An animal trap may include a source of compressed gas; a trigger mechanism configured to be actuated by an animal, and a kill mechanism powered by compressed gas. The trap may include two or more trigger valves connected in series. At least one trigger valve may include an opening, a valve seat surrounding the opening, a valve member having a sealing surface, and an O-ring arranged to seal between the sealing surface and the valve seat. One or more flow paths may allow gas to flow along at least part of an internal periphery of the O-ring. The trigger may include a trigger rod extending in a rest position from a mount at or near a first end thereof. The trigger rod may be mounted for pivoting movement about the mount, and may have two rotational degrees of freedom. Pivoting movement of the trigger rod in any direction away from the rest position may result in actuation of the trigger.

A mole trap includes a molded housing with first and second portions. One of the portions includes two molded posts. A trigger and release plate are each pivotally mounted on one of the two posts, and are substantially encased within the housing. The trap may include a first shaft connected to a trigger pad, and a spring loaded second shaft. The first shaft is slideable with respect to the second shaft, which is connected to a plurality of tines. A release is operative to hold a trigger in a set position, and thereby hold the spring loaded second shaft in the set position. The first shaft is operable to displace the release in response to an upward force applied to the trigger pad, wherein the release is operable to release the trigger in response to the displacement, wherein the trigger is operable to release the spring loaded outer shaft.

A mole trap includes a molded housing with first and second portions. One of the portions includes two molded posts. A trigger and release plate are each pivotally mounted on one of the two posts, and are substantially encased within the housing. The trap may include a first shaft connected to a trigger pad, and a spring loaded second shaft. The first shaft is slideable with respect to the second shaft, which is connected to a plurality of tines. A release is operative to hold a trigger in a set position, and thereby hold the spring loaded second shaft in the set position. The first shaft is operable to displace the release in response to an upward force applied to the trigger pad, wherein the release is operable to release the trigger in response to the displacement, wherein the trigger is operable to release the spring loaded outer shaft.

A mole trap includes a molded housing with first and second portions. One of the portions includes two molded posts. A trigger and release plate are each pivotally mounted on one of the two posts, and are substantially encased within the housing. The trap may include a first shaft connected to a trigger pad, and a spring loaded second shaft. The first shaft is slideable with respect to the second shaft, which is connected to a plurality of tines. A release is operative to hold a trigger in a set position, and thereby hold the spring loaded second shaft in the set position. The first shaft is operable to displace the release in response to an upward force applied to the trigger pad, wherein the release is operable to release the trigger in response to the displacement, wherein the trigger is operable to release the spring loaded outer shaft.

A mole trap includes a molded housing with first and second portions. One of the portions includes two molded posts. A trigger and release plate are each pivotally mounted on one of the two posts, and are substantially encased within the housing. The trap may include a first shaft connected to a trigger pad, and a spring loaded second shaft. The first shaft is slideable with respect to the second shaft, which is connected to a plurality of tines. A release is operative to hold a trigger in a set position, and thereby hold the spring loaded second shaft in the set position. The first shaft is operable to displace the release in response to an upward force applied to the trigger pad, wherein the release is operable to release the trigger in response to the displacement, wherein the trigger is operable to release the spring loaded outer shaft.

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; at least three unique members extending from the lower end of the first portion; a bottom portion coupled to a distal end of each of the unique members; and a trigger mechanism for selectively locking the first and second portions in the cocked position, the trigger mechanism having a trigger extending between the at least three unique members, wherein actuation of the trigger causes a release of the first and second portions from the cocked position. Additional embodiments are also disclosed.

An apparatus for controlling animal pests has a housing having a passage extending into the housing, the passage having a front wall and a rear wall, an impacting member movable across the passage from the front wall to the rear wall, the impacting member having a slidable arm extending out from the rear wall and having a free distal end having an impactor extending downwardly from the free distal end of the arm at the front wall, a retraction mechanism having a first support and a second support with the first support being integral with the rear wall, and a spring connected to the second support and the arm, a sensor positioned within the passage for providing a signal representative of the sensing of the presence of the animal pest, and the impacting member is operable to be released to rapidly move across the passage.

An apparatus for controlling animal pests has a housing having a passage extending into the housing, the passage having a front wall and a rear wall, an impacting member movable across the passage from the front wall to the rear wall, the impacting member having a slidable arm extending out from the rear wall and having a free distal end having an impactor extending downwardly from the free distal end of the arm at the front wall, a retraction mechanism having a first support and a second support with the first support being integral with the rear wall, and a spring connected to the second support and the arm, a sensor positioned within the passage for providing a signal representative of the sensing of the presence of the animal pest, and the impacting member is operable to be released to rapidly move across the passage.

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.

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.