A chip-clip type snap trap for rodents is provided that includes a bait cup covered by a bait cap that prevents setting of the trap when the bait cap is in place, high side walls to properly orient a rodent before trap activation, and grip elements on the lid and base to prevent finger slippage when setting the trap. The lid and base of the trap snap together without the need for pins, fasteners or tools, providing for easy and cost-effective manufacture.

A chip-clip type snap trap for rodents is provided that includes a bait cup covered by a bait cap that prevents setting of the trap when the bait cap is in place, high side walls to properly orient a rodent before trap activation, and grip elements on the lid and base to prevent finger slippage when setting the trap. The lid and base of the trap snap together without the need for pins, fasteners or tools, providing for easy and cost-effective manufacture.

This disclosure describes devices, systems, and methods associated with pest (e.g., rodent) management. An example of a pest-management apparatus includes a detector device having a housing, a magnetic switch coupled to the housing, and circuitry disposed within a cavity of the housing. The detector device is configured to be coupled to a trap having a base and a capture element pivotally coupled to the base such a portion of the capture element is biased toward a capture portion of the base. The circuitry is configured to detect operation of the trap based on a change in state of the magnetic switch responsive to a magnet coupled to the trap. In a particular implementation, the detector device is coupled to the trap via a platform. In another particular implementation, the detector device includes multiple magnetic switches and is configured to concurrently be coupled to multiple traps.

This disclosure describes devices, systems, and methods associated with pest (e.g., rodent) management. An example of a pest-management apparatus includes a detector device having a housing, a magnetic switch coupled to the housing, and circuitry disposed within a cavity of the housing. The detector device is configured to be coupled to a trap having a base and a capture element pivotally coupled to the base such a portion of the capture element is biased toward a capture portion of the base. The circuitry is configured to detect operation of the trap based on a change in state of the magnetic switch responsive to a magnet coupled to the trap. In a particular implementation, the detector device is coupled to the trap via a platform. In another particular implementation, the detector device includes multiple magnetic switches and is configured to concurrently be coupled to multiple traps.

Disclosed is a self-resetting pest control apparatus to incapacitate a target pest species and reset itself after such incapacitation. The trap has a kill engine to at least in part deliver incapacitating energy to the target species, whereby the kill engine does not require electricity, the kill engine using an inflammable gas charge, the kill engine when triggered, will actuate and then reset itself. Present also is a source of compressed inflammable gas, connected to and supplying the kill engine. A force delivery hammer, driven by the kill engine, that when actuated linearly delivers the incapacitating energy to the target pest species by impacting thereon. There is also a trap enclosure from which the kill engine is at least in part mounted, the trap enclosure having an entry point for the target pest species into an interior of the trap enclosure, a bait station, and trigger mechanism to trigger the kill engine. A species adapter connects at least in part to the trap enclosure to adapt the trap enclosure to the target pest species, the species adapter based on the size, habits or travel nature of the target pest species. Such that when a target pest species enters the apparatus it triggers the trigger mechanism, causing the kill engine to actuate and deliver incapacitating energy to the target pest species.

Disclosed is a self-resetting pest control apparatus to incapacitate a target pest species and reset itself after such incapacitation. The trap has a kill engine to at least in part deliver incapacitating energy to the target species, whereby the kill engine does not require electricity, the kill engine using an inflammable gas charge, the kill engine when triggered, will actuate and then reset itself. Present also is a source of compressed inflammable gas, connected to and supplying the kill engine. A force delivery hammer, driven by the kill engine, that when actuated linearly delivers the incapacitating energy to the target pest species by impacting thereon. There is also a trap enclosure from which the kill engine is at least in part mounted, the trap enclosure having an entry point for the target pest species into an interior of the trap enclosure, a bait station, and trigger mechanism to trigger the kill engine. A species adapter connects at least in part to the trap enclosure to adapt the trap enclosure to the target pest species, the species adapter based on the size, habits or travel nature of the target pest species. Such that when a target pest species enters the apparatus it triggers the trigger mechanism, causing the kill engine to actuate and deliver incapacitating energy to the target pest species.

The present disclosure relates to devices for controlling pests, and, more specifically, to devices for monitoring and communicating the presence of pests, and eliminating pests. The pest control system comprises a frame configured to be removably positioned in a pest control station, a panel pivotally coupled to the frame, and pest control device positioned in the frame.

A removeable, adhesive pad sticker used to augment any existing rodent trap by affixation to the top face of the rodent trap. It has an adhesive pad facing up in the region of the bait station. When the rodent steps on it and stops to take the bait, they are no longer capable of quickly moving when they activate the trap's trigger and the kill bar of the rodent trap is released. Even if the rodent does not reach the bait station, their jiggling efforts to extricate their feet and/or lower body from the adhesive wrapper will activate the trigger. This addition to a snap trap raises the kill ratio to approximately 100% but more importantly, allows the kill bar to strike the rodent behind the neck eliminating any unsightly mess.

A removeable, adhesive pad sticker used to augment any existing rodent trap by affixation to the top face of the rodent trap. It has an adhesive pad facing up in the region of the bait station. When the rodent steps on it and stops to take the bait, they are no longer capable of quickly moving when they activate the trap's trigger and the kill bar of the rodent trap is released. Even if the rodent does not reach the bait station, their jiggling efforts to extricate their feet and/or lower body from the adhesive wrapper will activate the trigger. This addition to a snap trap raises the kill ratio to approximately 100% but more importantly, allows the kill bar to strike the rodent behind the neck eliminating any unsightly mess.

A rodent trap and a system or network of such traps. The trap is a spring-loaded strike rat trap including at least one spring, a housing, at least one striker bar, at least one arming bar, at least one trigger plate and at least one trigger. The spring is configured for biasing the bars moving them from one position, where the arming bar and trigger plate is releasably held by the trigger and in contact with a ready indicator to indicate that the spring-loaded strike trap is armed, into at least one other position where the movement of each bar is stopped, after the spring-loaded strike trap has been triggered releasing the bars.