RU2681450C1 - Method of hydroponic lettuce cultivation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular, to a method for growing plants in a nutrient solution. Lettuce is grown in greenhouses with supply of a nutrient solution under the roots. Nutrient solution is at the same time electrically activated, bubbled and its temperature is controlled. Nutrient solution is bubbled with ozone with the concentration of 1–2 mg/m³, its pH is adjusted in the range of 2.8 to 6.1 and the temperature of the nutrient solution in it is maintained from 18 to 20 °C.

EFFECT: more succulent plants without bitterness are provided.

1 cl, 2 dwg

Description

The invention relates to agriculture, in particular to a method for growing plants in a nutrient solution.

A known method of growing hydroponically, when the plants are placed in the vegetation tray. Serve a nutrient solution. Subsequent discharge of the nutrient solution is carried out. Maintain the root system of plants in the air for a certain time. Repeat the cycle. SUBSTANCE: device for hydroponic non-impartial growing of plants contains a vegetation tray and containers with plants. Capacities are placed between two channels of a vegetative tray. A coating of moisture-retaining material is laid inside the tray. In each of the channels, a part of the root system of each plant divided into two parts is placed (patent 2635396, A01G 31/00 (2006.01)).

The disadvantage of this method is that in this method of growing hydroponically there is no control unit, as well as the ability to control the parameters of the nutrient solution.

Closest to the proposed method is a method that involves growing plants in greenhouses on substrates with a nutrient solution under the roots of the plants, feeding them carbon dioxide and backlighting. At the same time, the plants are hermetically covered with a transparent film according to structures that are adjustable in height as the plants grow. Carbon dioxide is fed under the film automatically using a programmer, while the nutrient solution is fed into the substrate by the signal of a humidity sensor (patent 2281647 A01G 31/00, 2006).

The disadvantages of this method is the inability to control the parameters of the nutrient solution at the same time.

The technical result is to obtain a synergistic effect due to the simultaneous use of various types of physical effects.

The technical result is achieved by the fact that in the method of hydroponic growing lettuce plants, including growing lettuce in greenhouses with the supply of a nutrient solution under the roots, according to the invention, the nutrient solution is simultaneously electroactivated, sparged and its temperature is controlled, while the nutrient solution is bubbled with ozone with a concentration of 1-2 mg / m ³ , regulate its pH in the range from 2.8 to 6.1 and maintain the temperature of the nutrient solution from 18 to 20 ° C.

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

According to the scientific, technical and patent literature, no combination of features has been found that allows us to solve a problem that could not be previously solved by known technical solutions. In the prior art there are no solutions having features that match the distinguishing features of the proposed technical solution, which indicates that the technical solution meets the patentability criterion of "inventive step".

The compliance of the proposed solution to the patentability criterion of "industrial applicability" is due to the fact that the proposed technical solution is efficient and it can be used for hydroponic plant cultivation.

The use of an electroactivator is due to the fact that it allows you to adjust the level of the hydrogen index relative to the initial quality of the nutrient solution and obtain a working solution with the necessary parameters. The ozonation of the nutrient solution with ozone enriches the nutrient solution with oxygen, which contributes to the respiration of plant roots, the activity of microorganisms and seed germination. Regulation of the temperature of the nutrient solution using Peltier elements allows you to get more succulent plants without bitterness.

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

The hydroponic method of growing lettuce plants is implemented using a hydroponic plant having a control unit 1, a nutrient solution level sensor 2, an ozonizer 3 with an air duct, a heat supply unit in communication with a cultivation vessel 4, a pump 5 with a discharge 6 and a supply pipe 7, tanks 8 and 9 to prepare a nutrient solution and to monitor the condition of the nutrient solution, respectively, a tank 10 for a backup 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. The Peltier elements 11, 12 are installed under a tank 8 for preparing a nutrient solution, which has valves 17 for communication with the electroactivator 14 and the cultivation vessel 4 installed at an angle of 4-9 ° to the horizontal in the vertical plane. The tank 10 for the backup nutrient solution has an emergency pump 15 for communication with a tank 9 for monitoring the state of the nutrient solution, in which an additional pump 16 is connected with the cultivation vessel 4, a temperature sensor 18, a pH sensor 19, a level sensor for the nutrient solution 2, pipeline 7, connected to the ozonizer 3. The control unit 1 is electrically connected to the Peltier elements 11, 12, a valve 17 for supplying water to a container 8 for preparing a nutrient solution from a cultivation vessel 4, a valve 17 for feeding a 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.

