Abstract: The present invention provides a pest removal device for removing a pest from a surface and a method of using the pest removal device. The pest removal device comprises an engagement side covered by an adhesive layer, a backing side positioned opposite the engagement side, a single release tab covered with a non-adhesive layer extending from the pest removal device for removing the engagement side from the surface.

Abstract: A barrier and a method to bar the passage of termites across the surface of a structure is provided, the barrier being applied to the surface of the structure and comprising a sticky adhesive substance capable of obstructing and entrapping termites which venture onto the surface of the adhesive.

Abstract: The invention is to provide a device for catching phototaxis flying insects, which is utilized by light irradiating to attract the phototaxis flying insects to gather into the device for facilitating catching the phototaxis flying insects, comprises a light reflecting member having a plurality of reflecting portions for reflecting multi-directional diffused light for attracting the phototaxis flying insects; and a catching member for allowing the phototaxis flying insects to be caught and collected.

Abstract: The present invention is directed towards an improved flying insect trap, in the form of a housing and internal disposable portion. In one embodiment, the exterior portion comprises roof and body panels which are manufactured from a poster board paper stock that is printed on opposing sides with contrasting colors. The interior portion comprises a self-adhesive assembly constructed from a heavy weight chipboard material that is preferably white that surrounds an internal attractive element.

Abstract: A device for manually capturing and restraining intended insects, the same comprising a pad of stacked, singular sheets each sheet having a partial enveloping means comprised of hydrophillic absorbing material and collapsible sheet construction whereby the sheet partially conforms in response to the insects body mass. Each sheet has a region is coated with a mild compression adhesive material capable of trapping of an insect in response to the physical manipulation by a human being. The pad of stacked adhesive sheets can be used by separating each sheet individually or as a stack. Upon apprehension of an insect, the sheet restraining the insect is separated, if not already separated from its stack, folded to encase the insect and ready for disposal. The pad of stacked adhesive sheets can have various sheet sizes, thickness and density with varying enveloping ability—all depending upon intended insect to be trapped.

Abstract: A system and device for pest monitoring and eradication includes member having a dark crack and crevice environment for attracting, housing, retaining, and eradicating bedbugs and other similar pests. The system and device provides for boundary barriers adaptable to the perimeter of interconnected planar surfaces to maximize bedbug population monitoring and eradication activities.

Abstract: A device for entrapping crawling insects such as bed bugs, ants, spiders, etc. is disclosed. The device generally includes an elongated strip having at least one cavity longitudinally propagating along the strip and an insect-immobilizing substance disposed in the cavity. In embodiments, the strip may be fabricated for affixing and/or snug or snap fitting to objects being protected from the crawling insects, and the cavities may contain adhesives (e.g., gelatinous-based adhesives), pesticides, or a combination thereof.

Abstract: A system for catching bed bugs, which is created in the form of a strip. This strip is affixed around the perimeter of the mattress or box spring of a bed. This trap which is flat in appearance is comprised of a continuous recessed pocket throughout the entire strip. Within this recessed pocket lays a coating of a gelatinous substance: The Trapping Agent. The bedbug trap is attached to an average bed with the aid of embedded elastic for flexibility and a snug fit.

Abstract: Trapping devices for biting and nuisance flies, and fleas are disclosed. Device optionally include: a trap housing; a trapping surface, positioned in the trap housing, for trapping insects, the trapping surface having an exposed sticky side; a light-emission module, positioned in the trapping surface, having at least one LED light source; a light-transmitting casing for covering the light-emission module, a heating film for emitting heat in a vicinity of the trapping surface, an attractant compartment in the trap housing; an attractant drawer configured to be inserted into the attractant compartment, and configured to hold at least one insect attractant; and at least one attractant-dispersant aperture configured to emit at least one insect attractant in front of the trapping surface. Other disclosed devices include a trapping ramp for catching fleas, and a shadow mode for enhancing insect attraction. Other disclosed devices include an attractant combined with a sticky sheet.

