GR1009524B - Selective gear for fish barries and individual traps for fishing and water flow regulation - Google Patents

Abstract

The proposed gear adds selective fishing capabilities to the fish traps and fishing barriers. The openings are regulated by revolving square bars in combination with removable round bars of small diameter. The distances of the bars centres may vary. The rods are placed in a row along the frame with guides at the top and bottom so they can be turned properly around their axis. The rods in their final position remain stable by a simple grab kit at the top of the device so they will not move due to the fish contact during their escape attempt. It is also possible to remove the additional cylindrical small rods. This creates a variety of array assemblies in the grid with specific openings. Moreover, the square bars positions affect the water flow making thus the device valuable for other uses than fishing.

Description

PATENT DESCRIPTION

Title: "ADJUSTABLE OPENING GATES FOR SELECTIVE FISH PASSAGE AND WATER FLOW CONTROL"

The invention refers to the construction of fish barriers and fish catching facilities in lagoons. The fishing exploitation of L/Th is based on the movements of fish to and from the lagoons for reasons of nutrition, search for more favorable environmental conditions and reproduction. Thus, in the spring months when the temperature of the water of L/Th increases, due to its shallow depth and the rise of the ambient temperature, fish from the open sea enter it following the opposite currents of the waters that leave the lagoon at low tide . When the fish are approaching full reproductive maturity or when the water temperature reaches extreme levels in summer and winter, the fish leave the lagoon for the sea due to their biological requirements. The exploitation of the L/T lies in the confinement of the fish that enter the L/T so that it is not possible to freely return to the sea and then catch them. This process concerns either fish of relatively old age or fish fry from the first stages of their life in which the shallow and fertile environment of the lagoon provide favorable conditions for survival and development.

Fishing facilities are defined as facilities that utilize the use of appropriate barriers (fish barriers) to control fish migrations and through which fishing is carried out. They are divided into traditional and "contemporary or permanent". Those made of wooden stakes and plastic mesh are considered traditional (they resemble the old reed beds). Those characterized as "modern" even though they have been in use for more than 40 years are those made of reinforced concrete (permanent installations) that have sockets for placing the fish traps and barriers (movable parts). The movable parts consist of a metal frame on which a plastic mesh or bars are applied. A critical issue in fisheries management is the form and technical characteristics of fishing facilities and fish barriers.

In the existing facilities, aluminum, iron or polyester shutters are used, in which plastic grids with square side openings of about 14mm are applied, or vertical bars of the same or different openings that are applied according to the distances of their openings in different frames according to the target species for trapping.

The characteristics of the openings in the cases of the vertical bars determine the selectivity of the fish catchers which depends on the maximum body width. Fish traps (not lagoon fish traps) refer to devices described by patents: GB 2154411, US 3786593 and 10346906/27-4-2006/PT (as translated in OBI document no: 3080171). In the above provisions, collapsible frames for forming the fish trap in different shapes (hexagonal, etc.) are applied, while escape mechanisms are also provided for the fish in case the trap remains in the sea beyond a time limit. These fish traps, which are a modification of kurts, have nothing to do with fish traps and fish barriers and cannot be used in lagoons but only in marine environments as traps to actively attract fish using lures and are placed on the bottom. Existing installations have the main disadvantage that it is necessary to manufacture many different grids with the desired escape width. Also, the process of changing the grids is time-consuming as it requires removing the frame and re-positioning the desired grid. The difficulty of the whole process in the conventional way makes keeping the same nets in the fish barriers for a long time and changing them a seasonal process. This results in larger fish not being removed in time, causing infections, diseases and killing a large part of the fish population.

The present invention relates to fish dams and lagoon fish catching facilities using square bars and fixed circular sockets of selected distances (1), (2), (3) which enable direct adjustment of the width of the grid (4). This possibility is ensured by the rotation of the bars within the circular cross-sections. The positions ("cases") where the rods are placed are fixed circular slots in a metal frame (top and bottom) with optional different center distances (5), (6), (7), (8), (9), (10). The bars are placed perpendicular to the direction of the frame with the circular cross-sections. The adjustment of the width of the escape opening (distance between two adjacent bars) is achieved by rotating the bars around their axis without requiring their removal and re-installation, while "keys" are made to precisely and stably place the squares and the diamond bars in the selected position. The caught species that enter the fish trap are trapped there until their extinction. Depending on the placement of the bars in the metal frame, a series of arrangements with different widths can result in the fish trap, which allow the continuous escape of fish with an undesirable size depending on their body width. The opening is formed in each case according to the dimensions of the bars, their arrangement and the distance between the circular cross-sections of the frame.

In relation to the existing gate barriers and fish catching facilities, the advantage of the arrangement is that with a single frame, the configuration of various openings is achieved, something that in traditional fish catching facilities, when this happens, it is done seasonally by changing the fish barriers. The new arrangement allows directly in real time and in a simple way the configuration of the escape openings while the fish are already trapped in the catchers, which is impossible with the classic structures of fixed openings. The possibility of this immediate and at the discretion of the producer to change the selectivity of fish traps is a significant advantage and is impossible to achieve with existing fish traps. It is thus allowed with the active participation of the fisherman the selective management of the sub-sizes depending on the morphological characteristics of the different species and the sizes of the fished populations desired by the fisherman without prior capture and sorting. In this way, the escape of unusable commercially fish to the sea or their other utilization with provisions for their confinement after their escape as live fry is achieved. The killing and discarding of undersized or unmarketable fish species is significantly reduced without injuring them when they are released, protecting the population from contaminations that result in a large percentage dying due to their treatment in the existing fish catching structures during their sorting.

