CN218473952U - Electric mosquito swatter with multiple electric shock capability - Google Patents

Abstract

The utility model provides a pair of electronic mosquito with multiple electric shock ability, including the frame and locate the first electric wire netting in the frame, second electric wire netting and main electric wire netting, the second electric wire netting is located between first electric wire netting and the main electric wire netting, the second electric wire netting sets up with first electric wire netting and main electric wire netting interval respectively, a plurality of first mosquito inlets of having arranged on the first electric wire netting, a plurality of second mosquito inlets of having arranged on the second electric wire netting, a plurality of main net mouths of having arranged on the main electric wire netting, the area of first mosquito inlet is greater than the area of main net mouth, the area that the mosquito inlet was gone into to the second is greater than the area of main net mouth, a plurality of first mosquito inlets and a plurality of second mosquito inlets crisscross setting, because the mosquito is scurried into again between second electric wire netting and the main electric wire netting easily after being shocked by the electric shock between first electric wire netting and the second electric wire netting easily, or the mosquito is scurried into again between first electric wire netting and the second electric wire netting easily after being shocked by the electric shock between second electric wire netting, make the mosquito get into in the frame and can be killed many times electric shock.

Description

Electric mosquito swatter with multiple electric shock capability

Technical Field

The utility model relates to a mosquito prevention and cure technical field, in particular to electric mosquito swatter with multiple electric shock ability.

Background

In summer, mosquitoes are more and particularly like to bite the external part of the clothes where the human body is exposed, so that users generally kill the mosquitoes by means of an electric mosquito swatter to prevent the mosquitoes from biting the body of the users.

The traditional electric mosquito swatter is 202021620974.7, the swatter net of the electric mosquito swatter comprises an inner swatter net provided with a first through hole, a first outer swatter net provided with a second through hole and a second outer swatter net provided with a third through hole, the areas of the second through hole and the third through hole are equal, the areas of the second through hole and the third through hole are both larger than the area of the first through hole, and the mounting frame of the electric mosquito swatter comprises a first mounting frame and a second mounting frame; the inner racket net is arranged between the first mounting frame and the second racket frame, the first outer racket net is mounted on the first mounting frame through a fixing seat, and the second outer racket net is mounted on the second mounting frame through a fixing seat. After the swatter net is electrified, the mosquito is electrically shocked when contacting the first outer swatter net and the inner swatter net simultaneously, or the mosquito is electrically shocked when contacting the second outer swatter net and the inner swatter net simultaneously.

However, the electric mosquito swatter with the structure has the defects that the mosquitoes can not penetrate through the inner swatter net, when the mosquitoes enter between the first outer swatter net and the inner swatter net, the mosquitoes are shocked for too short time and are not killed by the electric shock, and easily escape from the electric mosquito swatter through the first outer swatter net after the mosquitoes are mixed between the first outer swatter net and the inner swatter net.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an electric mosquito swatter with multiple electric shock ability.

The embodiment of the application provides a pair of electric mosquito swatter with multiple electric shock ability, include the frame and locate first electric wire netting, second electric wire netting and the main electric wire netting in the frame, the second electric wire netting is located first electric wire netting with between the main electric wire netting, the second electric wire netting respectively with first electric wire netting with the main electric wire netting interval sets up, a plurality of first mosquito inlets of having arranged on the first electric wire netting, mosquito inlet of a plurality of seconds of having arranged on the second electric wire netting, a plurality of main net mouths of having arranged on the main electric wire netting, just the area of first mosquito inlet is greater than the area of main net mouth, the area of mosquito inlet of second is greater than the area of main net mouth, it is a plurality of first mosquito inlet is with a plurality of mosquito inlet of second sets up in a staggered way.

In an embodiment, the first power grid includes first electrically conductive piece and second electrically conductive piece, first electrically conductive piece with the second electrically conductive piece is a plurality of, and is a plurality of first electrically conductive piece all extends and sets up at interval each other along the first direction, and is a plurality of the second electrically conductive piece all extends and sets up at interval each other along the second direction, the first direction with the second direction is crossing, every adjacent two first electrically conductive piece and every adjacent two the second electrically conductive piece encloses to establish into first mosquito inlet.

