CN213095683U - Electric shock type mosquito eradication lamp high-voltage net - Google Patents
Electric shock type mosquito eradication lamp high-voltage net Download PDFInfo
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- CN213095683U CN213095683U CN202022111884.1U CN202022111884U CN213095683U CN 213095683 U CN213095683 U CN 213095683U CN 202022111884 U CN202022111884 U CN 202022111884U CN 213095683 U CN213095683 U CN 213095683U
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Abstract
The utility model discloses an electric shock type mosquito eradication lamp high-voltage net, which comprises a positive pole rod, a negative pole rod and an insulating wire, wherein the bottom of the side surface of the positive pole rod is equidistantly and integrally formed with a positive pole supporting rod, the bottom of the side surface of the negative pole rod is equidistantly and integrally formed with a negative pole supporting rod, the positive pole supporting rod and the negative pole supporting rod are arranged in a staggered and parallel way, a plurality of positive pole supporting rods form a positive pole electric network, a plurality of negative pole supporting rods form a negative pole electric network, and the positive pole electric network and the negative pole electric network are fixed by the insulating; this scheme forms the kill mosquito electric wire netting through the mode that adopts anodal electric wire netting, negative pole electric wire netting and insulated wire combination, and wherein the insulated wire both plays the effect of keeping apart anodal electric wire netting and negative pole electric wire netting, can play the effect of fixed anodal electric wire netting and negative pole electric wire netting again for manufacturing cost step-down.
Description
Technical Field
The utility model relates to a deinsectization technical field specifically is an electric shock formula kill mosquito lamp high voltage network.
Background
The electronic mosquito killing lamp attracts mosquitoes by utilizing phototaxis of the mosquitoes to kill the mosquitoes by electric shock, adopts the high-efficiency mosquito trapping lamp tube, has high-efficiency trapping effect on harmful winged insects such as the mosquitoes and the like, can kill the winged insects instantly by electrostatic shock, has current-limiting circuit design, low power consumption and high efficiency, can be used only by switching on a power supply, and does not volatilize any chemical substances.
In the past, a high-voltage net and a low-voltage net are used separately, so that the cost is high, and the installation is inconvenient, and therefore an electric shock type mosquito killing lamp high-voltage net is provided.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an electric shock formula kill mosquito lamp high voltage net to solve the problem that proposes in the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an electric shock formula kill mosquito lamp high voltage network, includes anodal pole, negative pole and insulated wire, the side bottom equidistance integrated into one piece of anodal pole has anodal branch, the side bottom equidistance integrated into one piece of negative pole has negative pole branch, anodal branch with crisscross parallel placement between the negative pole branch, a plurality of anodal branch is constituteed anodal electric wire netting, a plurality of negative pole electric wire netting is constituteed to negative pole branch, anodal electric wire netting with pass through between the negative pole electric wire netting the insulated wire is fixed.
Through adopting above-mentioned technical scheme, install near the mosquito lamp earlier with the device during use, then will be connected respectively on anodal pole and negative pole with the wire that the power is connected, then open the power, when the mosquito passed the kill mosquito electric wire netting that anodal electric wire netting and negative pole electric wire netting are constituteed this moment, just can make it die of electrocuting of electric shock, and no any chemical volatilizees.
Preferably, the positive pole branch with the draw-in groove has all been seted up at the both ends of negative pole branch, is located the tip of draw-in groove the buckle is all installed to the side of positive pole branch with negative pole branch, the insulated wire runs through the buckle, the buckle joint is in the inside of draw-in groove.
By adopting the technical scheme, the insulating wire is convenient to fix between the positive power grid and the negative power grid, and meanwhile, due to the effect of the insulating wire, the positive power grid and the negative power grid are not in contact with each other.
Preferably, the positive pole supporting rod and the negative pole supporting rod are both in U-shaped arrangement.
Through adopting above-mentioned technical scheme, set up to the U type, make under the effect of buckle more firm between positive pole branch, negative pole branch and the insulated wire, U type both sides play the supporting role.
Compared with the prior art, the beneficial effects of the utility model are that:
the utility model discloses a mode that adopts anodal electric wire netting, negative pole electric wire netting and insulated wire combination forms the kill mosquito electric wire netting, and wherein the insulated wire both plays the effect of keeping apart anodal electric wire netting and negative pole electric wire netting, can play the effect of fixed anodal electric wire netting and negative pole electric wire netting again for manufacturing cost step-down.
