RU2334390C1 - Device for hydrobionts cultivation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: device has a cable system and grillage for hydrobionts cultivation kept under water with the cable system, and the cable system includes an anchor and floated cables. The bottom end of each anchor cable is fixed on the bed with the anchor equipment, and the top ends of the anchor cables are connected with each other and bottom ends of the floated cables. The top end of each floated cable is connected with a float, and grillage is unfolded and fixed on the anchor cables. The grillage is flexible, and the top ends of the anchor cables are connected with each other consequently by a transverse cable, which forms closed contour so that these top ends are placed over a distance from each other along the length of the transverse cable. The distance between the top ends of the near anchor cables is less than distance between bottom ends of these anchor cables.

EFFECT: favourable conditions for setting-out, mounting and growth of hydrobionts on different levels of aqueous environment; coexistence of hydrobionts in polyculture symbiotic community.

24 cl, 4 dwg

Description

The invention relates to hydraulic structures and can be used in the construction of artificial reefs in marine and freshwater farms engaged in the cultivation of hydrobionts.

A device for growing mariculture is known, containing a continuous flexible sheet, to the upper edge of which floats are attached, and flexible strips with movable ends are attached to the lower edge, to some of which anchor devices are attached that hold the flexible sheet and strips underwater obliquely in the deployed working position [ US patent 6244218, publ. 06/12/2001]. A disadvantage of the known device is instability to waves, inability to ice and external mechanical stresses, which reduces the likelihood of subsidence and fixing on the surfaces of the sheet and strips of algae and organisms, and with great excitement increases the risk of premature subsidence and damage, which reduces the productivity of the known water device .

Also known is a cable system for growing invertebrates, containing a cable fixed under water in the form of an arch with floats and concrete blocks-anchors, and a bio-carrier suspended from the farm, which is held on the arch with flexible suspensions [patent RU 2255468, publ. 07/10/2005]. Floats are located along the length of the cable to create an arch, to which the truss is attached using flexible suspensions, and the bio-carrier with a load is suspended in turn from the truss using loops. A disadvantage of the known cable system is the instability of its arches to waves and external mechanical stresses, requiring additional stabilization by horizontal and stabilizing cables, the complexity of the design, time-consuming to install and inconvenient to use, as well as a limited range of produced products.

As a prototype, a device for growing algae is adopted, comprising a rope system and a crate for growing marine hydrobionts in the form of algae, held underwater by a rope system, in which the rope system includes anchor ropes and float ropes, the lower end of each anchor rope being fixed to the bottom with anchor device, and the upper ends of the anchor ropes are connected to each other and to the lower ends of the float ropes, while the upper end of each float rope is connected to the float, lathing fixed to the anchor line in the unfolded state, wherein the anchoring devices are fitted at the bottom so that the anchor cables are separated laterally and have an angle of inclination towards the battens. The crate has a geometrically unchanged shape and is made of material with negative buoyancy, therefore, when removing the floats, it sinks with algae to the bottom between anchor devices, where the algae sprout and remain at the bottom, and the crate is raised and reattached to the floats [JP 2006296240, publ. November 2, 2006]. A disadvantage of the known device is the inability of the rigid crate to fluctuations in the aquatic environment and unevenness of the bottom, inconvenience in operation and a limited range of products.

The technical problem for which this device is proposed is to increase the stability of the structure to waves, ice and external mechanical influences, ease of operation, creation of favorable conditions for subsidence, fixing and development of aquatic organisms at different levels of the aquatic environment, ensuring the coexistence of aquatic organisms in a multicultural symbiotic community in proportions optimal for their life, improving the ecology of the aquatic environment and expanding the range of farmed and harvested current products.

