An environmentally friendly device for trapping animals comprising a collection container (3) comprising an upper opening (3a), an intermediate supporting frame (4), forming a drop duct (8) and such that it at least partly closes the opening (3a) of said collection container (3), a closing guard (5), which can be superposed on the intermediate supporting frame (4), comprising an inlet (6) and a compartment forming a trapping corridor (7), a trapping mechanism (9) supported by the frame (4) and positioned over the drop duct (8), comprising a rotary surface (10) having a main direction of extension (X) extending along a longitudinal axis (10a) coinciding with the direction of entry into the trapping corridor (7), being designed to close the top of the drop duct (8) and to form the treadable surface of the trapping corridor (7). The trapping mechanism (9) comprises two plates (14a, 14b) connected to each other by the rotary surface (10), which is positioned orthogonally to each of them. Each time it is activated the rotary surface and the two plates (10) complete a 180° rotation about an axis (9a) of symmetry which is transversal to said longitudinal axis (10a) coinciding with the direction of entry into the trapping corridor (7).

An environmentally friendly device for trapping animals comprising a collection container (3) comprising an upper opening (3a), an intermediate supporting frame (4), forming a drop duct (8) and such that it at least partly closes the opening (3a) of said collection container (3), a closing guard (5), which can be superposed on the intermediate supporting frame (4), comprising an inlet (6) and a compartment forming a trapping corridor (7), a trapping mechanism (9) supported by the frame (4) and positioned over the drop duct (8), comprising a rotary surface (10) having a main direction of extension (X) extending along a longitudinal axis (10a) coinciding with the direction of entry into the trapping corridor (7), being designed to close the top of the drop duct (8) and to form the treadable surface of the trapping corridor (7). The trapping mechanism (9) comprises two plates (14a, 14b) connected to each other by the rotary surface (10), which is positioned orthogonally to each of them. Each time it is activated the rotary surface and the two plates (10) complete a 180° rotation about an axis (9a) of symmetry which is transversal to said longitudinal axis (10a) coinciding with the direction of entry into the trapping corridor (7).

A trap for assisting in controlling pest populations, in particular rodent, and especially rats and/or mice, including: a lower housing, and a false floor including a trapdoor, and a ramp, wherein the lower housing has a lower end that sits on the ground and an upper end. The false floor is attached to the upper end of the lower housing. The trap door is triggered to suddenly collapse when the rodent places a sufficient amount of its body weight onto the trapdoor. The ramp leads up from ground level to the false floor so that when in use, a suitable liquid or gas is contained within the lower housing, and a suitable bait is placed on the false floor to attract a rodent and maneuver it onto the trapdoor. The rodent is able to easily climb up to the false floor by way of the ramp, and when the rodent moves towards the bait, and places sufficient weight upon the trapdoor, the trapdoor suddenly collapse under it, thereby causing it to drop into the lower housing, wherein the rodent drown in the liquid or suffocates in the gas.

A trap for assisting in controlling pest populations, in particular rodent, and especially rats and/or mice, including: a lower housing, and a false floor including a trapdoor, and a ramp, wherein the lower housing has a lower end that sits on the ground and an upper end. The false floor is attached to the upper end of the lower housing. The trap door is triggered to suddenly collapse when the rodent places a sufficient amount of its body weight onto the trapdoor. The ramp leads up from ground level to the false floor so that when in use, a suitable liquid or gas is contained within the lower housing, and a suitable bait is placed on the false floor to attract a rodent and maneuver it onto the trapdoor. The rodent is able to easily climb up to the false floor by way of the ramp, and when the rodent moves towards the bait, and places sufficient weight upon the trapdoor, the trapdoor suddenly collapse under it, thereby causing it to drop into the lower housing, wherein the rodent drown in the liquid or suffocates in the gas.

An electromechanical trap for small animals having a container attached to a module whose upper side is a swing frame which includes a solar panel. The module includes a tunnel with an open end and an access to let the animals to be caught enter and the floor includes a first fixed part, a second part, which has a missing section which coincides with the cutting on the module floor and a third fixed part where there is an appropriate vessel for the bait. First part and missing section of the second part have a tilting lamina as of at least an axis connected to the side ends of the tunnel. The tunnel has several sensors which generate a beam whose interruption sends a signal captured by the microprocessor enabling a single exit, energizing the coil which, during a programmed time equals the polarity of the permanent magnet freeing the lamina whose end, as the result of the animal weight, goes violently down tilting over the axis and lifting the opposite end in an equal or higher angle of 45 degrees.

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An electromechanical trap for small animals having a container attached to a module whose upper side is a swing frame which includes a solar panel. The module includes a tunnel with an open end and an access to let the animals to be caught enter and the floor includes a first fixed part, a second part, which has a missing section which coincides with the cutting on the module floor and a third fixed part where there is an appropriate vessel for the bait. First part and missing section of the second part have a tilting lamina as of at least an axis connected to the side ends of the tunnel. The tunnel has several sensors which generate a beam whose interruption sends a signal captured by the microprocessor enabling a single exit, energizing the coil which, during a programmed time equals the polarity of the permanent magnet freeing the lamina whose end, as the result of the animal weight, goes violently down tilting over the axis and lifting the opposite end in an equal or higher angle of 45 degrees.

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Provided herein is a trap and related method for catching vermin, especially rats. The trap allows mechanical energy to be stored in an elastic element. This energy can be released momentarily in order to quickly actuate a trapdoor, a cover, from a closed position to an open position, in order to catch a rat thereby.

Provided herein is a trap and related method for catching vermin, especially rats. The trap allows mechanical energy to be stored in an elastic element. This energy can be released momentarily in order to quickly actuate a trapdoor, a cover, from a closed position to an open position, in order to catch a rat thereby.

An electromechanical trap for small animals having a container attached to a module whose upper side is a swing frame which includes a solar panel. The module includes a tunnel with an open end and an access to let the animals to be caught enter and the floor includes a first fixed part, a second part, which has a missing section which coincides with the cutting on the module floor and a third fixed part where there is an appropriate vessel for the bait. First part and missing section of the second part have a tilting lamina as of at least an axis connected to the side ends of the tunnel. The tunnel has several sensors which generate a beam whose interruption sends a signal captured by the microprocessor enabling a single exit, energizing the coil which, during a programmed time equals the polarity of the permanent magnet freeing the lamina whose end, as the result of the animal weight, goes violently down tilting over the axis and lifting the opposite end in an equal or higher angle of 45 degrees.

An electromechanical trap for small animals having a container attached to a module whose upper side is a swing frame which includes a solar panel. The module includes a tunnel with an open end and an access to let the animals to be caught enter and the floor includes a first fixed part, a second part, which has a missing section which coincides with the cutting on the module floor and a third fixed part where there is an appropriate vessel for the bait. First part and missing section of the second part have a tilting lamina as of at least an axis connected to the side ends of the tunnel. The tunnel has several sensors which generate a beam whose interruption sends a signal captured by the microprocessor enabling a single exit, energizing the coil which, during a programmed time equals the polarity of the permanent magnet freeing the lamina whose end, as the result of the animal weight, goes violently down tilting over the axis and lifting the opposite end in an equal or higher angle of 45 degrees.