An insect trap with at least one inflow channel structured and arranged for drawing insects into the housing, and at least one outflow channel structured and arranged to direct airflow to atmosphere. A region between the inflow channel and outflow channel provides space for the user to place textile containing human odor as the insect attractant, or artificial human odor, or any other insect attractant. A suction source is located within the housing and in fluid communication with the inflow channel, the region where attractant is located, and the outflow channel. An insect disabling structure is located between the inflow channel and outflow channel.

A method of verifying product authenticity includes emitting, by an electromagnetic radiation source in communication with a processor, radiation to heat one or more pieces of ferromagnetic material in or on a product. The method also includes detecting, by a heat sensor in communication with the processor, heat emitted from the one or more pieces of ferromagnetic material that are in or on the product. The method further includes determining, by the processor, if the product is counterfeit based on the detected heat.

A method of verifying product authenticity includes emitting, by an electromagnetic radiation source in communication with a processor, radiation to heat one or more pieces of ferromagnetic material in or on a product. The method also includes detecting, by a heat sensor in communication with the processor, heat emitted from the one or more pieces of ferromagnetic material that are in or on the product. The method further includes determining, by the processor, if the product is counterfeit based on the detected heat.

Disclosed embodiments relate to a combination axial fan, LED lighting system and electric blue killer. The disclosed systems may include a housing forming an air chamber and an axial fan. The fan may include a fan cavity having an air diversion mechanism to direct air from the fan cavity toward the lighting, fan and electric bug killing components. The inventions include an airflow surface to direct air existing the fan cavity along an LED light fixture. The LED light fixture emits a blue or light blue light which attracts bugs. Moreover, disclosed embodiments include one or more electric bug killing devices to kill any bugs as air flows through the air chamber. The present invention may also include grow light fixture in the housing.

Disclosed embodiments relate to a combination axial fan, LED lighting system and electric blue killer. The disclosed systems may include a housing forming an air chamber and an axial fan. The fan may include a fan cavity having an air diversion mechanism to direct air from the fan cavity toward the lighting, fan and electric bug killing components. The inventions include an airflow surface to direct air existing the fan cavity along an LED light fixture. The LED light fixture emits a blue or light blue light which attracts bugs. Moreover, disclosed embodiments include one or more electric bug killing devices to kill any bugs as air flows through the air chamber. The present invention may also include grow light fixture in the housing.

A compact insect trap providing a liquid attractant to lure insects and a fan to draw insects into a container. The container is detachable for ease of cleaning and filling with the attractant. Insects converge near the fumes at a narrow annular passage on the perimeter of the device. An internal fan is activated by a timing circuit and provides intermittent bursts of air directed inside and towards the container. Airflow continues upwards through a screen, the fan, and expelled past a unidirectional valve near the top of the device. Nearby insects are suctioned into the container and are retained within due to the screen, thus preventing contamination of moving parts. As airflow is paused, insects are released from the screen where they fall or fly into the attractant. Other embodiments are described and shown.

A compact insect trap providing a liquid attractant to lure insects and a fan to draw insects into a container. The container is detachable for ease of cleaning and filling with the attractant. Insects converge near the fumes at a narrow annular passage on the perimeter of the device. An internal fan is activated by a timing circuit and provides intermittent bursts of air directed inside and towards the container. Airflow continues upwards through a screen, the fan, and expelled past a unidirectional valve near the top of the device. Nearby insects are suctioned into the container and are retained within due to the screen, thus preventing contamination of moving parts. As airflow is paused, insects are released from the screen where they fall or fly into the attractant. Other embodiments are described and shown.

A vacuum machine has a rectangular deck, having a centerline, a width and a length, an underside and an upper side, a front edge and a rear edge, and side edges. Sidewalls extend below the deck along the side edges. There is an opening through the deck, substantially centered between the front edge and the rear edge, and between the sidewalls, a powered air blower coupled through a plenum above the deck to the opening, such that operating the blower draws air through the opening from beneath the deck, a killing mechanism disposed at an outlet from the blower, adapted to kill insects entrained in air drawn through the plenum, and a horizontally-oriented passage coupled to the outlet from the blower, directing air having entrained insects dead or alive away from the machine. The machine travels in the direction of the centerline advancing the first front edge of the deck.

A vacuum machine has a rectangular deck, having a centerline, a width and a length, an underside and an upper side, a front edge and a rear edge, and side edges. Sidewalls extend below the deck along the side edges. There is an opening through the deck, substantially centered between the front edge and the rear edge, and between the sidewalls, a powered air blower coupled through a plenum above the deck to the opening, such that operating the blower draws air through the opening from beneath the deck, a killing mechanism disposed at an outlet from the blower, adapted to kill insects entrained in air drawn through the plenum, and a horizontally-oriented passage coupled to the outlet from the blower, directing air having entrained insects dead or alive away from the machine. The machine travels in the direction of the centerline advancing the first front edge of the deck.

The present invention relates to formulations useful for affecting the behaviour of mosquitoes. More specifically, the present invention relates to formulations for activating mosquitoes such as for attracting mosquitoes. The present invention further provides methods and dispensers incorporating these formulations. The formulation comprises a thio compound as the active, preferably a thioether such as allyl methyl sulphide (AMS), 1-methylthio-propane, 3-methylthio-propanol (MTPL), (E)-1-methylthio-1-propene, (Z)-1-methylthio-1-propene, or derivatives thereof.