SU1253552A1 - Apparatus for feeding fish and aeration of water in fish-cultural basins - Google Patents

Description

tank with a pipe in the bottom, while the connection with the main pump is made through a flexible hose connected to the tank.

3, a device according to claim 1, characterized in that the invention relates to fish farming, namely, devices for feeding fish and aerating water in fish tanks, and can be used in households engaged in the cultivation of fish on an industrial scale.

The purpose of the invention is to improve the conditions for feeding and keeping fish and ensuring the feeding of fish in accordance with their biological characteristics.

The use of the device makes it possible to increase the efficiency of fish farms, since it increases the level of mechanization and automation of the process of feeding fish, reduces the consumption of artificial food and maintains its quality by introducing food in small portions during the day. In addition, the device improves the feed base of the reservoir by attracting insects to feeding places and contributes to scaring off birds of prey from feeding places.

The drawing shows the proposed device, a General view.

A device for feeding fish and aerating water in fish ponds consists of a bunker 1 for feed, mounted on a pile x 2, and a screw 3 for feeding food enclosed in a housing consisting of two half-fixed (fixed) 4 and mobile 5, the latter of which has two covers - the main 6 (larger) and an additional 7 (smaller). The movable part 4 of the housing is installed in the slide bearing 8 and the roller bearing 9 and is equipped with a 180 ° rotation mechanism, and the screw 3 is electrically driven 10. The device also includes the feed auger mass in the area of the smaller lid installed an inclined visor filling the housing with the cover, and the latter is connected to the filling sensor.

This is a platform 11, mounted on two interconnected floats 12, which are reinforced to move on piles 13, and pumps 14-16, of which two last 15 and 16 are connected by flexible hoses 17 to one of floats 12, and the pump 14 - with a turning mechanism. To limit the movement of the floats 12 along the bottom 13, locking rings 18 are provided. On the platform 11, vertical pipes 19 are fixed, communicated with one end of the cavities of the floats 12, and the other with atmosphere and fitted with rotatable nozzles 20. A light source 21 is placed between the pipes 19 in the zone of action of the nozzles 20. A boom 22 is mounted above the platform 11 on the floats 12, and the feed hopper 1 is equipped with a counter 23 with a counterweight 24 and a stopper 25.

The device is equipped with an automatic control system for its operation, including an illumination sensor 26, a program control unit 27, actuators 28-32 controlling the operation of the source 21 of the light, pump drives 14-16 and the drive 10 of the screw 3, respectively, as well as the sensor 33 for moving the stern. - platform 11, feed presence sensor 34 at the feeding place - platform 11 and feed filling sensor 35 of the auger body 3, while sensors 33-35 can be made in the form of limit switches.

The output of the illuminance sensor 26 is connected to the input of the actuator 28 and to the input of the program control unit 27. The outputs of the latter are connected to the inputs of the actuator 3.

Khanizm 28-32. The sensor 34 for the presence of the filter and the sensor 35 for filling the feed body of the screw 3 is connected to the blocking inputs of the actuator 32, and the sensor 33 for moving the feed space — platform 1i — is connected to the blocking input of the actuator 30.

The mechanism for turning the movable part 5 of the auger housing is advisable to form from the counterweight 36 and the tank 37 having a pipe 38 in the bottom for draining the water, while the tank 37 should be connected to the pump 14 by means of a hose 39. The indicated mechanism ensures the rotation of the movable part 5 by 180 around the horizontal axis. To make it easier to control the addition of the auger housing 3 with food inside it, in the area of the cover 7, an inclined goat 40 is installed, which ensures that the feed contacts the cover 6 when the housing is filled with food, while the cover 7 is connected to the sensor 35.

The operation of the device is as follows.

When the light part of the day arrives, the light sensor 26 is triggered, turning on the actuator 28 and light source 21 connected to it, as well as starting the program control block 27, which operates in start-stop mode and implements the feed loading program on platform 11 through specified time intervals. The number of downloads can be changed by manually switching the mode of operation of the program control unit 27, which controls the operation of the executive mechanisms 28-32 in a given time sequence,

The feed unloading cycle starts with lifting platform 11 by pumping water from floats 12 by pump 15, platform 11 moves up to a position limited by retaining rings 18. When this position is reached, sensor 33 is activated, the actuator 30 is locked and the drive of pump 15 is turned off. If there is no feed on platform 11, then the boom 22 and the sensor 34 remain in place and the actuator 32 is not blocked when receiving a signal from the block 27 of the programmed control

