An insect trap device efficiently catches and traps insects. The device includes a connector coupled to a housing such that the housing is configured for being coupled to a surface. A rod is coupled to and extends from the housing to be parallel to the surface. A motor is positioned in the housing and coupled to the rod to move the rod between a raised position and a lowered position. A motion sensor is positioned on the housing adjacent to the rod wherein the motion sensor is configured for detecting an insect within a range of movement of the rod. The motion sensor triggers the motor to move the rod when the motion sensor detects the insect. An adhesive is exposed on a surface of the rod wherein the adhesive is configured for adhering the insect to the rod when the rod contacts the insect.

An insect trap device efficiently catches and traps insects. The device includes a connector coupled to a housing such that the housing is configured for being coupled to a surface. A rod is coupled to and extends from the housing to be parallel to the surface. A motor is positioned in the housing and coupled to the rod to move the rod between a raised position and a lowered position. A motion sensor is positioned on the housing adjacent to the rod wherein the motion sensor is configured for detecting an insect within a range of movement of the rod. The motion sensor triggers the motor to move the rod when the motion sensor detects the insect. An adhesive is exposed on a surface of the rod wherein the adhesive is configured for adhering the insect to the rod when the rod contacts the insect.

It is important to trap and identify mosquitos to ensure the safety of the population where mosquitos gather. The classification of a type of mosquito is typically accomplished by a unique wingbeat signature that is characteristic of different types of mosquitos. One of the goals of the trap is to quickly identify the mosquito and then quickly release the mosquito. This application will allow the user to obtain an approximate population so that the appropriate type and amount of insecticide can be applied to control the population to insure the health of the human and animal population while at the same time minimizing danger to the environment or surrounding ecosystem.

It is important to trap and identify mosquitos to ensure the safety of the population where mosquitos gather. The classification of a type of mosquito is typically accomplished by a unique wingbeat signature that is characteristic of different types of mosquitos. One of the goals of the trap is to quickly identify the mosquito and then quickly release the mosquito. This application will allow the user to obtain an approximate population so that the appropriate type and amount of insecticide can be applied to control the population to insure the health of the human and animal population while at the same time minimizing danger to the environment or surrounding ecosystem.

An insect light trap generally including a housing, a lamp for attracting insects mounted in the housing, a first space for receiving a first insect trap, and a second space contained in the housing. The second space has received therein a module including a second insect trap. The second insect trap includes an advanceable adhesive surface for trapping the insects and a motor to advance the adhesive surface.

An insect light trap generally including a housing, a lamp for attracting insects mounted in the housing, a first space for receiving a first insect trap, and a second space contained in the housing. The second space has received therein a module including a second insect trap. The second insect trap includes an advanceable adhesive surface for trapping the insects and a motor to advance the adhesive surface.

The invention relates to methods of trapping a pest, said method comprising providing ferromagnetic particles for ingestion by the pest, and trapping the pest using one or more magnets, wherein a trapped pest has ingested and internally accumulated an amount of the ferromagnetic particles sufficient to permit immobilization of the pest using said one or more magnets. Devices for use with the methods of the instant invention are also disclosed.

It is important to trap and identify mosquitos to ensure the safety of the population where mosquitos gather. The classification of a type of mosquito is typically accomplished by a unique wingbeat signature that is characteristic of different types of mosquitos. One of the goals of the trap is to quickly identify the mosquito and then quickly release the mosquito. This application will allow the user to obtain an approximate population so that the appropriate type and amount of insecticide can be applied to control the population to insure the health of the human and animal population while at the same time minimizing danger to the environment or surrounding ecosystem.

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.