An extendable and adjustable insect entrapment apparatus reaches insects and pests in hard to reach areas through a multi-jointed elongated rod that hinges and pivots into various configuration to reach and entrap the insects with a pad of stacked, singular sticky sheets. The rod has a proximal end with a formed hole for hanging the apparatus from a distal end. At least one joint in the rod is fixedly set at a desired angle and orientation. The sticky sheets retain any insects which travel or fall into a base at the distal end of the rod. Each sheet is coated with a mild compression adhesive material that entraps an insect in response to an application of force against the insect. Each sticky sheet can be separated individually. Upon entrapment of an insect, the outermost sticky sheet restraining the insect is separated, folded to encase the insect, and disposed of.

An insect monitoring system (ISM) and related e-commerce system are provided. The ISM includes an insect attracting light, an intake, an exhaust, an airflow conduit between intake and exhaust, an insect collecting mesh in the conduit, a fan for generating airflow in the airflow conduit, and one or more cameras pointed on the insect collecting mesh. The insect attracting light and the fan are activated such that insects are drawn into the intake and trapped against the insect collecting mesh. The images of the insect collecting mesh are processed and analyzed using a machine learning algorithm to recognize a type and number of insects. Recommendations are provided based on the analysis. In some aspects, the insect monitoring system is connected to electronic client devices over a communication network. The electronic devices are provided with an e-commerce application for sale of products and services responsive to the recommendations.

An insect trap including a base having an upper end defining a cavity for receiving a removable bait cup. A main housing defining a plurality of openings is matable to the base in an upright position. The main housing defines a mounting structure for supporting a hanger for supporting an uncoiled roll of flypaper within the main housing. A spacer centers an uncoiled roll of flypaper within the main housing. An upper cap free from openings allowing passage of any incident water through the upper cap is matable with the upper end of the main housing. The insect trap is capable of free-standing outdoor use, outside of any enclosure or overhanging structure, while resisting penetration of rain/precipitation into the main housing. The base, main housing, hanger and upper cap are matable to define a weather-resistant enclosure for suspending flypaper within the main housing above the internal cavity of the base.

An operating device creating a rising heated vapor which passes through a grill having a concave surface enabling the condensate formed on the grill to migrate towards the center of the grill and away from the periphery of the grill which prevents condensate from dropping onto the operating device interfering with its operation.

The present invention relates to a portable insect and pest control and spray device. The device uses a non-chemical germicidal light for killing insects and pests. The device comprises a spray nozzle for scattering insects, while a vacuum attachment sucks and removes the dead insects and pests. A spray wand of the device can be positioned in hidden and hard-to-reach areas for scattering and killing insects and pests. Various types of germicidal lights such as ultraviolet light, blue light or white light are used. The device allows users to target a specific area with increased precision, including those areas that are often concealed or inaccessible.

A method of detecting the presence of insects, including larvae, in an indoor environment, which includes the steps of (a) obtaining a sample of volatile organic compounds (VOCs); (b) separating the sampled VOCs; (c) detecting the presence or absence of “target” VOCs from at least one category: “category 1 VOCs”—VOCs emitted independently of the support on which the insects develop and emitted only in an insect infestation VOCs, “category 2 VOCs”—VOCs emitted independently of the support but may have biological origins other than insects, and “category 3 VOCs”—VOCs emitted depending on the support and emitted only in an insect infestation; (d) calculating both an insect infestation index (“3I”) and a limit value (“VL”) based on the presence or absence of the target VOCs; and (e) comparing the “3I” and “VL” values. The environment is infested for a “3I” value strictly greater than the “VL” value.

A replaceable insert for an insect trapping device is provided. The insert is releaseably retained within the shell and has an adhesive portion for trapping insects. The insert has a substantially planar, longitudinally extending tab. The tab of the cartridge is laterally offset from a centerline of the insert.

A system for detecting the presence of pests. In one aspect the system comprises an imaging system including: a housing including one or more pest entrances; a pest attractant arranged within the housing; a pest detection surface; an image capture device, said image capture device being configured to capture one or more images of the pest detection surface; and a triggering sensor arrangement for detecting a target pest that is on or about to enter the pest detection surface, said triggering sensor arrangement being configured to provide a trigger-signal if the presence of an object is detected, the image capture device being configured to take an image of the pest detection surface in response to the trigger-signal.

A system for sterilizing a physical space, such as a hotel room. The system generates and distributes heated air to the physical space to elevate the temperature of the space to a level sufficient to achieve a desired sterilization effect of eradicating insects and microoganisms. The system is portable and self-contained. The system includes a hydrogen fuel cell that generates electrical power. An electrical system conditions and stores the electrical power and supplies stored electrical power to the system components and peripherals. System components include a source of hydrogen, a heater, an air distributor, and a filter. Peripherals include a UV light source and an aerosol dispenser. The combination of heat, UV light and aerosol disinfectant effectively eradicates insects, microorganisms, allergens, and odors in the physical space.

A system for sterilizing a physical space, such as a hotel room. The system generates and distributes heated air to the physical space to elevate the temperature of the space to a level sufficient to achieve a desired sterilization effect of eradicating insects and microoganisms. The system is portable and self-contained. The system includes a hydrogen fuel cell that generates electrical power. An electrical system conditions and stores the electrical power and supplies stored electrical power to the system components and peripherals. System components include a source of hydrogen, a heater, an air distributor, and a filter. Peripherals include a UV light source and an aerosol dispenser. The combination of heat, UV light and aerosol disinfectant effectively eradicates insects, microorganisms, allergens, and odors in the physical space.