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.

An insect trap including a light source part to emit a light, a fan disposed under the light source part, a housing to accommodate the fan, and a trapping part disposed under the fan and coupled to the housing. The trapping part includes a trapping net including an opening facing the fan, a body frame coupled to the trapping net, at least one first rib crossing the body frame, and a shutter part coupled to the body frame to be spaced apart from the first rib and opened or closed depending on an operation of the fan.

An insect trap including a light source part to emit a light, a fan disposed under the light source part, a housing to accommodate the fan, and a trapping part disposed under the fan and coupled to the housing. The trapping part includes a trapping net including an opening facing the fan, a body frame coupled to the trapping net, at least one first rib crossing the body frame, and a shutter part coupled to the body frame to be spaced apart from the first rib and opened or closed depending on an operation of the fan.

The present disclosure 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. The insect trap according to the present disclosure 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.

The present disclosure 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. The insect trap according to the present disclosure 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.

An insect trap is adapted to attract and collect insects with UV light. The insect trap includes: a main body; an insect filter disposed on the main body and allowing insects to pass therethrough; a motor disposed below the insect filter; a suction fan disposed under the motor and rotated by the motor; a plate-shaped UV LED installation unit disposed above the insect filter and provided with a UV LED module; a buttress supporting the UV LED installation unit above the main body while separating the UV LED installation unit above the main body so as to allow insects to be suctioned into a space between the main body and the UV LED installation unit; and an insect collector disposed under the main body and collecting insects.

An insect trap is adapted to attract and collect insects with UV light. The insect trap includes: a main body; an insect filter disposed on the main body and allowing insects to pass therethrough; a motor disposed below the insect filter; a suction fan disposed under the motor and rotated by the motor; a plate-shaped UV LED installation unit disposed above the insect filter and provided with a UV LED module; a buttress supporting the UV LED installation unit above the main body while separating the UV LED installation unit above the main body so as to allow insects to be suctioned into a space between the main body and the UV LED installation unit; and an insect collector disposed under the main body and collecting insects.

The present invention relates to an insect trap for attracting insects using a UV LED and sucking and capturing the attracted insects with a fan. The insect trap of the present invention comprises: a body; a suction part provided on one side of the body; a fan installed behind the suction part; at least one UV LED, provided on the body at least around the fan, for irradiating ultraviolet rays forward; a discharge part for discharging air sucked in by the suction part in a direction different from the air suction direction of the suction part; a duct which is an air passage from the suction part to the discharge part; a first streamlined inner surface, provided on an inner wall side opposite to a direction in which the duct extends on the basis of the suction part, for guiding air sucked into the suction part toward the duct; and an insect net, installed in the discharge part, for passing the air therethrough and capturing insects being sucked in together with the air.

The present invention relates to an insect trap for attracting insects using a UV LED and sucking and capturing the attracted insects with a fan. The insect trap of the present invention comprises: a body; a suction part provided on one side of the body; a fan installed behind the suction part; at least one UV LED, provided on the body at least around the fan, for irradiating ultraviolet rays forward; a discharge part for discharging air sucked in by the suction part in a direction different from the air suction direction of the suction part; a duct which is an air passage from the suction part to the discharge part; a first streamlined inner surface, provided on an inner wall side opposite to a direction in which the duct extends on the basis of the suction part, for guiding air sucked into the suction part toward the duct; and an insect net, installed in the discharge part, for passing the air therethrough and capturing insects being sucked in together with the air.