This Hand-Held Insect Eliminator is a device comprising two flaps of optimal size and shape, which are connected at one end by a hinge. Intelligently designed integrated finger housings at the hinged end allow the device to be easily opened and snapped shut by a wide variety of hand and finger sizes. The device can be used on many types of insects, whether flying, hanging, crawling, or at rest. It can be operated in mid-air, against a wall, ceiling, or directly against a surface, or just above a surface, depending on the type and location of the insect. The device incorporates a unique containment grid which allows the elimination to be done cleanly.

A non-lethal insect trap, comprising a shaft connected to a two-axis gimbal, a transparent receptacle connected to the gimbal configured to surround an insect, a lid connected to the receptacle and means to rotatably cover and uncover the opening of the receptacle with the lid. Regarding the gimbal, a first axis is configured to automatically return the receptacle to an initial position while a second axis is configured to allow for manual adjustment without returning to an initial position. The trap further comprises a handle connected to the shaft, a cable internally routed through the shaft for connecting the handle with the lid and a spring connected to the lid and receptacle. The spring is configured to rotate the lid to the uncovered position when tension is released rotate the lid to the covered position when tension is applied to the cable.

A non-lethal insect trap, comprising a shaft connected to a two-axis gimbal, a transparent receptacle connected to the gimbal configured to surround an insect, a lid connected to the receptacle and means to rotatably cover and uncover the opening of the receptacle with the lid. Regarding the gimbal, a first axis is configured to automatically return the receptacle to an initial position while a second axis is configured to allow for manual adjustment without returning to an initial position. The trap further comprises a handle connected to the shaft, a cable internally routed through the shaft for connecting the handle with the lid and a spring connected to the lid and receptacle. The spring is configured to rotate the lid to the uncovered position when tension is released rotate the lid to the covered position when tension is applied to the cable.

The invention relates to an active insect capturing device, comprising a capture opening having an opening edge, preferably at least one receiving chamber having at least one chamber wall, at least one glare light source, and an insect trap, wherein the insect capturing device comprises at least one carrying handle and is portable. The invention further relates to an active insect capturing device, comprising a capture opening having an opening edge, preferably at least one receiving chamber having at least one chamber wall, at least one glare light source, wherein the insect capturing device is an, in particular removable, vacuum cleaner attachment for a vacuum cleaner having a carrying handle.

This disclosure provides a method of detecting and deterring a target animal from a target area. A target area is positioned within the field of vision of a video camera connected to a computer processing system. An animal identification computer program using convolution neural networks and deep learning computer programs and camera images rapidly detects a target animal. The animal identification computer program is trained to identify target animals accurately using a learning algorithm and related machine learning technology. The time to deploy a deterrent against a target animal from the instant of detection is 2 seconds or less so that little or no time is available to the target animal to damage the target area.

A tarp system for controlling psylla and other orchard pests that includes two or more tarps sized and shaped to fit the width of an orchard row, a roller with handle, a container, oil, a pole apparatus for dislodging pests, and a broom. A method for using the tarp system includes grounding a first tarp below a tree, saturating a roller with oil in the container, rolling oil onto the tarp with the roller, and tapping tree branches over the tarp to dislodge pests on to the tarp, placing a second tarp slightly under the first tarp, sweeping debris from the first tarp to the second tarp, and disposing of the second tarp.

The present invention relates to a device (1) for neutralizing ectoparasites. In order to prevent a release of toxic substances into a host body by an ectoparasite during its removal the device comprises a container (3) containing a neutralizing freezing medium, preferably an aerosol cooling medium, in particular preferably an aerosol of a mixture of isohexadecane, isopropyl myristate and cooling medium, preferably 1,1,1,2-tetrafluoroethane; a body (2), in which the container (3) is located and which comprises a terminal front wall (21) with a discharge opening (212) located on the axis (O) of the outlet (31) of the container (3) and a terminal rear wall (22); a body end part (23) in a form of a convex shell element that encloses the discharge opening (212) of the terminal front wall (21) on the external side of this wall (21) and comprises an exhaust opening (231) located on the axis (O) of the discharge opening (212) of the terminal front wall (21) at a distance from this discharge opening (212) and at least one vent opening (232).

The present invention relates to a device (1) for neutralizing ectoparasites. In order to prevent a release of toxic substances into a host body by an ectoparasite during its removal the device comprises a container (3) containing a neutralizing freezing medium, preferably an aerosol cooling medium, in particular preferably an aerosol of a mixture of isohexadecane, isopropyl myristate and cooling medium, preferably 1,1,1,2-tetrafluoroethane; a body (2), in which the container (3) is located and which comprises a terminal front wall (21) with a discharge opening (212) located on the axis (O) of the outlet (31) of the container (3) and a terminal rear wall (22); a body end part (23) in a form of a convex shell element that encloses the discharge opening (212) of the terminal front wall (21) on the external side of this wall (21) and comprises an exhaust opening (231) located on the axis (O) of the discharge opening (212) of the terminal front wall (21) at a distance from this discharge opening (212) and at least one vent opening (232).

A method for eradicating ant and other insect nests includes a) providing a water slurry of phyllosilicate mineral, and optional filler material in a container in slurry communication with a nozzle; b) inserting the nozzle into a channel of an ant or insect nest; and c) injecting the water slurry of phyllosilicate mineral through the nozzle and into the ant or another insect nest. A system for carrying out the method includes a container having a water slurry of phyllosilicate mineral, and optional filler material contained therein, wherein the container includes a discharge orifice configured as a nozzle adapted for dispending the water slurry. The water content of the slurry is within the range of 40-95% w/w, and the dry matter content of phyllosilicate mineral is within the range of 4-60% w/w.

A method for eradicating ant and other insect nests includes a) providing a water slurry of phyllosilicate mineral, and optional filler material in a container in slurry communication with a nozzle; b) inserting the nozzle into a channel of an ant or insect nest; and c) injecting the water slurry of phyllosilicate mineral through the nozzle and into the ant or another insect nest. A system for carrying out the method includes a container having a water slurry of phyllosilicate mineral, and optional filler material contained therein, wherein the container includes a discharge orifice configured as a nozzle adapted for dispending the water slurry. The water content of the slurry is within the range of 40-95% w/w, and the dry matter content of phyllosilicate mineral is within the range of 4-60% w/w.