The present disclosure provides a bidirectional linkage type mousetrap including: a base, an upper shell, a first pedal, a second pedal, clamping shafts, and torsion springs. A bait placing cup and clamping frames are arranged on the base. Each clamping frame includes side plates and a clamping rack. Each of the first pedal and the second pedal includes a touch portion, a clamping shaft accommodating groove, and a clamping shaft buckle. Mousetrap inlets are arranged on two ends of the upper shell respectively. The mousetrap has two inlets and two-way linkage, which increase the probability of catching a mouse.

The present disclosure provides a bidirectional linkage type mousetrap including: a base, an upper shell, a first pedal, a second pedal, clamping shafts, and torsion springs. A bait placing cup and clamping frames are arranged on the base. Each clamping frame includes side plates and a clamping rack. Each of the first pedal and the second pedal includes a touch portion, a clamping shaft accommodating groove, and a clamping shaft buckle. Mousetrap inlets are arranged on two ends of the upper shell respectively. The mousetrap has two inlets and two-way linkage, which increase the probability of catching a mouse.

An animal trap sensor includes a base having a distal end and a proximal end, a switch having a first metallic element and a second metallic element, and a signal unit, in which, when the first metallic element contacting the second metallic element, thereby forming a closed circuit, such that the signal unit transmits a signal to an off-site receiver. Or, an animal trap sensor includes a first portion and a second portion electrically connected with a signal unit including a power supply, in which, when the first and the second portions are disposed at a first distance between each other, thereby generating an output property, in which, when the first and the second portions are disposed at a second distance between each other, which is different from the first distance, thereby changing the output property and causing the signal unit to transmit a signal to an off-site receiver.

Disclosed are various embodiments for a trap monitor. The trap monitor can detect when a trap is triggered using a magnetic interlock attached to the trap and a magnetic flux sensor. The trap monitors may forward trap events and other information to a central hub for communication to a server. The trap monitors and hub can be configured using infrared transmissions from a mobile device.

Disclosed herein is a retaining assembly for an animal trap. The retaining assembly includes a housing configured to be mounted to a base of the animal trap. A drawer is slidably coupled to the housing between a first position and a second position. A retaining feature is coupled to the drawer. The retaining feature is configured to engage with a retaining arm of the animal trap in the first position and disengage from the retaining arm in the second position.

In one embodiment, an animal trap comprises an outer housing configured as a hollow shell with one or more side openings in a lower end portion of the housing; a moveable plunger member; and an inner cartridge removably coupled to an interior of the housing. The cartridge supports therein: the plunger member configured to move axially between a raised position and a lowered position relative to the housing and the cartridge; and a retaining mechanism configured to selectively retain the plunger member in the raised position.

In one embodiment, an animal trap comprises an outer housing configured as a hollow shell with one or more side openings in a lower end portion of the housing; a moveable plunger member; and an inner cartridge removably coupled to an interior of the housing. The cartridge supports therein: the plunger member configured to move axially between a raised position and a lowered position relative to the housing and the cartridge; and a retaining mechanism configured to selectively retain the plunger member in the raised position.

A motion sensing rodent killing apparatus includes a housing that has a bottom wall and a perimeter wall. The perimeter wall includes a front wall. A motion sensor is directed outwardly away from the front wall. A ram is mounted on the housing and is movable toward or away from the front wall. A driving system is mounted to the housing and is engaged with the ram. The driving system retains the ram in a set position having the panel positioned adjacent to the front wall. When the motion sensor detects motion, the driving system drives the panel away from the housing to a deployed position with sufficient force such that a rodent positioned between the panel and a facing surface is killed by the panel.

The invention relates to device that cooperates with a typical foot snare (i.e. a one comprised of a cable loop and spring compression) to capture an animal without harming the animal. The device is triggered by and relies on the momentum generated by an animal, such as a bear, when reaching into the device and pulling up the bait. The momentum of from the animal grabbing the bait actuates a cable loop foot snare via the compression spring and the cable loop ascends and closes around the appendage of the animal, with the lock securing the cable loop on the animal without harming the animal.

An animal trap sensor includes a base having a distal end and a proximal end, a switch having a first metallic element and a second metallic element, and a signal unit, in which, when the first metallic element contacting the second metallic element, thereby forming a closed circuit, such that the signal unit transmits a signal to an off-site receiver. Or, an animal trap sensor includes a first portion and a second portion electrically connected with a signal unit including a power supply, in which, when the first and the second portions are disposed at a first distance between each other, thereby generating an output property, in which, when the first and the second portions are disposed at a second distance between each other, which is different from the first distance, thereby changing the output property and causing the signal unit to transmit a signal to an off-site receiver.