RU2012202C1 - Device for killing flying insects - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: device has a source of attracting optical radiation. The source is luminescent lamp 3. The device also has suction fan 4 and high-voltage unit 5. The unit, located under the fan, has a cassette of conducting plates 6. The height of the plates is at lest 250 mm, and they are spaced 10 mm one from another. Insects, attracted by the lamp light, find themselves in a receptacle, and the fan sucks them into the killing unit. In the unit they find themselves between the plates (is they are less than 10 mm in size), or they roll down the inclined upper edge of the plate and pass through hole 9 for discharge of bigger insects. EFFECT: higher efficiency. 3 dwg

Description

 The invention relates to agriculture, in particular to systems for protecting gardens, forest stands and animals from pests.

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

 This is achieved by the fact that behind the fan there is a striking high-voltage unit, consisting of a set of conductive plates with a height of at least 250 mm, located vertically at a distance of 10 mm from each other.

 Analysis shows that this technical solution is distinguished by the new design of the electro-optical installation for the destruction of flying insects.

 In FIG. 1 shows a device for the destruction of flying insects; in FIG. 2 - insect extermination unit, general view; in FIG. 3 is the same side view.

 A device for exterminating flying insects comprises a valve 1, a control panel 2 mounted on it, in which the ignition and power circuit of the fluorescent lamp, as well as a high voltage source, are located. The ultraviolet fluorescent lamp 3 is mounted vertically on the armature 1. The suction fan 4 is located under the lamp 3. The device also includes a striking high-voltage insect exterminator 5 located under the fan 4.

 The high-voltage insect extermination unit 5 consists of conductive plates 6 separated by insulating gaskets 7, conductive busbars 8, with which the plates 6 are connected to a high voltage source, discharge openings 9 for large insects.

 A device for killing flying insects works as follows.

 Insects attracted by optical radiation from the lamp 3 are sucked in by the fan 4 and blown through the interplate space of the high-voltage unit 5, where they are affected by electric current. The interplate distance is 10 mm so that almost all nocturnal insects can be blown by a fan 4. If insects with a body width of more than 10 mm (and the number of such is less than 1% of the total number of caught) get on the conductive plates 6, then they roll downhill the edges of the conductive plates 6 into the discharge openings 9. At least 250 mm are made along the height of the plate 6 of the high-voltage unit 5, so that small insects blown in the interplate space can touch the wings of adjacent conductors dyaschih plates 6 or accommodate the body so that the breakdown of the inter-electrode space came through insect. An analysis of the body size of butterflies shows that out of more than 300 species of insect pests, only the red tail, oak-leaved silkworm, saturnia, hawthorn, and odoriferous carpentry have a body width of more than 10 mm.

The increase in the width of the interplate space leads to an increase in the interelectrode voltage, which complicates the design of the device due to the need to use insulating materials with improved properties and worsens the operational properties of the device according to safety requirements. Reducing this distance leads to the breakdown of insulating gaskets and air gap with high humidity. Moreover, the height of the plates 6, equal to at least 250 mm, is adopted based on the fact that:
- if the plate height is less than 250 mm, then part of the small insects injected by the air flow into the interelectrode space of the high-voltage unit 5 does not fall between the conductive plates 6 and is not destroyed;
- if the height of the plates 6 is much greater than 250 mm, then the remains of the insects affected by electric current are not blown by the fan 4 and accumulate on the lower edges of the plates 6, which leads to a decrease in the installation efficiency due to the fact that part of the insects passes through the discharge holes 9 for flying insects and not affected by the high voltage unit 5.

 The use of a high-voltage unit 5 as a striking organ can increase the efficiency of the device, since insects that enter the aerodynamic flow of the suction fan are affected by electric current in the high-voltage unit 5. Therefore, the short-term disappearance of the supply voltage does not allow insects to leave the insect collector.

 The use of high-voltage block 5 allows you to fully automate the process of catching and extermination of insects and thereby reduce the complexity and level of operating costs of the process. (56) Copyright certificate of the USSR N 435797, cl. A 01 H 1/12, A 01 M 1/22, 1972.

Claims (1)

 A device for destroying flying insects, including an insect receiver with a source of attraction and a source of unilateral forced movement of insects, made in the form of a fan, and an insect killing unit, comprising a housing made in the form of a vertically arranged funnel, inside of which electrodes are placed with a gap relative to the walls of the latter, connected to a voltage source, characterized in that, in order to increase the efficiency of the device, the electrodes are made in the form of a vapor cassette -parallel conductive plates with inclined upper edges of the plate and a maximum height of 250 mm, separated by insulating inserts and installed with a gap between them of 10 mm, and the fan is located at the junction of insects and their destruction receiver unit for air flow direction inside the last casing.

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