An electric insect eliminator including a light portion and a conducting grid with a transparent cage surrounding the conducting grid to prevent contact while allowing light to pass therethrough and also amplifying the light emitted from the device.

Treatment systems and associated methods are described. According to one aspect, a treatment system includes a discharge assembly coupled with and configured to receive electrical energy from an input power source and to generate a plurality of pulses of electrical energy; a plurality of electrodes coupled with the discharge assembly, and wherein the electrodes are configured to apply the pulses of electrical energy to ground of a treatment location to manage pests within the ground of the treatment location; and wherein the pulses of electrical energy that are applied to the ground of the treatment location are a plurality of square waveform pulses.

The invention relates to a plant (100) for antiparasitic treatment of crops or spaces comprising an emitter (10) of electromagnetic signals and an electronic control unit (40), to which the emitter (10) is operatively connected. The electronic control unit is configured to control the emitter so that it emits, in succession or simultaneously, a plurality of cycles of electromagnetic signals, said electromagnetic signals having a selectable frequency, cycle by cycle, based on the type of crop or space to be treated or the parasite to be defeated. The invention also relates to a method for antiparasitic treatment of crops or spaces conducted using the plant (100) as defined above.

A pest control device comprises a power supply configured to produce 250 to 1500 W, a microwave generator, a microwave emitter probe having a substantially cylindrical shape with a microwave emitter probe length of 5 to 50 cm and a microwave emitter probe diameter of 0.25 to 5 cm, a temperature monitor probe having a substantially cylindrical shape with a temperature monitor probe length of 1 to 25 cm and a temperature monitor probe diameter of 0.5 to 5 cm, and a controller configured to control a power of microwaves emitted by the microwave emitter probe. The pest control device operates at frequencies of 2.0 to 4.0 GHz and provides targeted pest elimination in woody plants through insertable probes that deliver controlled microwave energy directly to infestation sites while maintaining tree health through real-time temperature monitoring and automatic safety controls.

A pest control apparatus is a pest control apparatus for killing an insect which is a target using light. The pest control apparatus includes a light source device and an irradiation member. The light source device emits a laser beam including blue. The irradiation member irradiates the target with the laser beam emitted from the light source device.

The present invention relates to a pest repelling, killing, and/or damaging UV light-emitting device (100) comprisinga housing (200),a control element (110) configured to output a control signal (111), anda UV light-emitting element (115) configured to emit, in response to the control signal (111), far-UVC light (125) thereby repelling, killing, and/or damaging one or more pests, e.g. or in particular mosquitos, irradiated by the emitted far-UVC light (125).

A portable laser mosquito killing apparatus, comprising a protective housing (1) and a galvanometer driving module (10) fixed on a central fixing member (2). One side of the central fixing member (2) is further provided with a lidar (4), and a galvanometer lens (5) which can rotate is drivingly connected to the galvanometer driving module (10). A high-power laser module (6) is further fixedly mounted on the central fixing member (2), and the lidar (4) comprises an infrared laser receiving part (401) and an infrared laser emitting part (402). The central fixing member (2) is further provided with a main dichroscope (8) corresponding to the infrared laser emitting part (402) and the high-power laser module (6). The laser emitted by the high-power laser module (6), the laser emitted by the infrared laser emitting part (402) and the return light received by the infrared laser receiving part (401) control a reflection angle by means of the same galvanometer lens (5), and the reflection points of the high-power laser module (6), the infrared laser emitting part (402) and the infrared laser receiving part (401) on the galvanometer lens (5) can completely overlap or are located on the same straight line. Using a galvanometer lens of a galvanometer module can achieve scanning action and killing action, thus allowing for low production cost and easy maintenance. In addition, the apparatus can be used both indoors and outdoors, thus having rich use scenarios, and large coverage areas.