RU112811U1 - FISHGARD - Google Patents

Abstract

1. An artificial reef, including a structure placed in a reservoir, in which conditions have been created that distinguish it from the surrounding situation in the reservoir and are favorable for the safe habitation of aquatic organisms, characterized in that the structure is a volumetric flowing body, the structure and texture elements of which are made of a substrate suitable for habitat and reproduction of aquatic organisms. ! 2. An artificial reef according to claim 1, characterized in that the structural elements of its body are made of a monolithic substrate. ! 3. An artificial reef according to claim 1, characterized in that the elements of the texture of its body are made of a monolithic substrate. ! 4. An artificial reef according to claim 1, characterized in that the structural elements of its body are made of mesh containers in which a non-cohesive substrate is placed. ! 5. An artificial reef according to claim 1, characterized in that the elements of the texture of its body are made of mesh containers in which an incoherent substrate is placed. ! 6. Artificial reef according to claim 1, characterized in that its volumetric body is made in the form of a spatial farm. ! 7. An artificial reef according to claim 1, characterized in that its volumetric body is made in the form of a multi-beam monocentric structure. ! 8. Artificial reef according to claim 1, characterized in that its volumetric body is hollow, and the flow through it is provided by holes arranged in the shell of the texture. ! 9. An artificial reef according to claim 1, characterized in that its body has the shape of a geometric body. ! 10. An artificial reef according to claim 1, characterized in that its body has the form of a symbolic image. ! 11. An artificial reef according to claim 8, characterized in that the holes in the shell are made in the form of a geometric figure. ! 12. Art

Description

The utility model relates to fisheries and can be used to create artificial reefs.

Known artificial reef according to patent RU No. 2377770 C1, A01K 61/00, B.I. No. 1, 2010, assembled from trapezoidal structural elements by means of mutually mating cutouts in a pyramidal structure. The disadvantage of this design is its leakage and overspending of material for manufacture with a small amount of space controlled by the reef.

Artificial reef according to patent RU No. 2302730 C2, A01K 61/00, B.I. No. 20, 2008, including a multilayer pyramidal structure assembled from parallelepipeds. The disadvantage of this design is its lack of flow through the excessive filling of the internal volume of the pyramid, which leads to an overuse of material for its manufacture and a decrease in the amount of living space for the aquatic population to live in it.

In addition, an artificial reef is known according to patent RU No. 2314386 C1, EB 3/06, B.I. No. 1, 2008, including a permeable pyramidal frame module from which volume flowing arrays can be assembled. This design has significantly greater flow and volume of living space. However, this technical solution is also characterized by excessive consumption of material for arranging the interior of the prefabricated reef, especially when it is constructed from a significant number of individual modules.

Closest to the proposed technical solution is a fish protection shelter according to patent RU No. 57758 U1 for utility model ЕВВ 8/08, A01K 61/00, B.I. No. 30, 2006, including a freely permeable frame structure equipped with elements that allow you to create a shelter environment that differs from the surrounding situation in the water intake zone of the reservoir and provides conditions favorable for orientation, habitat and movement of fish in a safe area. The disadvantage of this utility model is that it does not reveal the constructive nature of the elements used in the shelter.

The purpose of the utility model is the formation of the element base of artificial reefs and the expansion of the field and the possibility of its application.

This goal is achieved in that the artificial reef is a voluminous, flowing body, the elements of the structure and texture of which are made of a substrate suitable for habitat and reproduction of aquatic organisms. At the same time, the elements of the structure and texture of his body are made of a monolithic substrate or of mesh containers in which an incoherent substrate is placed. The bulk body of an artificial reef is made in the form of a spatial truss, a multi-beam monocentric structure or is made hollow, and the holes in the shell of the texture provide a flow in it. The body of an artificial reef has the shape of a geometric body or symbolic image. The holes in the shell texture of the body are made in the form of a geometric figure or symbolic image. Inserts are placed in the openings of the shell, serving as an additional substrate. The inserts are made of a monolithic substrate or of mesh containers in which an incoherent substrate is placed. The inserts are made in the form of a geometric body or symbolic image. The body of the artificial reef is stationary located at the bottom of the reservoir with the possibility of full integration into the natural environment, raised above the bottom of the reservoir on supports that serve as an additional substrate and provide free passage of bottom sediments under it, or is made floating with the possibility of placing aquatic organisms at a comfortable depth of habitat. The buoyancy of the body of an artificial reef is provided by a system of external or internal floats, or the substrate itself is floating. The floating body of the artificial reef is made with the ability to move on problem areas of the reservoir.

The essence of the utility model is illustrated by the drawing, which shows an artificial reef, a general view.

