RU2038746C1 - Greenhouse - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: plant irradiation installation for greenhouses has light sources and reflectors. It has two groups of units, each including two main reflectors made in form of two light reflect- plates hinge-connected in form of dihedral angle. Light sources are placed between main reflectors. Units of one of groups have additional reflectors including at least two flexible light reflecting plates installed with clearance in between, and also plate bending mechanism arranged for contact with plates. Additional reflector plates are placed between one of two main reflectors and light source. EFFECT: reduced power of installation, in enhanced uniformity of irradiation. 4 cl, 5 dwg

Description

 The invention relates to agriculture, in particular to the designs of plant irradiation lamps in greenhouses with multi-tiered narrow-rack hydroponic plants.

 The main sources of plant irradiation in greenhouses are plants irradiation plants in greenhouses such as OT-400, OT-1000, UORT-3-2000, UORT 1-6000, UORT-2-3000-1, etc., consisting of light sources of illuminators equipped with box-shaped reflectors and starting device.

 The main disadvantage of the known installations is that the reflectors of the illuminators are focused on irradiating plants on horizontal areas in greenhouses: floors, racks, pallets, etc. and are not effective when operated in hydroponic greenhouses, since they do not provide uniform irradiation.

 Closest to the proposed technical essence and the achieved results is the installation of plant irradiation in greenhouses containing multi-tiered narrow-rack hydroponic plants, including illuminators and reflectors.

 A disadvantage of the known installation is that it does not ensure uniform irradiation and, in addition, with the removal of plants from light sources, the intensity of the light flux decreases significantly (in quadratic dependence). All this leads to an increase in energy consumption, installed capacity of the irradiation unit, and affects the yield of crops grown.

 The aim of the invention is to reduce the installation capacity of the installation, increasing the uniformity of exposure.

 The goal was achieved in the present invention.

 The plant irradiation plant in greenhouses containing multi-tiered narrow-rack hydroponic plants, including light sources and reflectors, according to the invention, contains two groups of nodes, each of which includes two main reflectors made in the form of two reflector plates pivotally connected in the form of a dihedral angle, and light sources placed between the main reflectors, and the nodes of one of the groups contain additional reflectors, including at least two flexible reflective plates installed e with a gap therebetween, and the mechanism of bending to be in contact with the plates, said plates being arranged between the light sources and one of two main reflectors.

 The plate bending mechanism may include cylindrical beams associated with the drives.

 The plates of the additional reflectors can be made integral with articulated parts.

 The installation preferably comprises a lighting control unit associated with a starting device.

 Two main reflectors are necessary for directing light exclusively to the plant location zone on a hydroponic installation, which reduces light loss and, therefore, reduces the power of light sources.

 An additional reflector with a mechanism for bending its plates is necessary to ensure uniform irradiation of plants along the height of hydroponic installations by adjusting the light flux by the specified reflector.

 If the plates of the additional reflectors are made integral with articulated parts, the last task is facilitated.

 The control unit for illuminators associated with the starting device allows you to enable or disable illuminators depending on the intensity of solar radiation.

 As starting devices, standard starting devices used for the above lamps can be used.

 As the control unit use any programmable controller, for example KPU-34-79. It should be connected to a light sensor, for example, a Yanishevsky pyranometer.

 The proposed installation differs from the known one in that it contains two groups of nodes, each of which includes two main reflectors made in the form of two pivotally reflective plates in the form of a dihedral angle, the light sources being placed between the main reflectors, and the nodes of one of the groups contain additional reflectors, including at least two flexible reflective plates installed with a gap between them, as well as a mechanism for their bending, placed with the possibility of contact with the plates, and these plates are placed between the light sources and one of the two main reflectors. Thus, the proposed solution meets the criteria of the invention of "novelty."

 The patent and scientific literature do not describe additional reflectors, the shape of which can be changed to increase the uniformity of irradiation of plants in greenhouses. Thus, the proposed solution meets the criteria of the invention of "inventive step".

 The proposed plant can be used in agriculture, in greenhouses and can reduce the power of the plant by 2-2.5 times and increase the uniformity of irradiation, which leads to an increase in the yield of cultivated plants (cucumbers) by 15-20%. Thus, the proposed solution satisfies the criteria of the invention is "industrial applicability".

 In FIG. 1 shows the layout of the fixtures of the installation; figure 2 is the same, in a perspective view; figure 3 connection of the elements of the main reflector (<-shaped); in Fig.4 a fragment of a reflector with a bending mechanism; in FIG. 5 diagram of the surface shape of the reflector.

 The plant irradiation installation consists of a starting device (not shown conditionally), a illuminator 1 located between the hydroponic units 3, and a illuminator 2 placed inside the hydroponic unit 3.

 The illuminators are equipped with reflectors: separate (additional) (in two parts) 4, mounted on the illuminator 1, and the main (<-shaped) 5, 6, 7, 8, mounted on top and bottom of the illuminators 1, 2. Reflectors 4, 5, 6, 7, 8 consist of plates 10 assembled on hinges 9 (Figs. 3, 4, 5) and are equipped with cylindrical beams with actuators 11 for changing the shape of the reflecting surface. The reflector 4 is made separate of two parts, between which a clearance gap is formed for the passage of air. Installation works as follows.

 The light sources 1 and 2 are turned on. Light penetrating through the lumen is directed by the upper reflector 5 to the plants of the upper zone of plants grown in the trays of the hydroponic unit 3.

 The direction of the light flux to certain areas of plants in the trays 12 is regulated by changing the surface shape of the reflector 4 and the angle of the angle of the reflectors 5, 6, 7, 8.

 The upper illuminator 1 irradiates plants in trays 12 only in the upper zone of adjacent hydroponic installations 3, without letting the light flux into the “dead” space. The lower part (zone) of plants from the hydroponic installation 3 is irradiated with illuminator 2.

 To regulate the operation of the plant irradiation plant, depending on the intensity of solar radiation, the starting device of the plant is equipped with a control unit (turn on and off the lamps).

 The operation of a plant irradiation plant with an adjustable reflective surface makes it possible to increase the uniformity of plant irradiation, reduces light and electricity losses, and reduces the installation capacity of the plant.

Claims (4)

 1. GREENHOUSE containing trays for growing plants and fixtures, characterized in that it is equipped with two groups of nodes, each of which includes two main reflectors, made in the form of two hingedly connected in the form of a dihedral angle of reflective plates, and the lamps are placed between the main reflectors, and the nodes of one of the groups contain additional reflectors, including at least two flexible reflective plates installed with a gap between them, and the mechanism of their bending, placed with the possibility of tact with the plates, said plate positioned between the lamps and one of the two main reflectors.  2. A greenhouse according to claim 1, characterized in that the plate bending mechanism is provided with cylindrical beams associated with the drives.  3. The greenhouse according to claim 1, characterized in that the plates of the additional reflectors are made integral and with articulated parts.  4. The greenhouse according to claims 1 to 3, characterized in that it is equipped with a lamp control unit associated with a starting device.

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