A three-dimensional structure is provided which is obtained by molding a volatile chemical-containing resin composition into a plate form, wherein the three-dimensional structure includes through-holes penetrating therethrough from the front to the back thereof, the through-holes have peripheries having a shape selected from polygonal, circular, circular arc and spiral shapes when the three-dimensional structure is viewed from the front, and the peripheries of the through-holes are formed on a single plane or on a smoothly curved imaginary surface.

A three-dimensional structure is provided which is obtained by molding a volatile chemical-containing resin composition into a plate form, wherein the three-dimensional structure includes through-holes penetrating therethrough from the front to the back thereof, the through-holes have peripheries having a shape selected from polygonal, circular, circular arc and spiral shapes when the three-dimensional structure is viewed from the front, and the peripheries of the through-holes are formed on a single plane or on a smoothly curved imaginary surface.

A carpenter bee trap includes a plurality of walls surrounding a trap cavity, at least one entrance opening formed through at least one of the plurality of walls, a bottom wall coupled to a bottom of the plurality of walls, an exit opening formed through the bottom wall, a container disposed within the trap cavity and extending through the exit opening and beyond a bottom of the trap, and a funnel disposed within the cavity to direct carpenter bees into the container.

This invention relates to fly traps and specifically a window mounted fly trap which allows flies to enter from below or above and which has an internal barrier to prevent passage upward or downward through the trap. A window mounted fly trap comprising: (a) a frame for mounting to a window surface by detachable window mounting means; (b) a resilient cover having a non-adhesive first surface facing to the exterior of the frame and an adhesive second fly capture surface within the interior of the frame; said frame and cover defining therein a fly capture chamber; (c) the capture chamber having at least one ingress slot for permitting flies to enter the chamber; (d) wherein the flies walking on the surface of said window are permitted to enter the capture chamber and whereby the flies, when attempting to fly, contact the fly capture adhesive and are captured by said capture surface.

This invention relates to fly traps and specifically a window mounted fly trap which allows flies to enter from below or above and which has an internal barrier to prevent passage upward or downward through the trap. A window mounted fly trap comprising: (a) a frame for mounting to a window surface by detachable window mounting means; (b) a resilient cover having a non-adhesive first surface facing to the exterior of the frame and an adhesive second fly capture surface within the interior of the frame; said frame and cover defining therein a fly capture chamber; (c) the capture chamber having at least one ingress slot for permitting flies to enter the chamber; (d) wherein the flies walking on the surface of said window are permitted to enter the capture chamber and whereby the flies, when attempting to fly, contact the fly capture adhesive and are captured by said capture surface.

A ventilation structure is set on a parting portion between an outer wall member and an eave member, and extends in a longitudinal direction along the parting portion. The ventilation structure includes an outer wall base member, the outer wall member provided on the outer wall base member through a furring strip, the eave member provided upward beyond the outer wall member and an upper end of the furring strip, and a ventilation member set in a space between the outer wall base member, the furring strip, the outer wall member and the eave member for ventilating an aeration layer between the outer wall base member and the outer wall member and an exterior. The ventilation member is constituted of a frame member and an aeration member set on the frame member. The frame member includes a first vertical portion, a top surface portion, a second vertical portion and a bottom surface portion. The aeration member includes a plurality of vent holes passing through the same from an outer surface to an inner surface.

An entry barrier for a doorway includes a first strip, mechanically coupled to a jamb and a threshold around a strike plate. A second strip is mechanically coupled to the jamb and the threshold around the strike plate and parallel to the first strip. A printed circuit board in a power source unit is electrically coupled to the first strip and the second strip. The printed circuit board directs electrical power from the power source unit to the first strip and the second strip such that a pest contacting the first strip or the second strip is electrocuted.

An entry barrier for a doorway includes a first strip, mechanically coupled to a jamb and a threshold around a strike plate. A second strip is mechanically coupled to the jamb and the threshold around the strike plate and parallel to the first strip. A printed circuit board in a power source unit is electrically coupled to the first strip and the second strip. The printed circuit board directs electrical power from the power source unit to the first strip and the second strip such that a pest contacting the first strip or the second strip is electrocuted.

An extruded thermoplastic product having a surface abrasive to insects. The extruded product is formed from a dry powder composition being comprised of a thermoplastic polymer, a plurality of pelletized diatomaceous earth, and a plurality of expandable microballoons. The composition is mixed and heated in an extrusion machine before being forced into a die of selected profile. Cooling the material immediately after being removed from the die allows the diatomaceous earth to remain at the surface of the material. The material with the surface abrasive to insects is used is used as a component in a product, such as conventional weatherization products, for placement in a building opening that insects use as ingress to the building. Products contemplated for use with the extrusion include door sweeps, door and window seals, and thresholds.

In an embodiment, as insect trap is disclosed including: a trap portion including an enclosure having an adhesive surface and a first opening, wherein the adhesive surface is at least partially contained within the enclosure and is configured to adhere to an insect; and a base portion including a lighting element and a mounting portion, wherein the lighting element is configured to provide light to the trap portion, and wherein the mounting portion is configured to communicate with and receive power from a power source; and a first heating element in communication with the power source, wherein the trap portion is configured to removably engage with the base portion and receive light from the base portion when engaged therewith, and wherein the first heating element provides heat to at least a portion of the trap when the trap is engaged.