipe 10 and a pressure pipe 11, fish pipelines 12-15 with valves 16- twenty. Fish pipelines 12-15 consist of separate sections connected by quick disconnect connections 21. A fish pipe 12 is connected to the suction pipe 10 of the fish pump 9, the free end of which is equipped with a receiving pipe 22. The fish pipe 15 is connected to the suction pipe 10 of the fish pump 9 at one end and to the other with using a quick disconnect connection 21 - with a pipe 23 of a thermally insulated container 3 mounted on the upper deck 6. The pressure fish pipe 13 is connected to the pressure pipe 11 of the fish pump 9 and is led to the water separator 8. Fish pipe 14 one end with the fish line 12, and the other with the hopper 2. The inclined loading tray 24 is connected to the hopper 2 and the neck 25 passing through the upper deck 6 into the hold 7 and connected via a quick disconnect 21 to the fish line 26, which by means of a quick connector 21 connected to the pipe 27 of a removable thermally insulated container 3.

 A device for supplying and discharging water to the hopper 2 and removable thermally insulated containers 3 mounted on the upper deck 6 and in hold 7 contains circulation pumps 28-30 with suction pipes 31-33 and valves 34-36, as well as pressure pipes 37-39 with valves 40-42, consumable water tank 43, tank 44 for the supply of clean overboard (sea) or fresh water, filters 45 and 46. The circulation pump 29 is installed as a backup. The supply water tank 43 and the tank 44 for the supply of clean overboard or fresh water are connected by a pipe 47 to the valve 48. To the supply the water tank 43 is connected a pipe 49 with valves 50-53 connected to the kingston 54. The tank 44 for the supply of clean sea or fresh water and the pipeline 49 is connected by a pipe 55 to the valve 56. The circulation pumps 28-30 are connected by their discharge pipes 37-39 to the pipe 57 connected to the receiving pipes 58 with valves 59 of removable thermally insulated containers 3 mounted on the top Deck 6 and to the receiving branch pipes 60 with valves 61 demountable thermally insulated container 3 mounted in the hold 7. Furthermore, the conduit 57 connected to the hopper 2 and is provided with valves 62-65. The tank 44 for the supply of clean overboard or fresh water is connected to the pipe 57 using the pipe 66 with the valve 67.

 For water discharge, visual control and manual regulation of the water supply, removable thermally insulated containers 3 located on the upper deck 6 are provided in the upper part with a tube 68, the free end of which is installed above the funnel 69, mounted on the drain pipe 70, and removable thermally insulated containers 3, located in the hold 7, provided in the upper part with a tube 71, the free end of which is installed above the funnel 72, mounted on the drain pipe 73. The drain pipes 70 are connected to the pipe 74. Valves 75 and 76 are installed on the drain ohm conduit 77 providing the drain water overboard from vessels mounted on the upper deck. In addition, pipelines 57 and 74 are connected to the valve 78 via a drain pipe 77. The drain pipes 73 are connected to a pipe 79 connected to a water supply tank 43. The pipes 74 and 79 are connected by a pipe 80 to a valve 81.

 Kingston 54, pipe 49 with valve 53, pump 30 with pipes 33 and 39 and valves 36 and 42, pipe 57 with valves 64, 65, filters 45, 46, pipes 58 with valves 59, pipes 68, pipes 70, pipe 74, a section of the drain pipe 77 with valves 75 and 76 form an open water circulation circuit for supplying water to the hopper 2 and removable thermally insulated containers 3 installed on the upper deck 6.

 Kingston 54, pipe 49 with valve 53, pump 30 with pipes 33 and 39 and valves 36 and 42, pipe 57 with valves 64 and 65, filters 45 and 46, pipes 60 with valves 61, tubes 71, pipes 73, pipe 79, tank 43, pipe 49 with valve 50, pump 28 with pipes 31 and 37 with valves 34 and 40, a section of drain pipe 77 with valves 78 and 76 form an open water circulation circuit for supplying water to removable thermally insulated containers 3 installed in hold 7.

 Tanks 43 and 44, pipe 49 with valve 50, pump 28 with pipes 31 and 37, pipe 57 with valves 62-65, filters 45 and 46, pipes 58 with valves 59, pipes 68, pipes 70, pipe 74, pipe 80 s valves 81, the pipe 79 form a closed water circulation loop for supplying water to removable thermally insulated containers 3 mounted on the upper deck 6.

 Tanks 43 and 44, pipe 49 with valves 50, pump 28 with pipes 31 and 37, pipe 57 with valves 62-65, filters 45 and 46, pipes 60, with valves 61, pipes 71, pipes 73, pipe 79 form a closed water a circulation circuit for supplying water to thermally insulated containers 3 installed in the hold 7.

