A portable, heated scent, odor, and/or molecule dispense system is provided, as well as devices and methods for doing the same. The portable systems and methods to dispense molecules may contain a liquid, gel, solid, foam, or other material-based formulation so as to attract, repel, kill, mask, or otherwise use the molecules. The portable system and methods may include a housing; a molecule holding pad in the housing; a first chemical reaction heat source in the housing; and a second chemical reaction heat source in the housing, wherein the molecule holding pad is arranged between the first chemical reaction heat source and the second chemical reaction heat source, and wherein the first chemical reaction heat source and the second chemical reaction heat source are each reactive to oxygen.

An adhesive-type insect trap includes a body having a hole for insertion of an adhesive sheet; a light source mounting unit disposed on the body; and a cover which is detachably mounted on the body and has a through-hole in at least a part thereof, and an adhesive sheet including a sticky substance and a sheet. The body includes a guide unit by which the adhesive sheet is guided, and the cover comprises a light refraction unit therein or on a surface thereof.

An insect trap is provided with a bottle for holding insects and a conically-shaped insert for insertion into the bottle The insert includes holes for permitting light and visibility. The trap and/or trap insert may be made from a plastic or a polymer. Further, insect attracting scents may be injected or impregnated into the plastic or polymer. A chemical exhibiting phosphorescence or photoluminescence may also be combined with the plastic and/or polymer.

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.

An insect trap device and methods of using the device are described herein. In some embodiments, an insect trap includes a light source, a removable enclosure with at least one opening, an adhesive surface at least partially within the enclosure, and optics to redirect light from the light source onto an adhesive trapping surface. The light source may include at least one light emitting diode (LED). The optics may be attached to the removable enclosure, and may be located at least partially within the enclosure. The optics may include optical enhancers such as a reflector, a lens and/or a diffuser. The insect trap may further include an insect attractant that emits sound or scent.

An insect trap is provided. 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, wherein 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, 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. 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, wherein when the snap protrusion is received by the trap portion, the base portion and trap portion are engaged in a snap fit.

A carpenter bee trap includes a plurality of walls surrounding a trap cavity, at least one entrance opening formed through at least one of the plurality of walls, a bottom wall coupled to a bottom of the plurality of walls, an exit opening formed through one of the walls or the bottom wall, a container disposed within the trap cavity and extending through the exit opening and into the external environment, and a funnel disposed within the cavity to direct carpenter bees into the container.

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.

A device for monitoring and catching insects from the culicidae population, including a first container with first elements for attracting the insects; a second container, positioned inside the first container, and resting on it by a plurality of tie rods, an open upper base and a lower base, the second container provided with a second plurality of elements for attracting insects; a device for generating air flow, which is positioned at the lower base of the second container to suck in insects close to the device, from the outside towards the inside of the second container through the open upper base; and a perforated bag, positioned at the open upper base, which extends to the device for generating air flow, for monitoring and catching insects sucked inside.

A discrete and safe automated insect monitoring system includes a housing, an interior chamber within the housing, and a light source arranged within the housing to illuminate at least a portion of a floor surface of the interior chamber. A multi-pixel optical sensor is arranged within the housing so that a field of view of the sensor comprehends a substantial portion of the floor surface. A processing circuit arranged within the housing receives optical data from the multi-pixel optical sensor, analyzes the optical data to detect the intrusion of an insect or other object into the interior chamber by comparing most recently received optical data to previously received optical data, and generates an indication in response to detecting the intrusion of an insect or other object. Detection and/or classification results can be wirelessly forwarded to another device, to alert appropriate personnel.