RU2062023C1 - Method and apparatus for growing plants in hothouse - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves planting seedlings in rows in vegetation pots; binding seedlings to trellis; cultivating and creating required light and climatic conditions, with light conditions being provided by optical radiation sources positioned between adjacent rows of seedlings at the level of seedling middle part; pivotally connecting lower ends of trellis; rigidly connecting upper ends of even and odd rows of vegetation pots with even and odd groups of tie-rods and moving them in opposite phase one with respect to the other. Apparatus has cultivation system with vegetation pots and trellis for vertical positioning of seedlings planted in vegetation pots positioned in rows, and light and climatic condition system. Light sources are positioned in seedling row spacings at the level of middle part of seedlings. Lower ends of trellis are pivotally connected in vegetation pots and upper ends are rigidly connected through cropping wire with tie-rods which are moved in vertical plane by drives. Method and apparatus allows yield to be increased by 4-7%. EFFECT: increased efficiency by uniform illumination of seedlings. 3 cl, 4 dwg

Description

 The invention relates to agriculture, in particular to the production of vegetables in cultivation facilities with artificial illumination.

 A known method of growing plants in a greenhouse, including planting seedlings of plants in rows in vegetation vessels, tying them to trellises, cultivating plants and creating the required climate and light conditions in the greenhouse. ("Jeniponix is an excellent system for the year-round cultivation of beautiful plants. Project of Control Data Corporation, 1990).

 A device is known for growing plants in a greenhouse, comprising a cultivation system including vegetation vessels arranged in rows, and trellis for vertical arrangement of plants planted in rows in vegetation vessels, systems for creating the required climate and light conditions, the latter of which includes optical radiation sources installed in rows (Model project 810-1-13.87 "Block of greenhouses with an area of 6 hectares", 1987).

 A disadvantage of the known method and device for growing plants in a greenhouse is that the plants are irregularly irradiated, because the intensity of illumination with distance from the vertical axis of the lamp decreases in a quadratic dependence. The unevenness of lighting reduces the yield of crops.

 The task was to create a method of growing plants in a greenhouse and a device for its implementation, which achieves uniformity of exposure, increases productivity.

 The claimed solutions have solved the problem of increasing the uniformity of plant irradiation and productivity.

 In a method of growing plants in a greenhouse, including planting seedlings of plants in rows in vegetation vessels, tying them to trellises, cultivating plants and creating the required climatic and light conditions in the greenhouse, according to the invention, the required light mode is created by optical radiation sources that are placed at the middle part plants in the spaces between adjacent rows in each vegetation vessel, connect the lower ends of all lanes articulated relative to the corresponding vegetation vessels, and the upper ends of the trellises of plants of even and odd rows of all vegetation vessels rigidly respectively with even and odd group rods and move the latter in antiphase to each other in a vertical plane perpendicular to the plane of installation of optical radiation sources.

 In a device for growing plants in a greenhouse containing a cultivation system including vegetation vessels arranged in rows and trellis for vertical arrangement of plants planted in rows in vegetation vessels, systems for creating the required climate and light conditions, the latter of which includes optical radiation sources installed in rows , according to the invention, the sources of optical radiation are made in the form of radiation sources located in the gaps between adjacent rows of plants each the vegetation vessel at the level of the middle part of the plants, while the lower ends of all the mentioned trellises are pivotally mounted relative to the corresponding vegetation vessels, and the upper ends of the trellises for the vertical arrangement of plants of even and odd rows of all vegetation vessels are rigidly interconnected by means of even and odd group rods provided drive their movement in a vertical plane perpendicular to the plane of installation of optical radiation sources.

 In FIG. 1 shows a plan of a greenhouse, FIG. 2 is a diagram of a device for oscillating trellises; FIG. 3 is a section AA of FIG. 1 (in a perspective view), in FIG. 4 - section BB of Fig. 1.

 The method of growing plants is carried out in a greenhouse 1 containing a translucent fence 2, located on the base of the greenhouse beds 3 with two rows of vegetation vessels 4 with plants 5 each, track 6 and trellis 7 for the vertical arrangement of plants 5, planted in vegetation vessels 4. The greenhouse is equipped with systems creating and maintaining the necessary temperature and light conditions. The light mode is provided by optical radiation sources with lamps 8 placed in the spaces between adjacent rows of plants 5 of each vegetation vessel 4 at the level of the middle part of plants 5. The lower ends of all trellises 7 are hinged relative to the corresponding vegetation vessels 4. The upper ends of the trellises 7 are even and odd rows of all vegetation vessels 4 are rigidly interconnected in a row by a trellis wire 9, which in turn is connected to even and odd rods 10, 11. Each pair of group rods 10, 11 is equipped with a drive om 12. The actuator 12 serves to vibrational motion, i.e., displacements in a vertical plane perpendicular to the plane of installation of the optical radiation sources 8. The drive 12 for vibrating the rods 10, 11 with plants 5 comprises a two-crank shaft 13 installed in the bearings 14, and an electric motor 15.

 A method of growing plants in a greenhouse is as follows.

 The method includes planting seedlings of plants in 5 rows in vegetation vessels 4, garter them to trellises 7, then cultivating plants 5 and creating the required modes. Plants 5 are irradiated with optical radiation sources 8 located at the level of the middle part of plants between adjacent rows of plants, and the upper ends of the even and odd rows of trellises, attached through trellis wire 9 to the group rods 10, 11, are moved in antiphase between each other in a vertical plane perpendicular to the plane of the radiation lamps, while ensuring their optimal position with respect to the light source 8. When operating personnel in the greenhouse, trellises 7 with plants 5 are separated from each other ha, freeing the working aisle.

 The application of the proposed method of growing plants in a greenhouse and a device for its implementation with oscillatory movement of trellises with plants will increase productivity by 4-7% due to the uniformity of their irradiation. YYY2

Claims (2)

 1. A method of growing plants in a greenhouse, including planting seedlings of plants in rows in vegetation vessels, tying them to trellises, cultivating plants and creating the required climate and light conditions in the greenhouse, characterized in that the required light mode is created using optical radiation sources that place at the level of the middle part of plants in the intervals between adjacent rows of plants in each vegetation vessel, the lower ends of all the trellises are pivotally connected to the corresponding vegetation udov, and the upper ends of the trellises of plants of even and odd rows of all vegetation vessels rigidly respectively with even and odd group rods and move the latter in antiphase to each other in a vertical plane perpendicular to the plane of installation of optical radiation sources.  2. A device for growing plants in a greenhouse containing a cultivation system, including vegetation vessels arranged in rows, and trellis for vertical arrangement of plants planted in rows in vegetation vessels, a system for creating the required climate and light conditions, the latter of which includes optical radiation sources installed rows, characterized in that the optical radiation sources are made in the form of radiation sources for location in the gaps between adjacent rows of plants each of the vegetation vessel at the level of the middle part of the plants, while the lower ends of all the mentioned trellises are pivotally mounted relative to the corresponding vegetation vessels, and the upper ends of the trellises for the vertical arrangement of plants of even and odd rows of all vegetation vessels are rigidly interconnected using respectively even and odd group rods equipped with a drive for their movement in a vertical plane perpendicular to the plane of installation of optical radiation sources.

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