CS210830B1 - Insect trap - Google Patents

Abstract

The invention relates to an insect trap, which consists of a transparent container with funnel-shaped openings around the perimeter and inside with light or other insect-attracting means. The purpose is achieved by the funnel-shaped opening having a diameter on the outside of the container at least twice the diameter of the opening opening inside, the opening has a smoothly sharp end perpendicular to the wall of the container and its length from the inner wall of the container is equal to or greater than the diameter of the opening opening. The insect trap can be used in areas with a risk of explosion., households, hotels, social facilities and factories of all kinds.

Description

BACKGROUND OF THE INVENTION The present invention relates to an insect trap having a sealed transparent container of any shape with openings around the periphery and in which there is light or other means for attracting insects. Insects cannot penetrate backwards due to the shape of the holes and die after a few hours because there are no nutrients inside.

Until now, chemicals have been used as the best known methods for killing insects, where the insects die after some time or by spraying with chemical agents, or so-called Venus flytrapes are used. Electric fans are also known in which insects are sucked in by an air stream and killed by passing through the fan blades. Recently, electric insect traps have been produced, where insects are attracted to the inside of the appliance by light and are killed by high voltage when passing through a high-voltage grid, which reduces air distances and sparks jump.

All known methods have a number of disadvantages, for example in the chemical killing of insects die throughout the room, chemical preparations in the killed insects cause problems in the food industry, also the Venus flytrap are unhygienic. With the traps, the above drawbacks are eliminated, but the equipment is expensive because it must have a high voltage source and a grid, the spark is a source of radio and television interference, and in addition all safety regulations for high voltage equipment must be observed. For this reason, the trap cannot be used in potentially explosive areas such as mills. In the case of fans, it is necessary to count on higher production costs, moreover, there is noise, air flow and thus also swirling dust.

The above mentioned drawbacks are eliminated by an insect trap consisting of a translucent closed container with openings and light on the circumference, or other insect-attracting means located inside the invention, characterized in that the funnel-shaped opening has at least twice the diameter of the outside of the container within the container, the orifice having a continuously sharp end, perpendicular to the container wall and its length from the inner wall being equal to or greater than the diameter of the orifice inside the container.

The advantage of the new solution is that the insect trap is very simple to manufacture, practically consisting of a translucent container and a light source, such as a neon lamp. The costly production of high-voltage transformers, grilles, interference suppression elements is eliminated and, moreover, the trap according to the invention can also be used in potentially explosive areas. The killed insects are concentrated in the lower part of the container, thus ensuring the possibility of its hygienic removal. Other insect-attracting agents, such as pheromones, may also be introduced into the container to increase the efficiency of the trap. The big advantage of the trap is that it works noiselessly and even the neon lighting used does not interfere with the interior of the room in which it is located.

The insect trap according to the invention is shown in the accompanying drawing, in which: FIG. 1 is a schematic drawing of a translucent container with openings, bottom bottom and top closed; FIG. 2 is an enlarged cross-sectional view of a funnel-shaped opening inside the container.

In the above example, my insect trap has a translucent glass container 4 provided with funnel-shaped openings 2 spaced outwardly into the container 4. The funnel-shaped opening 2 has at least twice the diameter on the outside of the container 4 than the diameter 4 inside the container 4. perpendicular to the wall of the container 4 so that insects cannot climb back from the interior of the container 4 to the outside. The length of the orifice 2 from the inner wall 6 of the container 4 is equal to or greater than the diameter 4 of the aperture 2. The verification was carried out with a diameter of 48 mm and was successfully caught by flies and butterflies. This diameter 4 must be large enough to crawl through adult insects. The container 4 is closed at the top by a lid 2 through which the power supply 10 passes to the light source inside. From below, the container 4 is provided with a removable bottom 8 into which dead insects fall. The action radius of the trap is dependent on the intensity of the container's illumination. It is recommended to use lights with a wavelength of 350 to 400 µm.

The operation of the trap is as follows. Insects attracted by exposure will fly and land on the container. As it tends to get closer to the light source, it crawls through the funnel opening into the container. Due to the given shape of the opening and in particular its sharp and perpendicular termination inside the container, its return to the surrounding space is excluded. Because inside the light source is heat and no source of food or water, the insects perish within a few hours and fall to the bottom of the container, where they are removed after a period of time using a removable bottom.

The use of insect traps is wide. It can be installed both in homes, shops, common rooms and industrial buildings.

Claims (1)

SUBJECT OF THE INVENTION An insect trap consisting of a translucent closed container with openings and light around it, or other insect-attracting means located therein, characterized in that the funnel-shaped opening (7) other than the diameter (1) of the outlet (4) is at least twice the diameter inside the container, the orifice (2) having a continuously sharp end (5) perpendicular to the wall of the container (4) and its length from the inner wall (6) being at least equal to the diameter (1) of the orifice (7) inside the container (4).