Abstract: A pest control system (20) includes pest control devices (110) installed about an area or building (22). These devices (110) each include a bait member and a communication circuit. The communication circuit may be in the form of a passive RF tag that transmits information indicative of bait status and an identifier unique to each pest control device (110). A hand held interrogator (30) is provided to locate and communicate with the pest control devices (110) via the communication circuit. A data collection unit (40) to accumulate data gathered from the pest control devices (110) may alternatively or additionally be utilized. The bait member may be configured with a magnetic component to provide a magnetic signature indicative of the bait consumption behavior of targeted varieties of pest. The devices optionally include one or more environmental sensors to evaluate and predict pest behavior.

Abstract: A method of controlling pests, such as insects, by trapping and/or killing them wherein at least part of a pest to be trapped or killed is exposed to a composition comprising particles containing or consisting of at least one magnetic material.

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 method for detecting infestation of grain-damaging insects in grain stored in a storage facility. This method comprises a first step of placing an insect trapping device that traps grain-damaging insects in the storage facility and leaving the device in the storage facility for a predetermined length of time, and a second step of detecting infestation of grain-damaging insects in the grain on the basis of how many grain-damaging insects have been trapped in the insect trapping device after the first step. The insect trapping device has a base that is impermeable to water or oil, a porous substrate that is disposed on one side of the base and is capable of holding water or oil, and water or oil held in the porous substrate.

Abstract: A multi-insect trap is capable of capturing a predetermined kind of insects, while preventing other undesirable insects from entering into the trap. The multi-insect trap includes a trap housing, an insect guider, and an ant isolation arrangement. The insect guider includes an attractant carrier supported within the trapping chamber and a plurality of cone-shaped guiding channels spacedly and inwardly extended from the surrounding wall for guiding the insect to enter into the trapping chamber. The ant isolation arrangement has two ant boundaries provided on a top ceiling and a bottom seat of the trap housing respectively, wherein the two ant boundaries are adapted for being filled with liquid as two ant resisting borders respectively for preventing ants to reach the surrounding wall so as to stop the ants from entering into the trapping chamber through the guiding channels.

Abstract: A method of controlling pests, such as insects, by trapping and/or killing them wherein at least a part of a pest to be trapped or killed is exposed a composition comprising particles containing or consisting of at least one magnetic material.

Abstract: The present invention relates to an attractant system for mounting to an insect trapping apparatus.

Abstract: In an insect lure and trap, a system for generating a carbon dioxide attractant has a combustion chamber in which carbon dioxide is generated by means of an exothermic reaction from a gaseous fuel rich in carbon. A container contains a pressurized supply of said fuel and a supply line connects said container to said combustion chamber. A normally closed valve is included in said supply line. The system includes means for sensing the temperature in said combustion chamber and for generating a control signal representative of said temperature. A controller responsive to said control signal compares said temperature to a reference temperature and opens said valve during selected segments of successive equal time intervals.

Abstract: A disposable flying insect trap having an entry plate with a plastic bag affixed to the entry plate periphery and including entry plate port openings for receiving the insects. The entry plate is sealed by a lid which is removable for insertion of liquid therewithin. The lid is positionable from its sealed position to a second position spaced from the entry plate surface and defining a gap therebetween to enable the insects to fly into the bag interior, attracted by the bait within the bag. The lid is removable from the entry plate by a hang cord which, when pulled, dislodges the lid from the entry plate surface.

Abstract: A housing has an upper and lower portion. Each portion has a recessed interior face, an exterior face and a periphery there around. The upper portion and the lower portion are coupled together with spacers. An aperture is provided between the upper and lower portions. A light source has an upper extent and a lower extent. The upper extent of the light source has a plurality of LEDs. The LEDs are positioned radially and are contained in a shield. The light source is adapted to be positioned such that the LEDs are in line with the aperture, the light source further having a power source with a heat source and bait.

Abstract: A method and system for detecting the presence of subterranean termites, involving use of a thermal imaging camera to scan the structure before installation of an acoustic sensor in order to quickly locate potential areas of subterranean termite infestation, and an acoustic sensor in the form of an accelerometer or the disclosed innovative acoustic sensors having a bandwidth of at least 100 Hz to 15 kHz to detect noises made by the subterranean termites. Information collected by the acoustic sensor may be transmitted to a portable mini-computer (pocket PC) for confirmation and to a central operations center for inclusion in a comprehensive database of termite data and information.