The consecutive bars (indicatively we use square bars of side 25mm 30mm etc) can be placed in a square position within the circular cross-section (3), in a rhombus (1) or alternately (2) forming each time a different width in the diaphragm (4). By choosing bars with a different side (30mm, 40mm) and varying the distance of the circular cross-sections (12mm, 10mm, 14mm, 4mm) in the frame we vary the aperture to the desired width. (5), (6), (7), (8), (9), (10). It is also possible to configure the desired width by adding a cylindrical rod of smaller diameter between the gaps of the circular frame (11). It is also possible to select wider gaps thanks to the possibility of complete bar removal and/or by using a round bar in combination with the square bars (12).

In the present invention, the fishing facilities in which the fish are trapped during their migratory movements are formed by frames with square bars, the openings between which can be changed by the fisherman in real time by simple rotation without requiring the use of more than one different characteristic nets . They thus allow the escape of unwanted fish, the constant supervision of the fisherman and his immediate intervention to regulate the escape width. According to the proposed arrangement, the bars are placed in a row along the frame, supported by transverse parallel guides and fixed using simple "keys" in the upper part of the structure. The rotational change in their orientation, without the need for removal and repositioning, leads to the formation of gaps of a specific opening between the rods that selectively allow the passage of fish with a body width compatible with the formed gap. Gap control can also be used to control water flow. Further clearance reduction can be achieved by adding round bars in front of the squares through holes in the guides. The proposed new type of provisions can also be applied to existing structures by replacing their parts, significantly reducing construction costs and contributing to the modification or reuse of structures that have been put out of service. The size and shape of the construction is easily adapted to the needs of the user. The construction material can also be chosen by the user and indicatively it can be various types of metal or synthetic material or a combination thereof. Depending on the distances of the centers of rotation of the square bars, they can also be used in water flow control gates to substantially stop the flow to achieve selective control of water flow according to the user's requirements in lagoon fishing or other uses . For example, in a fishing facility where the arrangement of figure (10) is applied, a specific width of opening is formed in the mesh that allows fish of the specific width to escape, while the rest are trapped. By twisting the rods within the arrangement of fixed circular cross-sections we change the width of the mesh directly as desired by narrowing the gap or increasing it. In case we wish to create an even narrower passage for a certain period of time, we place a circular rod of smaller cross-section in the adjusted position between the pre-existing rods (11). By keeping the escape width constant for a desired period of time, directly the user overseeing the process wishes to create a wider channel for fish of undesirable size that become trapped and potentially pose a problem to the fish population and ecology of the area. Thus, it is enabled immediately and without much effort to remove bars from the mesh to allow more species of fish to escape to the sea (12).

Claims (8)

1. Fish barriers and fish traps using square bars and fixed circular sockets of selected center distances characterized by the ability to directly adjust the width of the mesh for use in fishing facilities or non-fishery water flow control structures. The positions ("cases") where the rods are placed are fixed circular slots in a metal frame (top and bottom) with optionally different center distances. The bars are placed perpendicular to the direction of the frame with the circular cross-sections. The adjustment of the width of the escape opening (distance between two adjacent bars) is achieved by rotating the bars around their axis without requiring their removal and repositioning, while "keys" are made to place the squares precisely and firmly and the diamond bars in the selected position. The caught species that enter the fish trap are trapped there until their extinction. Depending on the placement of the rods in the metal frame, a series of devices with different widths can be created in the fish trap that allow the continuous escape of fish with an undesirable size in relation to the width of their body and without the possibility of escape being affected by the height of the body of each species and each fish. The opening is shaped in each case according to the dimensions of the bars, their arrangement and the distance between the circular cross-sections of the frame (4), (5), (6), (7), (8), (9), ( 10). 2. According to what is defined in claim 1, fish barriers and fish traps characterized in that the successive bars are placed in a square shape with respect to the direction of the frame. (3). 3. According to what is defined in claim 1, fish barriers and fish traps characterized in that the successive bars are arranged in a diamond shape in the direction of the frame. (1). 4. As defined in claim 1, fish barriers and fish traps characterized in that the successive bars are arranged alternately in a square and diamond arrangement. (2). 5. According to what is defined in claim 1, fish barriers and fish traps characterized in that cylindrical bars of smaller base diameter can be placed between the installed bars by varying the width of the barrier (11). 6. According to what is defined in claim 1, fish barriers and fish traps characterized in that it is possible to immediately remove and reposition each bar in the grid by varying the width of the barrier. (12). 7. According to what is defined in claims 1 to 6, fish barriers and fish traps characterized by the fact that a slanting point is formed on each rod to facilitate their entry into the holes all the way at the lower end. 8. According to what is defined in claims 1 to 6, fish barriers and fish traps, characterized in that a plastic mesh is placed in the lower part of each parallelogram gate to prevent the rods from being moved by the fish in their attempt to escape.