Exemplary embodiments of a flashlight having an electronic insect control system are provided. In some exemplary embodiments, a flashlight apparatus is provided, having a head portion comprising a first light source, a tail portion, and a body portion between the head portion and tail portion, the body portion comprising an electronic insect control system, the electronic insect control system comprising a frame portion, a second light source provided within the frame portion, and an electrical grid provided within the frame portion and surrounding the second light source, wherein the electrical grid is configured to generate a voltage.

Disclosed is an electrical repellent device comprising an electric generator (50) connected via its two terminals to a conductive composite tape (3) around an object to be protected and connecting the electric generator (50) and the conductive composite tape (3), the connector being characterized in that it comprises: support (1) made from metal material or insulating polymer; and at least two rods (15) mounted on the support (1) and each comprising, on their outer surface, at least one conductive element (20); and a pressure component keeping the at least one conductive element (20) in contact with at least one conductive strip (31) or the composite tape (3); and two connection terminals configured to apply the potential difference that exists between the two terminals of the electric generator (50) and the conductive elements.

A device that provides personal comfort to the user while simultaneously providing insect control, both functionalities facilitated by a fan component that creates airflow through the device, such airflow drawing insects into the inlet end of the device for insect control and blowing air out of the outlet end of the device for personal comfort of the user, while a trapping component inside the device prevents the insects from exiting with the outlet air and a killing component inside the device kills the insects for insect control purposes.

Disclosed herein is an insect trapping device comprising an inner passageway structure defining an inner passageway which, when in an upright orientation, extends from an insect entry zone to an insect delivery zone, the inner passageway structure bordered by at least a pair of opposed insect-facing traction-reducing boundary surface regions to cause an insect to progress toward the insect delivery zone under gravity, with each boundary surface region including at least one of at least a pair of electrode surface regions, wherein each electrode surface region is configured for operative coupling with an electrode power supply to deliver electrical power thereto, the electrode surface regions configured to form an electrocution zone therebetween, with a designated spacing which is configured to initiate electrocution of an instance of the insect descending through the electrocution zone.

The invention refers to an insect trap consisting of a housing (1) in which there is a power supply system (2) and an electrical circuit board (3). The insect trap has a multi-layer mesh (4), in which an electric field of e.g. 2500 V is developed, thereby killing the insects. It may also have a lamp (7) to attract insects and a tray (8) at the bottom of the trap to collect the killed insects. The use of a screen (6) under the trap covers the remaining space of the aperture, allowing tenants to pass through.

A method for the management of a soil pest or pathogen includes a source of high voltage electricity; at least one capacitor for storing the high voltage electricity; a multiplicity of electrodes inserted into a soil location having a soil pest and/or pathogen to be managed; and an electrical switch which is controllably opened and closes so as to form a pulse of electricity which is passed through the soil location and between the electrodes so as to effect the management of the soil pest and/or pathogen.

An insect suppression device, and further relates to a self-moving device, a charging station, and an automatic working system that are mounted with the insect suppression device are provided. The self-moving device moves in a working area, performs a working task, and includes: a body and a movement module that is mounted on the body and drives the self-moving device to move. The self-moving device includes: an insect suppression device, mounted to the body, and a control module, controlling the movement module to move and controlling the insect suppression device to work. The beneficial effects of the present invention are as follows: The self-moving device can move autonomously in the working area and perform an insect suppression task, and has a wide coverage area, flexible work, and high efficiency, so that automatic control can be implemented, thereby freeing a user from the harassment of insects.

Method and apparatus for mechanical sex-sorting of mosquitoes by extracting a class of mosquitoes from unsorted mosquitoes comprises obtaining unsorted mosquitoes, obtaining images of individual mosquitoes in a stationary phase, electronically classifying the individuals from the images into male mosquitoes and/or female mosquitoes, and possibly also unclassified objects; obtaining co-ordinates of individuals of at least one of the male mosquito and female mosquito classifications, and using a robot arm to reach an individual identified by the obtained coordinates to store or remove the individuals, thereby to provide sex-sorted mosquitoes.

In accordance with various embodiments of the disclosed subject matter, an apparatus for killing insects generally comprising a backplate, having pivotally mounted thereto a first flange comprising an electrically conductive material and a second flange, the first and second flange being of similar shape; a flange operating mechanism, operably coupled to the first and second flanges, and configured for causing a position of the first and second flanges to move from an open position to a closed position; and a power switch, for selectively providing electrical energy to the electrically conductive material of the first flange such that an insect in contact therewith may be killed.

Exemplary embodiments of a flashlight having an electronic insect control system are provided. In some exemplary embodiments, a flashlight apparatus is provided, having a head portion comprising a first light source, a tail portion, and a body portion between the head portion and tail portion, the body portion comprising an electronic insect control system, the electronic insect control system comprising a frame portion, a second light source provided within the frame portion, and an electrical grid provided within the frame portion and surrounding the second light source, wherein the electrical grid is configured to generate a voltage.