This Hand-Held Insect Eliminator is a device comprising two flaps of optimal size and shape, which are connected at one end by a hinge. Intelligently designed integrated finger housings at the hinged end allow the device to be easily opened and snapped shut by a wide variety of hand and finger sizes. The device can be used on many types of insects, whether flying, hanging, crawling, or at rest. It can be operated in mid-air, against a wall, ceiling, or directly against a surface, or just above a surface, depending on the type and location of the insect. The device incorporates a unique containment grid which allows the elimination to be done cleanly.

A bug swatter is provided that reduces the chances that bug remains will come into contact with an object or surface in an undesirable manner. The bug swatter is made up of a swatter body having a swatter head connected to a handle portion, wherein the handle portion can be manipulated by a user so the user can advance the swatter head towards a bug to swat the bug. A cover member is connectable to the handle portion and moveable relative to the swatter head, wherein the bug swatter can be moved from an uncovered configuration where the swatter head is uncovered by the cover member to a covered configuration where at least a portion of the cover member covers at least a portion of the swatter head. The bug swatter can also have a locking mechanism adapted to lock the bug swatter in the uncovered configuration or the covered configuration. The locking mechanism can be unlocked by a user. A method of swatting a bug is also provided.

A bug swatter is provided that reduces the chances that bug remains will come into contact with an object or surface in an undesirable manner. The bug swatter is made up of a swatter body having a swatter head connected to a handle portion, wherein the handle portion can be manipulated by a user so the user can advance the swatter head towards a bug to swat the bug. A cover member is connectable to the handle portion and moveable relative to the swatter head, wherein the bug swatter can be moved from an uncovered configuration where the swatter head is uncovered by the cover member to a covered configuration where at least a portion of the cover member covers at least a portion of the swatter head. The bug swatter can also have a locking mechanism adapted to lock the bug swatter in the uncovered configuration or the covered configuration. The locking mechanism can be unlocked by a user. A method of swatting a bug is also provided.

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.

The present application discloses a mosquito swatter, including a frame and an adhesive capturer installation bracket. The frame is provided with a hollow part, and the adhesive capturer installation bracket is arranged in the hollow part. The mosquito swatter further includes an adhesive capturer and an adhesive re-capturer. The adhesive mosquito capturer is defined with several first air holes, and the adhesive re-capturer piece is defined with several second air holes. The adhesive capturer and one side of the adhesive capturer installation bracket are detachably connected, and the adhesive re-capturer and the other side of the adhesive capturer installation bracket are detachably connected. The first air holes and the second air holes are arranged in a staggered manner.

The fly swatter storage device includes a pan structure, a door structure, a latch structure, and a fly swatter. The fly swatter forms the tool of the fly swatter storage device. The door structure attaches to the pan structure to form a protected space. The protected space contains the fly swatter when the fly swatter is not in use. The door structure attaches to the pan structure such that the door structure rotates relative to the pan structure between a closed position and an open position. The latch structure secures the door structure in the closed position. The fly swatter exchanges momentum with the insect such that the insect is placed in a state of reduced consciousness.

The fly swatter storage device includes a pan structure, a door structure, a latch structure, and a fly swatter. The fly swatter forms the tool of the fly swatter storage device. The door structure attaches to the pan structure to form a protected space. The protected space contains the fly swatter when the fly swatter is not in use. The door structure attaches to the pan structure such that the door structure rotates relative to the pan structure between a closed position and an open position. The latch structure secures the door structure in the closed position. The fly swatter exchanges momentum with the insect such that the insect is placed in a state of reduced consciousness.

An improved pest swatter device with a vacuum and method of use is described herein. The pest swatter device can comprise a swatter, a pest chamber, a housing, and a vacuum system. The swatter can comprise a planar head for swatting a pest and a tubular spine. The tubular spine can comprise a first end with a first orifice to receive the pest, and a second end with a second orifice to expel the pest. The pest chamber can connect to the second end of the tubular spine, configured to receive the pest. The housing can connect to the pet chamber. The vacuum system within the housing can create a vacuum sufficient to pull the pest through the tubular spine into the pest chamber. The method for using an improved pest swatter device can comprise the steps of swatting a pest and suctioning the pest through the pest swatter device.

An improved pest swatter device with a vacuum and method of use is described herein. The pest swatter device can comprise a swatter, a pest chamber, a housing, and a vacuum system. The swatter can comprise a planar head for swatting a pest and a tubular spine. The tubular spine can comprise a first end with a first orifice to receive the pest, and a second end with a second orifice to expel the pest. The pest chamber can connect to the second end of the tubular spine, configured to receive the pest. The housing can connect to the pet chamber. The vacuum system within the housing can create a vacuum sufficient to pull the pest through the tubular spine into the pest chamber. The method for using an improved pest swatter device can comprise the steps of swatting a pest and suctioning the pest through the pest swatter device.

A bug swatter is provided that reduces the chances that bug remains will come into contact with an object or surface in an undesirable manner. The bug swatter is made up of a swatter body having a swatter head connected to a handle portion, wherein the handle portion can be manipulated by a user so the user can advance the swatter head towards a bug to swat the bug. A cover member is connectable to the handle portion and moveable relative to the swatter head, wherein the bug swatter can be moved from an uncovered configuration where the swatter head is uncovered by the cover member to a covered configuration where at least a portion of the cover member covers at least a portion of the swatter head. The bug swatter can also have a locking mechanism adapted to lock the bug swatter in the uncovered configuration or the covered configuration. The locking mechanism can be unlocked by a user. A method of swatting a bug is also provided.