A drone with a high-voltage trap seeks, identifies, pursues and destroys flying insects within a patrolling area. During its passive attracting mode, the drone lands on a designated ground site and attracts insects with light, sound, and scents. Once insects are lured, the high voltage screens trap will immediately electrocute targeted insects. In its active offensive mode, the drone hovers closer to insect nests using its high-velocity propellers, producing strong downdraft jet streams to disturb the nest and force insects, such as mosquitoes and the like, to evacuate their nest. Once insects are airborne, the drone pursues fleeing insects from below or behind, making use of its propellers and vacuuming the fleeing insects. Slow flying insects that come in contact with the high-voltage electrified screens are immediately electrocuted. Insects that are vacuumed into the fast-spinning propellers blades are knocked down and killed. A rectified charging pad recharges the drone batteries.

A drone with a high-voltage trap seeks, identifies, pursues and destroys flying insects within a patrolling area. During its passive attracting mode, the drone lands on a designated ground site and attracts insects with light, sound, and scents. Once insects are lured, the high voltage screens trap will immediately electrocute targeted insects. In its active offensive mode, the drone hovers closer to insect nests using its high-velocity propellers, producing strong downdraft jet streams to disturb the nest and force insects, such as mosquitoes and the like, to evacuate their nest. Once insects are airborne, the drone pursues fleeing insects from below or behind, making use of its propellers and vacuuming the fleeing insects. Slow flying insects that come in contact with the high-voltage electrified screens are immediately electrocuted. Insects that are vacuumed into the fast-spinning propellers blades are knocked down and killed. A rectified charging pad recharges the drone batteries.

Devices are embodied that eliminate flying insect pests in quite a different way than others devices have used in the past. If insects are attracted to a surface large enough to accommodate their numbers and allowed to gather for a time without being restrained or bothered, it is possible by way of these embodiments at a single location to eliminate insects in very large number on a daily basis. Depending on a device's size and embodiment, from several hundred to far in excess of one hundred thousand flying insects per twenty-four hour period can be eliminated.

Devices are embodied that eliminate flying insect pests in quite a different way than others devices have used in the past. If insects are attracted to a surface large enough to accommodate their numbers and allowed to gather for a time without being restrained or bothered, it is possible by way of these embodiments at a single location to eliminate insects in very large number on a daily basis. Depending on a device's size and embodiment, from several hundred to far in excess of one hundred thousand flying insects per twenty-four hour period can be eliminated.

An insect capturing device having an imaging function for harmful insect information management, according to the present invention, comprises: a collection unit having a collection net so as to collect harmful insects, and having a passage tube, provided on one side of the collection net, through which the collected harmful insects pass; a support unit provided on the other side of the collection unit so as to support the collection unit; a capturing analyzer having an outer filter connected to the collection unit through the passage tube so as to separate moisture from air introduced with the harmful insects, an inner filter connected to the outer filter and maintaining constant temperature and humidity conditions, a capturing tube unit connected to the inner filter and having a count sensor for sensing the harmful insects having passed there through and counting the number of harmful insects, and a gathering unit connected to the capturing tube unit and having a gathering net for enabling the harmful insects suctioned in and moved through the capturing tube unit to be finally filtered; an imaging unit provided at a position aimed at the gathering unit in the capturing tube unit, and photographing harmful insects being moved to the upper part of the gathering net; and a capture unit provided between the imaging unit and the gathering net such that the imaging unit obtains images of the harmful insects suctioned in and moved through the capturing tube unit, and enabling the harmful insects to be temporarily filtered before being filtered in the gathering net. Therefore, it is possible to provide an insect capturing device having an imaging function for harmful insect information management, the device simply classifying and analyzing harmful insects according to the occurrence frequency and types of the harmful insects by easily obtaining, in real time, without an expensive high speed camera, images of harmful insects collected in the insect capturing device for collecting harmful insects such as flies or mosquitoes.

An insect capturing device having an imaging function for harmful insect information management, according to the present invention, comprises: a collection unit having a collection net so as to collect harmful insects, and having a passage tube, provided on one side of the collection net, through which the collected harmful insects pass; a support unit provided on the other side of the collection unit so as to support the collection unit; a capturing analyzer having an outer filter connected to the collection unit through the passage tube so as to separate moisture from air introduced with the harmful insects, an inner filter connected to the outer filter and maintaining constant temperature and humidity conditions, a capturing tube unit connected to the inner filter and having a count sensor for sensing the harmful insects having passed there through and counting the number of harmful insects, and a gathering unit connected to the capturing tube unit and having a gathering net for enabling the harmful insects suctioned in and moved through the capturing tube unit to be finally filtered; an imaging unit provided at a position aimed at the gathering unit in the capturing tube unit, and photographing harmful insects being moved to the upper part of the gathering net; and a capture unit provided between the imaging unit and the gathering net such that the imaging unit obtains images of the harmful insects suctioned in and moved through the capturing tube unit, and enabling the harmful insects to be temporarily filtered before being filtered in the gathering net. Therefore, it is possible to provide an insect capturing device having an imaging function for harmful insect information management, the device simply classifying and analyzing harmful insects according to the occurrence frequency and types of the harmful insects by easily obtaining, in real time, without an expensive high speed camera, images of harmful insects collected in the insect capturing device for collecting harmful insects such as flies or mosquitoes.

The present invention relates to a mosquito-killing lamp, including a shell consisting of an upper shell, a fan frame and a lower shell, wherein the upper shell is provided with a mosquito inlet cavity, the lower shell is provided with a mosquito storage cavity, the fan frame is internally provided with a mounting cavity, a mosquito blocking base is clamped between the fan frame and the lower shell, the mosquito blocking base is provided with an opening for conducting the mounting cavity and the mosquito storage cavity, the mosquito blocking base is provided with a baffle capable of opening or closing the opening in a hinge manner, and a driving mechanism is arranged on the mosquito blocking base. By adoption of the above solution, the mosquitoes are not easy to fly out and the mosquito killing effect is better.

An apparatus for trapping flying insect pests, including:

a device for diffusing in the surrounding ambient air a gaseous lure the composition of which is suitable for attracting the insects; a device for sucking a flow of surrounding ambient air containing the insects attracted by the diffused gaseous lure, an insect trap arranged with the suction device so the insects sucked by said device are retained in said trap.

An apparatus for trapping flying insect pests, including:

a device for diffusing in the surrounding ambient air a gaseous lure the composition of which is suitable for attracting the insects; a device for sucking a flow of surrounding ambient air containing the insects attracted by the diffused gaseous lure, an insect trap arranged with the suction device so the insects sucked by said device are retained in said trap.

An insect trap device for attracting mosquitoes includes a main body including an upper inlet and a lower outlet, a suction fan disposed in the main body and configured to draw air from the upper inlet to the lower outlet, an insect filter disposed upstream of the suction fan, the insect filter including a plurality of openings, an upper body disposed in a spaced relationship with the upper inlet, an ultraviolet (UV) light source disposed between the upper inlet and the upper body, an air collector disposed downstream of the suction fan, and an insect collector disposed on the lower outlet under the air collector, in which the air collector has a substantially conical shape including a central opening at a distal apex and a plurality of side openings including mesh.