RU2629755C1 - Device for inter-framed convention of green plants - Google Patents

Abstract

FIELD: lighting.

SUBSTANCE: device for inter-row illumination of greenhouse plants in protected ground includes the main sources of artificial light 4 located at the level of the upper tier of 1 leaf and additional sources of artificial light installed on height-adjustable suspensions at the level of the middle and lower tiers. Additional sources of artificial light are made in the form of reflectors consisting of cascades of hinged mirrors 6 with a concave surface arranged parallel to each other in a vertical plane and turned towards each other by the rear side of the mirrors, and between the cascades of mirrors there is located a control device 9 with the position of the mirrors In the vertical plane, which is made in the form of movable length-adjustable rods 10 connected by hinges 8, the length of the previous mirrors from The length of subsequent mirrors is taken in the ratio 1:2.

EFFECT: increasing the uniformity and efficiency of light energy distribution.

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Description

The invention relates to agriculture, in particular to the production of vegetables in greenhouses, in greenhouses with an automatic control system for environmental factors by local illumination of plants against the background of general lighting.

Radiation from the sun is the main resource that determines the choice of cultivation facilities, a set of crops and the timing of their cultivation in a particular area. By the number of incident total photosynthetically active radiation (PAR), the territory of the Russian Federation is divided into light zones. In modern greenhouses, systems are used with automatic regulation of the basic parameters of the environment (concentration of CO ₂ , mineral and water supply). The issues of optimizing the light regime in production are decided individually, depending on the types of lighting sources available, the cost of energy resources, and the type of crops. Choosing the optimal combination of environmental factors to ensure high profitability of production in sheltered soil is a non-trivial task. It is required not only to take into account the physiological characteristics of crops, but also the cost of resources.

A device for leveling the degree of irradiation in industrial premises is known (patent RU 2328652, IPC F21V 21/02, decl. 01.12.2006, publ. 10.07.2008, bull. No. 19).

It contains luminaires and a support cable with free ends fixed to ceiling anchors, and auxiliary cable segments connected to the support cable. The free ends of the carrier cable are mounted on the drums with the possibility of reciprocating motion.

The device allows you to change the height of the suspension of lamps and thereby regulate the degree of irradiation of plants.

The disadvantage of this device is that when the height of the suspension of the fixtures changes, the degree of irradiation of the plants changes in their height. It is difficult to maintain total photosynthetic active radiation (PAR).

A device for irradiating plants is known (patent RU 2318368, IPC A01G 9/24, decl. 02.15.2006, publ. 10.03.2008, bull. No. 7). This plant irradiation device comprises a housing consisting of four rectangular louvre screens made of reflective material, for example steel, aluminum, and attached to a frame formed of individual segments connected by articulated joints. The louvre screens are attached to the frame by means of a control system and bimetallic plates mounted in two diagonally opposite articulated joints. Large elements in the form of a coarse mesh are fixed to the frame from the inside opposite the louvre screens. Inside the housing is a light source and an automatic control device. Devices for changing the height of the suspension are also attached to the frame. In a greenhouse, the device is placed between the plants.

The disadvantage of this device is that when you move the light source in height, the degree of irradiation of plants in their height changes.

A technical solution is known (patent RU 2490868, IPC A01G 7/04 - prototype), which has the main sources of artificial light located at the level of the upper tier of the leaves, and additional sources of artificial light mounted on height-adjustable suspensions at the level of the middle and lower tiers.

The disadvantage of this method is the increased consumption of electrical energy due to additional side light sources and insufficiently uniform distribution of light.

The technical result of the invention is to increase the uniformity and efficiency of the distribution of light energy.

The technical result is achieved by the fact that in the device for inter-row illumination of greenhouse plants in protected ground, including the main sources of artificial light located at the level of the upper tier of the leaves, and additional sources of artificial light mounted on height-adjustable suspensions at the level of the middle and lower tiers, according additional artificial light sources made in the form of reflectors, consisting of cascades of mirrors pivotally connected to each other with a concave surface a surface arranged parallel in relation to each other in a vertical plane and turned to each other by the rear side of the mirrors, while between the cascades of mirrors there is a device for controlling the position of the mirrors in the vertical plane, which is made in the form of movable rods, adjustable in length, interconnected by hinges, the length previous mirrors relative to the length of subsequent mirrors taken in a ratio of 1: 2.

