A method for manufacturing a flyswatter having a conductive plastic electrode net, and a flyswatter structure obtained thereby are provided. The method may include the following steps: (i) using an insulating plastic to perform injection molding, so as to obtain a flyswatter body; and (ii) using a conductive plastic to perform second injection molding on the flyswatter body to manufacture an electric net component, such that the electric net component and the flyswatter body are integrated with each other. The flyswatter structure includes the flyswatter body and the electric net component. The flyswatter body includes a shaft, a handle, and a frame. The handle has an inner chamber for installing a power control circuit and a battery therein. The electric net component consists of a positive electrode portion and a negative electrode portion. The positive electrode portion includes several strip-shaped positive electrode conductors and a positive electrode conductive connector, and the negative electrode portion includes several strip-shaped negative electrode conductors and a negative electrode conductive connector. The flyswatter structure does not require various manufacturing materials, and can achieve material saving during manufacturing.

A vacuum suction device equipped with an electric shock module includes a suction main body in which a negative-pressure suction force is generated by a motor or a fan. A collective unit is spatially connected with the suction main body and includes a collective inlet and a filtering system. The filtering system is used to filter and collect an electrically shocked object and/or a sucked object. The suction tube set has an air inlet and an air outlet. The air outlet is connected with the collective inlet. The air inlet is used to proactively generate an approximate-vacuum negative pressure between the air inlet and a suction surface. The electric shock module is disposed in the suction tube set for electrical discharge under high electric voltages. The electric voltage boost module is electrically connected with the electric shock module to electrically power the electric shock module.

A hand-held pest exterminating device for use in eliminating flying or crawling insects. The pest exterminating device includes a pair of parallel supports having a plurality of electrified wires extending therebetween. The supports are tubular and include one or more lights therein so as to illuminate the supports. The pair of parallel supports are arranged on a lower guard, wherein the lower guard further includes a handle extending therefrom for a user to grasp. The lower guard and handle enclose a control circuit including a power source that provides electricity to the lights and to the wires. Further, an audio unit is provided, wherein the audio unit is adapted to produce a sound effect as the device is moved about and when an insect is exterminated.

An electric device for killing insects and animals having a mesh surface holding assembly having at least one a conductive mesh surface, an electrical power source for providing electricity to the mesh surface, at least one light source constructed and positioned to provide backlighting on the mesh surface, an actuator for selectively initiating and ceasing supply of electrical power from the electrical source to the mesh by incorporated circuitry, and a handle assembly supporting the mesh surface assembly.

Various forms of insect zappers, game methods, and kits for insect hunt game playing are disclosed. In one form, an insect zapper includes a power grid portion, a user control portion, and a handle portion. A user control portion comprises one or more features for operation or control of the device and a signal portion for providing operational and gaming related feedback such as cumulative kills and kill ratio. A variety of games centered around the successful hunt of biting insects such as mosquitos are disclosed involving a single player wherein a player competes against themselves or involving two or more players competing against each other. In some forms a kit may be provided to include gaming instructions, one or more insect zappers, and other accessories.

A mosquito-trapping light source module, an electric mosquito swatter and a mosquito killer are disclosed, the mosquito-trapping light source module includes two or more LED chips with different wavelengths, the wavelengths of the LED chips range from 360 nm to 400 nm. By configuring the two or more LED chips with different wavelengths, the mosquito-trapping light source module has a wide spectral range, so that mosquitoes in different types and regions are trapped, the mosquitoes are trapped under different environmental conditions, and a good mosquito-trapping effect is achieved. By setting the wavelengths of the LED chips to range from 360 nm to 400 nm, an appropriate wavelength range is selected according to currently common mosquitoes and actual environmental conditions of use to reduce power waste and maintain a good mosquito-trapping effect.