An enclosure-type mouse trap having a compact footprint with a curved or U-shaped mouse pathway leading to a guillotine killing mechanism is provided. The trap has a bottom assembly, a top assembly, and a removable disposal door. The bottom assembly includes a pivoting link element operatively engaged with the top and bottom assemblies to set the trap and control the position of an entrance door that provides access to the trap interior.

An 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 may be removably attached to the barrel or permanently attached with an integral, trigger operated switch.

An 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 may be removably attached to the barrel or permanently attached with an integral, trigger operated switch.

In some embodiments, methods and systems of defending a crop-containing area against crop-damaging pests include an unmanned aerial vehicle including a sensor that detects one or more pests in the crop-containing area and an output device configured to eliminate the pest from the crop-containing area. One or more docking stations configured to accommodate the UAV are provided. A computing device configured to communicate with the UAV and the docking station over a network is provided. The UAV is configured to send pest detection data captured by a sensor of the UAV while patrolling the crop-containing area. In return, the computing device is configured to send a signal to the UAV to indicate instructions to the UAV as to how to move or activate the output device in order to eliminate the detected pest from the crop-containing area.

In some embodiments, methods and systems of defending a crop-containing area against crop-damaging pests include an unmanned aerial vehicle including a sensor that detects one or more pests in the crop-containing area and an output device configured to eliminate the pest from the crop-containing area. One or more docking stations configured to accommodate the UAV are provided. A computing device configured to communicate with the UAV and the docking station over a network is provided. The UAV is configured to send pest detection data captured by a sensor of the UAV while patrolling the crop-containing area. In return, the computing device is configured to send a signal to the UAV to indicate instructions to the UAV as to how to move or activate the output device in order to eliminate the detected pest from the crop-containing area.

The present invention relates to the field of poison-free traps for rats and mice, and in particular relates to traps for use on the ground. The poison-free rat and/or mouse trap of the present invention comprises a) a housing with a rat and/or mouse entry opening positioned in the side wall and/or in the bottom wall; and b) a mechanical and/or electrical killing device positioned within the housing. The killing means of the mechanical and/or electrical killing device is positioned at a level above the level of the rat and/or mouse entry opening, and wherein at least a part of the rat and/or mouse entry opening is lined with one or more rows of serrated protrusions.

An animal trap, according to one embodiment, includes: a first portion having an upper and a lower end; a second portion in sliding relationship with the first portion, wherein the first and second portions are relatively positionable between a cocked position and a deployed position; a biasing mechanism for biasing the first and second portions towards the deployed position; two unique members extending from the lower end of the first portion; a bottom portion coupled to a distal end of each unique member, wherein a first end of each of the unique members is coupled to the first portion, wherein each of the distal ends are at a second end of each of the unique members, the second end being opposite the first end along a longitudinal length of each unique member; and a trigger mechanism for selectively locking the first and second portions in the cocked position.

An animal trap, according to one embodiment, includes: a first portion having an upper and a lower end; a second portion in sliding relationship with the first portion, wherein the first and second portions are relatively positionable between a cocked position and a deployed position; a biasing mechanism for biasing the first and second portions towards the deployed position; two unique members extending from the lower end of the first portion; a bottom portion coupled to a distal end of each unique member, wherein a first end of each of the unique members is coupled to the first portion, wherein each of the distal ends are at a second end of each of the unique members, the second end being opposite the first end along a longitudinal length of each unique member; and a trigger mechanism for selectively locking the first and second portions in the cocked position.

Device in the form of a combined non-return valve and rat killer for internal fitting in a sewer pipe comprising a valve (2), which can swing between an open and a closed position, the valve (2) being able to serve as a seal against possible back-flow (B) and also as a rat killer. The valve (2) is fitted with a projection (2a) on its inner side near its lower end and when swinging down, the blow-impact of the valve with the rat (12) can kill it. The valve (2) is operated by an actuator (7), preferably in the form of a voice-coil linear motor, which is controlled by sensors in the sewer pipe. Due to a continuous flow (A) through the sewer pipe, the device will remain clean and thus functional.

Device in the form of a combined non-return valve and rat killer for internal fitting in a sewer pipe comprising a valve (2), which can swing between an open and a closed position, the valve (2) being able to serve as a seal against possible back-flow (B) and also as a rat killer. The valve (2) is fitted with a projection (2a) on its inner side near its lower end and when swinging down, the blow-impact of the valve with the rat (12) can kill it. The valve (2) is operated by an actuator (7), preferably in the form of a voice-coil linear motor, which is controlled by sensors in the sewer pipe. Due to a continuous flow (A) through the sewer pipe, the device will remain clean and thus functional.