A digitally controlled, wearable or stationary chemical dispersal device using a pump and activity-based or environmental-based feedback monitoring is described. The system contains a liquid chemical reservoir which can be replaced or refilled for multi-use operation. Electronic controls are used to drive the pump's liquid or air flow rate periodically with user control features and/or monitored, embedded digital sensors. Feedback from the sensors monitoring either the activity of a wearer of the device or the local environment can be used to adjust the pump's flow rate automatically. In addition, user selectable operation mode via Bluetooth is also described.

An apparatus and method for testing the efficacy of an insect repellent is disclosed. The apparatus according to one embodiment includes a housing having an aperture extending through a wall of the housing, a carbon dioxide delivery device coupled to the housing through the aperture, a skin substitute substrate, and a heater coupled to the substrate. The method includes the steps of providing a skin substitute substrate, treating the skin substitute substrate with an insect repellent, exposing a plurality of insects to the treated skin substitute substrate for a first period of time, blocking the treated skin substitute substrate from the plurality of insects for a second period of time, and recording the insect repellent's complete protection time.

A bedbug trap that has a series of stacked containers. The top container holds a quantity of water, sugar and yeast, which generates carbon dioxide. The central container holds a small heating pad to attract the bedbugs and to heat the water and yeast mixture to aid in the fermentation. A hose with a water trap system brings the generated carbon dioxide from the upper chamber to the bottom chamber. This chamber sits in a bowl that has a rough exterior and a smooth interior. Holes, formed around the base of the bottom chamber allow the carbon dioxide to escape into the room, which attracts the bedbugs. The assembled unit is large, to trap as many bedbugs as possible in the shortest amount of time. Finally, the water, sugar and yeast are common household items that are easily and cheaply replenished as needed.

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.

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.

A device and method for reducing cases of mosquito transmitted diseases in humans including an inner member containing a food source causing sterilization of female mosquitoes, an outer housing positioned over the inner member and having at least one opening and an attractant within the outer housing to attract mosquitoes to the food source.

The insect trap includes a trap portion and a base portion. The trap portion includes an enclosure with an adhesive surface and a first opening, where the adhesive surface is at least partially contained within the enclosure and is configured to adhere to an insect. The base portion includes a lighting element and a mounting portion, where the lighting element is configured to provide light to the trap portion and where the mounting portion is configured to communicate with and receive power from a power source. The trap portion is configured to removably engage the base portion and receive light from the base portion when engaged therewith. The base portion includes a snap protrusion and the trap portion includes a snap recess for receiving the snap protrusion, such that when the snap protrusion is received by the trap portion, the base portion and trap portion are engaged in a snap fit.

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 an embodiment, as insect trap is disclosed including: a trap portion including a frame and a membrane having an adhesive surface, wherein the membrane is at least partially contained within the frame and is configured to adhere to an insect; and a base portion including a lighting element and a housing portion, wherein the housing portion is configured to receive and retain the trap portion when engaged therewith.