RU2062029C1 - Hothouse - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: hothouse has base, side fence, roof with ridge, inclined cross bars and water collecting troughs, cultivation system with vertical carcasses, where plant growing chutes are fixed. Cultivation system is further provided with agricultural tools moving mechanism with mobile platforms and light mode control system, light reflective louver-type screen and irradiation sources. Plant growing chutes are fixed outside carcasses and irradiation sources are fixed within chutes. Ratio of energy flux within spectral range of 600-700 nm and total energy flux is increasing by 30-40% to 60-80% as height level of sources relative to base is decreasing. Moving mechanism has guides and platforms may be displaced in both vertical and horizontal planes. EFFECT: increased yield and improved operation and maintenance of hothouse. 2 cl, 3 dwg

Description

 The invention relates to agriculture, in particular to the construction of protected ground, greenhouses with artificial radiation.

 A known greenhouse containing a base, side railing, a roof including inclined crossbars connected in pairs with the formation of skates and lower joints, drainage trays are installed under the zones of the lower joints, a cultivation system including rectangular vertical frames, on the side racks of which tiers for growing are fixed in tiers plants, a mechanism for moving means of performing agricultural operations, including movable platforms, and a system for regulating light conditions, including light azhayuschy louver screen is positioned between the roof and the top of these skeletons, and sources of optical radiation (Industrial production greenhouses Vorochilovgrad:. Voroshilovgrad true, 1984).

A disadvantage of the known greenhouse is the low productivity of crops due to the low pick-up of products from 1 m ^{2 of} the greenhouse area and the inconvenience of its maintenance.

 The task was set to create a greenhouse, in which productivity and ease of maintenance during operation will increase.

The claimed solution has solved the problem of increasing productivity by increasing the removal of products from 1 m ^{2 the} area of the greenhouse and improving the convenience of its operation.

 In a greenhouse containing a base, a side railing, a roof, including inclined crossbars pairwise connected with the formation of skates and lower joints, between which drainage trays are installed above the zones of the lower joints, a cultivation system that includes rectangular vertical frames, on which lateral racks are mounted tiers for growing plants, a mechanism for moving means of performing agricultural operations, including movable platforms, and a system for regulating light conditions, including reflective a louvre screen placed between the roof and the top of said frames and optical radiation sources, according to the invention, plant growing trays are fixed on the outside of the side posts of vertical rectangular frames, and optical radiation sources are located inside the latter in their symmetry planes with an increase in the ratio of the energy flux in the spectral in the range of 600,700 nm to the total energy flux in the entire emission spectrum of each of the mentioned optical radiation sources in the range from 30–40% to 60–80% at reducing the height of the data sources of optical radiation relative to the base of the greenhouse, while the mechanism for moving the means of performing agricultural operations is equipped with guides mounted on elements connecting the top of adjacent vertical frames, and movable platforms are mounted to move along these guides in vertical and horizontal planes, drainage trays are placed in the planes of symmetry of the corresponding vertical frames, and the ends of the inclined roof beams elements are provided for their rigid connection to the lateral uprights data scaffolds.

 In the hypothetical embodiment of the greenhouse, the height of the frames is selected 3 5 times less than the distance between the symmetry planes of the adjacent frames.

 In FIG. 1 shows a general diagram of a greenhouse; FIG. 2 mechanism for moving the platform; in FIG. 3 fragment of a greenhouse from two adjacent frames with a platform and light sources.

 The greenhouse contains a base (floor) 1, a side fence (not shown separately), a roof including pairwise connected inclined beams 2, forming roof skates 3 and lower joints 4. Between the inclined beams 2 above the area of the lower joints 4, drainage trays 5 are installed.

 The cultivation system of the greenhouse includes rectangular vertical frames with load-bearing posts 6, their height is 3 5 times less than the distance between the symmetry planes of adjacent frames. In this case, the gutters 5 are placed in the plane of symmetry of the adjacent vertical frames. Trays 7 for growing plants are fixed on the frames on the outside on their side racks 6 supporting the frames. The cultivation system also includes a mechanism for moving the means of performing agricultural operations, equipped with guides 8, mounted on elements 9, rigidly connecting the top of adjacent vertical frames to the ends of the inclined beams 2 of the roof. The guides 8 are mounted and move on the suspensions 10 of the platform 11. The guides 8 are mounted on the base 12, supported on the cross-members 13. The platform 11 moves on the rollers 14 along the frames, down-up and around its axis, i.e. in the vertical and horizontal planes, using a gear motor 15, a block 16 and a rotary coupling 17.

 The greenhouse light control system includes a reflective screen 18 located between the roof and the top of the frames, and optical radiation sources 19 suspended on suspensions 20 and located inside the frames in their planes of symmetry with an increase in the ratio of the energy flux in the spectral range of 600 to 700 nm to the total energy flux in the entire radiation spectrum of each of the radiation sources 9 ranging from 30 40% to 60 80% with a decrease in the height of these radiation sources 19 relative to the base 1 of the greenhouse.

 The greenhouse works as follows.

 Plants planted in trays 7 are irradiated with both natural light coming through the greenhouse barriers and optical radiation sources 19 installed at several levels along the height of the greenhouse.

 The rational spectral composition of the light of the irradiators 19 provide an increased proportion of the radiation of the "red" component of light in lower areas of plants, the receipt of which from a natural source is not enough for the normal development of plants.

 Maintenance of the greenhouse for the care of plants is carried out from the platform 11, which allows to reach each site of plant cenosis.

 The use of the greenhouse with vertical frame racks, moving service platforms and a set of luminaires with a given emission spectrum will allow to increase the greenhouse's productivity by 17 21% and improve the convenience of its maintenance. YYY2

Claims (2)

 1. A greenhouse containing a base, a side railing, a roof, including inclined crossbars connected in pairs with the formation of skates and lower joints, between which drainage trays are installed above the zones of the lower joints, a cultivation system including rectangular vertical frames, on the side racks of which trays for tiers are fixed growing plants, a mechanism for moving means of performing agricultural operations, including movable platforms, and a system for regulating light conditions, including reflective a louvre screen placed between the roof and the top of these frames, and optical radiation sources, characterized in that the trays for growing plants are fixed on the outside of the side posts of the vertical rectangular frames, and the optical radiation sources are located inside the latter in their planes of symmetry with increasing energy flux ratio in the spectral range 600 700 nm to the total energy flux in the entire spectrum of the radiation of each of the sources of optical radiation in the range from 30 40 to 60 80% with decreasing honeycomb placement of these optical radiation sources relative to the base of the greenhouse, the mechanism for moving the means of performing agricultural operations is equipped with guides mounted on elements connecting the top of adjacent vertical frames, and movable platforms are mounted to move along these guides in vertical and horizontal planes, the trays are placed in the planes of symmetry of the corresponding vertical frames, and the ends of the inclined crossbars of the roof are equipped with ementami hard their connections with side racks scaffolds.  2. A greenhouse according to claim 1, characterized in that the height of the frames is 3-5 times less than the distance between the symmetry planes of the adjacent frames.

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