RU2734622C1 - Method of attracting insects to trap for feeding fish using attractant source immersed in water - Google Patents

Abstract

FIELD: optics.SUBSTANCE: method is characterized by that exposure on insects is carried out with a total spectrum of visible radiation of blue, green and red ranges of the optical radiation source immersed in water at depth of 1...10 mm. Optical radiation source used is a multi-coloured RGB light-emitting diode tape.EFFECT: method provides higher efficiency of attracting flying insects.1 cl

Description

The invention relates to the field of fish farming, in particular to feeding fish with insects and is aimed at increasing the efficiency of attracting flying insects and increasing their species composition.

A known method of attracting insects to the trap, including exposure to the eyes of the insect optical radiation, which is carried out with circular polarized radiation [and.with. USSR No. 1132380, MKI A01M 1/08, 01.09.1984].

The disadvantage of this method is that it is necessary to select a different optical radiation range for each type of insect.

Also known is an electro-optical converter for feeding fish [RF patent, No. 2250609, IPC A01K 61/00, publ. 04/27/2005, Bul. No. 12], which contains a rack, a power supply, light-emitting diodes.

The disadvantage of this electro-optical converter is low efficiency due to the use of an attractive effect for one species of flying insects. The influence of environmental factors (air temperature, humidity, climatic and weather conditions) on the susceptibility of flying insects to attractive optical radiation is also not taken into account.

A known method of attracting mosquitoes by optical radiation [RF patent, No. 2384054, IPC A01K 61/00, publ. 20.03.2010, Bul. No. 8], in which the chromaticity coordinates of the radiation attracting mosquitoes are set depending on the measured ambient temperature.

The disadvantages of this method of attracting insects are a narrow range of applications (only for one species of flying insects) and low efficiency of attracting insects that are not mosquitoes.

Known trap for insects, based on the effect of radiation of superbright LEDs on the visual organ of insects [RF patent, No. 167919, IPC A01M 1/00, publ. 01/12/2017, Bul. No. 2].

The disadvantage of this trap is the absence of radiation with different wavelengths, since the reaction of insects to the spectral composition of optical radiation is not taken into account. The influence of environmental factors (air temperature, humidity, climatic and weather conditions) on the susceptibility of flying insects to attractive optical radiation is also not taken into account.

The closest technical solution is a method of attracting insects to the trap and a device for its implementation [RF patent, No. 2356222, IPC A01M 1/04, publ. 05/27/2009, Bul. No. 15 - prototype], in which the insect is exposed to alternately mixed spectrum of visible radiation of blue, green, red and yellow range with a certain radiation algorithm and the frequency of spectrum change from 1 to 0.05 Hz.

The disadvantage of this method is the underutilization of the color stimulus of the light source to the insect, since the maximum range of light perception by insects is not taken into account, which leads to a low efficiency of attracting them.

A common disadvantage of all known methods and devices is low efficiency, which consists in the fact that they have selectivity with respect to the species diversity of flying insects and do not take into account the limited range of perception of optical radiation by insects.

The proposed method solves the problem of increasing the efficiency of attracting flying insects and expanding their species composition, taking into account the resource of flight of insects.

This problem is solved by the fact that in the method of attracting insects to the trap for feeding fish, the effect is carried out by the total spectrum of visible radiation of the blue, green and red range of the optical radiation source immersed in water to a depth of 1 ... 10 mm. Under the influence of optical radiation from a source-attractant immersed in water, insects are forced to direct their flight path to the surface of the reservoir. Insects of various species, caught on the water or flying close to its surface, become prey for fish.

As you know, the flight resource of flying insects is limited, and the attraction of insects by optical radiation will be effective only if during the entire operating time of the device a varied spectrum of radiation for the eyes of insects is involved. Otherwise, insects, entrained by a certain optical range, without receiving constant exposure due to the alternately mixed spectrum, will exhaust their flight resource without reaching the trap.

It is known that the attractive effect of optical radiation on insects depends on environmental conditions. At low air temperatures, the greatest effect on insects is produced by radiation of a warm hue, and at high temperatures - by a cold one.

The use of, for example, a multicolor (RGB) LED strip with the total spectrum of visible radiation in the blue, green and red ranges creates optical radiation that expands the species diversity of attracted flying insects.

Therefore, to increase the efficiency of attracting flying insects to the trap and expanding their species composition, it is proposed to use an optical radiation source, for example, a multicolor (RGB) LED strip with the total spectrum of visible radiation in the blue, green and red ranges, using the entire spectrum of attractive radiation during the entire operating time. source of radiation, will increase the effectiveness of the attracting effect and, as a result, will increase the number of attracted insects.

Such a spectrum of optical radiation is attractive for many flying insects, and the use, for example, of a multicolor (RGB) LED strip with the total spectrum of visible radiation in the blue, green and red ranges allows us to take into account the flight resource of insects and, regardless of weather conditions, equally attract a variety of insects exposed to optical radiation.

Claims (1)

A method of attracting flying insects to a trap for feeding fish, using a color stimulus, characterized in that the effect on insects is carried out by the total spectrum of visible radiation of the blue, green and red ranges of an optical radiation source immersed in water to a depth of 1 ... 10 mm, while the source of optical radiation use a multicolor RGB LED strip.