Drawings
Fig. 1 is a schematic structural view of the present invention;
FIG. 2 is an enlarged view of portion A of FIG. 1;
fig. 3 is a schematic structural view of the high voltage network and the negative electrode network of the present invention.
In the figure: 1. a positive pole rod; 101. a positive pole support rod; 103. a positive grid; 2. a negative pole rod; 201. a negative pole support rod; 203. a negative grid; 3. an insulated wire; 4. buckling; 401. a clamping groove.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-3, the present invention provides a technical solution:
an electric shock type mosquito eradication lamp high-voltage network comprises an anode rod 1, a cathode rod 2 and an insulated wire 3, wherein the bottom of the side surface of the anode rod 1 is equidistantly and integrally formed with an anode support rod 101, the bottom of the side surface of the cathode rod 2 is equidistantly and integrally formed with a cathode support rod 201, the anode support rod 101 and the cathode support rod 201 are arranged in parallel in a staggered manner, a plurality of anode support rods 101 form an anode power grid 103, a plurality of cathode support rods 201 form a cathode power grid 203, the anode power grid 103 and the cathode power grid 203 are fixed through the insulated wire 3, the two ends of the anode support rod 101 and the two ends of the cathode support rod 201 are respectively provided with a clamping groove 401, the end parts of the anode support rod 101 and the side surface of the cathode support rod 201 which are positioned in the clamping groove 401 are respectively provided with a clamping buckle 4, the insulated wire 3 penetrates through the clamping groove 4, the clamping buckle 4 is clamped in the clamping groove 401, make between anodal electric wire netting 103 and the negative pole electric wire netting 203 not contact each other, anodal branch 101 is the U type setting with negative pole branch 201, through setting up to the U type, makes more firm between anodal branch 101, negative pole branch 201 and the insulated wire 3 under buckle 4's effect, and U type both sides play the supporting role.
The working principle is as follows: install near the mosquito lamp earlier during the use, then will be connected respectively on anodal pole 1 and negative pole 2 with the wire that the power is connected, then open the power, when the mosquito passed the kill mosquito electric wire netting that anodal electric wire netting 103 and negative pole electric wire netting group 203 become this moment, just can make it die by electric shock, no any chemical volatilizees.
In conclusion, the mosquito killing power grid is formed by adopting the mode of combining the positive power grid 103, the negative power grid 203 and the insulating wire 3, wherein the insulating wire 3 not only plays a role in isolating the positive power grid 103 from the negative power grid 203, but also can play a role in fixing the positive power grid 103 and the negative power grid 203, so that the manufacturing cost is lowered.
The part not involved in the utility model is the same as the prior art or can be realized by adopting the prior art. Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (3)
1. The utility model provides an electric shock formula kill mosquito lamp high voltage network, includes anodal pole (1), negative pole (2) and insulated wire (3), its characterized in that:
side bottom equidistance integrated into one piece of anodal pole (1) has anodal branch (101), the side bottom equidistance integrated into one piece of negative pole (2) has negative pole branch (201), anodal branch (101) with crisscross parallel placement, a plurality between negative pole branch (201) anodal electric wire netting (103), a plurality of positive pole branch (101) are constituteed negative pole electric wire netting (203) negative pole branch (201), anodal electric wire netting (103) with pass through between negative pole electric wire netting (203) insulated wire (3) are fixed.
2. The electric shock type mosquito eradication lamp high-voltage net according to claim 1, wherein: anodal branch (101) with draw-in groove (401) have all been seted up at the both ends of negative pole branch (201), are located the tip of draw-in groove (401) anodal branch (101) with buckle (4) are all installed to the side of negative pole branch (201), insulated wire (3) run through buckle (4), buckle (4) joint is in the inside of draw-in groove (401).
3. The electric shock type mosquito eradication lamp high-voltage net according to claim 1, wherein: the positive pole supporting rod (101) and the negative pole supporting rod (201) are both in U-shaped arrangement.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022111884.1U CN213095683U (en) | 2020-09-24 | 2020-09-24 | Electric shock type mosquito eradication lamp high-voltage net |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022111884.1U CN213095683U (en) | 2020-09-24 | 2020-09-24 | Electric shock type mosquito eradication lamp high-voltage net |
Publications (1)
Publication Number | Publication Date |
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CN213095683U true CN213095683U (en) | 2021-05-04 |
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CN202022111884.1U Active CN213095683U (en) | 2020-09-24 | 2020-09-24 | Electric shock type mosquito eradication lamp high-voltage net |
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2020
- 2020-09-24 CN CN202022111884.1U patent/CN213095683U/en active Active
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