A pesticide product having a liquid dispensing system and a pesticidal composition contained within a bottle. The liquid dispensing system includes a bottle having an interior volume and a neck terminating in a rim circumscribing and defining a main opening through the neck to the interior volume. The neck has a first retaining feature. The liquid dispensing fixture includes a housing, a carry handle, an electric motor configured to drive a pump, a dispensing nozzle in fluid communication with the pump, and a spray actuator operatively connected to the pump. The liquid dispensing fixture is configured to engage the first retaining feature of the bottle. The pesticidal composition includes from about 0.5% to about 10% clove oil; from about 0.01% to about 1.5% citric acid; an anionic surfactant; and water.

An insect elimination device for eliminating insects in a ground dwelling includes a dome that has a diameter of no greater than 15.0 cm. In this way the dome can be positioned over an entrance to a ground dwelling of insects thereby inhibiting the insects from exiting the ground dwelling. The dome is comprised of a biodegradable material thereby enabling the dome to decompose after a sufficient duration of time. Additionally, the dome has an insecticide that is applied to the dome to eliminate the insects in the ground dwelling.

The bore channel of the tube barrel includes a first portion and a second portion. The first portion and the second portion are in communication with each other. A cross-sectional area of the first portion gradually decreases from an end close to the elastic bag to an end away from the elastic bag and eventually becomes equal to a cross-sectional area of an end of the second portion away from the exit port. The cross-sectional area of the second portion remains unchanged and is equal to a cross-sectional area of the exit port. when being shot out from the elastic bag, grain ammunition gathers at a connection between the first portion and the second portion, and further rushes toward a bottom of the second portion. Then the exit port is pointed at an insect, so that the grain ammunition is precisely shot at the insect through the exit port.

An insect capture device is used to monitor, capture, and/or kill insects. The device has a raised portion to create a gap between a surface and the device to entice insects to pass under. At the raised portion, a glue board includes an adhesive facing the surface. As the insect passes under the raised portion, the insect can unknowingly become attached to the adhesive portion and stuck thereto. To aid in installing the glue board, one or more sections of the glue board can be free of adhesive to connect or fit to a part of the device to hold the glue board in place, while also allowing for easy removal to replace the glue board with a new one, free of captured insects.

A pest control device for dispensing a pest control material is disclosed. The pest control device can include a pneumatic coupling, a tube, and a chamber fluidly coupling the pneumatic coupling and the tube. A screen can be disposed adjacent to the pneumatic coupling, and the screen can militate against the pest control material from entering the pneumatic coupling. The pest control device can include a pneumatic air trigger coupled to the pneumatic coupling, and the chamber can include a removable cap disposed opposite the pneumatic coupling. The pest control device can deliver localized, controlled, and relatively precise amounts of the pest control material from a predetermined distance without the use of a ladder or by having to resort to invasive or destructive methods to access concealed, elevated, or otherwise difficult-to-reach areas.

A suction tube nozzle comprising at least a conduit with an inlet, an outlet and a conduit wall enclosing a conduit volume. conduit wall has a first end defining the inlet and a second end defining the outlet and an inner wall surface. The second end is configured to be connected to a distal end of a suction tube to thereby provide a fluid communication between the inlet and the suction tube. Insects sucked into the inlet are reliably cut in pieces if a first rotary bearing with a first rotational axis movably supports at least one first rotary blade inside the conduit volume relative to the conduit wall.

An insect sensor system for classification of insects, the insect sensor system comprising one or more electric field sensors each configured to being sensitive to the electric field in a respective measurement area and each configured to acquire time-dependent measurements indicative of electric field strength, a data processing system configured to process the time-resolved measurements from the one or more electric field sensors to provide frequency-resolved data, wherein the data processing system is further configured to classify one or more insects based at least in part on the frequency-resolved data. Further, a method for classification of insects.

A pesticide product having a liquid dispensing system and a pesticidal composition contained within a bottle. The liquid dispensing system includes a bottle having an interior volume and a neck terminating in a rim circumscribing and defining a main opening through the neck to the interior volume. The neck has a first retaining feature. The liquid dispensing fixture includes a housing, a carry handle, an electric motor configured to drive a pump, a dispensing nozzle in fluid communication with the pump, and a spray actuator operatively connected to the pump. The liquid dispensing fixture is configured to engage the first retaining feature of the bottle. The pesticidal composition includes from about 0.5% to about 10% clove oil; from about 0.01% to about 1.5% citric acid; an anionic surfactant; and water.

Devices, systems, and methods for controlling insects in a smoke detector device are described herein. One insect controlling smoke detector device, includes a housing having a smoke detecting chamber formed therein, a light source directing a light beam through the smoke detecting chamber, a light sensor to receive a portion of the light beam and analyze the received light beam to determine whether smoke particles are present in the chamber, and an insecticide injecting apparatus to inject insecticide into the chamber.

A pest control apparatus is a pest control apparatus for killing an insect which is a target using light. The pest control apparatus includes a light source device and an irradiation member. The light source device emits a laser beam including blue. The irradiation member irradiates the target with the laser beam emitted from the light source device.