A system for luring pests including a pest detector and a pest lure. The pest detector may be adapted to generate a type detection signal having a value indicative of a type of a pest in proximity to the pest detector. The pest lure may be in electrical communication with the pest detector and adapted to activate responsive to the type detection signal.

The invention relates to an insect trap (10) and more particularly to an insect trap which has been designed to facilitate simple and efficient servicing, maintenance and cleaning. In a first aspect the trap comprises a. a back housing (12); b. a frame (14) swing mounted to said housing; and c. a cover (16) comprising openings (18) allowing insects to enter the trap and the frame supports one or a plurality of lights (22) such that said frame and lights can be moved from a first position where they overlie the back housing, to a second position where they lie clear of the back housing such that an insect catching means (100) which may be fitted over the back housing is readily accessible for replacement during servicing. In another aspect the trap comprises a. a back housing (12); b. a plurality of lights (22); and c. a cover (16) and the trap is adapted for ease of servicing and jet cleaning by the provision of shields (60) each of which sealably protect, from water ingress, a plurality of lights (22) at the positions where they connect to electrical fittings (24). In yet another aspect there is provided an insect capture means (100) with a general capture surface (102) and a separate surface (104) designed to facilitate record keeping.

The invention relates to an insect trap (10) and more particularly to an insect trap which has been designed to facilitate simple and efficient servicing, maintenance and cleaning. In a first aspect the trap comprises a. a back housing (12); b. a frame (14) swing mounted to said housing; and c. a cover (16) comprising openings (18) allowing insects to enter the trap and the frame supports one or a plurality of lights (22) such that said frame and lights can be moved from a first position where they overlie the back housing, to a second position where they lie clear of the back housing such that an insect catching means (100) which may be fitted over the back housing is readily accessible for replacement during servicing. In another aspect the trap comprises a. a back housing (12); b. a plurality of lights (22); and c. a cover (16) and the trap is adapted for ease of servicing and jet cleaning by the provision of shields (60) each of which sealably protect, from water ingress, a plurality of lights (22) at the positions where they connect to electrical fittings (24). In yet another aspect there is provided an insect capture means (100) with a general capture surface (102) and a separate surface (104) designed to facilitate record keeping.

Object detection systems are provided herein. An example system includes an enclosure formed by a sidewall to define an interaction volume, at least one light source for illuminating the interaction volume with a light, at least one light sensor that senses disturbances in light intensity due to scattering, reflection, or absorption of the light by objects within the interaction volume, and a controller that is configured to detect an object or object behavior within interaction volume based on the disturbances in the light intensity.

Object detection systems are provided herein. An example system includes an enclosure formed by a sidewall to define an interaction volume, at least one light source for illuminating the interaction volume with a light, at least one light sensor that senses disturbances in light intensity due to scattering, reflection, or absorption of the light by objects within the interaction volume, and a controller that is configured to detect an object or object behavior within interaction volume based on the disturbances in the light intensity.

A moving assembly has a base with a base bottom, a side wall, a rectangular conduit formed in the base bottom, and a fan with a motor mounted on the base bottom, and a collector box for collecting mosquitos. The fan functions to create a vacuum for drawing in mosquitos. A killing assembly has an upper dish and a lower dish. The upper dish has electrically charged wires. A pool in the lower dish constitutes a container for standing water. Air tubes are laterally spaced and vertically oriented. The air tubes have upper ends disposed above the pool to draw in mosquitos entering the vicinity of the upper ends and lower ends received in the rectangular conduit.

A moving assembly has a base with a base bottom, a side wall, a rectangular conduit formed in the base bottom, and a fan with a motor mounted on the base bottom, and a collector box for collecting mosquitos. The fan functions to create a vacuum for drawing in mosquitos. A killing assembly has an upper dish and a lower dish. The upper dish has electrically charged wires. A pool in the lower dish constitutes a container for standing water. Air tubes are laterally spaced and vertically oriented. The air tubes have upper ends disposed above the pool to draw in mosquitos entering the vicinity of the upper ends and lower ends received in the rectangular conduit.

A base assembly has an upward plate, a downward plate, a side wall, a front, a back, and laterally spaced sides. A drive assembly has drive wheels which extend downwardly from the downward plate and has a caster wheel. The drive assembly also has proximity sensors. A vacuum assembly has a vacuum slit formed in the downward plate between the laterally spaced sides. A source of vacuum pulls a vacuum through the vacuum slit. A tower assembly attracts and kills insects while the base assembly and tower assembly are driven by the drive assembly and the vacuum assembly vacuums up insects.

A base assembly has an upward plate, a downward plate, a side wall, a front, a back, and laterally spaced sides. A drive assembly has drive wheels which extend downwardly from the downward plate and has a caster wheel. The drive assembly also has proximity sensors. A vacuum assembly has a vacuum slit formed in the downward plate between the laterally spaced sides. A source of vacuum pulls a vacuum through the vacuum slit. A tower assembly attracts and kills insects while the base assembly and tower assembly are driven by the drive assembly and the vacuum assembly vacuums up insects.

The present document relates to an insect trap using an ultraviolet light-emitting diode (UV LED) lamp, and more particularly, to an insect trap using, in place of a conventional UV light source lamp, a UV LED lamp that significantly increases the insect trapping efficiency. One example implementation of the insect trap includes: a UV LED lamp disposed in an air inlet portion of the duct, and including a printed circuit board (PCB) that has a UV LED chip mounted thereon; an installing portion for installing the UV LED lamp on; and a trapping portion provided near the installing portion.