In an embodiment, the second electric wire netting includes third electrically conductive piece and fourth electrically conductive piece, third electrically conductive piece with fourth electrically conductive piece is a plurality of, and is a plurality of third electrically conductive piece all extends and separates the setting each other along the third direction, and is a plurality of fourth electrically conductive piece all extends and separates the setting each other along the fourth direction, the third direction with the fourth direction is crossing, the third direction respectively with the first direction with the second direction is crossing, the fourth direction respectively with the first direction with the second direction is crossing, every adjacent two the third electrically conductive piece with every adjacent two fourth electrically conductive piece encloses and establishes into the mosquito inlet of second.

In an embodiment, in a direction in which the first power grid faces the second power grid, the third conductive member and the fourth conductive member are exposed to the first mosquito inlet.

In one embodiment, the first mosquito inlet and the second mosquito inlet are both rhombus-shaped, the long diagonal of the first mosquito inlet and the long diagonal of the second mosquito inlet are arranged in a staggered manner, and the short diagonal of the first mosquito inlet and the short diagonal of the second mosquito inlet are arranged in a staggered manner.

In an embodiment, the poles of the first electrical network are identical to the poles of the main electrical network, the poles of the first electrical network being opposite to the poles of the second electrical network.

In an embodiment, the first and second grids are provided on opposite sides of the main grid, respectively.

In an embodiment, the racquet frame is fixedly connected to the perimeter of the first electrical grid, the perimeter of the second electrical grid and the perimeter of the main electrical grid, respectively.

In one embodiment, the racket frame is connected with a first mosquito luring lamp and/or an illuminating lamp.

In one embodiment, the electric mosquito swatter with multiple electric shock capability further comprises a swatter handle, the swatter frame is rotatably connected with the swatter handle, the swatter frame and the swatter handle can form a first state of being folded relatively and a second state of being unfolded relatively through rotation, a second mosquito-lured lamp is further arranged on the swatter handle, when the electric mosquito swatter with multiple electric shock capability is in the first state, the swatter handle is rotated to enable the swatter frames to be overlapped mutually, and light rays emitted by the second mosquito-lured lamp penetrate through the main power grid, the second power grid and the first power grid and are emitted outwards.

The utility model provides an electric mosquito swatter with multiple electric shock ability, first electric wire netting including the racket frame and in locating the racket frame, second electric wire netting and main electric wire netting, the second electric wire netting is located between first electric wire netting and the main electric wire netting, the second electric wire netting sets up with first electric wire netting and main electric wire netting interval respectively, a plurality of first mosquito inlets have been arranged on the first electric wire netting, a plurality of second mosquito inlets have been arranged on the second electric wire netting, a plurality of main net mouths have been arranged on the main electric wire netting, the area of first mosquito inlet is greater than the area of main net mouth, the area of second mosquito inlet is greater than the area of main net mouth, a plurality of first mosquito inlets and a plurality of second mosquito inlet crisscross setting, because the mosquito is scurried into again by the electric shock after being shocked by the electric shock easily between second electric wire netting and the main electric wire netting easily between second electric wire netting, or, the mosquito is scurried into again by the electric shock after being shocked by the electric shock easily between second electric wire netting and the main electric wire netting between second electric wire netting, make the mosquito get into the racket frame in, can be killed by electric shock many times.

Drawings

Fig. 1 is a schematic view of the three-dimensional structure of the electric mosquito swatter of the present invention.

Fig. 2 is an exploded view of the electric mosquito swatter of fig. 1 at an angle.

Fig. 3 is a schematic diagram of the first grid, the second grid and the main grid in fig. 1.

Fig. 4 is an enlarged view of a portion a of fig. 3.

Fig. 5 is a schematic structural diagram of a plurality of first mosquito inlet openings of the first power grid and a plurality of second mosquito inlet openings of the second power grid in fig. 1, which are arranged in a staggered manner.

Fig. 6 is an exploded view of the electric mosquito swatter of fig. 1 at another angle.