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: An apparatus provides for the killing of insects by trapping the larvae. In one preferred embodiment, the apparatus includes a container with a protrusion and a second non-horizontal surface, such as a funnel, positioned above the protrusion. The funnel defines an opening above the protrusion. A barrier may also be included that abuts the underside of the funnel. A liquid is placed in the container at a level at least above the opening such that eggs laid in the water become larvae that swim downward and are directed through the opening by the funnel and are directed away from the opening by the protrusion. The larvae either drown or become trapped adult mosquitoes. It is noted that this abstract is provided to comply with the rules requiring an abstract that allows a searcher or reader to ascertain quickly the subject matter of the technical disclosure and is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims.

Abstract: The present invention provides an apparatus and method for attracting mosquitoes by using the microbe product as the mosquito bait as well as simulating the human emanated odors. A bait-releasing unit/means is included to enhance the release of the mosquito bait. A well-controlled heating assembly can be used to generate a suitable thermal gradient for simulating body temperature and evaporating the bait. The microbe product comprises at least a sterilized supernatant of a bacterial incubation product. The apparatus of this invention can further include electrocution grids or insecticide webs to destroy attracted mosquitoes.

Abstract: A mosquito dispersing device having means for generating a mosquito dispersing pitch pattern having a frequency in the range of at least one of a wing beat frequency of a dragonfly and a wing beat frequency of a damselfly, means for generating a signal having a frequency of the mosquito dispersing pitch pattern for use with an amplifier, and means for amplifying the signal to power at least one speaker to produce vibrations of the mosquito dispersing pitch pattern in a dispersing area to rid the area of mosquitos.

Abstract: A flexible bag and attachment mechanism is provided that may be used in a variety of applications where it is desirable to attach a flexible bag to a device or machine. Some examples of such device may include an insect trap, a grinder, volumetric or weight based filler and liquid dispenser, food or perishable storage, etc. According to one embodiment, the bag portion of the device is disposable and the attachment device is reusable. In one variation a tapered neck is attached to the opening of the bag. The tapered neck connects within a tapered collar of the device by way of a press fitting. The neck is flexible so that it can be deformed to a shape that permits it to enter into the collar, and is resilient so that it can return to its original tapered ring configuration to engage the tapered inner circumference of the collar. The bag may be attached to a dispenser for dispensing material. The dispenser may be in part, a grinder or mixer.

Abstract: Traps are disclosed for controlling flying insects such as wasps. The traps are pre-packaged with attracting liquid prior to sale, and then sealed with a peel-off film in a manner that prevents leakage prior to use. When the trap is about to be used, the peel-off film is removed to expose both a trap entry and a pivotable stand. A rain/sun shield is then mounted on the stand, preferably with the upper portion of the stand projecting through the shield to form part of a hanger.

Abstract: The present invention is an arthropod trap including a housing and containment chamber. The housing includes external openings, an overhang, and an internal tube and plate with entry ports. Attracted by bait in the containment chamber, arthropods fly in through the external openings, and then travel through the entry ports in the plate into the containment chamber. Alternatively, arthropods can directly enter the containment chamber through optional entry ports. The containment chamber can be a box or other rigid container, or a bag. This trap can be used to contain or monitor the populations of many different types of flying arthropods, including but not limited to flies, wasps, and yellow jackets.

Abstract: The present application discloses a system for trapping flying insects, utilizing carbon dioxide in conjunction with one or more biochemical lures, visual lures or both. Preferably, a biochemical lure such as lactic acid, a salt of lactic acid, or combinations thereof, are employed in particular geometric shapes contained in specifically designed housing to ensure an effective release rate over extended periods of time.

Abstract: A housing is provided for attracting and eradicating mosquitoes. The interior walls of the housing is painted with a dark color such as black and it is coupled to a water container with an air duct. An electrified conductive grid is mounted at a large front opening of the main housing. A mixture of water and charcoal is placed in the water container. A louver panel is mounted in front of the electrified conductive grid to provide a shield as well as a canopy against rain and sun light. An interior container having a plurality of open top compartment is located in the main housing with various selected organic materials placed in those compartments for creating an environment in the main housing attractive to various types of mosquitoes.

Abstract: A non-destructive flying insect detector is disclosed. The detector creates a sheet or curtain of light comprising a sensing zone and detects, by means of light extinction, individual flying insects that intersect the sensing zone. The sensing zone is created by a beam of light that enters the sensing zone area and is then bounced between opposing reflective surfaces. Preferably a laser is utilized to generate the beam of light. The beam of light leaves the sensing zone area and is incident on a light detection device (such as a photo cell) connected to an amplifier circuit. The light detection device monitors the light intensity and is arranged and configured to detect changes in the light intensity. The changes are electronically converted to a pest detection signal and/or to a flying insect count. Each flying pest detection signal may also be associated with other monitored data.

