A bed bug attracting assembly is positioned at an upper location. A bed bug killing assembly is positioned at an intermediate location beneath the attracting assembly. A base assembly is positioned at a lower location beneath the killing assembly for maximizing the number of bed bugs attracted and killed. A control assembly has a user visible digital UPC code, a battery power percentage indicator with an ON/OFF button and a sound activated switch, a cell phone with a macro-lens, and two light emitting diode positioned adjacent thereto to illuminate bed bugs. An electric grid triggers a camera detector. A CO2 self-emitting device includes graphite and an electrical charge. A platform with pores holds a lure over a miniature fan. A programmable computer is preprogrammed to modulate attraction modalities. A GPS transmitter is activated to sent to receives to secure the area of infestation.

A combination lighting apparatus and insect extermination device is disclosed having a housing with an upper section and a lower section separated by a first aperture. A light source is disposed in the upper section. An electrical grid and negative pressure source are disposed in the lower section. A power source is coupled to the light source, the electric grid, and the pressure source. A second aperture is located in the lower section after the electric grid, wherein air is propagated inward through the first aperture, through the electrical grid and out the second aperture.

Aspects of the present invention determine a presence of insects at a location of a first device that comprises a computer processor, and in response to determining the presence of the insects at the location of the first device, apply a screen overlay that changes colors displayed by a display of the first device.

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.

Apparatus for automatic loading of pupae into cartridges for growing, hatching into adults and dispersal of the adults, comprises: a pupa tray of pupae in liquid. A cartridge hatches the pupae into adults and may be placed in a dispersal machine for dispersal of the adults. The cartridge has a drainage hole covered in netting at a lower end, and when filled with pupae and needing water, may be placed in a water tray to retain water in the cartridge. Then, following hatching of the pupae, the cartridge is lifted from the water tray to drain via the drainage hole to provide a dry environment for the adults.

An insect killing system has a blower drawing air entraining insects from below a vacuum machine, impelling the air upward, a flange oriented horizontally at an outlet to the blower, and a killing assembly affixed to the flange. The system is characterized in that the killing assembly comprises a plurality of panels of a common width, having an upper edge, a lower edge, and opposite side edges defining an area for each panel, the area closed by a relatively thin perforated sheet material exhibiting a matrix of through holes, individual panels affixed by the bottom edge to the flange on opposite sides, with each panel oriented by a steep angle from vertical, with each panel in the plurality parallel to and spaced apart from one or more adjacent panels, such that the area defined by an inside diameter of the flange is covered by the plurality of adjacent parallel panels.

A hand held device for removing ticks that are fixed to the skin of an animal or human host and comprises a housing oriented along a longitudinal axis, a tick encapsulation zone at the front end of the housing employing an openable and closable lid section capable of closing around the tick while the tick is attached to the skin of the host. A piezoelectric voltage generation device is located within the housing and activated by a striker to send a high voltage through two lead wires having their distal ends mounted within the tick encapsulation zone in gapped relationship. A trigger is mounted along an axis tangential to the longitudinal axis for triggering the piezoelectric device to send a high voltage across the electrode gap to electrocute the tick. The electrocuted tick automatically becomes detached from the host's skin and falls into the closed encapsulation zone of the device.

Devices, methods, and systems for inactivation of insects with light are disclosed. In some examples, a first lighting source is operable to provide light at wavelength range of about 420 nm-510 nm with an irradiance sufficient to initiate the inactivation of insects. One or more sensors and a control system may be used to control operation of the first lighting source, such as by adjusting the first lighting source in response to various inputs.

A bladeless fan with mosquito killing function, having a base and a wind chamber; the base has an air blower inside; the wind chamber is in communication with an inner cavity of the base; a wall of the wind chamber is provided with an air outlet gap for blowing out an air stream; an electric mosquito killing device is provided in the base below the air blower; through holes are provided on the base (1) for inlet of mosquitos and insects as well as the air stream into the base.

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.