An artificial reef is a voluminous, flowing body 1, the elements of structure 2 and texture 3 of which are made of a substrate suitable for living and reproduction of aquatic organisms. Elements of structure 2 and texture 3 of the volumetric body 1 are made of a monolithic substrate, for example, hydraulic reinforced concrete, used for the construction of fish passage and fish breeding structures, as well as drinking water supply facilities. Elements of structure 2 and texture 3 can also be mounted from mesh containers in which an incoherent substrate is placed, for example, expanded clay used to make spawning panels, or ordinary gravel. To give the body 1 volume it can be made in the form of a spatial truss, the bonds of which are made of a monolithic substrate or of mesh sleeves filled with a disconnected substrate. This allows, with its minimum material consumption, to create a structure in which the external part of the body 1 is saturated with a substrate, i.e. its texture 3. If it is necessary to saturate the interior of body 1 with a substrate as much as possible, i.e. its structure 2, but to preserve, at the same time, its volume and controlled space, then body 1 is made in the form of a multi-beam monocentric design - a polypode assembled from beam legs. They are also made, either from a monolithic substrate, or from mesh containers filled with an incoherent substrate. It is also possible the execution of the shell texture 3 of the hollow body 1 from a single array. This makes it possible to saturate the outer shell of the texture 3 with the substrate as much as possible. Moreover, the amount of substrate required for this depends on the size of the holes 4 arranged in the shell 3 to ensure the flow of the body 1.

Depending on the topography of the bottom and depth of the reservoir, the area of the site for the placement of an artificial reef, the hydrological, ichthyological, environmental situations prevailing in the reservoir, the purpose of the artificial reef and other conditions, various forms of its shape can be made. So his body 1 can take the form of various geometric bodies, as well as, if necessary, alphabetic, runic, stylized or other symbolic images.

The fact that the artificial reef is used by fish and other aquatic inhabitants not only as a substrate, but also as a visual, tactile and re-gradient landmark and refuge, also has a significant influence on the choice of body shape 1. The same factors affect the choice of the shape and size of the holes 4 in the shell 3. In this regard, the holes 4 can also be made in the form of geometric shapes, letter, runic, stylized or other symbolic images.

To increase the area of the substrate and, at the same time, to form the most diverse flow regime inside the body 1, openings 4 in its shell 3 can be equipped with special flow-forming inserts 5. These inserts 5, in addition to creating a river-gradient flow structure favorable for fish, also serve as additional visual and tactile landmarks. Insert 5, as well as the shell 3 of the body 1 can be made of a monolithic substrate or of mesh containers filled with an incoherent substrate. Inserts can also be made in the form of geometric bodies, letter, runic, stylized or other symbolic images.

A different embodiment of the shell 3 of the body 1 and the insert 5. Thus, for example, the shell 3 can be made of a monolithic substrate, and the insert 5 - from a mesh container with a disconnected substrate. This allows you to significantly diversify the living conditions and reproduction of aquatic organisms within the same body 1 artificial reef.

The stationary placement of body 1 at the bottom of the reservoir allows it to colonize with fouling and other benthic organisms and, over time, fully integrate into the natural environment. However, this is possible only in the absence of a significant influence of entrained bottom sediments or when choosing the shape of body 1, which allows these sediments to pass either around themselves or through themselves, not allowing them to be deposited in an artificial reef. If this cannot be achieved, it is advisable to arrange the body 1, raised above the bottom of the reservoir on the supports 6. The use of supports 6 allows free passage of bottom sediments under the body 1. In addition, the supports 6 are made of substrate, which allows you to place additional areas in the pond for habitat and reproduction of aquatic organisms.

In order to provide more complete control over the space surrounding the artificial reef, especially when using it in deep water bodies or, if necessary, to control the ichthyofauna that lives in the water column or in the surface layer, it is advisable to make body 1 floating with the possibility of placing aquatic organisms at a comfortable depth of habitat or surface of the reservoir. The buoyancy of the body 1 can be provided by a system of floats 7. The floats 7 can be placed both outside the body 1 and its shell 3, and inside the hollow body 1 or directly in the substrate. It is also possible to use a floating substrate.

If it is possible to change a hydrological, ichthyological, ecological or other situation in a water body equipped and controlled by an artificial reef, it may be necessary to move it to other problem areas of the reservoir. For this, the floating body 1 can be made with the possibility of moving to these problem areas of the reservoir. The execution of the body 1 mobile also allows, if necessary, to transport the artificial reef ashore, for example, for preventive maintenance or modernization.

Reef complexes are formed from individual volumetric bodies 1, which can be used to create a favorable and safe habitat for fish, to intensify the processes of natural self-cleaning of reservoirs that have settled in an artificial reef by filtrators, and also as a shore protection system.

An artificial reef works as follows.