 A device for saturating pure oxygen with water supplied to the hopper 2 and removable thermally insulated containers 3 contains compressors 82 connected by pipelines 83, equipped with valves 84, with oxygen generators 85. For the removal of gaseous nitrogen into the atmosphere, oxygen generators 85 are equipped with pipelines 86 with silencers 87. The receiver 88, serving for the accumulation of pure gaseous oxygen, connected to oxygen generators 85 with oxygen lines 89 with valves 90. The receiver 88 is connected through a reducer 91 to the line 92 with a device 93 d For the distribution of pure gaseous oxygen, to which spare cylinders 94 with oxygen and reducers 95 are connected. To saturate the water with pure gaseous oxygen, an oxygenator 96 is installed, connected to the pipeline 57 (Figs. 5 and 6) by nozzles 97 and 98 with valves 99 and 100. Valve 100 has also been established for sampling in determining salinity during the transportation of salmon planting material to commercial sea farms and adaptation to sea water.

 To saturate the water with atmospheric oxygen to the pipeline 57 is connected by nozzles 101 and 102 with valves 103 and 104, an ejector aerator 105, (figure 5) is a backup aeration device.

 The device 93 for the distribution of pure gaseous oxygen by an oxygen piping system 106 with valves 107-109 is connected to an oxygenator 96 by atomizers 110 mounted in a supply water tank 43 and tank 44 for a supply of clean seawater or fresh water, and also to a manifold 111. Sprayers 112 mounted in removable insulated containers 3 installed on the upper deck 6 and in hold 7 are connected to the manifold 111 by oxygen lines 113 with valves 114. Between the oxygenator 96 and the tank 43, an oxygen pipe 115 is fixed, aschy for discharging excess oxygen gas from the oxygenator 96. Nozzles 110 and 112 are designed to disperse distribution of oxygen in water.

 Installation for receiving and storing live fish on a fishing vessel operates as follows.

 Before receiving live fish, tanks 43 and 44 are filled with clean seawater (sea) water. An open water circulation circuit for supplying the hopper 2 and removable thermally insulated containers 3 with clean seawater is used when the fishing vessel 1 is in clear waters. To do this, open Kingston 54, valves 53, 36, 42, 64, 99, 100, 59, 61, 65 and pump 30 through pipelines 49 and 57 to supply clean sea water to the hopper 2 and removable thermally insulated containers 3 located on the upper deck 6 and in hold 7. When the bunker 2 is full, water spills onto the upper deck 6, and then overboard. To exchange water located in removable thermally insulated containers 3 located on the upper deck 6, valves 75 and 76 are opened and water flows by gravity through pipes 68, funnels 69 and drain pipes 70 into pipeline 74 and is drained overboard. To exchange water in removable thermally insulated containers 3 located in hold 7, open valves 50, 34, 40, 78, 76. Water by gravity flows through pipes 71, funnels 72, drain pipes 73 and pipe 79 into tank 43, and from there by pump 28 through pipelines 49, 77 pump water overboard.

 When the water circuit is open, the water supply tank 43 is used as a container for used water. A closed water circulation circuit for supplying the hopper 2 and removable thermally insulated containers 3 is used when the vessel moves in dirty sea water or when transporting salmon planting material to sea commodity farms and to bring the adaptation mode to sea water.

 When using a closed water circulation circuit, valves 48, 50, 34, 40, 62, 63, 64, 99, 100, 59, 61, 65 are opened and water is supplied to the hopper 2 through pipelines 49 and 57 by a pump 28 from the supply water tank 43 removable thermally insulated containers 3 located on the upper deck 6 and in the hold 7. When filling the hopper 2, close the valve 65. To exchange the water in the removable thermally insulated containers 3 located on the upper deck 6, open the valve 81 and water by gravity through the tubes 68, funnels 69 and drain pipes 70 enter pipelines 74 and 80 and merges into the supply water tank 43.

 From removable thermally insulated containers 3 located in hold 7, water flows by gravity through pipes 71, funnels 72, drain pipes 73 and pipe 79 flows into a flowing water tank 43.

 After making sure of the water supply to the hopper 2 and the removable thermally insulated containers 3, by the presence of a stream of water from the tubes 68 and 71, they turn on the device for saturation of pure oxygen with water. Valves 84, 90, 107, 108, 109, 114 are opened, compressors 82 are started, and compressed air is supplied to oxygen generators 85 through pipes 83. Nitrogen gas generated in oxygen generators 85 is discharged through pipelines 86 and silencers 87 into the atmosphere, and pure gaseous oxygen is supplied to oxygenator 96, atomizers 110 mounted in the supply water tank 43 and the tank 44 for the supply of clean sea or fresh water, as well as to the collector 111.

 Water passing through oxygenator 96 is saturated with pure oxygen. Excess pure oxygen from oxygenator 96 is fed to tank 43 via oxygen line 115.

 If the supply of pure gaseous oxygen from the receiver 88 to the device 93 for the distribution of gaseous oxygen is stopped, spare oxygen cylinders 94 are used.

 When the oxygenator 96 fails, the valves 99 and 100 are closed and the valves 103 and 104 are opened and the water enters the ejector aerator 105, where water is enriched with atmospheric oxygen.

 At the end of the trawl, the trawl is lifted 4. At the same time, the trawl bag 5 with the fish is pulled to the side and the end of the fish line 12 with the receiving pipe 22 is lowered into it. Valves 17 and 19 are opened and the fish pump 9 serves the water-fish mixture from the trawl bag 5 through the fish pipe 12, pipes 10 and 11 and the fish line 13, first to the water separator 8, and then to the bunker 2, where the catch is sorted. In bunker 2, snuffed, dead fish and by-catch are selected, and live fish is left in bunker 2, flooded with oxygen-enriched water.

