Systems, devices, and associated methods of manufacturing are described that provide a rodent extermination system for efficient rodent population control. An example rodent extermination system includes a vacuum unit configured to generate suction and an extermination chamber. The extermination chamber defines a first end attached to and in fluid communication with the vacuum unit and a second end in fluid communication with an external environment. The system also includes at least one presence sensor and at least two electrocution plates. The at least two electrocution plates are electrified such that the rodent is electrocuted via contact with the electrocution plates, and the vacuum unit generates suction such that the rodent is moved through the extermination chamber. The vacuum unit may comprise a kill plate into which the rodent is ejected at high velocity in order to induce cervical dislocation or blunt force trauma to the rodent.

Systems, devices, and associated methods of manufacturing are described that provide a rodent extermination system for efficient rodent population control. An example rodent extermination system includes a vacuum unit configured to generate suction and an extermination chamber. The extermination chamber defines a first end attached to and in fluid communication with the vacuum unit and a second end in fluid communication with an external environment. The system also includes at least one presence sensor and at least two electrocution plates. The at least two electrocution plates are electrified such that the rodent is electrocuted via contact with the electrocution plates, and the vacuum unit generates suction such that the rodent is moved through the extermination chamber. The vacuum unit may comprise a kill plate into which the rodent is ejected at high velocity in order to induce cervical dislocation or blunt force trauma to the rodent.

A remote notification electronic rodent trapping system and method is provided having a plurality of rearming electronic rodent trapping devices configured to wirelessly communicate trap information to a base station that is in communication with a cloud server. When a trap is activated by a rodent trigger it changes from a set state to a kill alert state and initiates a killing cycle. The trap waits a first time period and then sends a notification signal to the base station of trap activation which the base station forwards to the cloud server. The cloud server waits a second predetermined time period before sending a pushed notification to a remote user of the trap's kill alert state. If the trap rearms prior to expiration of the second time period, it alerts the base station which notifies the cloud server. The cloud server updates trap status to the set state and does not send a notification to the user.

A remote notification electronic rodent trapping system and method is provided having a plurality of rearming electronic rodent trapping devices configured to wirelessly communicate trap information to a base station that is in communication with a cloud server. When a trap is activated by a rodent trigger it changes from a set state to a kill alert state and initiates a killing cycle. The trap waits a first time period and then sends a notification signal to the base station of trap activation which the base station forwards to the cloud server. The cloud server waits a second predetermined time period before sending a pushed notification to a remote user of the trap's kill alert state. If the trap rearms prior to expiration of the second time period, it alerts the base station which notifies the cloud server. The cloud server updates trap status to the set state and does not send a notification to the user.

In some implementations, a trap to capture and kill a pest may include a circuit. The circuit may receive sensor data from a sensor and determine that a pest has entered the trap. The circuit may cause a shutter inside the trap to move from an approximately horizontal position to an approximately vertical position, thereby causing a portion of a door of a container located inside the trap to come in contact with adhesive on an outer surface of the container to prevent the pest from leaving the container. Substantially simultaneously with the shutter moving, the circuit may provide electricity to two conductive plates located on in a inner bottom surface of the container, thereby causing the electricity to pass through the pest. The circuit may send a wireless notification message, indicating that the pest was captured in the container, over a wireless network to a computing device.

In some implementations, a trap to capture and kill a pest may include a circuit. The circuit may receive sensor data from a sensor and determine that a pest has entered the trap. The circuit may cause a shutter inside the trap to move from an approximately horizontal position to an approximately vertical position, thereby causing a portion of a door of a container located inside the trap to come in contact with adhesive on an outer surface of the container to prevent the pest from leaving the container. Substantially simultaneously with the shutter moving, the circuit may provide electricity to two conductive plates located on in a inner bottom surface of the container, thereby causing the electricity to pass through the pest. The circuit may send a wireless notification message, indicating that the pest was captured in the container, over a wireless network to a computing device.

A rodent trap having a remote arming capability and a method of deploying a rodent trap in an unarmed state and then arming the trap after a wait period without the user having to again physically access the trap is provided. The trap, preferably embodied as an electronic rodent trap, may be configured with wireless remote arming capability, timed arming functionality, activity based arming and the like. When in the unarmed state, the trap operates in a monitoring mode in which the trap can monitor and evaluate activity and/or interactions with the trap and can send and receive wireless communication signals.

A rodent trap having a remote arming capability and a method of deploying a rodent trap in an unarmed state and then arming the trap after a wait period without the user having to again physically access the trap is provided. The trap, preferably embodied as an electronic rodent trap, may be configured with wireless remote arming capability, timed arming functionality, activity based arming and the like. When in the unarmed state, the trap operates in a monitoring mode in which the trap can monitor and evaluate activity and/or interactions with the trap and can send and receive wireless communication signals.

A rodent trap has a base with a rodent inlet opening and interior walls which define a rodent runway which communicates with a trap interior compartment. A downwardly opening compartment with a cover defines a case which receives a sensor module mounted beneath a threshold at the entry of the rodent runway to the trap interior compartment. The module has a capacitance sensor which detects the passage of a rodent into the interior compartment, and has a programmable controller which logs each rodent entry. The module has a Bluetooth transmitter which allows the module to communicate with a pest control operator to exchange the logged information. The case encloses the sensor module and protects it from exposure to moisture, dirt, and rodent waste within the trap interior.

A rodent trap has a base with a rodent inlet opening and interior walls which define a rodent runway which communicates with a trap interior compartment. A downwardly opening compartment with a cover defines a case which receives a sensor module mounted beneath a threshold at the entry of the rodent runway to the trap interior compartment. The module has a capacitance sensor which detects the passage of a rodent into the interior compartment, and has a programmable controller which logs each rodent entry. The module has a Bluetooth transmitter which allows the module to communicate with a pest control operator to exchange the logged information. The case encloses the sensor module and protects it from exposure to moisture, dirt, and rodent waste within the trap interior.