Depending on the topography of the bottom, depth and area of the site of the reservoir to be equipped, hydrological, ichthyological, ecological, trophic and other situations developing on it, as well as on the purpose of the artificial reef from the multivariate elemental base, the designs of its bodies 1 are selected, which allow placing a substrate suitable for them for living and reproduction of aquatic organisms, in the optimal configuration for these conditions. So, depending on the type of use (habitat, breeding, shelter, landmarks, etc.), the aquatic organisms of the substrate do not perform either monolithic or incoherent material. Moreover, the use of a disconnected substrate allows aquatic organisms to inhabit not only its surface, but also to populate its thickness, thereby increasing the bio-productivity of both the reef and the reservoir in which this reef is located. The placement of the substrate, both on the surface 3 and inside 2 of the flowing body 1, as well as its execution in the form of various streamlined elements and shapes - the body 1 itself, holes 4 and inserts 5, allows you to create a variety of hydraulic shadows and other gradient orientations when flowing around the reef attracting and contributing to the accumulation of various species of aquatic organisms in the reef. As a result, the use of the proposed artificial reef will enhance the biodiversity of both the reef itself and the reservoir as a whole.

From one or more selected bodies 1, a reef complex is formed on the site to be equipped. Moreover, individual bodies 1 can have both different types and designs of the substrate, and can be located on the bottom of the reservoir, on the supports 6 above the bottom or in the water column. In this case, various types of aquatic organisms, depending on their preferences, are given the opportunity to inhabit both inside 2 bodies 1 and on its surface 3. For this, both structure 2 and texture 3 of bodies 1 leaving the reef complex are made of a substrate suitable for living and reproduction aquatic organisms, and the bodies 1 themselves are dispersed throughout the thickness of the local section of the reservoir. This allows you to create on the site a variety of favorable conditions for aquatic organisms in the entire volume of its water space.

Thus, the multivariance of constructive solutions for the implementation and placement of the substrate, both in the local reef and in the entire reef complex, allows us to achieve the technical result of this useful model, namely, the formation of the element base of artificial reefs and the expansion of the field and the possibility of its application to provide a variety of and favorable living and breeding conditions for aquatic organisms.

Claims (24)

1. An artificial reef, including a structure located in a pond, in which conditions are created that distinguish it from the surrounding situation in the pond and are favorable for the safe living of aquatic organisms, characterized in that the structure is a voluminous flowing body, the structure and texture of which are made of substrate suitable for living and breeding aquatic organisms. 2. The artificial reef according to claim 1, characterized in that the structural elements of his body are made of a monolithic substrate. 3. The artificial reef according to claim 1, characterized in that the invoice elements of his body are made of a monolithic substrate. 4. The artificial reef according to claim 1, characterized in that the structural elements of his body are made of mesh containers in which an incoherent substrate is placed. 5. The artificial reef according to claim 1, characterized in that the invoice elements of his body are made of mesh containers in which an incoherent substrate is placed. 6. The artificial reef according to claim 1, characterized in that its voluminous body is made in the form of a spatial truss. 7. The artificial reef according to claim 1, characterized in that its voluminous body is made in the form of a multi-beam monocentric design. 8. The artificial reef according to claim 1, characterized in that its voluminous body is hollow, and the openings in the shell of the texture provide a flow in it. 9. The artificial reef according to claim 1, characterized in that his body has the shape of a geometric body. 10. The artificial reef according to claim 1, characterized in that his body has the form of a symbolic image. 11. The artificial reef of claim 8, characterized in that the holes in the shell are made in the form of a geometric figure. 12. The artificial reef of claim 8, characterized in that the holes in the shell are made in the form of a symbolic image. 13. The artificial reef of claim 8, characterized in that the holes are inserted in the inserts, which serve as an additional substrate. 14. The artificial reef according to item 13, wherein the inserts are made of a monolithic substrate. 15. The artificial reef according to item 13, wherein the inserts are made of mesh containers, in which an incoherent substrate is placed. 16. The artificial reef according to item 13, wherein the inserts are made in the form of a geometric body. 17. The artificial reef according to item 13, wherein the inserts are made in the form of a symbolic image. 18. The artificial reef according to claim 1, characterized in that his body is stationary located at the bottom of the reservoir with the possibility of full integration into the natural environment. 19. The artificial reef according to claim 1, characterized in that his body is elevated above the bottom of the reservoir on supports that serve as an additional substrate and allow free passage of bottom sediments underneath. 20. The artificial reef according to claim 1, characterized in that his body is made floating with the possibility of placing aquatic organisms at a comfortable habitat depth. 21. The artificial reef according to claim 20, characterized in that the buoyancy of his body provides a system of external floats. 22. The artificial reef according to claim 20, characterized in that the buoyancy of his body provides a system of internal floats. 23. The artificial reef according to claim 20, characterized in that the buoyancy of his body provides a floating substrate. 24. The artificial reef according to claim 20, characterized in that its floating body is configured to move to problem areas of the reservoir.