 To load live fish, removable thermally insulated containers 3, installed on the upper deck 6, open the valves 18 and 20 and the fish pump 9 serves the water-fish mixture from the hopper 2 through the fish line 14, pipes 10 and 11 and the fish pipe 15 into a removable thermally insulated container 3. After filling one removable thermally insulated container 3, the fish pipe 15 is disconnected using a quick coupler 21 from the pipe 23 and connected to the next removable thermally insulated container 3.

 Before unloading live fish from removable thermally insulated containers 3 installed on the upper deck 6, valves 16 and 19 are opened, and the fish line 13 is turned to the side of a loaded container (not shown) with a pre-worn elastic sleeve. Using a quick coupler 21, the fish pipe 15 is attached to the pipe 23 of the removable thermally insulated container 3 and the fish pump 9 serves the water-fish mixture in a loaded container.

 The removable thermally insulated containers 3 installed in the hold 7 are filled by gravity with the water-fish mixture. To do this, the inclined loading tray 24 is attached to the hopper 2 and the neck 25, which is connected by a fish pipe 26 to the pipe 27 of the removable thermally insulated container 3 using the quick disconnect connection 21. Then the water-fish mixture is fed by gravity from the hopper 2 along the inclined loading tray 24, the neck 25, the fish pipe 26 and pipe 27 into a removable thermally insulated container 3. After filling one removable thermally insulated container 3, the fish pipe 26 is disconnected from the pipe 27 using a quick disconnect connection 21 and connected to the trace present insulated container 3.

 Before unloading live fish from removable thermally insulated containers 3 installed in the hold 7, the valves 17 and 19 are opened, and the fish line 13 is turned to the side of a loaded container (not shown) with a pre-worn elastic sleeve. The fish line 12 is disconnected and the free end is connected to the neck 25 using a quick coupler 21. The fish pipe 26 is connected to the neck 25 and to the pipe 27 using quick couplers 21. The fish pump 9 serves a water-fish mixture in a loaded container.

 When the fishing vessel 1 is at the port, removable thermally insulated containers 3 with live fish are unloaded using a ship's cargo device or a gantry crane onto vehicles for delivery to stores or warehouses where removable thermally insulated containers 3 are connected to life support systems.

 To transport salmon planting stock from fish factories to marine commodity farms, tanks 43 and 44 are filled with clean fresh water. Removable thermally insulated containers 3 with fresh water and salmon planting material are delivered from fish factories and loaded onto a vessel, attached and connected to a device for supplying and discharging water to removable thermally insulated containers 3. An enclosed fresh water circulating circuit is used at the transition to marine commodity farms. To carry out the adaptation mode for salmon planting material to sea water, open valves 53, 36, 42 and add pump 30 from Kingston 54 via pipeline 49 and pipes 33 and 39 to add sea water according to the adaptation mode. Thus, the salinity of the water circulating in a closed circuit is raised to the level of sea water. Sampling circulating in a closed water circuit is carried out using valve 100. After the adaptation mode, the planting material is reloaded into cages for growing salmon.

 When operating the inventive installation for receiving and keeping live fish, injury to live fish is excluded when it is received in removable thermally insulated containers, the density of fish landing in containers and the possibility of adapting salmon planting material in fresh water containers to outboard seawater during the time for transporting containers from fish factories to marine commodity farms for subsequent rearing.

Claims (2)

 1. INSTALLATION FOR RECEIVING AND MAINTAINING LIVING FISH ON A FISHING BOAT, containing a fish container, equipped with a sprayer and means for draining water, a closed circulation circuit with a pump, piping system and water purifier, connected to the circulation circuit, a tank for the supply of clean water and a pipeline with kingston for supplying sea water, and an oxygenator included in the circulation circuit between the water purifier and the container, characterized in that it is provided with additional containers, to the structural implementation of which is similar to the main, consumable water tank connected to a closed circulation circuit, and a device for saturating water with pure oxygen, consisting of series-connected compressors, oxygen generators, a receiver and an oxygen distribution device, while all containers are removable and divided into two groups, one of which serves for placement on the upper deck, and the other in the hold, tanks are equipped with spray guns, tank sprayers and all container c, as well as an oxygenator, are connected to a device for distributing oxygen through oxygen pipelines, means for draining the water of groups of containers located on the upper deck and in the hold are interconnected by pipelines for draining water, the pipeline with kingston is connected to a closed circulation circuit by means of an additional pump for feeding sea water, and between the pressure pipe of the closed circulation pump and the pipe for draining water from the group of containers located on the upper deck ube, included a pipeline to drain water overboard.  2. Installation according to claim 1, characterized in that it is equipped with a device for receiving fish, including a fish pump with fish pipelines equipped with valves, a water separator and a hopper with a loading tray, as well as a vertical neck for letting fish into containers located in the hold of the vessel, the upper a section of which is communicated with the loading tray, and the bottom is equipped with a feed fish line.

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