Abstract: The invention provides a series of lamp-cum-insect exterminators in which guides serve to guide and/or deflect insects towards an extermination chamber. There is a primary light source within the guides which serves to attract insects towards the lamp and a secondary light source within the extermination chamber which serves to attract the insects down the guides into the chamber.

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: An electrically operated, self contained device that eliminates mosquitos by attracting the mosquitos to lay their eggs in trays of water provided in the device and periodically filtering the eggs from the water. The eggs that have been filtered out of the water are then mechanically destroyed by crushing them. The filtered water is recycled to a water supply tank for reuse in refilling the trays of water in the device.

Abstract: A method and device for attracting insects involving the generation and/or release of particular amounts of carbon dioxide, in combination with an insecticide that does not repel such insects. Particular formulations as well as devices which incorporate such formulations for trapping, attracting and destruction of particular insects, including boring insects, such as termites and corn root worm insects, is set forth. Particular methods of administration of formulations and devices to enhance insect control and to prevent crop damage are disclosed.

Abstract: A fire ant trap for eradicating fire ants at a mound includes a domed enclosure having a lower rim peripherally engaging the mound and secured thereat by stakes. A tubular auger is threaded at the top end and has a perforated beveled tip that rotates into the top of the mound. A fire ant agent is dispensed to the tip from an upper fill opening that is sealed by a removable cap.

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: Below ground kits, methods, apparatus and configurations for controlling arthropods such as termites, ants, and roaches. An embodiment has alternating layers of a first layer consisting of a mixture of a non-edible foraging matrix mixed with a slow-acting and non-repellant toxicant, where the first layer is adjacent to another layer of non-toxic edible/attractant materials allow for the treatment of different arthropods. The non-edible foraging matrix can be selected from at least one of: soil, gravel, rocks, pebbles, shale, and mixtures thereof. The nontoxic layer can include materials such as foam and cellulose. Different arthropods such as termites, fire ants, carpenter ants, and roaches can be treated with the subject embodiments.

Abstract: An insect-control member includes a flexible or semi-rigid substrate having a thickness and a flexural modulus. The thickness and the flexural modulus are interrelated material properties, one value being defined by the other value so as to satisfy a prescribed criterion. The substrate supports an insect-interactive material. The substrate is generally optimally adapted to radiate pressure waves from a vibration generator to which it may be coupled in order to lure or repel insects.

Abstract: An insect lure and trap system includes a valve that receives a gaseous fuel, and provides a regulated flow of gaseous fuel. The regulated flow of gaseous fuel is input to an exothermic reactor that generates carbon dioxide to attract insects to a predetermined region, where a generated airflow forces insects within the predetermined region into a container. A temperature sensor senses the temperature of the carbon dioxide and provides a carbon dioxide temperature signal indicative thereof to a controller, which generates a valve command signal that regulates the valve in response to the carbon dioxide temperature signal. Advantageously, operating closed loop on catalyst temperature (i.e., gas temperature measured at the catalyst) allows for a more efficient use of the fuel, which is used to generate the CO2 attractant.

Abstract: The vehicle roach trap is an economical and ergonomic paper or plastic cup insect trap containing a bait and which can be placed in the vehicle's cup holder(s). In a first embodiment, a paper cup trap has a lipped transparent plastic concave cover formed by an inverted dome with a small flap at its bottom that will fall open by the insect's weight. A second embodiment has a similar cover, but without the flap, and has at least a portion of the cup interior coated by a sticky, viscous substance. In the latter case, an alternative cover is substantially planar, having a plurality of concave depressions, each depression having a hole defined therein through which the roach may fall. The planar cover may also have resilient, pivotal flaps covering the holes. An adhesive sticker may be provided for sealing the hole(s) for disposal of the trap.

Abstract: An insect and/or arthropod trapping device that generates its own attractants of carbon dioxide (CO2), and ammonia through the chemical reaction of adding a weakly acidic liquid such as vinegar (acetic acid) to solids such as baking soda (sodium bicarbonate), with the optional addition of urea and/or lactic acid. The liquids are mixed over a period of days onto the solids to generate CO2 in the vicinity of an insect/arthropod trap having glue boards that trap the insects and arthropods when they alight on the glue board. The attractants can be used with devices that utilize various combinations of other insect attractants and traps such as sound, light, scent, visual, electrical, chemical, sticky surfaces, mesh nets, etc., to further attract and trap or kill insects and/or arthropods.

