Provided is a blowing device that can provide improved convenience. In a blowing device 1 provided with a casing 2 that has openings as an air inflow port 20 and an air blow-off port 5 formed therethrough and includes a blower 10 therein, a cover member 3 that is demountably mounted to the casing 2 so as to cover the inflow port 20 and has a plurality of openings each formed therethrough as an air suction port 4, and an insect catching portion 50 that is arranged on an inner surface of the cover member 3 and catches insects, the insect catching portion 50 is formed by stacking, via a release agent, a plurality of insect catching sheets 51 each formed of a base material sheet 52 with an adhesive 53 applied on one surface thereof.

A device for controlling at least one insect bait station (100), in particular for insects harmful to humans, animals and plants, in which the bait station is provided with: at least one container (3, 5) provided with an insect entrance opening, the container containing bait and being at least partially transparent or translucent, a lighting device (10) lighting the inside of the container but located outside same, a telecommunication module (23, 25) and a printed circuit comprising, inter alia, a memory and a processor connected to said telecommunication means. The device comprises an optical sensor essentially opposite the lighting device, and connected to the printed circuit (12), which measures the general opacity caused by the insect(s) in the container, the corresponding value being transmitted for processing and analysis of the status of the bait station.

The present invention provides a flying insect trap employing a scent-based insect bait to attract flying insects to the trap. Insects can enter the trap through entry pipes in the side of the trap which curve or angle downward once inside the trap. A window of clear plastic or similar material is provided in the top surface of the trap to admit sunlight and draw insects seeking to escape upward and away from the entry pipes. If the entry pipes are made of a dark, opaque material, relatively little sunlight will enter the trap through the entry pipes compared with the clear plastic window, and insects within the trap will not perceive the entry pipes as a possible exit. The trap can be constructed within a removable top cap so that the trap can be supplied with dry insect bait which can be activated before deployment by removing the cap and adding water to the dry bait.

In an embodiment, as insect trap is disclosed including: a trap portion including an enclosure having an adhesive surface and a first opening, wherein the adhesive surface is at least partially contained within the enclosure and is configured to adhere to an insect; and a base portion including a lighting element and a mounting portion, wherein the lighting element is configured to provide light to the trap portion, and wherein the mounting portion is configured to communicate with and receive power from a power source; and a first heating element in communication with the power source, wherein the trap portion is configured to removably engage with the base portion and receive light from the base portion when engaged therewith, and wherein the first heating element provides heat to at least a portion of the trap when the trap is engaged.

Embodiments relate to smart mosquito and insect trap devices, networks and method for detecting, counting, trapping and discarding a population of mosquitoes and/or insects. The mosquito species include the ones such as Aedes mosquito species that can cause Zika virus diseases. The device comprising a housing (201) having a directional force through a narrow path (240) to move an insect or mosquito in a predetermined direction. The device comprises one or more detectors (255) to detect a presence of an insect or mosquito along the path (240). An isolated basket (260) or trap is included to trap the insect or mosquito at a location below or at an end of the path. A processor (352) tracks a count of a population in the basket based on detection of the presence of the insect or mosquito.

Water-holding vessels and containers, such as flower pots, water holding dishes used under plant pots, vases, bird baths, and fountains and storm water inlets, can be coated with novel larvicide and/or adulticide coatings. Small objects can be coated with imbedded larvicide or larvicide and adulticide combination, which can be dropped in water-holding containers which can leach out pesticide over time which prevents mosquitoes from breeding in the water-holding containers. The small objects can be on the adhesive side of peel and stick type tape to form a peel and stick mosquitocidal chip (PSMC), which can be applied to the inner sides and/or bottoms of vessels/containers that can be exposed to water. A tape type roll can include an upper protective layer that protects a coating on a strip, the coating being a polymer coating having imbedded pesticide with or without silica. Under the strip can be an adhesive surface that is protected by a removable lower protective layer. Removing the lower protective layer can allow for the strip to be applied to water exposed surfaces for the treatment of mosquitoes.

One example system for insect detection includes a block of material defining a transit opening and a sensing opening, the transit opening defined along a first axis in a first direction, and the sensing opening defined to provide a light path to traverse a cross-section of the transit opening; a light emitter positioned at a first end of the sensing opening and oriented to project light through the sensing opening and across the transit opening; and a plurality of light detectors positioned at a second end of the sensing opening and oriented to receive the projected light and to output detector signals based on an amount of detected light.

The present invention consists of a collapsible trap for insects, particularly male and female Aedes aegypti mosquitoes, the trap preferably being made of card and designed for use in a domestic or commercial environment. Specifically, the present invention discloses a foldable trap for insects, particularly male and female Aedes aegypti mosquitoes, the trap being formed by a hollow, prismatic main body which comprises an upper cover and a lower cover. The hollow, prismatic main body also comprises a translucent window in one of the sides, the internal surface of which translucent window is impregnated with an adhesive for insects. An attractive mosquito bait is located inside the hollow main body. The mosquitoes, attracted by the bait, enter the trap through at least one curved interior conduit which is located inside the hollow main body and has an entrance in the upper cover and an exit inside the trap.

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.

A mobile system for exterminating insects includes a transportable mobile frame with a conveyance device mounted to the frame, a plate mounted adjacent to an opening to the conveyance device, and a liquid supply and distribution system configured to apply a volume of liquid on a surface of the plate and thereby wet the surface of the plate. The opening to the conveyance device receives insects that are demobilized by contact with the wetted surface of the plate and fall into the conveyance device. The conveyance device exterminates the demobilized insects and conveys the exterminated insects toward a discharge from the mobile system. A motorized vehicle such as a tractor with a tow bar system can pull the mobile system across an open field. In at least one embodiment, insects are exterminated through mechanical means without the use of electrocution.