Fig. 7 is an enlarged schematic view of part B of fig. 6.

Detailed Description

Before the embodiments are described in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangements of components set forth in the following description or illustrated in the drawings. The utility model discloses can be the embodiment that other modes realized. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of "including," "comprising," "having," and the like, herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items. In particular, when "a certain element" is described, the present invention is not limited to the number of the element being one, and may include a plurality of the elements.

As shown in fig. 1 to 5, an electric mosquito swatter 10 having multiple electric shock capability includes a swatter frame 20, and a first electric net 30, a second electric net 40 and a main electric net 50 disposed in the swatter frame 20, wherein the first electric net 30 and the second electric net 40 are disposed at one side of the main electric net 50, the second electric net 40 is disposed between the first electric net 30 and the main electric net 50, the second electric net 40 is disposed at a distance from the first electric net 30 and the main electric net 50, respectively, a plurality of first mosquito inlet ports 31 are disposed on the first electric net 30, a plurality of second mosquito inlet ports 41 are disposed on the second electric net 40, a plurality of main net ports 51 are disposed on the main electric net 50, and the area of the first mosquito inlet ports 31 is larger than that of the main net ports 51, the area of the second mosquito inlet ports 41 is larger than that of the main electric net ports 51, the plurality of first mosquito inlet ports 31 and the plurality of second mosquito inlet ports 41 are interleaved, when a user uses the electric mosquito swatter 10 to kill mosquitoes, the electric mosquito is introduced between the first electric net 30 and the second electric net 40, and the electric net 40 is simultaneously, the electric mosquito is more easily shocked by the electric mosquito, and the electric mosquito is more easily killed by the electric mosquito, the electric mosquito is more easily, and the electric mosquito is more easily damaged by the electric mosquito when the electric mosquito is contacted with the electric mosquito, the electric mosquito swatter 10, and the electric mosquito is more easily, the electric mosquito is contacted with the electric mosquito. Because mosquitoes are easy to randomly enter between the second power grid 40 and the main power grid 50 after being shocked between the first power grid 30 and the second power grid 40 and then be shocked again, or mosquitoes are easy to randomly enter between the first power grid 30 and the second power grid 40 after being shocked between the second power grid 40 and the main power grid 50 and then be shocked again, the mosquitoes entering into the racket frame 20 can be killed after being shocked for a plurality of times.

After the plurality of first mosquito inlet openings 31 and the plurality of second mosquito inlet openings 41 are arranged in a staggered manner, the first power grid 30 and the second power grid 40 jointly enclose a plurality of auxiliary power grid openings 74, wherein the area of a single auxiliary power grid opening 74 is far smaller than that of a single first mosquito inlet opening 31, and the area of a single auxiliary power grid opening 74 is far smaller than that of a single second mosquito inlet opening 41, so that once mosquitoes enter between the first power grid 30 and the second power grid 40 through the first mosquito inlet opening 31, the mosquitoes can easily contact the first power grid 30 and the second power grid 40 at the same time to be shocked. Specifically, there are a plurality of dense main net openings 51 on the main net 50, through which the mosquitoes cannot escape from the second electric net 40 and the main net 50, so that once the mosquitoes enter between the second electric net 40 and the main net 50, the mosquitoes are electrocuted simultaneously with the second electric net 40 and the main net 50, and if the mosquitoes survive to escape from the second electric net 40 and the main net 50 back between the first electric net 30 and the second electric net 40, the mosquitoes are also electrocuted commonly by the first electric net 30 and the second electric net 40, and the multi-layer electric shock structure makes the mosquitoes be completely killed after being electrocuted for a plurality of times.

As shown in fig. 3 to 5, in the embodiment, the first power grid 30 includes a plurality of first conductive members 32 and a plurality of second conductive members 33, the first conductive members 32 and the second conductive members 33 are plural, the plurality of first conductive members 32 extend along a first direction and are arranged at intervals, the plurality of second conductive members 33 extend along a second direction and are arranged at intervals, the first direction intersects the second direction, and each two adjacent first conductive members 32 and each two adjacent second conductive members 33 surround a first mosquito inlet 31. The first electrically conductive members 32 are electrically connected by intersecting the second electrically conductive members 33 such that the plurality of first electrically conductive members 32 and the plurality of second electrically conductive members 33 on the first electrical grid 30 are all energized.

