RU2743587C1 - Fish feeding system - Google Patents

Abstract

FIELD: industrial aquaculture.

SUBSTANCE: invention relates to industrial aquaculture, namely to hydrobiont feeding systems with content in both open water bodies and ground-based systems. System for feeding fish includes a hopper with a batcher, a pneumatic feed line with one end connected with a compressor. In the lower part of the bunker with a dosing unit there is an additional container with a gate, which is made with possibility of measuring weight. Pneumatic feed line is equipped with one or several branch pipes, at the beginning of the branch there is a gate valve. Note here that said pneumatic feed line has additional gate valves arranged immediately after said branch pipes and at free end.

EFFECT: invention eliminates the need to calibrate proportioners and reduces the total length of the pneumatic feeding conduit to ensure dispensing of fodder for all feeding points.

1 cl, 2 dwg

Description

The present invention relates to industrial aquaculture, in particular to feeding systems for aquatic organisms when kept both in open water bodies and in land-based systems.

A known system for feeding fish [1], containing a pipeline with a closed cable with pushers installed on it, a drive for pulling a cable with pushers through the pipeline, feeders for feeding feed into the pipeline from bunkers, rotary feeding devices for feeding feed into distribution bins, from where, through pneumatic feed lines, feed is supplied to points of direct feeding (cages, pools, etc.), which contain aquatic organisms.

The disadvantage of this system is the need to use an individual pneumatic line for each feeding point, as well as the need to calibrate the feeders to ensure rationed feeding.

Known feed system for feeding fish [2], containing a suspended monorail, which is suspended from the carriage placed on it with hoppers with dispensers for dispensing feed. The system works as follows. The bins, placed on the carriage, are filled with auger conveyors. Moreover, the bins can be filled with various types of feed. Then the carriage moves along the monorail and stops above the pool where aquatic organisms are kept. Depending on the settings of the control program, the dispenser on a specific hopper is switched on and feeding is performed. Further, the carriage moves along the monorail to the next pool. When emptying the bins, the carriage returns to the filling point of the bins.

The disadvantage of this system is that the system cannot be used on water bodies, as well as the limited capacity of the bunkers due to the carrying capacity of the monorail and the need to calibrate the dispensers to ensure normalized feeding.

Known feed system for feeding fish [3], containing bunkers, with dispensers connected to a pneumatic feed line with a compressor, distributors directing the air-feed flow into individual pneumatic feed lines for each feeding point (cage).

The disadvantage of this system is the need to use an individual pneumatic feed line for each feeding point, as well as the need to calibrate the dispensers to ensure rationed feeding.

The closest known analogue, taken as a prototype, is a feed system for feeding fish [4], containing bunkers, with dispensers connected to a pneumatic feed line with a compressor, distributors directing the air-feed flow to individual pneumatic feed lines for each feeding point (cage ).

The disadvantage of this system is the need to use, after the distributor, an individual pneumatic feed line for each feeding point, as well as the need to calibrate the dispensers to ensure rationed feeding.

The technical result of the proposed invention is to eliminate the need to calibrate the dispensers and reduce the total length of the pneumatic feed line to ensure the distribution of feed to all feeding points.

The technical result is achieved by the fact that an additional container with a valve is installed in the lower part of the hopper with a dispenser, and the additional container is made with the ability to measure weight, and the pneumatic feed line is equipped with one or more nozzles, and a valve is located at the beginning of the nozzle, while the pneumatic feed line has additional valves placed immediately after the nozzles and at the free end.

FIG. 1 shows a general view of a fish feeding system.

FIG. 1 shows the elements of a fish feeding system.

The fish feeding system consists of a hopper 1, with a dispenser 2 at the bottom. Under the dispenser 2 there is an additional container 3 with a weight measurement function and a slide 4 at the bottom (see Fig. 2). Additional tank 3 is connected to a pneumatic feed line 5, on one side of which a compressor is connected 6. The number of sets: hopper 1, dispenser 2, additional tank 3 and valve 4 can be any, depending on the number of types of feed used. The pneumatic feed line 5 runs over all feeding points. On the pneumatic feed line, above the feeding points, there are nozzles 7 (see Fig. 2) located directly at the feeding points. The branch pipes 7 are closed by valves 8, and after each branch pipe there are valves 9 in the pneumatic feed line 5. At the opposite end of the pneumatic feed line 5, from the compressor 6, there is an end valve 10.

The feed system for feeding fish works as follows. Feed is filled into hopper 1 (or several hoppers depending on the system configuration). Each bin can be filled with a different type of feed. Then, by means of the appropriate dispenser 2, feed is supplied to the corresponding additional container 3. In the process of filling the additional container, the mass of the feed accumulated in the additional container 3 is controlled. All valves 4 are closed. When the mass of feed in the additional tank reaches the required value, the dispenser switches off. The valve 8 corresponding to the feeding point is opened and the valve 9 corresponding to the feeding point is closed. All valves 8 located up to the feeding point are closed. All valves 9 located up to the feeding point are open. The compressor 6 is switched on, which supplies air under pressure to the pneumatic feed line 5. The corresponding damper 4 opens and the feed from the additional tank enters the pneumatic feed line 5 and is transported by the air flow to the branch pipe 7 corresponding to the feeding point. Further, the feed through the open corresponding valve 8 is fed to the feeding point. After emptying the additional tank 3, the valve 4 closes.

Then, the process is repeated for the next feeding point. Appropriate dispensers and valves are used.

When dispensing feed to the last feeding point, all valves 8 are closed, and valves 9 are open. Gate 10 is open.

The proposed invention makes it possible to exclude the operation of calibrating the dispensers when changing the type of feed, and also to reduce the required number of pneumatic feed lines.

SOURCES

1. Conveyor feed system. AKVAgroup. Internet resource. Accessed: 11.09.2020, https://blog.akvagroup.com/news/akva-group-launches-feed-conveyor-concept

2. Robotic feed system. Arvotec. Internet resource. Access date: 11.09.2020, https://www.arvotec.fi/en/solutions/feeding-technology/feeding-robot

3. Automatic feeding systems. Engineering Park, Petrozavodsk State University. Internet resource. Access date: 11.09.2020, https://petrsu.ru/structure/6906/pages/8265/avtomatitcheskie-kormovye-sistemy

4. Feeding system. Arvotec. Internet resource. Access date: 11.09.2020, https://www.arvotec.fi/en/solutions/feeding-technology/pipe-feeding-system

Claims (1)

A system for feeding fish, including a hopper with a dispenser, a pneumatic feed line, at one end of which a compressor is connected, characterized in that an additional container with a valve is installed in the lower part of the hopper with a dispenser, and the additional container is made with the ability to measure weight, and the pneumatic feed line is equipped with one or several nozzles, and a valve is located at the beginning of the nozzle, while the pneumatic feed line has additional valves placed immediately after the nozzles and at the free end.

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