An insect catcher for trapping insects. The insect catcher includes a handle assembly to receive and manipulate a trap for trapping insects. The insect catcher includes a trap to capture and dispose of an insect without an operator of the handle assembly contacting the insect, the trap removably attached to the handle assembly The insect catcher includes an inflatable material as part of the trap which expands and is adapted to have direct contact with the insect to be trapped.

Described is an insect net strip produced from a wide insect net which has been cut in a warp direction (xnet) by means of a one-step ultrasonic cutting and welding process. The insect net strip includes warp yarns and weft yarns extending substantially perpendicular to each other and at least 90% of the warp and weft yarns are monofilament yarns made of a thermoplastic material. After cutting and welding process the insect net strip has a first and a second edge extending parallel to said warp yarns each including a deformation zone being constituted by consolidated thermoplastic material deriving at least from said weft yarns. The deformation zone has a width (wdz) in the transverse direction (ystrip) of between 0.5-35 times the weft yarn diameter (?we). At least 90% of gaps between adjacent weft yarns in the deformation zone are closed by consolidated thermoplastic material at least from the weft yarns which has been melted together to form a continuous or substantially continuous reinforced band-shaped edge portion of said insect net strip. The insect net strip is suitable for use in accordion-style constructions in greenhouse ventilation openings. A method for producing the insect strips is also described.

A mold remediation system includes a processor and an electromagnetic radiation source in communication with the processor. The electromagnetic radiation source is configured to emit radiation to heat a ferromagnetic material in or adjacent to a wall board upon which mold is located. The system also includes a temperature sensor in communication with the processor. The temperature sensor is configured to detect a temperature of the wall board. The processor is configured to compare the temperature of the wall board to a desired temperature to perform mold remediation.

A device for detecting an offending object such as weeds or insects, and addressing the offending object by removing or marking the same. The device has image acquisition and image recognition systems that captures images of plants and automatically responds by way of an action when a weed or insect is identified. The action head may grip the offending object or release a substance such a herbicide to eliminate a weed.

A compact improved bug killing gun includes a compressed gas source fluidly connected to a chamber connected to a barrel. A compressed gas release mechanism is connected to the compressed gas source. A projectile storage magazine stores particulate projectiles and is located adjacent the chamber. A projectile loading mechanism moves the projectiles into the chamber from the magazine. A cocking mechanism is mechanically connected to the compressed gas source, the compressed gas release mechanism, and the projectile loading mechanism. When the gun is cocked, the projectile loading mechanism loads a quantity of the particulate projectiles into the chamber. When the compressed gas release mechanism is activated the projectiles are ejected from the chamber into the barrel and expelled from the gun. The gun optionally includes a laser sighting mechanism. The battery operated laser sighting mechanism is removably attached to the barrel or permanently attached with an integral, trigger operated switch.

A compact improved bug killing gun includes a compressed gas source fluidly connected to a chamber connected to a barrel. A compressed gas release mechanism is connected to the compressed gas source. A projectile storage magazine stores particulate projectiles and is located adjacent the chamber. A projectile loading mechanism moves the projectiles into the chamber from the magazine. A cocking mechanism is mechanically connected to the compressed gas source, the compressed gas release mechanism, and the projectile loading mechanism. When the gun is cocked, the projectile loading mechanism loads a quantity of the particulate projectiles into the chamber. When the compressed gas release mechanism is activated the projectiles are ejected from the chamber into the barrel and expelled from the gun. The gun optionally includes a laser sighting mechanism. The battery operated laser sighting mechanism is removably attached to the barrel or permanently attached with an integral, trigger operated switch.

A device for use in identifying an explosive includes a processor and an induction heat source in communication with the processor. The induction heat source is configured to emit radiation to heat a metallic component of an explosive device by way of induction. The device also includes a temperature sensor in communication with the processor that is configured to detect heat emitted from the metallic component of the explosive device. The processor is configured to identify a location of the metallic component of the explosive device based on the detected heat. A gas sensor is used to detect one or more gases emitted from a non-metallic explosive device. The device further includes an action arm configured to conduct a detonation attempt at the location of the metallic component of the explosive device.

A device for use in identifying an explosive includes a processor and an induction heat source in communication with the processor. The induction heat source is configured to emit radiation to heat a metallic component of an explosive device by way of induction. The device also includes a temperature sensor in communication with the processor that is configured to detect heat emitted from the metallic component of the explosive device. The processor is configured to identify a location of the metallic component of the explosive device based on the detected heat. A gas sensor is used to detect one or more gases emitted from a non-metallic explosive device. The device further includes an action arm configured to conduct a detonation attempt at the location of the metallic component of the explosive device.

A device for use in a security system includes a sensor, an image capture device, an action arm, and a processor in communication with the sensor, the image capture device, and the action arm. The processor is configured to receive data from the sensor and the image capture device and identify a target based on an analysis of the received data. The processor is also configured to determine, based on the analysis of the received data, that the target is a drone or other mechanical device. The processor is also configured to determine an action to take on the identified target. The processor is further configured to cause the action arm to perform the determined action on the target.

A device for detecting an offending object such as weeds or insects, and addressing the offending object by removing or marking the same. The device has image acquisition and image recognition systems that captures images of plants and automatically responds by way of an action when a weed or insect is identified. The action head may grip the offending object or release a substance such a herbicide to eliminate a weed.