RU2685127C1 - Hydroponic installation - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the field of agriculture, in particular to hydroponic cultivation of plants. Installation contains control unit (1), cultural solution level sensor (2), ozonizer (3) with an air duct and a heat supply installation communicated with cultivation vessel (4), pump (5), discharge (6) and supply (7) pipes. Installation also has tanks for preparing nutrient solution (8) and for monitoring its condition (9), tank (10) for reserve nutrient solution and electroactivator (14). Heat supply installation of the nutrient solution is made in the form of a pair of Peltier elements for heating (11) and cooling (12), which are equipped with radiators (13). Peltier elements (11 and 12) are installed under tank (8), which has valves (17) for communication with electroactivator (14) and cultivation vessel (4) and pump (5) for communication with electroactivator (14) and tank (9). Vessel (4) is set at an angle of 4–9° to the horizon in a vertical plane. Tank (9) has additional pump (16) connected to cultivation vessel (4), temperature sensor (18), pH sensor (19), nutrient solution level sensor (2), pipeline (7). Pipeline (7) is connected to ozonizer (3) and to tank (10), equipped with emergency pump (15). Control unit (1) is electrically connected to Peltier elements (11) and (12), valve (17) supplying the nutrient solution to tank (8) from cultivation vessel (4), valve (17) supplying the nutrient solution to electroactivator (14), level sensors of nutrient solution (2), temperature (18) and pH (19), pumps and ozonizer (3).EFFECT: increase in the efficiency of growing plants by the hydroponic method.1 cl, 2 dwg

Description

The invention relates to the field of agriculture, in particular to hydroponic cultivation of plants.

Known hydroponic installation containing the control unit, a cultivation vessel in which the plant holders and the sensor level hydroponic solution, communicated by pipeline with the control unit (RF patent №2048072, class A01G 31/02, 1995).

The disadvantages of this device are its low productivity.

The closest in technical essence is a hydroponic installation containing a control unit, a level sensor of a hydroponic solution, an ozonizer with an air duct and a heat supply installation communicated with a cultivation vessel, a pump with discharge and supply pipelines (RF patent №2629277, A01G 31/02, 2017, prototype) .

The disadvantage of this device is the lack of simultaneous monitoring and regulation of pH and temperature of the nutrient solution in the installation.

The technical result is to increase the efficiency of growing plants by hydroponic method.

This technical result is achieved in that a hydroponic installation comprising a control unit, a nutrient solution level sensor, an ozonizer with an air duct and a heat supply installation communicated with a cultivation vessel, a pump discharging and supplying pipes according to the invention has tanks for preparing the nutrient solution and for monitoring it states, tank for reserve nutrient solution and electroactivator, installation of heat supply for nutrient solution is made as a pair of Peltier elements for charging Eva and cooling, which are equipped with radiators, while the Peltier elements are installed under the tank for the preparation of the nutrient solution, which has valves for communication with the electroactivator and the cultivation vessel, installed at an angle of 4-9 ° to the horizon in a vertical plane and a pump for communication with the electroactivator and tank for monitoring the status of the nutrient solution, which has an additional pump, communicated with the cultivation vessel, temperature sensor, pH sensor, nutrient solution level sensor, piping d, connected to the ozonizer and to the tank for the reserve nutrient solution, equipped with an emergency pump, the control unit being electrically connected to the Peltier elements, the nutrient solution supply valve into the container for preparing the nutrient solution from the cultivation vessel, the nutrient solution supply valve to the electroactivator, nutrient level sensors solution, temperature and pH, pumps and ozonizer.

The set of features contained in the independent claim is not known from the prior art, which indicates the compliance of the claimed technical solution to the patentability criterion of "novelty."

According to the data of the scientific, technical and patent literature, a set of features has not been found that allows solving a problem that previously could not be solved by known technical solutions. In the prior art there are no solutions that have signs that match the distinctive features of the proposed technical solution, which indicates the compliance of the technical solution to the patentability criterion of "inventive step".

The compliance of the proposed solution to the patentability criteria "industrial applicability" is due to the fact that the proposed technical solution is operational and its use for hydroponic plant cultivation is possible.

The invention is illustrated in the drawing, where in FIG. 1 shows a general view of a hydroponic installation and FIG. 2 shows a block diagram of the relationship of the control unit with the elements of the hydroponic installation.

