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.

Provided is a blowing device that can provide improved convenience. In a blowing device 1 provided with a casing 2 that has openings as an air inflow port 20 and an air blow-off port 5 formed therethrough and includes a blower 10 therein, a cover member 3 that is demountably mounted to the casing 2 so as to cover the inflow port 20 and has a plurality of openings each formed therethrough as an air suction port 4, and an insect catching portion 50 that is arranged on an inner surface of the cover member 3 and catches insects, the insect catching portion 50 is formed by stacking, via a release agent, a plurality of insect catching sheets 51 each formed of a base material sheet 52 with an adhesive 53 applied on one surface thereof.

Provided is a blowing device that can provide improved convenience. In a blowing device 1 provided with a casing 2 that has openings as an air inflow port 20 and an air blow-off port 5 formed therethrough and includes a blower 10 therein, a cover member 3 that is demountably mounted to the casing 2 so as to cover the inflow port 20 and has a plurality of openings each formed therethrough as an air suction port 4, and an insect catching portion 50 that is arranged on an inner surface of the cover member 3 and catches insects, the insect catching portion 50 is formed by stacking, via a release agent, a plurality of insect catching sheets 51 each formed of a base material sheet 52 with an adhesive 53 applied on one surface thereof.

A bladeless fan with mosquito killing function, having a base and a wind chamber; the base has an air blower inside; the wind chamber is in communication with an inner cavity of the base; a wall of the wind chamber is provided with an air outlet gap for blowing out an air stream; an electric mosquito killing device is provided in the base below the air blower; through holes are provided on the base (1) for inlet of mosquitos and insects as well as the air stream into the base.

A bladeless fan with mosquito killing function, having a base and a wind chamber; the base has an air blower inside; the wind chamber is in communication with an inner cavity of the base; a wall of the wind chamber is provided with an air outlet gap for blowing out an air stream; an electric mosquito killing device is provided in the base below the air blower; through holes are provided on the base (1) for inlet of mosquitos and insects as well as the air stream into the base.

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.

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.

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.

APPARATUS FOR REMOVING HEAD LICE, designed on the basis of a base casing (2) comprising a drier (3) formed from a first electric motor (4) with an air-blowing turbine and a resistance (5), coupled to a first flexible tube (6) which comprises, on the distal end thereof, a detachable applicator head (7) with prongs (8) via which hot air is expelled. It also comprises a suction device (9) formed by a second electric motor (10) with an air suction turbine coupled to a second flexible tube (11) with a detachable suction nozzle (12), a dismountable filter (13), a very fine nit-removing-type comb (14), an electronic circuit (18), and at least one temperature sensor (17) which is connected to the electronic circuit (18) and determines the automatic actuation of the power-saving system on the basis of pre-established temperature parameters.