The present invention discloses an electric mouse killer, comprising an electric mouse killer main body and an electric mouse compartment, wherein the electric mouse killer main body comprises a housing, a circuit board, a battery, a high-voltage pack and a high-voltage contact piece, the electric mouse compartment comprises a compartment body and a high-voltage conductive medium, and a plug-in port of the compartment body is connected to a plug-in end of the housing.

The present invention discloses a disposable foldable electric mouse compartment, comprising a compartment body and a high-voltage conductive medium, wherein the high-voltage conductive medium is mounted on the bottom surface of the inner wall of the compartment body, and the compartment body can be folded into a flat shape.

The present invention discloses a disposable foldable electric mouse compartment, comprising a compartment body and a high-voltage conductive medium, wherein the high-voltage conductive medium is mounted on the bottom surface of the inner wall of the compartment body, and the compartment body can be folded into a flat shape.

Disclosed is a method of incapacitating a target pest species. The method having the steps of providing a trap enclosure, the trap enclosure having an entry point for the target pest species into an interior of the trap enclosure, and a bait station to attract the target pest species. Provided also is a kill engine, at least in part mounted from the trap enclosure, 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 actuates and then resets itself. A source of compressed inflammable gas is connected to and supplies the kill engine. Present is a species adapter connected 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. A kill zone is defined within an interior of the trap enclosure and or the species adapter. A trigger mechanism actuates the kill engine when triggered by the target pest species when in the kill zone. A force delivery hammer, driven by the kill engine, delivers the incapacitating energy, such that when the target pest species enters the apparatus and the kill zone it triggers the trigger mechanism to in turn actuate the kill engine to deliver the incapacitating energy by impacting the pest.

Disclosed is a method of incapacitating a target pest species. The method having the steps of providing a trap enclosure, the trap enclosure having an entry point for the target pest species into an interior of the trap enclosure, and a bait station to attract the target pest species. Provided also is a kill engine, at least in part mounted from the trap enclosure, 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 actuates and then resets itself. A source of compressed inflammable gas is connected to and supplies the kill engine. Present is a species adapter connected 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. A kill zone is defined within an interior of the trap enclosure and or the species adapter. A trigger mechanism actuates the kill engine when triggered by the target pest species when in the kill zone. A force delivery hammer, driven by the kill engine, delivers the incapacitating energy, such that when the target pest species enters the apparatus and the kill zone it triggers the trigger mechanism to in turn actuate the kill engine to deliver the incapacitating energy by impacting the pest.

A pest trap comprising a pest-trapping portion (4) and a holder (14) for a bait for attracting a pest. The pest-trapping portion (4) is arranged between a first opening (6) through which the pest may enter the pest-trapping portion (4) and a second opening (8) which is closable. The trap is arrangeable in either of two modes. In a first mode, for familiarising pests to the trap, the second opening (8) is open and the pest can approach bait in the holder (14) without entering the pest-trapping portion (4). In a second mode, for trapping or killing pests, the second opening (8) is closed and the pest can approach the bait by entering the pest-trapping portion (4) through the first opening (6).

A method is provided for trapping the pest using the pest trap, by placing the trap in a position for trapping the pest, setting the trap in the first mode, and then switching the trap to the second mode.

A pest trap comprising a pest-trapping portion (4) and a holder (14) for a bait for attracting a pest. The pest-trapping portion (4) is arranged between a first opening (6) through which the pest may enter the pest-trapping portion (4) and a second opening (8) which is closable. The trap is arrangeable in either of two modes. In a first mode, for familiarising pests to the trap, the second opening (8) is open and the pest can approach bait in the holder (14) without entering the pest-trapping portion (4). In a second mode, for trapping or killing pests, the second opening (8) is closed and the pest can approach the bait by entering the pest-trapping portion (4) through the first opening (6).

A method is provided for trapping the pest using the pest trap, by placing the trap in a position for trapping the pest, setting the trap in the first mode, and then switching the trap to the second mode.

A trap has a housing including an entrance. Internally, the trap has a trigger structure including a trigger plate and a latch mechanism, coupled with the housing; and a pivoting structure pivotally coupled with the housing and adapted to releasably engage with the latch mechanism of the trigger structure. When the trap is triggered by a rodent, the pivoting structure disengages from the latch mechanism and the pivoting structure pivots towards a rear wall of the housing and the trigger plate, and the trigger plate pivots toward the pivoting structure, moving the rodent against towards the rear wall of the housing and trapping the rodent between the pivoting structure and the rear wall. Once the trap is triggered, the rodent is contained and in most cases, killed, within the trap.

An electronic rodent trap comprises a trap body, a high voltage killing circuit and a barrier. The trap body includes an upper wall assembly and a floor spaced from one another and joined by a left side and a right side. The upper wall assembly forms a fixed ceiling for the trap body. The trap body defines an open entrance end to provide rodents with access to an interior of the trap, and a closed baited end opposite the entrance end. The high voltage killing circuit includes at least three killing plates positioned on the floor in a spaced relationship to create a pathway for a rodent from the entrance end to the baited end. The plates include a first plate nearest the baited end, a second plate nearest the entrance end, and a center plate positioned between the first and second plates. The barrier extends downwardly from the trap ceiling into the trap interior and defines a bottom edge positioned above the center plate.

An electronic rodent trap comprises a trap body, a high voltage killing circuit and a barrier. The trap body includes an upper wall assembly and a floor spaced from one another and joined by a left side and a right side. The upper wall assembly forms a fixed ceiling for the trap body. The trap body defines an open entrance end to provide rodents with access to an interior of the trap, and a closed baited end opposite the entrance end. The high voltage killing circuit includes at least three killing plates positioned on the floor in a spaced relationship to create a pathway for a rodent from the entrance end to the baited end. The plates include a first plate nearest the baited end, a second plate nearest the entrance end, and a center plate positioned between the first and second plates. The barrier extends downwardly from the trap ceiling into the trap interior and defines a bottom edge positioned above the center plate.