Hydroponic installation, has a control unit 1, a nutrient solution level sensor 2, an ozonizer 3 with an air duct, a heat supply installation communicated with a cultivation vessel 4, a pump 5 with a discharge 6 and a supply 7 pipe, a tank 8 and 9 for preparing a nutrient solution and for monitoring the state nutrient solution, respectively, tank 10 for reserve nutrient solution. The heat supply installation is made in the form of a pair of Peltier elements for heating 11 and cooling 12 equipped with radiators 13. The installation also has an electric activator 14, an emergency pump 15, an additional pump 16. Peltier elements 11, 12 are installed under capacity 8 to prepare a nutrient solution, which has valves 17 for communication with the electroactivator 14 and cultivation vessel 4 installed at an angle of 4-9 ° to the horizon in a vertical plane. The tank 10 for the reserve nutrient solution has an emergency pump 15 for communication with the tank 9 to monitor the condition of the nutrient solution, in which an additional pump 16 is installed communicated with the cultivation vessel 4, temperature sensor 18, pH sensor 19, nutrient solution level sensor 2, pipeline 7, connected to the ozonizer 3. The control unit 1 is electrically connected to the Peltier elements 11, 12, the valve 17 for supplying water to the tank 8 for preparing the nutrient solution from the cultivation vessel 4, the valve 17 for feeding the nutrient solution pa in elektroaktivator 14, the nutrient solution level sensors 2, temperature 18 and pH 19, an additional pump 16, an emergency pump 15, the pump 5 and 3 ozonator.

Hydroponic installation works as follows: from the backup tank 10 enters the nutrient solution into the tank 9 to monitor the nutrient solution through an emergency pump 15, where the pH of the nutrient solution is measured by sensor 19 and its temperature by sensor 18. The nutrient solution in the tank 9 to monitor the condition of the nutrient solution Ozone by ozonizer 3 through supply pipe 7. An additional pump 16 feeds the nutrient solution into a cultivation vessel inclined at an angle of 4-9 ° to the horizon in a vertical plane 4 from which it flows by gravity through the discharge pipe 6, depending on the readings of the pH sensor 19 and the temperature sensor 18 using valves 17 to the electroactivator 14 or into the tank 8 for the preparation of the nutrient solution. In the tank 8 for the preparation of the nutrient solution, the nutrient solution is cooled or heated by the corresponding Peltier elements 11, 12, depending on the temperature sensor 18 readings. side 12 to the right side. Radiators 13 divert heat or cold during the operation of the Peltier elements. After that, the nutrient solution is fed into the tank 9 to monitor the condition of the nutrient solution by the pump 5. The level of the nutrient solution in the tank 9 to monitor the condition of the nutrient solution and the cultivation vessel 4 is monitored by level 2 sensors of the nutrient solution. If the level of the nutrient solution becomes less than the set value, then the required amount of the nutrient solution is supplied from the reserve tank 10 using the emergency pump 15. All processes are controlled by the control unit 1, electrically connected to pH 19 sensors, temperature sensor 18, ozonizer 3, valves 17, nutrient solution level sensors 2, additional pump 16, emergency pump 15, pump 5, Peltier elements 11, 12

Claims (1)

Hydroponic installation containing a control unit, a nutrient solution level sensor, an ozonizer with an air duct and a heat supply installation communicated with a cultivation vessel, a pump, a discharge and supply pipelines, characterized in that it has tanks for preparing a nutrient solution and for monitoring its condition, a reserve tank nutrient solution and electroactivator, installation of heat supply nutrient solution made in the form of a pair of Peltier elements for heating and cooling, which are equipped with radiators, with e ohm Peltier elements are installed under the tank for the preparation of nutrient solution, which has valves for communication with the electroactivator and cultivation vessel installed at an angle of 4-9 ° to the horizon in a vertical plane, and a pump for communication with the electroactivator and capacity for monitoring the state of the nutrient solution, which has an additional pump connected to a cultivation vessel, a temperature sensor, a pH sensor, a nutrient solution level sensor, a pipeline connected to the ozonizer and to the reserve tank tatelnogo solution provided with emergency pump, wherein the control unit is electrically connected to Peltier elements, valve supplying the nutrient solution into the container for preparation of a nutrient solution from the culture containers, the valve supplying the nutrient solution elektroaktivator, level sensors nutrient solution, temperature, pH, pumps and ozonator.

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