SU1586621A1 - Apparatus for aeroponic growing of plants - Google Patents

Abstract

This invention relates to agriculture. The purpose of the invention is to increase reliability in operation. The device for aeroponic plant growing contains at least two tanks 1 located at the same level; each suction port of pumps 2 is connected via pipeline 3 to the bottom of tank 1. The discharge pipe of each pump is connected by pipe 4 to an adjacent tank. In the zone of the bottom of the tank 1, the pipeline 5 is interconnected with the control valve 6. After the seedlings are planted, one of the tanks is pumped and the nutrient solution is pumped from the first part to the second. The regulating valve sets the flow rate of the solution, decreasing from the second part of the device to the first under the influence of gravity, taking into account the required time to fill the second part of the device. The flow of fluid from the part in which the pumping takes place must be less than its intake. Topping up of water is carried out at the time of no circulation. 2 Il.

Description

The invention relates to agriculture, and in particular to devices for growing plants in a greenhouse.

The purpose of the invention is to increase the reliability.

Figure 1 shows a device for aeroponic cultivation of plants, General view; figure 2 is the same, a top view (option).

The device for aeroponic plant growth comprises at least two containers 1 / pumps 2 located at the same level, the suction pipe of each of which is connected via a pipe 3 to the bottom of the containers. The discharge pipe of each pump is connected by a pipe 4 to an adjacent tank. Tanks 1 in the bottom zone are interconnected by a pipe 5 with a control valve 6. The pipe 5 is located below the bottom of the tanks 1.

The device operates as follows.

3 m ^{3 of} nutrient solution is poured into the container, which, propagating through all the germinators, forms a layer of liquid 0.05 m high (0.75 m ³ each),

Cucumber seedlings are planted in phase 5 of real leaves (plants are grown in cubes of mineral wool), 2.5 plants per 1 m ³ . Turn on the pump of one of the tanks and pump the nutrient solution from the first part to the second. In this case, the control valve sets the flow rate of the nutrient solution, decreasing from the second part of the device to the first under the influence of gravity, taking into account the necessary time to fill the second part of the device. The flow rate of the decreasing fluid from the part of the device in which the pumping takes place should always be less than its flow. In this way, the flooding time of one part is set to 1.5 hours. With the same pump performance and the installed position of the control valve, this value remains constant.

After pumping the nutrient solution in the second part, turn off the pump of the first part and turn on the pump of the second part at the time of leveling the level of the nutrient solution in the tanks.

The period when none of the pumps is running is determined by the magnitude of the opening of the control valve and is established empirically. The command to turn on the pumps is given using a two-program time relay (not shown). Periodically, water is poured into the system and the nutrient solution is corrected to the initial level. Topping up water is carried out at the time of lack of circulation of the nutrient solution in the system.

Claims (1)

Claim A device for aeroponic plant growing, containing at least two equal containers for plants located on the same level, pipelines for supplying a nutrient solution, pumps, characterized in that, in order to increase reliability, containers in the bottom zone are connected to each other located below their level the bottom of the pipeline with a control valve, and in opposite parts of the bottoms of the tanks mounted nozzles connected to the suction nozzles of the pumps, and the discharge pipe of each pump is connected by pipes wire with respective adjacent container.