The invention relates to an insect trapping device comprising an elongated hollow housing (1) having a control unit (10) with a power supply unit arranged therein, an insect collection container (15), an axial fan (16), a carbon dioxide reservoir (17) having at least one sprayer (4) that is arranged on an external surface of an upper portion of the housing (1) over an inlet of the fan (16), a receiving chamber (8) having meshy external walls (7), and a light source (12) and an incoming air flow guide (14) arranged in the receiving chamber. This structure enables to create the effective trap in which a creation of a large-sized area for attracting and trapping of the insects is achieved.

The invention relates to an insect trapping device comprising an elongated hollow housing (1) having a control unit (10) with a power supply unit arranged therein, an insect collection container (15), an axial fan (16), a carbon dioxide reservoir (17) having at least one sprayer (4) that is arranged on an external surface of an upper portion of the housing (1) over an inlet of the fan (16), a receiving chamber (8) having meshy external walls (7), and a light source (12) and an incoming air flow guide (14) arranged in the receiving chamber. This structure enables to create the effective trap in which a creation of a large-sized area for attracting and trapping of the insects is achieved.

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.

An attracting assembly is positioned at an upper location to attract fleas. A killing assembly is positioned at an intermediate location beneath the attracting assembly to kill the attracted fleas. A moving assembly is positioned at a lower location beneath the killing assembly for maximizing the number of fleas attracted and killed.

An attracting assembly is positioned at an upper location to attract fleas. A killing assembly is positioned at an intermediate location beneath the attracting assembly to kill the attracted fleas. A moving assembly is positioned at a lower location beneath the killing assembly for maximizing the number of fleas attracted and killed.

An attracting assembly is positioned at an upper location to attract bed bugs. A killing assembly is positioned at an intermediate location beneath the attracting assembly to kill the attracted bed bugs. A base assembly is positioned at a lower location beneath the killing assembly for maximizing the number of bed bugs attracted and killed. A control assembly has a user visible digital UPC code, a battery power percentage indicator with an ON/OFF button and a sound activated switch, a cell phone with a macro-lens for wide angle photography with enlargements, and two light emitting diodes positioned adjacent to the macro-lens to illuminate bed bugs to be photographed.

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.

In one aspect, an insect trap is provided to comprise: a main body having formed with an opening exposing an inside thereof; an ultraviolet LED lamp comprising an ultraviolet LED, a substrate on the surface of which the ultraviolet LED is mounted, a base for forming an accommodation space for accommodating the substrate, and a pair of electrode pins protruding from the base so as to be electrically connected to the substrate; the pair of electrode pins being arranged in a UV emitting direction of the UV LED lamp; a mounting unit comprising a mounting plate placed inside the main body and a socket coupled to the mounting plate and securing the electrode pins to the mounting plate such that the UV LED lamp is placed inside the main body; and a trapping unit provided in the main body and located adjacent to the UV LED lamp.

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.