Further, the second power grid 40 is separately disposed from the first power grid 30 and the main power grid 50, the second power grid 40 includes a plurality of third conductive members 42 and fourth conductive members 43, the third conductive members 42 and the fourth conductive members 43 are disposed at intervals, the third conductive members 42 extend along a third direction, the fourth conductive members 43 extend along a fourth direction, the fourth direction intersects with the fourth direction, the third direction intersects with the first direction and the second direction, the fourth direction intersects with the first direction and the second direction, and every two adjacent third conductive members 42 and every two adjacent fourth conductive members 43 are surrounded to form a second mosquito inlet 41. The third electrically conductive members 42 are electrically connected by intersecting the fourth electrically conductive members 43 such that the plurality of third electrically conductive members 42 and the plurality of fourth electrically conductive members 43 on the second electrical grid 40 are electrically energized. The first mosquito inlet 31 and the second mosquito inlet 41 are both square openings, the first mosquito inlet 31 and the second mosquito inlet 41 are arranged in a staggered mode, so that the first mosquito inlet 31 crosses a plurality of second mosquito inlets 41, a plurality of auxiliary net openings 74 which are smaller relative to the first mosquito inlet 31 and the second mosquito inlet 41 are formed after the plurality of first mosquito inlets 31 and the plurality of second mosquito inlets 41 are arranged in a staggered mode in the direction of penetrating through the first power grid 30 and the second power grid 40, the area of the mosquitoes which are in contact with the first power grid 30 and the second power grid 40 when entering between the first power grid 30 and the second power grid 40 is increased, and the mosquitoes are killed by electric shock more easily.

Further, in a direction in which the first power grid 30 faces the second power grid 40, the third conductive member 42 and the fourth conductive member 43 are exposed at the first mosquito inlet 31, the mosquito enters between the first power grid 30 and the second power grid 30 from any one of the plurality of first mosquito inlets 31, the mosquito contacts the third conductive member 42 or the fourth conductive member 43 exposed at the first mosquito inlet 31, and when the mosquito contacts the first conductive member 32 or the second conductive member 33 surrounding the first mosquito inlet 31, the mosquito is subjected to an electric shock, and the mosquito is killed by the electric shock, specifically, the third conductive member 42 and the fourth conductive member 43 can be observed through any one of the plurality of first mosquito inlets 31.

In the embodiment, the first mosquito inlet 31 and the second mosquito inlet 41 are both in a diamond shape, the long diagonal of the first mosquito inlet 31 is longer than the short diagonal of the first mosquito inlet 31, the long diagonal of the first mosquito inlet 31 is perpendicular to the short diagonal of the first mosquito inlet 31, the long diagonal of the second mosquito inlet 41 is longer than the short diagonal of the second mosquito inlet 41, and the long diagonal of the second mosquito inlet 41 is perpendicular to the short diagonal of the second mosquito inlet 41. The long diagonal line of the first mosquito inlet 31 and the long diagonal line of the second mosquito inlet 41 are arranged in a staggered manner, the short diagonal line of the first mosquito inlet 31 and the short diagonal line of the second mosquito inlet 41 are arranged in a staggered manner, a plurality of auxiliary net openings 74 which are smaller relative to the first mosquito inlet 31 and the second mosquito inlet 41 are formed after the first mosquito inlet 31 and the second mosquito inlet 41 are arranged in a staggered manner, the contact area between the mosquitoes and the first power grid 30 and the second power grid 40 is increased when the mosquitoes enter between the first power grid 30 and the second power grid 40, and the mosquitoes are killed by electric shock more easily. In other embodiments, the first mosquito inlet 31 and the second mosquito inlet 41 may have other shapes, such as: hexagonal, circular, triangular, irregular, etc., as long as the mosquitoes can be electrically shocked by entering between the first power grid 30 and the second power grid 40 through the first mosquito inlet 31.