Abstract: A glue trap includes a thin flexible layer of non-drying adhesive is deposited on a substantially flat flexible substrate. Both the adhesive layer and the substrate are of extended length and extremely flexible. The glue trap is provided in roll form and may be mounted in a dispenser which facilitates cutting the glue trap to a desired length at the job site.

Abstract: An insect trap method and apparatus is provided. The apparatus includes a durable housing formed from a single plastic sheet and configured to include a flappable hook and an enclosure having two open ends, such that the enclosure includes a plurality of surfaces. The apparatus also includes at least one insect trap liner, such that the at least one insect trap liner releasably attaches to at least one of the plurality of surfaces. The method includes inserting at least one replaceable insect trap liner into a durable housing. Within this embodiment, the housing is formed from transparent plastic and configured to include a flappable hook and an enclosure having two open ends, such that the enclosure includes an interior wall and an exterior wall. This method also includes the step of hanging the housing from the flappable hook onto a desired location.

Abstract: An insect trap comprises a housing, an ultraviolet light with a peak wavelength of 340 to 380 nm operatively connected to the housing, and a bait including an attractant proximate the ultraviolet light. The ultraviolet light and the bait in the housing have a synergistic effect that is greater than a sum of the ultraviolet light alone and the bait alone.

Abstract: This invention provides a safe and effective product for extinguishing of insects (particularly Wasps, Bees and other flying insects). The device comprises a spray can or other spraying type device containing glue which can be sprayed in conjunction with an insecticide which is effective against nesting and/or other flying insects. When the user approaches a hornet's nest the individual can spay this device at the opening of the hole which will effectively seal the hole (entrance to the nest) and kill the inhabitants. Typically (prior to this invention) one would spray a wasp nest and run for their lives in hope of not getting stung. This device will saves thousands or lives and will be a significant advance in the art of preventing medical and loss of work and other cost due to bee and wasp stings.

Abstract: A trap for ectoparasitic arthropods with cryptic behavior, such as bed bugs, includes one or more dimensions of attractants, as well as the physical attributes of hiding places preferred by bed bugs. The trap may have an adhesive or fabric layer disposed within it, and the adhesive or fabric layer may include a non-volatile attractant such as a fecal matter attractant. With respect to attractants, such a trap may include one or more of a slow CO2 leaker device, one or more temperature gradient generators, one or more heated air generators, one or more cool infra-red (IR) sources, one or more volatile chemical attractants, and one or more non-volatile chemical attractants.

Abstract: A device for interrupting the gestating cycle of a mosquito includes a container having a bottom wall and side walls. A generally porous sheet of material is placed over the upper opening thus formed in the container by securing it to the periphery of the container. Double sided tape, mechanical clips, etc. may be used to attach the porous material to the periphery of the container to cover the open area. The porous sheet of material is farametis and contains apertures that are small enough to prevent an adult mosquito from passing through it but yet allow evaporation of water placed into the container and water molecules through the apertures. A sticky substance is placed on the outer surface of the porous sheet. Water is evaporated from the container and water molecules are released through the apertures into the atmosphere above the porous sheet. Gestating mosquito's are attracted to the device and attempt to enter the container to lay there eggs in the water within the container but can not.

Abstract: An insect monitoring and trapping device is provided according to the invention. The device includes a base and a lid for covering the base, and is constructed to provide a trap interior and an insect opening for insects to access the trap interior. The device includes a heating device provided within the trap interior for attracting insects, and an adhesive surface provided within the trap for trapping insects.

Abstract: A reporting system for collecting, communicating and analyzing information from a plurality of pest monitoring locations is disclosed. The monitored locations include activity sensing pest devices. These devices can include traps and/or passive and active monitoring devices not having a trapping or killing functionality. While traps may constitute the majority of activity sensing pest devices in a given pest control program, devices which only monitor pest activity may be preferred in some locations and applications. The system includes automatic reporting from the plurality of activity sensing pest devices and also includes physical inspection data. Preferably an automatic real-time communication system is used, with the preferred communication system being a radio-frequency (RF) or other over-the-air system. However, hardwired systems, use of a personal digital assistant (PDA) as an interim data carrier, and other technologies may also be employed.

