RU2056094C1 - Method for growing plants in hothouse - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves planting the seedlings into vegetation trays with nutrient solution, cultivation of plants and provision of required growing conditions. According to the invention, the above-root portion of plants in each tray is placed into cylindrical chambers whose internal surface is coated with a light-reflecting material while the required light conditions are provided by optical radiation sources installed on axis of symmetry in each chamber. In the course of growing the plant shoots are directed along the internal surface of chambers and around the optical radiation sources, removing the leaves contacting the latter. EFFECT: cropping power increased by 14-17% due to improved lighting conditions, twofold-threefold reduction of electric power consumption. 1 dwg

Description

 The invention relates to agriculture, in particular to the production of vegetables in greenhouses, greenhouses under artificial radiation.

 A known method of growing plants in a greenhouse, including planting seedlings in vegetation trays with nutrient solution, cultivating plants and creating the required climate and light conditions in the plant location zone.

 The disadvantage of this method is the low efficiency of use of light and low productivity of crops grown.

 The purpose of the invention is the creation of a method of growing plants in a greenhouse, which effectively uses the energy of artificial radiation, which increases productivity.

 The claimed invention solved the problem of more efficient use of artificial radiation energy, i.e. providing the best lighting conditions and absorbing it with a leaf cover and, therefore, increasing yields and reducing energy costs.

 In the method of growing plants in a greenhouse, including planting seedlings in vegetation trays with nutrient solution, cultivating the structures and creating the required climatic and light regimes in the plant location zone, according to the invention, the root part of the plants of each vegetation tray is placed in cylindrical chambers, the inner surfaces of which are coated with reflective layer, and the required light regime is created by means of optical radiation sources, which are set along the axis of symmetry each cylindrical chamber, while in the process of growing the shoots of plants are directed along the inner surface of these chambers and around the sources of optical radiation, and the leaves of the plants in contact with the latter are removed.

 The method is illustrated by the drawing, which shows schematically a cross section of the installation with radiation sources.

 The multi-tiered narrow-rack hydroponic installations 1 installed in the greenhouse are equipped with vegetation trays 4 with nutrient solution mounted on the brackets 2 of the crossbar 3 of the frame, on which pots 5 with plants are installed 6. The plant irradiation system of hydroponic installations 1 consists of extended optical radiation sources 7, for example, fluorescent lamps. The root part of plants 6 of each vegetation tray 4 is placed in cylindrical chambers 8. Optical radiation sources 7 are mounted on the axis of symmetry of each cylindrical chamber and are attached to chambers 8 by means of holders 9. The cylindrical chamber 8 consists of a stationary part 10 and a movable (rotary) part 11 secured by a lock (not shown). The inner surface 12 of the chamber 8 is covered with reflective material. Positions 13 and 14 show the direct and reflected light flux to the radiation lamps 7, respectively.

 The method is as follows.

 Seedlings or plants 6 are planted in pots 5, and then they are installed in the lid of trays 4. Plant stems 6. i.e. the root part is placed in a cylindrical chamber 8, where they are irradiated with direct 13 or reflected light 14 of the lamp 7. The climatic and light conditions of growing plants 6 are provided by opening-closing the rotary part 11 of the cylindrical chamber 8. During the growing process, the shoots of plants 6 are directed along the inner surface of these cameras and around the sources of optical radiation, and leaves in contact with the lamps are removed.

 The application of the proposed method for growing plants in greenhouses with cylindrical chambers with a reflective inner surface, in which optical radiation sources and plants are placed, will increase the yield of crops by about 14-17% by improving the light regime and stimulating growth, as well as reduce energy consumption and installation capacity of irradiation plants by 2-3 times.

Claims (1)

 METHOD FOR GROWING PLANTS IN A GREENHOUSE, including planting seedlings in vegetation trays with a nutrient solution, cultivating plants and creating the required climatic and light regimes in the plant location zone, characterized in that the root part of the plants of each vegetation tray is placed in cylindrical chambers, the inner surfaces of which are covered reflective layer, and the required light regime is created by means of optical radiation sources, which are installed along the axis of symmetry of each qi -cylindrical chamber, wherein during growing plants shoots are directed along the inner surface of the chamber and around the optical radiation sources and the plant leaves, in contact with the latter, are removed.

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