In an embodiment, the electrodes of the first power grid 30 are the same as those of the main power grid 50, the electrodes of the second power grid 40 are opposite to those of the first power grid 30, a high-voltage electrostatic field is formed between the first power grid 30 and the second power grid 40 and between the second power grid 40 and the main power grid 50, when mosquitoes contact the first power grid 30 and the second power grid 40 at the same time, the first power grid 30 and the second power grid 40 form a short circuit or the first power grid 30 and the second power grid 40 perform arc discharge to finally electrocute the mosquitoes, or when the mosquitoes contact the second power grid 40 and the main power grid 50 at the same time, the main power grid 50 and the second power grid 40 form a short circuit or the second power grid 40 and the main power grid 50 perform arc discharge to finally electrocute the mosquitoes.

More specifically, the area of the first mosquito inlet 31 is equal to the area of the second mosquito inlet 41, the structure of the first power grid 30 is the same as that of the second power grid 40, and the first power grid 30 is mounted on the racket frame 20 after rotating relative to the second power grid 40, so that the first mosquito inlet 31 and the second mosquito inlet 41 are not in the same orientation, and the first power grid 30, the second power grid 40 and the main power grid 50 can be rapidly assembled in the racket frame 20.

In an embodiment, the first and second power grids 30 and 40 are arranged in parallel, and the first and second power grids 30 and 40 are equally spaced, so that mosquitoes enter between the first and second power grids 30 and 40, and no matter where between the first and second power grids 30 and 40, the mosquitoes can be killed by electric shock after contacting the first and second power grids 30 and 40 at the same time. In this case, the main power grid 50 is likewise arranged in parallel with the second power grid 40, and the distance between the first power grid 30 and the second power grid 40 is equal to the distance between the second power grid 40 and the main power grid 50.

As shown in fig. 2, in the embodiment, the racquet frame 20 is fixedly connected to the periphery of the first electrical network 30, the periphery of the second electrical network 40, and the periphery of the main electrical network 50, respectively, the racquet frame 20 includes a first racquet frame 21, a second racquet frame 22, a third racquet frame 23, and a fourth racquet frame 24, the first electrical network 30 is disposed between the first racquet frame 21 and the second racquet frame 22, and the first racquet frame 21 and the second racquet frame 22 cover the periphery of the first electrical network 30; the second electric network 40 is arranged between the second racket frame 22 and the third racket frame 23, and the second racket frame 22 and the third racket frame 23 cover the periphery of the second electric network 40; the main grid 50 is arranged between the third racket frame 23 and the fourth racket frame 24, the third racket frame 23 and the fourth racket frame 24 cover the periphery of the main grid 50, the first grid 30 is separated from the second grid 40 through the second racket frame 22, and the first grid 30 is prevented from contacting the second grid 40 to cause short circuit, specifically, the first racket frame 21, the second racket frame 22, the third racket frame 23 and the fourth racket frame 24 are all provided with a plurality of insulating frameworks 81, and the first grid 30 and the second grid 40 are fixed on two sides of the insulating frameworks 81 of the second racket frame 22. Similarly, the main grid 50 is separated from the second grid 40 by the third racket frame 23, and the main grid 50 and the second grid 40 are fixed on both sides of the insulating frame 81 of the third racket frame 23, so as to prevent the second grid 40 from contacting the main grid 50 to cause short circuit.

In the embodiment, as shown in fig. 6, the first electric net 30 and the second electric net 40 are simultaneously disposed on opposite sides of the main electric net 50, the first electric net 30, the second electric net 40, the main electric net 50, the second electric net 40 and the first electric net 30 are sequentially disposed on the racket frame 20 at intervals, and both sides of the electric mosquito racket 10 can be used for electrically shocking mosquitoes.

