RU2084126C1 - Hothouse - Google Patents

Abstract

FIELD: agriculture; plant growing in protected ground. SUBSTANCE: the hothouse has frames with cross-bars 4, air supply system and illumination facilities. Supported by cross-bars 4 are trays 5 designed for growing plants. Hollow frame cross-bars 4 are connected to each other to form a common air duct and are adopted to be coupled with a compressed air source. Cross-bars 4 are provided with holes 8, through which they are associated with tubes 12 fixed on the frames and intended for plants 7. The inner surfaces of the tubes are covered with light-reflecting material. Trays 5 designed for growing plants 7 are located under tubes 12. Plants are exposed to direct and reflected light fluxes 19 and 20, respectively, emitted by light source 13. Carbon dioxide, warm or humid air or their mixture is fed from the compressed air source along a pipeline and a manifold through holes 8 in hollow cross-bars 4 into tubes 12 to plants 7. EFFECT: improved feed of air and carbon dioxide to plants. 5 cl, 4 dwg

Description

 The invention relates to agriculture, in particular, to the construction of greenhouses, greenhouses for growing vegetables.

Known greenhouse for growing plants in hydroponic systems with tiered artificial lighting, which frame comprises crossbars on which trays for growing plants (Draft greenhouses pl. 1190 m ² with a multi-tiered narrowshelving hydroponic technology at the farm "Shuttle" in Syktyvkar ", r .Orel, Giproniselprom ", 1989).

 The disadvantage of this greenhouse is the unevenness of the air regime in the plant zone, and the low productivity of the crops grown.

 The task was to create a greenhouse, in which the quality of the air and gas regime in the plant zone is increased, which will affect the yield.

 The claimed invention has solved the problem of improving the quality of the regime in plant rock, which will increase pollination of plants, improve temperature, humidity and light conditions, stimulate plant growth, and, therefore, increase productivity.

 In a greenhouse containing frames, including crossbars with trays for growing plants, an air supply and lighting system according to the invention, there are hollow frame crossbars interconnected to form common air, configured to be connected to a source of compressed air, said crossbars contain holes through which they are connected to the plant pipes fixed on the frames, coated with reflective material from the inside, and the trays for growing plants are located under the indicated pipes.

 It is preferable to perform hollow racks L-shaped and their location at least at the ends of each frame of the installation.

 In a preferred embodiment, the racks of each frame are located in the same plane and are arranged to be perpendicular to the horizontal plane and the pipes for plants are installed on both sides of the racks of the frame.

 The claimed invention allows to achieve the following technical result.

 The implementation of the crossbars of hydroponic installations hollow with holes in the plant zone and connecting them to a source of compressed air will allow them to supply carbon dioxide, warm air, moisture to the crown of plants, which improves the temperature-humidity regime, feeding plants with carbon dioxide, stimulates plant growth, and hence increases productivity.

 Equipping the greenhouse with pipes for plants, coated with reflective material inside, installed above the trays for growing plants and connected with holes on hollow crossbars, improves the irradiation of plants, increases its uniformity, and reduces the energy consumption for irradiation.

 The inventive greenhouse containing frames, including crossbars with trays for growing plants mounted on them, an air supply and lighting system, differs from the known one, taken as a prototype, in that it comprises hollow frame crossbars interconnected to form a common air duct, configured to be connected to a source of compressed air, wherein said crossbars contain holes through which they are connected to plant pipes fixed to the frames and coated from the inside with reflective material m, and trays for growing plants are located under the specified pipes.

 A comparable analysis of the proposed solution with the known allows us to conclude that the proposed technical solution meets the criteria of the invention of "novelty."

 From the patent and scientific and technical literature for the specialist, a greenhouse is not known in which the crossbars of the frames of hydroponic installations are hollow with a connection to a compressed air source having openings connected to plant pipes installed above the trays, which are internally coated with reflective material, which allows achieving the above Effect.

 Thus, the claimed solution satisfies the requirement of the invention "Inventive step".

The claimed technical solution can be used in agriculture, it allows to improve the temperature, humidity and light conditions in the crown of plants, which stimulates the growth of plants and, therefore, increase the yield by 9 12%
Thus, the proposed solution meets the criteria of the invention of "industrial applicability".

 The greenhouse is illustrated in the drawing, where in FIG. 1 shows a diagram of a greenhouse; in FIG. 2 a cross-section of crossbars according to AA of FIG. 1, in FIG. 3 fragment of a hydroponic plant with installed trays for growing plants; in FIG. 4 - an embodiment of hollow crossbars in one plane.

 The greenhouse contains a roofing fence 1, water treatment trays 2, louvered retroreflective heat shield 3, crossbars 4 of a hydroponic installation frame, trays 5 for growing plants 7, in which pots 6 with plants are installed 7. Hollow crossbars 4 have openings 8. For supplying air, carbon dioxide the gas or mixture is a pipeline 9, a collector 10 and a compressor 11. Pipes 12 for plants 7 are mounted on the frames, containing the extended light source 13 placed therein, the lamp holder 14, the stationary part 15 of the pipe 12, the rotary part 16 of the pipe, ytie 17 of reflective material lock 18, tube 12, direct the luminous flux 19 reflected luminous flux 20, the openings 8 in cross-bars 4 (Fig. 3).

 Hollow crossbars 4 can only be at the ends of the frameworks of hydroponic units and air will move through the pipes 12. There are two possible shapes of hollow crossbars: L-shaped and one plane with the possibility of installing a perpendicular horizontal plane with pipes for plants on both sides of the frame racks ( Fig. 4).

 The greenhouse works as follows. Plants 7 are planted in pots 6, mounted on brackets of hollow crossbars 4 and covered with pipes 12, which, if necessary, can be used to close pipe 12 or open it by adjusting the temperature and humidity conditions in it, if necessary.

 Plants are irradiated with an extended light source 13, for example, a fluorescent lamp: a direct 19 t reflected 20 light stream.

 In the pipe 12 to the plants 7 through the holes 8 in the hollow crossbars from the source of compressed air 11 through the pipe 9 through the manifold 10, carbon dioxide, warm or moist air, or a mixture thereof, is supplied.

 The use of the proposed greenhouse with hollow crossbars connected with pipes for growing plants, with radiation sources placed inside them and an internal reflective surface will increase the yield of crops by 9-12% by improving the temperature, humidity and light conditions in the crown of plants, and reduce energy consumption .

Claims (5)

 1. A greenhouse containing frames, including crossbars with trays for growing plants mounted on them, an air supply system and lighting, characterized in that it comprises hollow frame crossbars interconnected to form a common air duct, configured to be connected to a compressed air source, moreover, these crossbars contain holes by means of which they are connected with pipes for plants fixed on the frames covered inside with reflective material, and the trays for growing plants are located wife under the said pipes.  2. The greenhouse according to claim 1, characterized in that the hollow crossbars are located at least at the ends of each frame.  3. The greenhouse according to claim 2, characterized in that the hollow racks are made L-shaped.  4. The greenhouse according to claim 2, characterized in that the racks of each frame are located in the same plane and are configured to be perpendicular to the horizontal plane.  5. The greenhouse according to claim 4, characterized in that the pipes for plants are installed on both sides of the racks of the frame.

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