SU1750530A1 - Device for water aeration in fish ponds - Google Patents

Description

from two glued together rubber plates 7), inside of which there are branched air channels 8, for example rubber tubes, which at branch points are connected to coupling 10 by outlet 9 and expand at the exit in a horizontal plane with simultaneous narrowing in a vertical plane 11. It contributes to the dispersion of air flow.

Each aerating element 4 is equipped with at least two branched air channels 8.

The aerating elements 4 are connected to the collector 2 by means of a connecting pipe 5, which includes connecting sleeves 10 and nozzles 12, Couplings 10 are hingedly connected to fittings 6 of collector 2 and fittings 9 of aerating element 4 to form a parallelogram of the system determining the position of aerating element 4 with respect to the collector 2. In order to prevent spontaneous reversal of the parallelogram system, the connecting pipe 5 is provided with lock nuts 13, eyelets 14 are provided at the ends of each collector 2 to connect the collectors 2 to each other or to connect the crust load chain, the collectors 2, depending on the technological need, can be interconnected according to different schemes.

Linear diagram (figure 1). The collectors 2 are connected in series, and the aerating elements 4 are installed on both sides of each collector 2. This scheme is typical for installing pontoons in cage lines of the LM type, in which pontoons serve as collectors.

Ring scheme. Collectors 2 Connected by means of lugs 14 in a closed polyhedron. Moreover, the number of reservoirs is determined by the area of the reservoir. When this aerating elements 4 are installed on the outer side of the collector.

The device works as follows.

By means of a larallogram system, the amount of immersion of the aerating element 4 in water is established. The supply line 3 compressed air from the source 1 enters the collectors 2, and then through the connecting pipe 5 - into the forked channels 8 and through the sockets 11 - into the water. At the same time, due to the reactive power, the rubber plates 7 will perform a wave oscillatory motion, forming a wave. The wave geometry will depend on the following.

factors: overall dimensions of the aerating element, pressure of compressed air and the number of installed aerating elements.

The use of the proposed device makes it possible to increase the efficiency of the aeration process by increasing the area of aeration and the implementation of the combined aeration method, namely

wave combined with the air supply to the water. Depending on the configuration and size of the reservoir in which the fish is grown, the collectors are interconnected according to two schemes - linear or circular

(in the form of a polyhedron).

In the case of a collector connected in an annular scheme (in the form of a polyhedron), the same water movement when using the proposed device is achieved with less power than when using the known device. In addition, the proposed device provides additional air supply to the water.

The greatest effect from the use of the proposed device for aeration of water is achieved when fish are grown industrially in cage lines, for example, of the LM type, using

as collectors floats pontoon sections. In addition, the wave created by existing aerating devices located outside the cage line, extinguishes its pontoons, which greatly reduces the effect of aeration. The proposed device is simple in design and reliable in operation.

Claims (3)

1. Device for aeration of water in fish ponds, consisting of a source of compressed air and a collector connected to it with aerating elements made of elastic material and having means for releasing air into a reservoir, characterized in that, in order to provide aeration of a large area of the reservoir by simultaneously creating a wave motion of water and mixing water with air, it is equipped with additional headers with aerating elements, each aerating element is made in the form of a plate, and for the release of air formed by at least two channels with branches arranged in the plate, wherein the entrance sections of the channels are connected to the collector by means of pipelines, and the collectors have elements for connecting them to each other. 2. The device according to claim 1, characterized in that, in order to adjust the position of the aerating elements in the depth of the reservoir, each pipeline is connected to collector and with the entrance section of the channel pivotally. 3. The device according to claim 1, that is, so that the collectors are sealed with positive buoyancy. FEL eight P FIG. Z A A s