53

j 10 t5 20

25

about Q

five

five

5524

it turns on the actuator 10 of the screw 3 and the latter is filled with feed until the sensor 35 triggers,

After it has been triggered, the operation of the actuator 32 and the drive W is blocked, while the feed is stopped. Then, the pump 14 is turned on, feeding water into the rotation mechanism, and the moving part 5 of the screw body 3 is turned by 180, the cover 6 opens and the feed enters the platform 11. After unloading the food, the moving part 5 of the screw body 3 returns to its original position. Feed can be performed from one to several times by setting the appropriate mode of operation of the block 27,

At the end of the feed loading on the platform 11, an actuating mechanism 31 and a pump drive 16 are activated, which feed water into the floats 12 and thereby lowering the platform 11 to the stop rings 18. During the subsequent feeding of the fish, by means of spray nozzles 20 in the feeding zone, water is created the curtain. At night, the feed is stopped by returning to the initial position of the program control unit 27. The light source 21 is turned on and the water supply continues through the spreading nozzles 20, while the insects attracted by the light fall into the water curtain and fall into the water body, becoming a natural food for fish,

The execution of the rotation mechanism, consisting of Saka 37 with pipe 38 and the counterweight 36, allows using water coming from pump 14 through hose 39 as the working substance. When the drive of pump 14 turns on, the water enters tank 37 and under the action of its weight the movable part 6 rotates 180. Its return stroke is due to the counterweight 36 when the pump 14 drive is off, as in this case water flows out of the tank 37 through the nozzle 38,

The presence of an oblique goat 40 helps to control the filling of the auger body with food, because when filling the feed for this goat 40 goes to the cradle 7 and opens it, and since the cracker 7 is connected to the sensor 35, the latter works and blocks the work of the executive

mechanism. 32, In block 27 of program control, by changing its modes of operation, it is possible to change the feeding time of pbi6, the frequency of feeding and the number of loaded portions in accordance with the biological characteristics of the fish, taking into account the palatability of the feed and, if it remains on platform 11, jca fresh feed is not produced.

The water supply through the spray nozzles 20 ensures that the water is saturated with oxygen, thereby improving conditions in the feeding zone. In addition, the water on the curtain, which is formed when the nozzles are used, scares away the feeding birds of the birds of prey, which also helps to improve the conditions for keeping and feeding the fish.

guv

iThe compiler S. Filippova

Editor S. Lisina Tehred and, Veres Proofreader A. Obruchar

Order 4652/6 Edition 679 Subscription

VNIIPI USSR State Committee

on degam inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, Projecto st., 4

Claims (3)

1. DEVICE FOR FEEDING FISH AND AERATION OF WATER IN FISHING RESERVOIRS, including a feed place, a feed hopper, an auger with a drive for feeding feed to a feed place, a light source, a main pump and a pipe with a spray nozzle, characterized in that in order to improve the feeding and keeping conditions of fish and to ensure that the fish are fed in accordance with their biological characteristics, it is equipped with additional pumps and a pipe with a spray nozzle, as well as an automatic work control system a device consisting of a light sensor, a sensor for the presence of feed at the aft place, a sensor for filling the auger body with feed, a sensor for moving a fodder place, a program control unit and actuators that control the operation of the auger drives, pumps and a light source, the aft place is a platform mounted on two interconnected floats, one of which is connected to additional pumps, pipes with spray nozzles are installed vertically and communicated with the cavity of the floats and atm a sphere, nozzles are strengthened with the possibility of rotation, the screw housing is formed of two parts - rigidly fixed and movable, the last of which is equipped with a 180 ° rotation mechanism around a horizontal axis connected to the main pump and has two covers - large and small for unloading feed, and the light source is located between the vertical pipes in the area of the spray nozzles, while the output of the light sensor is connected to the input of the actuator that controls the operation of the light source, and to the input. of the software control unit messages, the outputs of the latter are connected to the inputs of all actuators, the feed availability sensor at the aft place and the auger housing filling sensor are connected to the blocking inputs of the actuator that controls the operation of the auger drive, and the feed position displacement sensor is connected to the blocking input of the actuator that controls the operation of one drive from the pump connected to the float. 2. The device according to claim 1, characterized in that the rotation mechanism of the movable part of the auger body consists of a counterweight and a tank with a nozzle in the bottom, while the connection with the main pump is made through a flexible hose connected to the tank. ¹ 3. The device according to claim 1, characterized in that an inclined visor is installed in the screw housing in the area of the smaller lid to ensure contact of the feed when the housing is completely filled with the lid, and the latter is connected to the filling sensor.