RU2028049C1 - Shallow reservoir for marketable fish breeding - Google Patents

Abstract

FIELD: lake fish-breeding. SUBSTANCE: shallow reservoir has fish winter stay hole and ring-type canal, made along perimeter of its bed bank part and connected to ring-type hole. Ring-type canal communicates with reservoir through net of canals. Its part, that is located over fish winter stay hole, has mounted aerator-stream former, output end of which is directed to fish winter stay hole. Fish winter stay hole has form of sweep-net ground and its bottom is deepened by 0.5 - 1.0 m. Optimal conditions are made in shallow reservoir to breed marketable fish and it allows to exercise effective catch of bred fish. EFFECT: shallow reservoir marketable fish breeding provides good terms for fish winter stay and effective catch of bred fish. 1 dwg

Description

 The invention relates to lake fish farming and can be used for annual and perennial rearing of fish in shallow water bodies.

 Known shallow water reservoir, including wintering and feeding reservoirs, interconnected by channels, and the wintering reservoir is deepened relative to the depth of the reservoir by 1.0-1.5 m [1].

 However, the manufacture of a deep-sea wintering reservoir on the shore of a shallow shallow reservoir requires land allocation, which is undesirable in the environment of cultivated land, and the manufacture of a wintering reservoir by dumping a dam in the coastal part of the reservoir and its deepening is expensive. In addition, the movement of fish to the wintering pit in conditions of a heavily overgrown shallow water body is difficult, since there are no visible landmarks in the direction of movement, the zone of action of the aerated water flow of the aerator-flow former is small, since the discharged and return flows are directed in opposite directions and counteract each other to a friend. This does not contribute to the conservation of fish with a rapid decrease in oxygen in the summer in calm weather.

 The closest technical solution is a shallow pond for the cultivation of commercial fish with a wintering pit [2].

 The disadvantage of the feeding reservoir is that only a small part of the feeding area is located in close proximity to the wintering pit, while the main part of the feeding area, which is well warmed up and rich in food, is removed. Therefore, with a rapid increase in the oxygen content in water, fish from remote feeding areas of the reservoir does not have time to move into the wintering pit and dies. In addition, the catching of the reservoir with traditional fishing gear is difficult due to the strong overgrowth of the reservoir.

 The aim of the invention is to create optimal conditions for the cultivation of commercial fish, increasing the efficiency of fishing.

 The goal is achieved by the fact that in a shallow body of water for rearing commercial fish, including a wintering pit, according to the invention, an annular channel closed on the wintering pit is connected along the perimeter of the coastal part of the bed, connected with the entire water area of the reservoir by a channel network, and at the exit from the annular channel in the direction an aerator-flow former is installed to the wintering pit, and the bottom of the wintering pit is deepened by 0.5-1.0 relative to the bottom of the channels and it is made in plan in the form of a nonaqueous tony.

 Comparative analysis with the prototype shows that the claimed reservoir is characterized in that along the perimeter of the coastal part of the bed, an annular channel closed on the wintering pit is made, a network of channels connected to the entire water area of the reservoir, and an aerator-flow former is installed at the output of the annular channel towards the wintering pit, and the bottom of the wintering pit is deepened by 0.5-1.0 m relative to the bottom of the channels and it is made in plan in the form of a nonaqueous tony.

 Thus, the claimed reservoir meets the criteria of the invention of "Novelty."

 Comparison of the claimed solutions with other technical solutions did not allow to identify in them the features that distinguish the claimed invention from the prototype and therefore they provide the claimed technical solution with the criterion of "significant differences".

 The implementation of the annular channel closed on the wintering pit and its connection with the entire water area of the pond by a network of channels allows the fish to quickly move through the channel network and the annular channel into the wintering pit when the oxygen content in the water is rapidly placed in remote areas of the pond.

 This movement of the fish is facilitated by the fact that the aerator-flow former creates a directed flow of water in the channels, which is a guideline for the fish along the path to the wintering pit.

 The installation of an aerator-flow former at the exit of the annular channel towards the wintering pit allows to obtain the highest oxygen concentration in it and create a directed annular flow in the channels, the energy consumption will be minimal. With such an installation, the kinetic energy of the flow arising in the channel is used, and local water circulation near the aerator-flow former is excluded, in addition, the loss of speed of the flow former will be minimal as a result of the flow being discharged into the wintering pit, where there are no obstacles for it, while in a narrow channel, part of the speed is extinguished on its wall.

 The wintering pit is deepened by 0.5-1.0 m relative to the depth of the channels so that the fish does not linger in the channels, but moves into the wintering pit, where the living conditions are better, namely less temperature difference and a sufficient amount of oxygen.

 The drawing shows a shallow pond for the cultivation of commercial fish, top view.

 A shallow water reservoir for fish rearing includes an annular channel 1, made along the perimeter of the coastal part of its bed and closed on the wintering pit 2. Channel 1 is connected to the entire water area of the reservoir by a network of channels 3. The depth of channels 1, 3 is chosen so that they do not overgrow with grass. The depth of the wintering pit 2 is 0.5-1.0 m greater than the bottom of channels 1, 3. At the outlet of channel 1 towards the wintering pit 2, an aerator-flow former 6 is installed to create a continuous flow and aeration of water. In addition, the wintering pit 2 is made in plan in the form of a non-aqueous toni 7.

 The proposed reservoir operates as follows.

 Planting material is launched into the wintering pit 2, here it adapts and remembers a new habitat. From wintering pit 2, through channels 1, 3, young fish move to places where there is more food, usually the most remote coastal area of the reservoir overgrown with grass.

 With a sharp drop in water temperature, the fish, following its natural behavior, enters the deepest places, first into the network of channels 3, then concentrates in channel 1, and then moves to the wintering pit 2, which has the greatest depth, where the temperature difference is less noticeable.

 With a decrease in the oxygen content in water, an aerator-flow former 4 is included, which creates a directed flow of water in the annular channel 1 and aerates the water. The fish, responding to the stream, moves from remote areas of the reservoir first through a network of channels 3 to channel 1, and then to the wintering pit 2, where at the greatest depth than in channels 1, 3 the most favorable oxygen and temperature conditions will be. The fish are caught at the moment of its highest concentration in the wintering pit 2 with the help of non-aqueous toni.

 The proposed reservoir provides an optimal mode of habitat for fish in the event of clutter and can improve the efficiency of growing and fishing.

Claims (1)

 A shallow-water reservoir for growing commercial fish, containing a wintering pit, characterized in that an annular channel closed on the wintering pit is connected along the perimeter of the reservoir’s bed connected to the entire water body of the reservoir, and an aerator is installed on the ring channel section located in front of the wintering pit. - a flow former, the output end of which is directed towards the wintering pit, and the bottom of the latter is deepened by 0.5 - 1.0 m relative to the bottom of the channels and in plan it is made in the form of a nonaqueous tony.

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