RU2768041C1 - Method for growing plants - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture. The method includes planting, care and harvesting. Perforated poles are installed, on which frames with a mesh with a mesh diameter of 1-2 mm are fastened by means of coupling. In the middle of the frame with a grid on the racks, a closed tube with a diameter of 10-15 mm with conical holes for spraying water is installed on one side. An automatic sensor is installed on the grid on the reverse side to supply water or stop the water supply, while the water supply is shut off after the soil is saturated with water. Automatic sensors are installed that regulate humidity, photoperiod, and illumination. The temperature is regulated by an air conditioner with climate control or automatic sensors. A layer of soil 30-40 mm thick is poured onto the grids. Seeds, tubers or fragments of plants in the form of sprouts, buds, leaves are immersed in the soil and automatic sensors are switched on that regulate temperature, humidity, photoperiod, and illumination.

EFFECT: method provides a simplification of year-round cultivation of plants.

1 cl, 1 dwg, 4 ex

Description

The invention relates to the field of agriculture and can be used in growing plants from seeds, plants or their fragments.

The aim of the invention is to simplify and reduce the cost of year-round cultivation of plants.

The purpose of the invention is achieved by installing perforated poles, on which a frame with a mesh with a mesh diameter of 1-2 mm is attached by means of coupling, in the middle of the frame with a mesh on the racks, a closed tube with a diameter of 10-15 mm with conical holes for spraying water is installed on one side , on the back side of the grid, a sensor is installed - an automatic machine for supplying water or stopping the water supply, while the water supply is shut off after the soil is saturated with water, automatic sensors are installed that regulate humidity, photoperiod, illumination, and the temperature is regulated using an air conditioner with climate control or automatic sensors; a layer of soil 30-40 mm thick is poured onto the grids, seeds, tubers or fragments of plants in the form of sprouts, buds, leaves are immersed in the soil, and automatic sensors are switched on that regulate temperature, humidity, photoperiod, and illumination.

The invention is illustrated in the drawing.

The technical result is ensured by the fact that in the greenhouse 1 4 perforated pillars 2 are installed (at a distance of 105 X 205 cm), on which frames 4 (100 x 200 mm) with a mesh 5 with a mesh diameter of 1-2 mm are fastened with a clutch 3. The number of frames with nets depends on the height of the plants. In the middle of each frame with a grid 5 on racks 6, a closed tube with a diameter of 10-15 mm 7 is installed on one side with conical holes for spraying water 8, connected to a tap for supplying water from a water supply system or another source 9 with a hose 10. automatic sensor 11 to stop the water supply when the water wets the soil. The number of similar modules is placed depending on the size of the greenhouse (based on the module + 200 mm between the modules and 500 mm for the passage). Automatic sensors are installed in the greenhouse: temperature controllers 12, humidity 13, photoperiod 14, illumination 15. A tube 7 with conical holes for spraying water 8 is installed above the ridge of the roof of the greenhouse, which is connected with a hose 10 to a tap for supplying water from a water supply system or another source 9 , automatic temperature control sensor 16, which turns on the water when the glass temperature exceeds 28°C and stops the water supply when the glass temperature of the greenhouse 17 reaches 28°C. or regulate the temperature with an 18 climate-controlled air conditioner, plant, care for and harvest.

The installation works as follows. A layer of soil 30-40 mm thick is poured onto the grids 5. Seeds, tubers or fragments of plants 19 are immersed in the soil and automatic sensors are switched on that regulate temperature 12, humidity 13 and photoperiod 14, illumination 15 and a tap for supplying water 9 or a container for supplying solutions 20 through which Knopp medium can be introduced, foliar top dressing, plant growth regulators, pesticides. After the soil is saturated with water, the water supply valve 9 is closed using the automatic sensor 11 to stop the water. After the water is used up by the plants, with the help of the sensor - the machine 11 turns on the water on the tap 9 after saturating the soil with moisture, it turns off again. To illuminate the greenhouse and adjust the photoperiod, they turn on automatic sensors for regulating illumination 15 and photoperiod 14. On hot days, turn on the tap for supplying water 9 and after bringing the temperature of the glass of the greenhouse 17 to 28 ° C, turn off the water supply or other source using the automatic temperature control sensor 16 and further maintain the glass of the greenhouse 17 at a temperature of +28°C with the help of a sensor - automatic temperature control 16.

Example 1. Potato - biological seeds, tubers or fragments of potato plants (sprouts, buds, leaves) are planted in a layer of soil above the grid. Further grown as usual.

Example 2. Jerusalem artichoke - biological seeds, tubers or fragments of Jerusalem artichoke plants (sprouts, buds, leaves) are planted in a layer of soil above the grid. Further grown as usual.

Example 3. Strawberries - plants or plant fragments of strawberries (whiskers) are planted in a layer of soil above the grid. Further grown as usual.

Example 4. Radishes - radish seeds are sown as usual in a layer of soil above the net and harvested. Harvesting.

The proposed method has the advantage that the plants are aerated from both sides, and in the case of growing potato or Jerusalem artichoke tubers, the stolons pass through the mesh and enter the air space under the mesh, where they can be easily collected. Other plants can be grown to a height of 15-20 cm, after which they can be transplanted into open or protected ground, and strawberries, strawberries or other small-sized crops until harvest. Saves space. Small modules can be placed in rooms where many crops can be obtained.

Claims (1)

A method of growing plants in greenhouses, on nets in a layer of soil, including planting, care and harvesting, characterized in that perforated poles are installed, on which frames with a grid with a mesh diameter of 1-2 mm are attached by means of adhesion, in the middle of the frame with a grid on on the racks, a closed tube with a diameter of 10-15 mm with conical holes for spraying water is installed on one side, an automatic sensor is installed on the back side of the grid to supply water or stop the water supply, while the water supply is shut off after the soil is saturated with water, automatic sensors are installed , regulating humidity, photoperiod, illumination, and the temperature is regulated using an air conditioner with climate control or automatic sensors; a layer of soil 30-40 mm thick is poured onto the grids, seeds, tubers or fragments of plants in the form of sprouts, buds, leaves are immersed in the soil, and automatic sensors are switched on that regulate temperature, humidity, photoperiod, and illumination.

Images