RU2085071C1 - Greenhouse - Google Patents

Abstract

FIELD: plant growing in protected ground. SUBSTANCE: greenhouse has growing chambers mounted on supporting members and lipped screens provided with individual rotation mechanisms. Lower screen is mounted in horizontal position. Inclined screens are positioned above lower screen. Lower lipped screen is made translucent and inclined lipped screens are made light-reflecting. Light sources are positioned between inclined and horizontal screens, along latter. Greenhouse is provided with heating members. U-shaped light reflectors are positioned between light sources and horizontal screen. Heating members are positioned within light-reflector span. EFFECT: increased quality and yield of crops by optimized light distribution and parameters of microclimate in vegetative space and reduced power consumption. 2 cl, 4 dwg

Description

 The invention relates to agriculture, in particular to devices for growing plants in greenhouses.

 A greenhouse is known that contains a germination station mounted on supporting elements and louvre screens equipped with separate mechanisms for turning the blinds, the lower screen being horizontal and inclined screens installed, the lower screen blinds being made translucent and the inclined screen blinds reflective, and between the inclined ones and horizontal screens along the edges of the last light sources are installed.

 However, such a greenhouse cannot ensure the optimum illumination of plants, the full use of the light flux when creating the optimal climatic regime inside the greenhouse, and also the minimal energy consumption, which affects the productivity of plants grown in the greenhouse and the quality of its products.

 The purpose of the invention is to improve the quality and productivity of crops by optimizing light distribution and microclimate parameters in the growing volume, as well as in saving energy costs.

 The goal is achieved by the fact that the greenhouse, containing the germinators mounted on the supporting elements, and the louver screens equipped with separate mechanisms for turning the blinds, the lower screen is horizontal and the inclined screens are installed above it, and the blinds of the lower screen are translucent, the blinds of the inclined screens are reflective and between the inclined and horizontal screens along the edges of the latter light sources are installed, according to the invention it is equipped with heating elements, and between light sources and mountains zontally screen installed L-shaped reflectors, the heating elements are arranged within the angle reflectors solution.

 The mechanisms for turning the blinds may include levers rigidly connected with the blinds, pivotally connected to a rod connected at the other end to the drive.

 A specific embodiment of the greenhouse is shown in FIG. fourteen.

 In FIG. 1 shows a section of a greenhouse. The greenhouse consists of blocks 1 3, on the frame of which a translucent roof is placed 4. Between the roof elements 4 there are trays 5. In the under-roof space there are inclined louvered screens 6 made of narrow-band blinds 7 mounted for rotation around the installation axis. Under the trays 5, light sources 8 are installed, equipped with retroreflectors 9 and L-shaped retroreflectors 10. Under the retroreflectors 10 there is a lower horizontal louvre screen 11, the shutters 12 of which are made translucent. Thus, the light sources 8 are located between the inclined screens 7 and the lower horizontal screen 11 at the edges of the latter, and L-shaped reflectors 10 are installed between the light sources 8 and the lower horizontal screen 11.

 In FIG. 2 shows an example of a greenhouse, which shows the mechanisms of rotation of the blinds, which are equipped with each louvered screen. The latter contain levers 13 associated with each of the blinds and pivotally mounted on a rod 14 connected by a cable 15 to an electric motor 16.

By means of a similar mechanism (shown schematically at 17), the blinds of the screen 11 are rotated. The area indicated by S _c is illuminated, the area S _{T is} shaded when the light sources are on. Position 18 denotes the heating elements-registers of heating the greenhouse. The latter are located inside the corner of the solution of retroreflectors 10.

 In FIG. 4 shows a general view of a part of the greenhouse, on which some details are omitted for clarity. The number 19 stands for the stand of the greenhouse, the number 20 is the suspension of the light source 8.

 The greenhouse operates as follows.

Plants are planted in the greenhouse. The heating system of the greenhouse and the light sources are turned on 8. The blinds 12 of the screen 11 are closed by the rotation mechanism 17. The blinds 7 of the screen 6 of the greenhouse are closed by the rotation mechanism containing levers 14, driven by the link 14 using the cable 15 connected to the electric motor 16. After heating the air in the greenhouse to the optimum temperature, the blinds 7 are oriented in such a way as to ensure optimal uniform illumination of plants in the greenhouse. Reflectors 10 are installed so as to provide light reflection from sources 8 to plants directly or through the blinds 7. When the air overheats in the greenhouse, the blinds 7 of the screen 8 are oriented so as to enhance air ventilation and reduce the illumination of plants. With more significant overheating using the rotation mechanism, open the blinds 12 of the screen 11
The proposed greenhouse allows you to increase the yield of cucumbers by 20 30% and reduce by 25 35% the number of non-standard products.

Claims (2)

 1. A greenhouse containing germinators mounted on supporting elements and louvre screens equipped with separate mechanisms for turning the blinds, the lower screen being horizontal and inclined screens installed above it, the louvres of the lower screen being translucent, the louvres of the inclined screens are reflective, and between inclined and horizontal screens along the edges of the latter a light source is installed, characterized in that, in order to improve the quality and productivity of crops grown by optimizing the light output distribution and microclimate parameters in the growing volume, as well as saving energy costs, the greenhouse is equipped with heating elements, and L-shaped reflectors are installed between the light sources and the horizontal screen, while the heating elements are located inside the angle of the reflector solution.  2. A greenhouse according to claim 1, characterized in that the mechanism for turning the blinds includes levers rigidly connected with the blinds, pivotally connected to a rod connected to the drive by the other end.

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