Abstract: The invention is a insect trapping device comprising a truncated, tapered hollow body such as a truncated cone or pyramid having a nondrying glue substantially covering its interior surface. The glue has a removable covering that protects it when it is in its package or ready to deploy configuration. It may be placed on a horizontal surface with the large opening facing down or hung in an overhead position with the large opening facing up. The device may be sized for different applications: a large version placed over dung in a field will capture house flies, while a smaller version put on a countertop using overripe fruit as an attractant will capture fruit flies. Various embodiments are presented that allow the embodiment to be folded, stacked, or flattened for storage. The invention traps members of the insecta class (e.g. flies), members of the arachnid class (e.g. spiders) and other arthropods.

Abstract: A device can capture small pests with a sheet overlaying a perforated panel. The sheet may be one layer or several separable and disposable layers with pest detaining adhesive applied to at least a portion of an outer side. The sheet has a marginal recess with a deflected pull tab that is no longer or wider than the recess. The perforated panel has a handle and a peripheral wall with a first and a second section rising in opposite directions from the panel. The panel has at least one overhang projecting inwardly from the peripheral wall for holding the sheet in place. The outer side of said sheet is adhesive free in a region located under the overhang. A cover can fit on the panel and at least partially cover it. The cover has at least one internal detent for engaging the panel and holding it in place.

Abstract: A ceiling system includes a number of longitudinal beams and/or transverse beams to be arranged in longitudinal arrangement and/or transverse arrangement in a building space, a number of ceiling panels to be arranged on the longitudinal and/or transverse beams, and at least one insect catching device, which: a horizontal holder supported by the transverse beams and/or longitudinal beams; one or more electrical lamps for emitting ultraviolet light to the surrounding area for the purpose of attracting insects; a connecting element for connecting the lamp to the domestic mains supply; and a fixing element for fixing insects attracted by the light.

Abstract: A method for preventing and controlling insect pests is provided. First, the spectral sensitivities of photoreceptors in the compound eye of the insects were measured intracellularly by equal quantum flux measurements; the measured signals were preamplified and then sent to a PC-based data acquisition system. Next, the colored papers were chosen according to the spectral sensitivities of the photoreceptors to test the color preference of the insect, and the data was analyzed with the ANOVA test. A linear model was used to analyze the choice rate data obtained from the color preference tests. Finally, the spectra of the colors, which preference of the insect were obtained to further developing a visual cue trap.

Abstract: A reporting system collects, communicates and analyzes information from a plurality of pest monitoring locations. The monitored locations include activity sensing pest devices. These devices can include traps and/or passive and active monitoring devices not having a trapping or killing functionality. The system includes automatic reporting from the plurality of activity sensing pest devices and also includes physical inspection data. Preferably an automatic real-time communication system is used, with the preferred communication system being a radio-frequency (RF) or other over-the-air system. However, hardwired systems, use of a personal digital assistant (PDA) as an interim data carrier, and other technologies may also be employed. Manual input devices for providing the additional physical inspection data on the activity sensing pest device parameters and a computer based report generator (of the resulting combined data) provide for a robust and efficient pest monitoring and/or trapping tool.

Abstract: Trap for mosquito mainly constituted by a base (2) , a basket (3) and a cover (4), characterized in that: the base (2) has a clear colour, contrasting with respect to the one of the basket (3); the basket (3) has a dark colour, contrasting with respect to the one of the base (2); the cover (4) is mainly constituted by a covering member (8) and by partitions which can be fixed with greater length than the one of the height of the basket (3) so that the covering member (8) does not rest onto the edge (9) of the basket (3) and leaves then an opening (10), wherein the partitions delimitate niches and house adhesive disposable slips of paper, whereon the mosquitoes remain attached.

Abstract: Several embodiments of an insect trap using attractant light displayed on a projection surface are disclosed. The insect trap can be mounted on a vertical surface or on a ceiling surface. The wall-mounted housing forms an upwardly facing opening for facilitating entry of flying insect pests and for the reflection of light onto the vertical surface. The ceiling-mounted housing has a lateral opening for facilitating entry of pests and for reflection of light onto the ceiling and/or opposite wall. Insects that enter the trap are immobilized on an adhesive surface within the trap. A method of trapping insects is also disclosed.

