An insect-trapping device includes a container, a funnel element, a photo interrupter and a controller. The container is formed with an inlet and an accommodation space connected to each other. The funnel element is with light-absorbed color, placed on the inlet, and inserts into the accommodation space. The photo interrupter is located within an inner passage of the funnel element for sensing whether at least one of insects passes through the inner passage from the inlet. The controller is electrically connected to the first photo interrupter for counting the insects passing through the inner passage according to the photo interrupter.

An insect-trapping device includes a container, a funnel element, a photo interrupter and a controller. The container is formed with an inlet and an accommodation space connected to each other. The funnel element is with light-absorbed color, placed on the inlet, and inserts into the accommodation space. The photo interrupter is located within an inner passage of the funnel element for sensing whether at least one of insects passes through the inner passage from the inlet. The controller is electrically connected to the first photo interrupter for counting the insects passing through the inner passage according to the photo interrupter.

A quick cleaning structure and a mosquito-killing lamp applying the same, the quick cleaning structure includes a lamp holder and a high-voltage support, the high-voltage support includes a plurality of high-voltage tubes and a sliding cleaning member provided with a plurality of sliding through-holes, at least one ends of the high-voltage tubes are fixedly mounted on the lamp holder and are disposed in parallel with each other, each high-voltage tube passes through the sliding through-hole provided at a corresponding position, the sliding cleaning member slides along an outer wall of the high-voltage tubes. The sliding cleaning member of the quick cleaning structure slides along the high-voltage tubes under an external force, and the sliding through-holes provided in the sliding cleaning member are in contact with the outer wall of the high-voltage tubes to clear mosquito bodies adhered on the outer wall of the high-voltage tubes.

A quick cleaning structure and a mosquito-killing lamp applying the same, the quick cleaning structure includes a lamp holder and a high-voltage support, the high-voltage support includes a plurality of high-voltage tubes and a sliding cleaning member provided with a plurality of sliding through-holes, at least one ends of the high-voltage tubes are fixedly mounted on the lamp holder and are disposed in parallel with each other, each high-voltage tube passes through the sliding through-hole provided at a corresponding position, the sliding cleaning member slides along an outer wall of the high-voltage tubes. The sliding cleaning member of the quick cleaning structure slides along the high-voltage tubes under an external force, and the sliding through-holes provided in the sliding cleaning member are in contact with the outer wall of the high-voltage tubes to clear mosquito bodies adhered on the outer wall of the high-voltage tubes.

A removable substrate for an insect attractant device includes a body having front and rear faces, a grip portion, and a base disposed opposite the grip portion. The removable substrate further includes a first lateral portion extending from the base, and a second lateral portion extending from the base. A projection extends outwardly from the base, lowermost ends of the first and second lateral portions are disposed below the projection, and an adhesive is applied to the front face and the rear face.

A beehive pest trap includes a first surface, second surface, and side beams. The side beams are coupled to and support the second surface. The side beams are coupled to and positioned on the first surface. The second surface is coupled to and positioned on the side beams. The first surface, second surface, and side beams form a gate entrance. The second surface is positioned parallel to the first surface. The second surface is wider than the first surface. The gate entrance is positioned proximate to an insect trap. The second surface is L-shaped. The trap also includes a screen and a trap drawer. The first surface comprises a lateral side. The lateral side and the side beam form a cavity. The trap door is slidably positioned in the cavity. The insect trap includes the trap drawer. The second surface includes a pest door slidably coupled thereto.

A beehive pest trap includes a first surface, second surface, and side beams. The side beams are coupled to and support the second surface. The side beams are coupled to and positioned on the first surface. The second surface is coupled to and positioned on the side beams. The first surface, second surface, and side beams form a gate entrance. The second surface is positioned parallel to the first surface. The second surface is wider than the first surface. The gate entrance is positioned proximate to an insect trap. The second surface is L-shaped. The trap also includes a screen and a trap drawer. The first surface comprises a lateral side. The lateral side and the side beam form a cavity. The trap door is slidably positioned in the cavity. The insect trap includes the trap drawer. The second surface includes a pest door slidably coupled thereto.

A solar powered lighting element with a simulated flame and an electric insect eliminator includes a lighting portion with a conducting grid and a light portion that simulates a flickering flame which are powered by a rechargeable battery that is recharged using a solar panel. One or more UV light elements are provided in addition to the flickering flame to attract insects.

A solar powered lighting element with a simulated flame and an electric insect eliminator includes a lighting portion with a conducting grid and a light portion that simulates a flickering flame which are powered by a rechargeable battery that is recharged using a solar panel. One or more UV light elements are provided in addition to the flickering flame to attract insects.

A beehive pest trap includes a first surface, second surface, and side beams. The side beams are coupled to and support the second surface. The side beams are coupled to and positioned on the first surface. The second surface is coupled to and positioned on the side beams. The first surface, second surface, and side beams form a gate entrance. The second surface is positioned parallel to the first surface. The second surface is wider than the first surface. The gate entrance is positioned proximate to an insect trap. The second surface is L-shaped. The trap also includes a screen and a trap drawer. The first surface comprises a lateral side. The lateral side and the side beam form a cavity. The trap door is slidably positioned in the cavity. The insect trap includes the trap drawer. The second surface includes a pest door slidably coupled thereto.