Further, the racquet frame 20 further includes a fifth racquet frame 25 and a sixth racquet frame 26, the fifth racquet frame 25 and the sixth racquet frame 26 are both located on the side of the fourth racquet frame 24 away from the main grid 50, and the fifth racquet frame 25 is located between the fourth racquet frame 24 and the sixth racquet frame 26; a second power grid 40 is arranged between the fourth racket frame 24 and the fifth racket frame 25, the fourth racket frame 24 and the fifth racket frame 25 cover the periphery of the second power grid 40, a first power grid 30 is arranged between the fifth racket frame 25 and the sixth racket frame 26, and the fifth racket frame 25 and the sixth racket frame 26 cover the periphery of the first power grid 30. Also, the fifth racquet frame 25 and the sixth racquet frame 26 are provided with the insulating frame 81, the second power net 40 is fixed to the insulating frame 81 of the fourth racquet frame 24 and the insulating frame 81 of the fifth racquet frame 25, and the first power net 30 is fixed to the insulating frame 81 of the fifth racquet frame 25 and the insulating frame 81 of the sixth racquet frame 26, thereby preventing the first power net 30 from contacting the second power net 40 to cause a short circuit.

As shown in fig. 6 to 7, in the embodiment, a first mosquito-lured lamp 71 is connected to the racket frame 20, when the first mosquito-lured lamp 71 is operated, a bait light is emitted to attract the mosquito through the space between the first power grid 30 and the second power grid 40 or between the second power grid 40 and the main power grid 50, so that the mosquito is killed by electric shock, and a user can release both hands through the mosquito-lured lamp, so that the electric mosquito racket 10 can be placed on a table, or hung on a wall, and the like, so as to automatically shock and kill the mosquito.

Alternatively, an illuminating lamp 71 is connected to the racket frame 20, and a user can search for mosquitoes through the illuminating lamp 71, so that the electric mosquito racket 10 can accurately catch and shock the mosquitoes.

In the embodiment, the mosquito swatter 10 further comprises a swatter handle 60, the swatter frame 20 is rotatably connected with the swatter handle 60, the swatter frame 20 and the swatter handle 60 can be in a first state of being folded relatively and a second state of being unfolded relatively, a second mosquito-lured lamp 72 is further arranged on the swatter handle 60, when the mosquito swatter 10 is in the first state, the swatter handle 60 is rotated to be overlapped with the swatter frame 20, and light emitted by the second mosquito-lured lamp 72 penetrates through the main grid 50, the second grid 40 and the first grid 30 to be emitted outwards, so that mosquitoes can be attracted between the first grid 30 and the second grid 40, or mosquitoes can be killed by electric shock between the second grid 40 and the main grid 50. When the electric mosquito swatter 10 is in the second state, the user grasps the mosquito by holding the swatter handle 60, and kills the mosquito by electric shock through the first electric net 30, the second electric net 40 and the main electric net 50 in the swatter frame 20. The electric mosquito swatter 10 can be in different working states that the electric mosquito swatter can actively attract mosquitoes to kill the mosquitoes by electric shock after being folded relatively and can be conveniently held by the handle 60 to catch the mosquitoes for killing the mosquitoes by electric shock when being unfolded relatively, and the use requirements of users in different scenes can be met.

The utility model provides an electric mosquito swatter with multiple electric shock ability, first electric wire netting in including the frame and locating the frame, second electric wire netting and main electric wire netting, the second electric wire netting is located between first electric wire netting and the main electric wire netting, the second electric wire netting sets up with first electric wire netting and main electric wire netting interval respectively, a plurality of first mosquito inlets of having arranged on the first electric wire netting, a plurality of second mosquito inlets of having arranged on the second electric wire netting, a plurality of main net mouths of having arranged on the main electric wire netting, the area of first mosquito inlet is greater than the area of main net mouth, the area that the mosquito inlet was gone into to the second is greater than the area of main net mouth, a plurality of first mosquito inlets and a plurality of second mosquito inlets crisscross setting, because the mosquito is scurried easily after being shocked between first electric wire netting and the second electric wire netting and is shocked once more by the electric shock after being shocked by the electricity between second electric wire netting easily between second electric wire netting and the main electric wire netting, or, the mosquito is scurried easily after being shocked by the electric wire netting between second electric wire netting and the electric wire netting is shocked by the electric wire netting many times and is killed, make the mosquito get into in the frame.