Abstract: Apparatus and systems to control pest populations are described herein. In one example, the apparatus may include an enclosure comprising two sides and a top having an opening is configured to receive a transparent panel.

Abstract: A device (1) for catching and collecting insects is described, comprising an elongate carrier (2) intended for carrying an adhesive (K); guide means (6) for mounting the carrier (2) in such a way that it is displaceable in its longitudinal direction; drive means (31, 32) for making the carrier (2) move in its longitudinal direction; and application means (42) for applying an adhesive (K) onto the carrier (2) when the carrier (2) moves past the application means (42). Preferably, the device is provided with cleaning means (51) for removing adhered insects from the carrier (2) when the carrier (2) moves past the cleaning means (51). Preferably, the carrier is arranged along the contour of a space and provided with lures, which then have a spatial action and prevent insects from entering the space.

Abstract: A fruit fly trap whose exterior shape represents a piece of fruit such as an apple, orange, banana or the like. The trap housing includes a bottom base portion and a top cover portion. The cover contains various holes through which fruit flies can gain access to the interior of the trap. The trap also includes a locking mechanism for securing the base and cover together. Located inside the trap is a natural product attractant stored within the interior of the trap. The construction of the trap is such that the liquid or powder attractant is retained inside the trap so it will not spill out. Also, a disabling adhesive is located on a glueboard insert and/or on the interior walls of the trap. Thus, when fruit flies enter the trap they will get caught in the adhesive or simply die because they cannot escape.

Abstract: There is provided a capturing apparatus for capturing flying insects, comprising: a UV lamp; a birdlime cartridge; a birdlime configured to be wound to the birdlime cartridge; and a means for winding the birdlime at a variable speed.

Abstract: The present invention is directed toward an apparatus for controlling flying insects about the head of a person and includes a head covering sized and dimensioned to fit upon the head of the person being bothered by flying insects. A card having a bottom surface, a top surface, and an insect trapping surface is removably attached to the head covering and oriented such that the bottom surface is next to the head covering and the top surface that includes the insect trapping surface is facing outward away from the head cover. The insect trapping surface includes an adhesive coating that is sufficiently sticky to adhere insects and moreover, includes a removable covering that protects the adhesive layer prior to use. The present invention also includes at least one covering flap for covering the adhesive coating after use to cover said adhesive surface and any trapped insects on said insect trapping surface.

Abstract: An insect trap using attractant light, comprising a source of insect attractant light and a housing that can be mounted on a generally planar or flat mounting surface. The housing and the source of light cooperate to form a bidirectional or a multidirectional (overlapping or non-overlapping) pattern of insect attractant light. The housing comprises one, two or more openings for the insect attractant light that is reflected and radiated onto the flat mounting surface. The housing and the source of insect attractant light can cooperate to form a light pattern directed in a continuous display pattern that can surround the housing. The housing openings further facilitate the entry of flying insect pests into the trap. As the insects enter the trap, they are immobilized on an insect immobilization surface mounted within the trap.

Abstract: This invention relates to novel apparatus and methods which use specific wavelengths of visible light, or combinations of specific wavelengths of visible light with specific wavelengths of ultra-violet light, to manipulate the behavior of stored product insect pests, including moths and Indian meal moths. The apparatus for attracting stored product insect pests, including (but not limited to) the Indian meal moth, Plodia interpunctella, the Mediterranean flour moth, Ephestia kuhniella, the tobacco moth, Ephestia elutella, the almond moth, Cadra cautella, and the raisin moth, Cadra figulielella, consists of a light source placed in a trap.