This problem is solved by the proposed device for growing aquatic organisms, containing a rope system and a crate for growing marine aquatic organisms, held under water by a rope system, in which the rope system includes anchor ropes and float ropes, the lower end of each anchor rope being fixed to the bottom using an anchor device, and the upper ends of the anchor ropes are connected to each other and to the lower ends of the float ropes, while the upper end of each float rope is connected to the float, and TCA is fixed to the anchor line in the unfolded state. What is new is that the lathing is made flexible, while the upper ends of the anchor ropes are connected to each other sequentially by means of a transverse rope forming a closed loop so that these upper ends are spaced from each other along the length of the transverse rope, where the distance between the upper ends neighboring anchor ropes made no more than the distance between the lower ends of these anchor ropes. It is better if the crate is installed horizontally and secured between the upper ends of the anchor ropes using a transverse rope along the contour of the horizontal crate. The device may have an additional horizontal crate located below the horizontal crate fixed between the upper ends of the anchor ropes, the additional horizontal crate can be fixed in the expanded state on the anchor ropes between them along the contour of the additional horizontal crate in the form of a lower tier, and the device may contain two or more additional horizontal crates arranged in tiers. Optimally, if the device contains three horizontal crates, and the horizontal crate of the upper tier can be located in a zone favorable for the cultivation of algae, an additional horizontal crate of the middle tier can be located in a zone favorable for the cultivation of mollusks, and an additional horizontal crate of the lower tier can be located in an area favorable for the cultivation of crustaceans. It is better if the dimensions of the holes of the additional horizontal crate of the lower tier are made larger than the sizes of the holes in the horizontal crate of the upper tier. The edge of the contour of the horizontal lathing can serve as a transverse rope. The device may have a side crate, which can be fixed so that it is stretched between at least two adjacent anchor ropes, and it is better if the side crate is stretched between all adjacent anchor ropes. Optimally, if the side crate is stretched from the lower ends of the anchor ropes so that it will adjoin its bottom edge to the bottom, forming a side bottom guard. Through holes in the bottom part of the side crate can be made, the dimensions of which can be larger than the size of the crate openings. The device may contain an additional crate installed in a horizontal position and fixed in the expanded state on the anchor ropes between them, while the upper edge of the side crate can adjoin the contour of the horizontal crate, also, the device can contain two or more additional horizontal crates located in tiers, with this, the upper edge of the side crates can be located no higher than the contour of the horizontal crates of the lower tier. It is better if the dimensions of the holes in the horizontal crates of the lower tier and the side crates are larger than the sizes of the holes in the horizontal crates of the higher tier. The edge of the contour of the horizontal lathing can serve as a transverse rope. Optimally, if the flexible crate is made of mesh. It is better if the anchor ropes are made in one piece with the float ropes. The angle of inclination of the anchor ropes can be 45-90 °, at these angles of inclination at least one float can be afloat and at least one float can be flooded. Anchor devices are located at the bottom around the circumference. The upper ends of the anchor ropes are at the same distance from each other. The lower ends of the anchor ropes are at the same distance from each other. Anchor devices are made with a mass that is equal to or greater than the pulling force of an MPC type fishing vessel and prevents the device from shifting with bottom gear of an MPC type vessel.

The proposed technical solution is illustrated by graphic materials. Figure 1 shows a side view of a device for growing aquatic organisms in a vertical position of anchor ropes with floating floats, figure 2 shows a top view of the device at the level of floating floats and mesh crates, figure 3 shows a side view of a device with inclined anchor ropes with flooded floats, figure 4 shows a top view of the device at the level of the flooded floats and mesh crate.

A device for growing hydrobionts is illustrated by an example of a specific implementation in a pond 10 meters deep.

The device comprises an upper tier 1, an average tier 2, and a lower tier 3, where the upper tier 1 is made of a nylon mesh with a square mesh of 80 mm × 80 mm, the middle tier 2 is made of a mesh with a mesh of 100 mm × 100 mm, and the lower tier 3 is made of mesh with a cell size of 120 mm × 120 mm. The contours of the upper tier 1, the middle tier 2 and the lower tier 3 are reinforced with a nylon rope with a diameter of 20 mm, threaded into the outermost cells. Tiers 1, 2 and 3 are attached with a step of 3 m to eight nylon ropes 4 with a diameter of 20 mm and a length of 10 m, located at the same distance from each other. The upper end of each rope 4 is attached to the float 5, and the lower end of each rope 4 is attached to the metal loop of the concrete block 6 weighing 1 ton. Eight concrete blocks 6 are located at the same distance at the bottom at a depth of 10 m around a circle with a diameter of 20 m. part of the ropes 4 made a fence 7 of the grid with a square cell measuring 120 mm × 120 mm and a height of 2 m, at the level of the lower tier 3. In the bottom part of the mesh fence 7 made square holes 8 with a size of 800 mm × 400 mm for penetration of people moving along the bottom -organisms in water and floating the fish into the device.

The device operates as follows.

In the warm season, floats 5 float at the surface of the water, holding the ropes 4 in a position close to vertical. Ropes 4, in turn, hold at different depths under water the contours of the mesh tiers 1, 2 and 3 in an expanded working position, close to horizontal. The upper tier 1 is located at a depth of 2 m in the area illuminated by the sun and favorable for the cultivation of algae. The middle tier 2 is located at a depth of 5 m in the zone favorable for the cultivation of mollusks. The lower tier 3 is located at a depth of 8 m in the zone favorable for the cultivation of crustaceans. Algae waste products descend from the upper tier 1 to the middle tier 2 and serve as food for downstream mollusks, algae and mollusk livelihood products descend from the middle tier 2 to the lower tier 3 and serve as food for inferior crustaceans, and the remaining crushed marine algae and algae are suspended or settle to the bottom, where they serve as food for fish and benthic organisms. As the hydrobionts settle, fasten and develop on the mesh tiers 1, 2 and 3, the fence 7 of the lower part of the ropes 4 and the ropes 4 themselves, tiers 1, 2 and 3 will gradually sag, the ropes 4 will bend, and the floats 5 will move as shown in dotted lines (figure 1). To prevent possible collisions with floating vessels, a signal buoy 10 with a mooring end is installed in the center of the upper tier 1 of the device to moor the serving and production fleets. The total mass of concrete blocks 6 corresponds to the pulling force of a fishing vessel of the MPC type, which prevents the shift of blocks 6 and / or the destruction of tiers 1, 2 and 3 when engaged by a trawl. The devices are installed in the water area of a bay or lake at a distance of no more than 500 meters from each other, performing the function of passively protecting the water area from trawling, as they prevent the maneuvering between them of fishing vessels with a trawl. The lightweight design of the device allows, if necessary, the installation and / or dismantling of its individual elements and / or change their location directly from the boat or pontoon, without resorting to the services of divers.