The concepts described herein may be embodied in other forms without departing from the spirit or characteristics thereof. The particular embodiments disclosed should be considered illustrative rather than restrictive. The scope of the invention is, therefore, indicated by the appended claims rather than by the foregoing description. Any changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (10)

1. The utility model provides an electric mosquito swatter with multiple electric shock ability, its characterized in that, includes the bat frame and locates first electric wire netting, second electric wire netting and the main electric wire netting in the bat frame, the second electric wire netting be located first electric wire netting with between the main electric wire netting, the second electric wire netting respectively with first electric wire netting with the main electric wire netting interval sets up, a plurality of first mosquito inlet of having arranged on the first electric wire netting, a plurality of second mosquito inlet of having arranged on the second electric wire netting, a plurality of main net mouths of having arranged on the main electric wire netting, just the area of first mosquito inlet is greater than the area of main net mouth, the area of second mosquito inlet is greater than the area of main net mouth, it is a plurality of first mosquito inlet is with a plurality of the crisscross setting of second mosquito inlet.

2. The electric mosquito swatter with multiple electric shock capability of claim 1 wherein the first electrical network comprises a plurality of first conductive members and a plurality of second conductive members, the plurality of first conductive members extending along a first direction and being spaced apart from each other, the plurality of second conductive members extending along a second direction and being spaced apart from each other, the first direction intersecting the second direction, each two adjacent first conductive members and each two adjacent second conductive members enclosing the first mosquito inlet.

3. The electric mosquito swatter with multiple electric shock capability of claim 2 wherein the second electrical network comprises a plurality of third conductive members and a plurality of fourth conductive members, wherein the plurality of third conductive members and the plurality of fourth conductive members are all arranged along a third direction and spaced from each other, the plurality of fourth conductive members are all arranged along a fourth direction and spaced from each other, the third direction intersects the fourth direction, the third direction intersects the first direction and the second direction respectively, the fourth direction intersects the first direction and the second direction respectively, and every two adjacent third conductive members and every two adjacent fourth conductive members are surrounded to form the second mosquito inlet.

4. The electric mosquito swatter with multiple electric shock capability as claimed in claim 3, wherein said third conductive member and said fourth conductive member are exposed to said first mosquito inlet in a direction that said first electric grid faces said second electric grid.

5. The electric mosquito swatter with multiple electric shock capability as claimed in claim 1 wherein the first and second mosquito inlet openings are diamond shaped, the long diagonal of the first mosquito inlet opening is staggered with the long diagonal of the second mosquito inlet opening, and the short diagonal of the first mosquito inlet opening is staggered with the short diagonal of the second mosquito inlet opening.

6. The electric mosquito swatter with multiple shock capability of claim 1 wherein the electrodes of the first electrical grid are the same as the electrodes of the main electrical grid, the electrodes of the first electrical grid being opposite the electrodes of the second electrical grid.

7. The electric mosquito swatter with multiple electric shock capability as claimed in any one of claims 1 to 6 wherein said first and second electrical grids are provided on opposite sides of said main electrical grid, respectively.

8. The electric mosquito swatter with multiple shock capability of claim 7 wherein the frame is fixedly connected to the peripheral edges of the first and second electrical grids and the main electrical grid, respectively.

9. An electric mosquito swatter having multiple electric shock capabilities as claimed in any one of claims 1 to 6 wherein a first mosquito luring light and/or illuminating light is attached to the frame.

10. The electric mosquito swatter with multiple electric shock capability as claimed in any one of claims 1 to 6, wherein said electric mosquito swatter with multiple electric shock capability further comprises a handle, said frame is rotatably connected with said handle, said frame and said handle can be rotated to form a first state of being folded relatively and a second state of being unfolded relatively, said handle is further provided with a second mosquito-lured lamp, when said electric mosquito swatter with multiple electric shock capability is in said first state, said handle is rotated to overlap said frame, and the light emitted from said second mosquito-lured lamp is emitted through said main electric net, second electric net and said first electric net.

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