A device for applying, for a predetermined interval, heated air which is heated to a pest extermination temperature to a to-be-treated automobile which is housed in a freely accessible manner in a treatment chamber to exterminate pests inside the automobile includes a circulation fan device arranged in the treatment chamber, a suction part of which is oriented toward the inside of the treatment chamber, a heating member mounted in a discharge part of the circulation fan device, and a rectification member for adjusting the flow direction of the heated air delivered into the chamber via the heating member.

A device for applying, for a predetermined interval, heated air which is heated to a pest extermination temperature to a to-be-treated automobile which is housed in a freely accessible manner in a treatment chamber to exterminate pests inside the automobile includes a circulation fan device arranged in the treatment chamber, a suction part of which is oriented toward the inside of the treatment chamber, a heating member mounted in a discharge part of the circulation fan device, and a rectification member for adjusting the flow direction of the heated air delivered into the chamber via the heating member.

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.

There is disclosed a method for early detection of termite activity within a suspect zone of a building that contains environmental noise maskable of the termite activity. An environmental knowledge base may be collected to represent identified termite activity plus background noises present in the suspect zone. A termite pattern library may represent a variety of termite sound patterns discoverable during a termite inspection without noise. A deep learning model may be trained on the sound patterns and the environmental knowledge for learning to discern the presence of termite activity and for producing an intelligent algorithm installable in the sampling device. A primary audio transducer may be configured to the sampling device and directed toward a sample location in the suspect zone to collect an audio sample. By operation of the intelligent algorithm, the device may indicate the presence of at least one sound pattern of the termite activity.

There is disclosed a method for early detection of termite activity within a suspect zone of a building that contains environmental noise maskable of the termite activity. An environmental knowledge base may be collected to represent identified termite activity plus background noises present in the suspect zone. A termite pattern library may represent a variety of termite sound patterns discoverable during a termite inspection without noise. A deep learning model may be trained on the sound patterns and the environmental knowledge for learning to discern the presence of termite activity and for producing an intelligent algorithm installable in the sampling device. A primary audio transducer may be configured to the sampling device and directed toward a sample location in the suspect zone to collect an audio sample. By operation of the intelligent algorithm, the device may indicate the presence of at least one sound pattern of the termite activity.

An insect seizing bin device and method for snatching insects for removal includes a band. The band includes a front surface, a back surface, a top surface and a bottom surface. The band is a supple material being bendable. A first fold line is positioned near the top surface of the band. The first fold line positions a first fold portion perpendicular to the back surface of the band. Additionally, a second fold line is positioned near to the first fold line of the band. The second fold line positions a second fold portion perpendicular to the back surface of the band and positioning the first fold portion parallel to the back surface the band. A strip is positioned on the front surface of the band. The strip is an adhesive material being retaining a plurality of insects upon the strip by physical contact.

An insect seizing bin device and method for snatching insects for removal includes a band. The band includes a front surface, a back surface, a top surface and a bottom surface. The band is a supple material being bendable. A first fold line is positioned near the top surface of the band. The first fold line positions a first fold portion perpendicular to the back surface of the band. Additionally, a second fold line is positioned near to the first fold line of the band. The second fold line positions a second fold portion perpendicular to the back surface of the band and positioning the first fold portion parallel to the back surface the band. A strip is positioned on the front surface of the band. The strip is an adhesive material being retaining a plurality of insects upon the strip by physical contact.

A window mounted fly trap includes a frame comprising a top surface, a bottom surface disposed on a side of the frame opposite the top surface, and a mount extending from the bottom surface away from the frame. The frame defines an interior and the mount is constructed to detachably mount to a window surface. The trap also includes a cover attached to the top surface of the frame enclosing the interior at the top surface of the frame, the cover comprising an adhesive fly capture surface configured to face the window surface, the frame, cover, and window surface defining therein a fly capture chamber. The trap further includes at least one ingress in the frame for permitting flies to enter the fly capture chamber.

A window mounted fly trap includes a frame comprising a top surface, a bottom surface disposed on a side of the frame opposite the top surface, and a mount extending from the bottom surface away from the frame. The frame defines an interior and the mount is constructed to detachably mount to a window surface. The trap also includes a cover attached to the top surface of the frame enclosing the interior at the top surface of the frame, the cover comprising an adhesive fly capture surface configured to face the window surface, the frame, cover, and window surface defining therein a fly capture chamber. The trap further includes at least one ingress in the frame for permitting flies to enter the fly capture chamber.

Method and apparatus for a pest control device mounting system configured for mounting pest control devices in a building and using them to control pests. The pest control device mounting system including a mounting bracket, which may have a circumferential portion defining a portal. In some examples, the mounting bracket includes a flange portion suitable for attaching to the perimeter of a cavity in a building surface. The pest control device mounting system including a plug configured to be removably attached to the mounting bracket and to substantially close the portal when attached to the mounting bracket, wherein the plug is configured to accommodate a pest control device.