The hydroponic installation works as follows: from the reserve tank 10, the nutrient solution enters the tank 9 to control the nutrient solution through the emergency pump 15, where the pH of the nutrient solution is measured by the sensor 19 and its temperature by the sensor 18. The nutrient solution in the tank 9 is used to control the state of the nutrient solution ozone by an ozonator 3 through a supply line 7. An additional pump 16 feeds the nutrient solution into a cultivation vessel inclined at an angle of 4-9 ° to the horizontal horizon 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 into the electroactivator 14 or into the container 8 for preparing the nutrient solution. In the tank 8 for preparing the nutrient solution, the nutrient solution is cooled or heated with the corresponding Peltier elements 11, 12, depending on the readings of the temperature sensor 18. One of the Peltier elements is installed with the hot side 11 to the left side of the body of the tank 8 for the preparation of the nutrient solution, and the other cold side 12 to the right side. Radiators 13 remove heat or cold during the operation of Peltier elements. After that, the nutrient solution is supplied to the tank 9 to monitor the condition of the nutrient solution with the pump 5. Monitoring the level of the nutrient solution in the tank 9 to monitor the status of the nutrient solution and the cultivation vessel 4 are carried out by sensors of the level 2 of the nutrient solution. If the level of the nutrient solution becomes less than the set, then from the backup tank 10, using the emergency pump 15, the required amount of the nutrient solution is supplied. All processes are controlled by a control unit 1, electrically connected to pH 19 level 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.

In the operating mode, the nutrient solution is circulated using the emergency pump 15, which feeds it from the tank 10 for the backup nutrient solution, in which temperature and pH sensors are installed, into the cultivation vessel with plants from which the nutrient solution flows by gravity into the container for preparing the nutrient solution with Peltier elements, from where it is returned back to the tank to monitor the state of the nutrient solution. In the tank for monitoring the state of the nutrient solution, the temperature is controlled in the range from 18 to 20 ° C, the pH level is in the range from 2.8 to 6.1, and the solution is also sparged with ozone with a concentration of 1-2 mg / m ³ .

In cases of excess ozone concentration, plant roots can be damaged, and low concentrations will lead to insufficient enrichment of the hydroponic solution with oxygen and poor-quality disinfection. Temperature control is carried out using Peltier elements. The pH of the nutrient solution is adjusted using the electroactivator of the nutrient solution. If it is necessary to adjust the pH, the nutrient solution with the help of valves from the cultivation vessel enters the electroactivator, and then again again into the container for preparing the nutrient solution. Controlling the pH allows you to create favorable conditions for the growth of plants due to the fact that with the specified range the maximum amount of nutrients is available to plants. Temperature control also allows you to create favorable conditions for growth.

An example of a specific implementation of the method of hydroponic cultivation of lettuce plants.

The studies were conducted when growing seedlings of Novogorodniy salad. For growing lettuce, 5 hydroponic plants were used with the same number of seedlings - 50 seedlings, one of them was a control - a standard nutrient solution was used, the rest were experimental. The experiments were carried out in four replicates. The time of growing lettuce was 30 days, including seedlings - 7 days. Seedlings were grown in compliance with the required microclimate parameters: air temperature 20 ± 0.5 ° C, relative humidity 70%. The biomass of lettuce leaves was recorded on the day of removal from the main vegetative surface .. The obtained biomass was weighed on a balance of type VLKT-500 g-m.

Table 1 shows the dependence of the biomass yield of lettuce plants on the method of cultivation in relation to the control taken as 100%.

The table shows that the maximum effect is obtained with the simultaneous use of electroactivation, temperature control and ozone sparging. The biomass yield is 7-10% more than with separate use of these methods of growing lettuce.

The inventive method is environmentally friendly, efficient, does not require a lot of complexity, as well as the introduction of chemicals to regulate the pH of the nutrient solution.

Claims (1)

The method of hydroponic growing lettuce, including growing lettuce in greenhouses with the supply of a nutrient solution under the roots, characterized in that the nutrient solution is simultaneously electroactivated, sparged and the temperature is controlled, while the nutrient solution is bubbled with ozone with a concentration of 1-2 mg / m ³ , its pH is regulated in the range from 2.8 to 6.1 and maintain the temperature of the nutrient solution from 18 to 20 ° C.

Images