Abstract: A termite indicator device (1) for indicating the presence of termites in a house is disclosed. The device (1) comprises a termite bait element comprising a plug (3) and a timber probe (4). The probe (4) is made of a material that is eaten by termites in preference to other timbers. The device is inserted into a hole (7) in a wall (8) having a wall cavity where the probe (4) will be accessible to termites occupying the wall cavity. The probe (4) is positioned lying on the bottom plate (14) of the frame within the wall cavity which is a main path of termite movement within the frame. The plug (3) and probe (4) are connected by a cord (5) and a plastic coupler (2) which enable the probe (4) to be withdrawn in a reverse direction through the hole in the wall. They also enable the probe (4) to lie flat on the plate (14). The plug (3) may be received within a collar (6) which is permanently mounted in the wall (8), e.g. by complementary screw thread formations.

Abstract: A trap for catching mosquitoes uses a plurality of housings that are disposed along a perimeter to be protected against the mosquitoes. Each housing has a heat source, a mesh for trapping the insects, and a fan to pull the insects into the mesh. A first container holds carbon dioxide while a second container holds octenol. The carbon dioxide is pumped through the octenol holding container and the combined carbon dioxide and octenol are passed are mixed and enter a first conduit. Each housing is fluid flow connected to the first conduit and some of the combined carbon dioxide and octenol passes to each housing in order to act as attractants for the insects. A second conduit runs parallel to the first conduit and carries electricity such that when each housing attaches to the first conduit it also attaches to the second conduit in order to provide an electrical connection to the housing's fan and light.

Abstract: A flying insect trapping device configured to be used with a fuel supply containing combustible fuel. The device may include a supporting frame; an insect trap chamber carried on the supporting frame; and a combustion device which may also be carried on the supporting frame. The combustion device comprises an inlet port for connection with the fuel supply, an exhaust port, and a combustion chamber communicating the inlet port with the exhaust port. The inlet port enables the fuel from the fuel supply to flow into the combustion chamber for continuous combustion therein to create an exhaust gas within the combustion chamber. The combustion device further includes a catalyst element disposed within the combustion chamber. The catalyst element has a catalyst body with a plurality of essentially linear elongated conduits for enabling the exhaust gas created in the combustion chamber to flow therethrough towards the exhaust port.

Abstract: A method and apparatus provide for the killing of insects by trapping the larvae, which either prevents development into adults or traps the adults developed from the larvae to prevent further reproduction and harm. In one preferred embodiment, the apparatus includes a container with an inverted cone or other protrusion and a second non-horizontal surface, such as a funnel, positioned above the inverted cone. The funnel defines an opening above the inverted cone. A barrier may also be included that abuts the underside of the funnel. A liquid such as water is placed in the container at a level at least above the opening such that eggs laid in the water become larvae that swim downward and are directed through the opening by the funnel and are directed away from the opening by the inverted cone. The larvae either drown, if the water level is above the barrier, or else become trapped adult mosquitoes that cannot escape from the container.

Abstract: A tamper-resistant pest trap that has an outer housing that simulates a rock typically found in a garden or landscape area around a residence or building. The outer housing includes a substantially flat bottom member and a pivotally attached upper dome-shaped lid member. When the lid member is closed over the bottom member, a large cavity is formed inside the trap. Formed on the bottom member are two, inward extending tunnel cavities that form two partially concealed tunnels that extend under the trap when the trap is placed on the ground. Formed on the perimeter edge of the outer housing is an outer pest opening. From on the bottom member directly over the tunnel cavity is an inner pest opening that allows a rodent to enter the large cavity after traveling through the tunnel. Formed inside the outer housing is a holding tray designed to hold a rodenocide or a mechanical trap capable of killing the rodent. An optional bait paper tray is also formed in the bottom member to hold bait paper.

Abstract: An insect station for insects having a base, a retainer, a cover and a disposable cup. The base and retainer engage the cup about the opening of the cup. The cover engages the base over the opening of the cup to minimize the collection of rain and dirt in the cup. A hole is dug in the ground for the insect station. The base is disposed at about grass level and is anchored with stakes into the turf. Openings between the cover and the base permit insects access to the cup. The cover and base include key and keyhole structures such that a certain level of effort is required to remove the cover from the base. The insect station may be used trapping/monitoring, where the retainer is used in the nature of a funnel to maximize the chances that insects will fall into the cup, where water, beer or another attractant can be placed.

Abstract: A flying insect trapping device configured to be used with a fuel supply containing combustible fuel. The device may include a supporting frame; an insect trap chamber carried on the supporting frame; and a combustion device which may also be carried on the supporting frame. The combustion device comprises an inlet port for connection with the fuel supply, an exhaust port, and a combustion chamber communicating the inlet port with the exhaust port. The inlet port enables the fuel from the fuel supply to flow into the combustion chamber for continuous combustion therein to create an exhaust gas within the combustion chamber. The combustion device further includes a catalyst element disposed within the combustion chamber. The catalyst element has a catalyst body with a plurality of essentially linear elongated conduits for enabling the exhaust gas created in the combustion chamber to flow therethrough towards the exhaust port.