Abstract: An insect trap having a rear cover attached to a wall which is connected to a separate and removable front cover. The front cover can be primarily round in shape with a plurality of slats and a shiny exterior appearance. An adhesive member, such as a sticky board, can be attached to the rear surface of the front cover. A light bulb is disposed within a ballast/socket member attached to the front of the rear cover. Once plugged in, light from the bulb is primarily and substantially retained within the trap by its capture in view of the rounded ends of the rear cover. The light illuminates the trap itself to attract insects to the area between the rear and front covers where the adhesive member is positioned.

Abstract: A method for preventing and controlling insect pests is provided. First, the spectral sensitivities of photoreceptors in the compound eye of the insects were measured intracellularly by equal quantum flux measurements; the measured signals were preamplified and then sent to a PC-based data acquisition system. Next, the colored papers were chosen according to the spectral sensitivities of the photoreceptors to test the color preference of the insect, and the data was analyzed with the ANOVA test. A linear model was used to analyze the choice rate data obtained from the color preference tests. Finally, the spectra of the colors, which preference of the insect were obtained to further developing a visual cue trap.

Abstract: An insect control tape that includes a substrate having a longitudinal direction with a first face and a second face opposite the first face. An insecticide or other pest control agent is applied to the first face in a longitudinal strip with adjacent side regions that are free of the agent. An adhesive covers at least part of the second face to anchor the tape on a floor. A web covers the first face and the agent. A consumer can press the tape down on a floor by contacting the web to install the tape, with reduced risk of contacting active, while still permitting crawling insects such as roaches to normally contact the active as they crawl over the tape.

Abstract: Various embodiments of the present invention are directed to insect-attraction apparatuses and methods of fabricating and using such apparatuses. One embodiment of an insect-attraction apparatus includes a lure containing an insect-attractive substance. The insect-attraction apparatus also includes a housing having a chamber, with the lure positioned inside the chamber. The chamber is partially defined by a bond between interior surfaces of the housing. When the bond is severed, the housing may be expanded to form a passageway that allows access to the lure.

Abstract: A mosquito trap includes: a container defining an inner space therein and having a top opening in fluid communication with the inner space and adapted for entrance of mosquito therethrough and into the inner space; a perforated plate mounted in the container, dividing the inner space into first and second chambers, and formed with a plurality of apertures in fluid communication with the first and second chambers; and a carbon dioxide generating attractant disposed in the second chamber of the container.

Abstract: Apparatus, methods, and systems provide for the trapping and disablement of wood-boring insects such as carpenter bees. According to various embodiments described herein, a wood-boring insect trap includes a trap body, at least one longitudinal passage, and at least one insect entryway. The longitudinal passage is positioned within the trap body so that it is exposed when the wood-boring insect trap is not installed on a structure to be protected and enclosed when the trap is installed on the structure. The entryway intersects the longitudinal passage and allows wood-boring insects to enter the trap, proceed to the passage, where the insect will encounter an insect disabling substance. According to embodiments, the insect disabling substance may be a poison, glue, or a combination thereof.

Abstract: A bug trap device for capturing bugs or insects in midair or resting on a surface. The entire bug trap device can be disposable, or a portion thereof. A preferred embodiment utilizes a reusable handle and a disposable insert.

Abstract: A flying insect trap is described including a source of insect attractant light, an insect immobilization device, and a housing partially surrounding the source of light. The housing includes a chassis configured to be attached to a mounting surface, an upper housing pivotally attached to the chassis, and a lower housing that is removably attached to the lower portion of the chassis. In an alternative embodiment, the housing of the trap includes a chassis and a lower housing, where the lower housing includes a lip that surrounds a support structure for an insect immobilization device.

Abstract: The present invention provides a pest removal device for removing a pest from a surface and a method of using the pest removal device. The pest removal device comprises an engagement side covered by an adhesive layer, a backing side positioned opposite the engagement side, a single release tab covered with a non-adhesive layer extending from the pest removal device for removing the engagement side from the surface.

Abstract: A flying insect trap containing a light, a fan, and a heater is disclosed. A light controller controls the operation of the light, so that the light can turn off or blink when it is time to change the adhesive paper that traps the insects or the bait that attracts the insects.