The novelty lies in the fact that the present invention improves the efficiency of the use of artificial irradiation when cultivating plants in protected areas, helps to accelerate crop formation and increase productivity due to lateral illumination of the middle and lower tiers, which provides a two-way mirror with a varying curvature of the reflection of incident light from lamps artificial illumination, and the curvature of the mirrors at an angle of 10 to 80 degrees relative to the vertical provides the control system for mirrors by means of hinges, and vertical movement is carried out by a cable and a mechanism for raising mirrors.

The invention is illustrated by drawings, where in FIG. 1 shows a device for inter-row illumination of greenhouse plants in working condition; in FIG. 2 shows a device for inter-row illumination of greenhouse plants during harvesting.

A device for inter-row illumination of greenhouse plants is located between rows of plants, the leaves and fruits of which are located on its upper 1, middle 2 and lower 3 tiers. The artificial light source 4 is located at the level of the leaves of the upper tier 1 and from it direct rays 5 fall on the plants. In the device mounted on height-adjustable suspensions at the level of the middle and lower tiers 2 and 3, additional artificial light sources are made in the form of reflectors, consisting of cascades of mirrors 6 pivotally connected to each other with a concave surface, from which the reflected light rays 7 fall on the plants of the lower tiers . Mirrors 6 are interconnected by hinges 8, are located parallel to each other in a vertical plane and are turned to each other with the back side, while between the cascades of mirrors there is a device 9 for controlling the position of the mirrors in the vertical plane, which is made in the form of movable rods 10 adjustable in length interconnected by hinges 8 and a mechanism 11 for raising mirrors 6. Moreover, the length of the previous mirrors relative to the length of subsequent mirrors is taken in a ratio of 1: 2.

As a source of artificial light 4, one of the varieties of high-pressure sodium lamps, a DNaZ mirror lamp, or luminaires with powerful LEDs are used. The device 9 for controlling the mirrors 6 is a movable adjustable rod 10, mounted between the hinges 8. The mechanism 11 for raising the mirrors is made in the form of a reversing gear motor. Two mirrors 6 with varying curvature are made of a material with a high reflection coefficient of light rays, and by means of hinges 8, the mirror control device 9 can change the angle from 10 (top) to 80 degrees (bottom) relative to the vertical.

A device for inter-row illumination of greenhouse plants works as follows.

When harvesting or maintenance of plants, two mirrors 6 folded (Fig. 2) by the mechanism 11 are raised to a certain height h, sufficient for the passage of equipment and maintenance personnel. The space between the mirrors 6 and the rows of plants is also sufficient to carry out technical work.

In the mode of additional illumination by the mechanism 11 using the rod 10, the mirrors 6 are lowered down. At the same time, depending on the type of plants, the mirror control device 9 changes the curvature of the mirrors by an angle of 10 (top) to 80 degrees (bottom) relative to the vertical.

It is known that the angle of incidence of the light flux on the surface of the mirror is equal to the angle of reflection. Therefore, the reflected rays of light from the mirrors support the physiological activity of the leaves of the middle and lower tiers of the plants, providing the formation of fruits, and intensive fruit loading occurs.

The advantage of the proposed device for inter-row illumination of greenhouse plants lies in the fact that without additional sources (additional electric energy), it improves the efficiency of using artificial illumination when cultivating plants on protected ground areas, helps to accelerate crop formation and increase productivity on all tiers of plants.

Claims (1)

A device for inter-row illumination of greenhouse plants in a protected ground, including the main sources of artificial light located at the level of the upper tier of leaves and additional sources of artificial light mounted on height-adjustable suspensions at the level of the middle and lower tiers, characterized in that the additional sources of artificial light are made in the form of reflectors consisting of cascades of mirrors pivotally connected to each other with a concave surface located parallel to flax to each other in a vertical plane and turned to each other by the rear side of the mirrors, while between the cascades of mirrors there is a device for controlling the position of the mirrors in the vertical plane, which is made in the form of movable rods, adjustable in length, connected by hinges, the length of the previous mirrors relative to the length subsequent mirrors taken in a ratio of 1: 2.

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