Abstract: A tank cart for an LP tank includes a cart configured for holding an LP tank. The cart includes a frame, at least one wheel and a handle. At least one generally rigid attachment bar is included as a portion of the frame to support an elongated sling that wraps around a side of the LP tank. A means is included for releasably attaching the sling to the frame. When the sling is in place, it supports the tank against the frame to prevent the tank from slipping when the cart is moved to a different location. In a preferred embodiment, the cart is used with an insect trap that utilizes a fuel from a fuel tank to generate gasses that attract insects.

Abstract: An insect trap is disclosed having a dispenser for a chemical insect attractant. The trap includes a trap housing onto which the dispenser is attached. A housing on the dispenser includes a floor, a cover and at least one wall. Inside the dispenser is a compartment configured for holding an insect attractant. There is a plurality of vents in the wall configured for allowing the aroma of the attractant to exit the dispenser housing. Adjacent to the vents, there is a flow regulator that is positionable with respect to the wall and has a plurality of openings. The flow regulator is adjustable between a first position, wherein the openings substantially align with and open the vents, and a second position, wherein the flow regulator blocks at least some attractant flow through the vents. Also included is a means for adjusting the flow regulator from outside the compartment.

Abstract: An insect trap having an airtight sealing mechanism that can be opened and resealed to turn the trap “on” or “off.

Abstract: The present invention provides a method and apparatus for generating the mosquito bait as well as stimulating the human body's surface temperature and emanated odor. A well-controlled heating assembly can be used to generate a suitable thermal gradient for simulating body temperature and evaporating the bait. The bait comprises at least the bacterial fermentation product. The bait is not poisonous to human beings and contains mosquito attractants made from natural products of fermentation or decomposition. The apparatus according to this invention comprises at least an upper compartment for trapping mosquitoes and a bottom compartment including the bait and the beating assembly. This invention can also combine with electrocution grids or insecticide webs to destroy attracted mosquitoes.

Abstract: A trap for insects, particularly for wasps, comprises a vapour chamber having at least one insect entrance defined in a wall of the vapour chamber, and a bait or collection chamber couplable to the vapour chamber at a restriction. The restriction is sized to control the movement of insects between these two chambers. In operation, attractant vapour from a bait source accumulates in the vapour chamber and is released through the entrance. Insects attracted by the attractant vapour enter the vapour chamber and are maintained in flight within it, the restriction delaying their entry into the collection chamber. Once tired, insects drop down into the collection chamber where, in a preferred embodiment, they are immersed in a fluid and drowned.

Abstract: A flexible bag and attachment mechanism is provided that may be used in a variety of applications where it is desirable to attach a flexible bag to a device or machine. Some examples of such device may include an insect trap, a grinder, volumetric or weight based filler and liquid dispenser, food or perishable storage, etc. According to one embodiment, the bag portion of the device is disposable and the attachment device is reusable. In one variation a tapered neck is attached to the opening of the bag. The tapered neck connects within a tapered collar of the device by way of a press fitting. The neck is flexible so that it can be deformed to a shape that permits it to enter into the collar, and is resilient so that it can return to its original tapered ring configuration to engage the tapered inner circumference of the collar. The bag may be attached to a dispenser for dispensing material. The dispenser may be in part, a grinder or mixer.

Abstract: The present application discloses a flying insect trapping device configured to be used with a fuel supply containing combustible fuel. One aspect of the invention provides a fuel regulator for controlling fuel flow in intermittent pulses and another aspect provides a valve for enabling flushing of the combustion device.

Abstract: A method of controlling pests, such as insects, by trapping and/or killing them wherein at least part of a pest to be trapped or killed is exposed to a composition comprising particles containing or consisting of at least one magnetic material.

Abstract: Provided are a sustained release dispenser which can control the release of sex pheromone simultaneously toward two or more species of insect pests and can also release the sex pheromone in response to the generation period of insect pest and the pest control method toward two or more insect pests. Provided specifically is a sex pheromone sustained release dispenser comprising two or more sex pheromone substances, each substance being aliphatic derivative having 10 to 20 carbons, and first and second chambers wherein some or all of the sex pheromone substance having a smallest carbon number excluding a carbon number in a functional group is contained in a first polymer chamber and the remainder is contained in a second polymer chamber. Provided also is a pest control method for using the sex pheromone sustained release dispenser.