RU1804290C - Plant for irradiation of plant seeds and seedlings - Google Patents

Abstract

SUMMARY OF THE INVENTION: An apparatus for irradiating seedlings and seeds of plants comprises a unit for moving irradiated objects, gas discharge lamps, and a helium-neon laser. The apparatus comprises an irradiator with a cavity of cylindrical shape with radiating ends of optical fibers fixed to its inner surface, connecting the irradiator with a laser, and emerging into this cavity through a cylindrical surface. The radiating ends are fixed so that the sum of their projections onto the cylinder axis is a straight line, and the sum of the projections of the ends onto a circle resulting from the intersection of a plane perpendicular to the cylinder axis with a cylindrical surface is a continuous line. The moving unit of the irradiated objects contains a moving body located with the possibility of movement inside the cylindrical cavity. 4 silt. ate

Description

The invention relates to the production of crop products in agriculture and can be used for growing seedlings of tomatoes, cabbage and other crops in greenhouses.

The aim of the invention is to increase the efficiency of the installation.

This object is achieved in that in an apparatus for irradiating seedlings and seeds of plants, comprising a device for moving irradiating objects with a moving organ, gas discharge lamps and an irradiator with a helium-neon laser, according to the invention, the irradiator is equipped with flexible fibers connecting it to the helium-neon laser fibers and made in the form of a cylindrical hollow body, on the inner surface of which in a checkerboard pattern the radiating ends of flexible optical fibers are placed, while the sum of their projections onto the cylindrical axis th housing segment is straight, and the sum of their projections on a circle obtained by the intersection of the cylindrical body by a plane perpendicular to its axis, is a continuous line, wherein the set peremeschayuschiyorgan

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horizontally along the cavity of the cylindrical body.

The cavity of the irradiator can be performed with a sweep of the irradiating surface by 180 °.

Figures 1-4 show a specific embodiment of the device.

Figure 1 shows a general diagram of the apparatus of the invention. The installation comprises a device for moving the irradiated objects in the form of a conveyor 1 with a moving body, a tape, which is connected through a drive 2 to an electric motor 3, which enables the tape to be moved at a speed of 0.4-0.5 m / min. The irradiator 4 (OT-3000), containing a gas discharge lamp 5 (DM4-3000), controlled by the control cabinet of the SvetZ-3000 6 installation, is combined with the preliminary irradiation chamber 7. The installation contains a helium-neon laser (LG-30), in the output an opening 9 of which flexible fibers 10 are inserted, connecting the laser 8 with the irradiator 11. The conveyor is mounted so that part of its tape is inside the cavity of the chamber 11.

Figure 2 shows in detail the irradiator-chamber 11. It contains a cavity of a cylindrical shape 12, on the inner surface 13 of which the radiating ends of the flexible optical fibers 10 are placed in a checkerboard pattern.

Fig. 3 shows a portion of the scan of the irradiating cylindrical surface with the projections of the radiating ends of the optical fibers 14. The radiating ends 14 are set so that the sum of their projections onto the axis of the cylindrical cavity 12 is a straight line, and the sum of their projections onto a circle obtained by crossing a cylindrical body with a plane perpendicular to its axis is a continuous line.

Fig. 4 shows an embodiment of the installation with a sweep angle a of a cylindrical surface of 180 °.

Installation works as follows.

Through the control cabinet 6 include a discharge lamp 5, as well as a laser 8. On

the conveyor, before entering the preliminary irradiation chamber 7, sets trays with plants 15, after which the electric motor 3 is turned on. The conveyor belt 1 starts moving.

After some time, the plant 15 enters the pre-irradiation chamber 7 and is irradiated with the light of the lamp 5. Then the trays 15 exit the chamber 7 and enter the irradiator chamber 11, where through the optical fibers 10

irradiated with helium-neon laser light.

Thus, the proposed device allows to increase the efficiency of action (irradiation) and the yield of irradiated crops.

Claims (2)

1. Installation for irradiating seedlings and seeds of plants, containing a device for moving the irradiated objects with a moving body, gas discharge lamps and a helium-neon laser irradiator, characterized in that, in order to increase efficiency, the irradiator is equipped with flexible optical fibers connecting it to the helium-neon laser and is made in the form of a cylindrical hollow body, on the inner surface of which in a checkerboard pattern are placed the radiating ends of the flexible optical fibers, while the sum of their projections onto the axis of the cylindrical body is a straight line segment, and the sum of their projections onto the circle obtained by crossing the cylindrical body with a plane perpendicular to it axis, is a continuous line, the moving member being mounted horizontally along the cavity of the cylindrical body. 2. Installation according to claim 1, characterized in that the irradiator cavity is made with a sweep of the irradiating surface by 180 °. -8 5 if 7 T / / B Ј figure 1