In the cold season, the floats 5 are in a submerged state under water and / or under ice, drawn close to each other using rods 9 made of a nylon rope with a diameter of 20 mm and located under tier 1 (Fig. 2). The ropes 4 will take an inclined position at an angle of 60 ° towards the tiers 1, 2 and 3, which are sagging and will occupy the position shown by dashed lines (figure 3). If necessary, tiers 1, 2 and 3 can be expanded by pulling the rods 9 located under tiers 1, 2 and 3 (figure 4). To prevent a possible collision with floating vessels and / or determine the position under the ice, a signal buoy 10 is installed in the center of the upper tier 1 of the device.

Claims (24)

1. A device for growing aquatic organisms, comprising a rope system and a crate for growing marine aquatic organisms, held underwater by a rope system, in which the rope system includes anchor ropes and float ropes, the lower end of each anchor rope being anchored to the bottom with an anchor device, and the upper the ends of the anchor ropes are connected to each other and to the lower ends of the float ropes, while the upper end of each float rope is connected to the float, and the crate is fixed to the anchor ropes in unfolded state, characterized in that the crate is flexible, and the upper ends of the anchor ropes are connected to each other in series using a transverse rope forming a closed loop so that these upper ends are spaced from each other along the length of the transverse rope, while the distance between the upper ends of adjacent anchor ropes is made no greater than the distance between the lower ends of these anchor ropes. 2. The device according to claim 1, characterized in that the crate is horizontal and secured between the upper ends of the anchor ropes using a transverse rope along the contour of the horizontal crate. 3. The device according to claim 2, characterized in that there is an additional horizontal crate located below the horizontal crate fixed between the upper ends of the anchor ropes, the additional horizontal crate fixed in the unfolded state on the anchor ropes between them along the contour of the additional horizontal crate in the form of a lower tier. 4. The device according to claim 3, characterized in that it contains two or more additional horizontal crates arranged in tiers. 5. The device according to claim 4, characterized in that it contains three horizontal crates, the horizontal crate of the upper tier is located in the zone favorable for the cultivation of algae, the additional horizontal crate of the middle tier is located in the zone favorable for the cultivation of mollusks, and the additional horizontal crate of the lower the tier is located in the zone favorable for the cultivation of crustaceans. 6. The device according to claim 3, characterized in that the dimensions of the holes of the additional horizontal crate of the lower tier are larger than the sizes of the holes in the horizontal crate of a higher tier. 7. The device according to claim 2, characterized in that the edge of the contour of the horizontal crate performs the function of a transverse rope. 8. The device according to claim 1, characterized in that the crate is lateral and secured so that it is stretched between at least two adjacent anchor ropes. 9. The device according to claim 8, characterized in that the side crate is stretched between all adjacent anchor ropes. 10. The device according to claim 9, characterized in that the side crate is stretched from the lower ends of the anchor ropes so that it adjoins its bottom edge to the bottom, forming a side bottom guard. 11. The device according to claim 10, characterized in that in the bottom part of the side sheathing there are made through holes, the sizes of which are larger than the sizes of the holes of the sheathing. 12. The device according to claim 9, characterized in that it further comprises a crate made horizontal and fixed in the unfolded state on the anchor ropes between them, while the upper edge of the side crate adjoins the contour of the horizontal crate. 13. The device according to p. 12, characterized in that it further comprises two or more horizontal crates arranged in tiers, while the upper edge of the side crates is not higher than the contour of the horizontal crates of the lower tier. 14. The device according to item 13, wherein the dimensions of the holes of the horizontal crate of the lower tier and the side crates are made larger than the sizes of the holes in the horizontal crate of the higher tier. 15. The device according to p. 12, characterized in that the edge of the contour of the horizontal lath performs the function of a transverse rope. 16. The device according to any one of claims 1 to 15, characterized in that the crate is made of mesh. 17. The device according to any one of claims 1 to 15, characterized in that the anchor ropes are made in one piece with the float ropes. 18. The device according to any one of claims 1 to 15, characterized in that the angle of inclination of the anchor ropes is 45-90 °. 19. The device according to any one of claims 1 to 15, characterized in that at least one float is afloat. 20. The device according to any one of claims 1 to 15, characterized in that at least one float is flooded. 21. The device according to any one of claims 1 to 15, characterized in that the anchor devices are located on the bottom around the circumference. 22. The device according to any one of claims 1 to 15, characterized in that the upper ends of the anchor ropes are at the same distance from each other. 23. The device according to any one of claims 1 to 15, characterized in that the lower ends of the anchor ropes are at the same distance from each other. 24. The device according to any one of claims 1 to 15, characterized in that the anchor devices are made with a mass that is equal to or greater than the pulling force of an MPC fishing vessel and prevents the device from shifting with bottom gear of an MPC type vessel.

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