Abstract: A insect trap system for absorbing bodily fluids and preventing insects from spreading from a dead animal. The insect trap system includes a collection mat having a plurality of dividers defining a center zone and surrounding zones. An absorbent material is attached to the center zone with the surrounding zones filled with an adhesive for catching insects. The collection mat includes a folding portion for allowing folding of the collection mat into a compact storage position. A cuff having a conical shape has adhesive applied to the interior surface thereof. The cuff includes a slit for allowing positioning about the leg of an animal or a rope or other structuring supporting the animal.

Abstract: A decorative fly trap for household use includes a sconce having a housing including a bottom section and an overhead cover partially enclosing a source of UV light, and an adhesive trapping medium. The cover includes an intermediate surface extending from behind the UV light source upwardly and over the UV light source to a location forward of the light source. A base mount is removably assembled to the bottom of the unit so that the unit may either be wall mounted or supported on a horizontal surface, such as a table. A UV reflective coating is applied to the interior exposed surfaces of the housing including the curved intermediate surface of the cover to enhance the reflection of UV light out into the room and downwardly in front of the to attract insects. The housing includes a horizontal aperture for admitting reflected light from within the sconce onto a front surface of a lower tier of the bottom section for attracting insects as well as for presenting an attractive appearance.

Abstract: A flying insect trap is described including a source of insect attractant light, an insect immobilization device, and a housing partially surrounding the source of light. The housing includes a chassis configured to be attached to a mounting surface, an upper housing pivotally attached to the chassis, and a lower housing that is removably attached to the lower portion of the chassis. In an alternative embodiment, the housing of the trap includes a chassis and a lower housing, where the lower housing includes a lip that surrounds a support structure for an insect immobilization device.

Abstract: A glue board assembly includes a first substrate member which has a first adhesive layer and a release member formed with a release layer overlying the first adhesive layer. A second substrate member has a second adhesive layer. The second substrate member is disposed overlying the release member with the second adhesive layer in contact with the release layer. The release layer enables a user to peel the first and the second substrate members apart thereby exposing the adhesive layers for use in entrapping vermin.

Abstract: An insect captivating device comprising in combination, two flaps, and a first frame pivotally supporting the flaps, a sticky surface associated with one or both flaps, and a second frame operatively connected to the flaps to displace them for pivoting toward one another to close upon an insect as the second frame is displaced relative to the first frame, for captivating an insect stuck on said surface.

Abstract: A flying inspect trap has a source of UV light to attract insects and an adhesive sheet to trap them. A concave housing which encloses the light source and the trapping medium has a series of narrow light-transmissive slits in a front wall to permit a direct partial viewing of the source from the front of the unit to enhance insect attraction. A cover mounted above the housing has a reflecting surface in the form of a band shell which reflects light from the source out into the room as well as downwardly in front of the unit, and prevents light from shining directly or indirectly on the wall above the housing.

Abstract: An adhesive device for capturing insects includes a thin main body with a mirrored, operative surface upon which an adhesive material is disposed for capturing insects upon contact. The mirrored surface provides a reflection similar to water so as to attract insects, such as mosquitoes, which are naturally drawn toward water. The device may include one or more insect attractants such as odors, pheromones, food, blood, urine, glow-in-the-dark materials and glitter. An opposite surface includes additional adhesive material for affixing the device to an object, surface or area where usage is desired.

Abstract: A safe, indoor trapping device for trapping and killing flying insects can be used in areas containing food, containing animals, for food preparation, etc. The device includes at least one removable trap body, a toxicant panel, and an insect collector.

Abstract: An insect control station provides an analog signal to a speaker and delivers acoustic energy from the speaker to a resonator positioned in the path of the acoustic energy. The analog signal can be provided from a memory by way of a digital to analog converter, from a digital signal processor, or from a mechanical element. Preferably, the acoustic energy emitted from one or more of the control stations of any of these arrangements is simulative of at least a portion of a heartbeat. The control station can include a surface that supports a pesticide, a gluey substance, an attractant (e.g., a pattern), and can deliver one or more feeding stimulants such as acetone, lactic acid, octenol, heat, carbon dioxide or some other byproduct of respiration or digestion.