SU1722343A1 - Electrooptical plant for control of insect pests - Google Patents

Abstract

The invention relates to the field of agriculture, in particular to devices for the protection of gardens and forest plantations against insect pests. The purpose of the invention is to increase the efficiency of the installation. The electro-optical plant protection installation includes an injurious organ 5, a source of attracting optical radiation in the ultraviolet and yellow regions of the spectrum, consisting of a fluorescent lamp and an incandescent lamp connected in series with it. A capacitor is connected in parallel with the incandescent lamp and a starter in parallel with a fluorescent lamp. The proposed scheme of the compound — a source of attracting radiation — makes it possible to cause a photoreactivation effect, which consists in that an inactive yellow radiation of an attracting effect is added to active insect-attracting ultraviolet radiation. 2 Il. yo

Description

The invention relates to the field of agriculture, in particular to the protection of gardens and forest plantations from pests.

Stationary and mobile electro-optical installations are known, in which pulsed lamps of the IFK-500 type, low-pressure fluorescent lamps of the LE-8, LE-15, LE-30 and other types are used as attracting sources of optical radiation. Fans, high-voltage grids or passive screens are used as damaging organs.

The disadvantage of these installations is the disuse of the photoreactivation effect, in which yellow is added to the main ultraviolet radiation to increase the attractive effect, which reduces the efficiency of electro-optical installations.

The closest to the technical essence is a mobile electro-optic plant protection system against insect pests, consisting of a damaging organ, a source of attracting optical radiation in the ultraviolet and yellow regions of the spectrum, and a power supply unit.

The disadvantage of this electro-optical installation is the need to use different electrical power systems, the relative complexity and high cost of control gear, as well as high energy losses.

The aim of the invention is to increase the reliability and efficiency of the electro-optical plant protection plant.

This goal is achieved by using a luminescent lmp as the source of attractive optical radiation.

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ultraviolet radiation and an incandescent lamp connected in series, with a capacitor parallel to the incandescent lamp and a starter parallel to the fluorescent lamp.

A comparative analysis with the prototype shows that the proposed technical solution is distinguished by a new circuit design of the source of attracting optical radiation. Thus, the claimed device meets the criteria of the invention of novelty. When studying other known technical solutions in this field of technology, the features that distinguish the invention from the prototype have not been identified and therefore they provide the claimed technical solution with the criterion of significant differences.

FIG. Figure 1 shows the electro-optical plant protection installation, general view; in fig. 2 is a diagram of the connection of sources of attracting optical radiation.

The electrical plant protection installation (FIG. 1) contains fittings 1, control panel 2, glow lamp 3, fluorescent ultraviolet lamp 4, fan 5, insect collector 6.

The connection circuit of the source of the attracting optical radiation (Fig. 2) contains an incandescent lamp 3 and a fluorescent ultraviolet lamp 4 connected in series with it, while in parallel with them a capacitor 7 and a starter 8 are connected.

Electrooptical installation works as follows.

When a voltage is applied from an alternating voltage source to a connection circuit of sources of attracting optical radiation, a starter glow occurs in the starter 8, which heats the bimetallic plate, and the contact in the starter 8 closes.

The heating of the electrodes of the incandescent lamp B-100 3 and the fluorescent lamp LE-15 4 takes place, and the voltage on the incandescent lamp 3 increases. When the contact in the starter 8 is opened, the total voltage of the network and the incandescent lamp 3 is applied to the fluorescent lamp 4, which leads to the ignition of the fluorescent lamp 4, the capacitor 7 is designed to maintain the voltage on the incandescent lamp when the contact in the starter 8 is broken.

Insects attracted by the optical radiation from the lamps 3 and 4 are sucked in by the fan 5 into the collecting box 6.

The use of lamps of the type LE-15 and B-100, included as described above, as a source of optical radiation allows photoreactivation to be obtained, due to the fact that the lamp B-100 works

at a lower voltage, its service life dramatically increases, the radiation maximum shifts to the yellow region of the spectrum. At the same time, the cost of optical radiation sources, together with the control gear, is reduced by 5–7 times;

the circuit is greatly simplified, leading to

increase of reliability of work, decrease

dimensions of control gear.

Formula of invention

An electro-optical installation for the destruction of insects containing an injurious organ, a source of attracting optical radiation, and a power supply unit, which, in order to increase the efficiency of the installation by providing an optimal spectral composition of attracting radiation, the source of attracting optical radiation is designed as a series-connected lamp incandescent and fluorescent lamps, with a capacitor parallel to the incandescent lamp and a starter parallel to the fluorescent lamp.

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Claims (1)

Claim · An electro-optical installation for exterminating insects, containing a damaging organ, a source of attracting optical radiation and a power supply unit, characterized in that, in order to increase the efficiency of the installation by providing an optimal spectral composition of attracting radiation, the source of attracting optical radiation is made in the form of incandescent and luminescent lamps connected in series lamps, and a capacitor is connected in parallel with the incandescent lamp, and a starter in parallel with the luminescent one. Proofreader S. Shevkun