CN213819507U - Fruit fly multipurpose electronic mosquito and fly swatter - Google Patents

Abstract

The invention relates to a fruit fly multipurpose electronic mosquito-fly swatter. The multifunctional fruit fly swatter has three-layer structure including high voltage electrode net in the middle layer and negative electrode nets on two sides. However, in order to better act on fruit flies, the high-voltage electrode mesh structure of the middle layer is set to be a three-layer arrangement structure that the high-voltage electrode, the negative electrode, the high-voltage electrode and the negative electrode are arranged in parallel in sequence on the same plane, a double-electrode mesh layer with the gap of 1.5-2 mm is arranged in sequence, and the negative electrode mesh layer is arranged on two sides of the double-electrode mesh layer. Therefore, when the fly swatter is used for swatting fruit flies, the body of the fruit flies can simultaneously touch the high-voltage electrode and the negative electrode of the high-voltage electrode net in the middle layer of the body of the fruit flies, the body of the fruit flies can form a conductor, the high-voltage electrode and the negative electrode can immediately discharge electricity, and the fruit flies can be wounded or killed. The application range is improved, and the electronic fly swatter is convenient to use.

Description

Fruit fly multipurpose electronic mosquito and fly swatter

Technical Field

The invention relates to an electronic mosquito-fly swatter, in particular to a fruit fly multipurpose electronic mosquito-fly swatter.

Background

The bat surface of the present commonly used electronic flyswatter usually has three layers, the middle layer is a high-voltage electrode net, the two layers outside the two sides are respectively a negative electrode net, when the bat surface of the flyswatter is hit by mosquitoes and flies, the bodies of the mosquitoes and the flies can simultaneously touch the high-voltage electrode net in the middle layer and the negative electrode net on one side to form a passage, the mosquitoes and the flies are killed or injured by high-voltage current, the use is very convenient, and one bat does not exist in hand mosquitoes and flies. However, the electronic flyswatter currently used is not effective in restraining the fruit flies with small individual sizes. Although the electronic fly swatter can swatter fruit flies, the volume of the head of the fruit fly is small, and the gaps of the grids of the electronic fly swatter are generally larger than the body of the fruit fly, so that the swatted fruit flies cannot touch the high-voltage electrode of the high-voltage electrode grid in the middle layer of the electronic fly swatter and the negative electrode grid outside the high-voltage electrode grid at the same time, a passage cannot be formed, the swatted fruit flies cannot be shocked, the function of killing the fruit flies cannot be achieved, and the function of the electronic fly swatter cannot be fully exerted.

Disclosure of Invention

The invention aims to solve the problem that fruit flies beaten by the electronic fly swatter cannot simultaneously touch a high-voltage electrode of a high-voltage electrode net in the middle layer of the electronic fly swatter and a negative electrode net on one side of the electronic fly swatter due to large gaps among grids of the electronic fly swatter, and the beaten fruit flies cannot be effectively killed and killed by electric shock. The invention improves the high-voltage electrode structure arrangement form of the middle-layer high-voltage electrode net and reduces the gap, so that the gap between the high-voltage electrode and the negative electrode is equal to or smaller than the body of the fruit fly, when the flyswatter is patted with the fruit fly on the swatter surface, the body of the fruit fly can simultaneously touch the high-voltage electrode and the negative electrode net of the middle-layer high-voltage electrode net, the body of the fruit fly forms a passage, and the fruit fly is killed or injured by high-voltage current. Meanwhile, the electric flyswatter also has the function of electrically shocking mosquitoes and flies, so that the application range is improved, and the use of the electronic flyswatter is facilitated.

Detailed description of the preferred embodiments

The scheme adopted by the invention is as follows: the multifunctional fruit fly swatter has three-layer structure including high voltage electrode net in the middle layer and negative electrode nets on two sides. However, in order to better act on fruit flies, the high-voltage electrode mesh structure of the middle layer is set to be a three-layer arrangement structure that the high-voltage electrode, the negative electrode, the high-voltage electrode and the negative electrode are arranged in parallel in sequence on the same plane, a double-electrode mesh layer with the gap of 1.5-2 mm is arranged in sequence, and the negative electrode mesh layer is arranged on two sides of the double-electrode mesh layer. Therefore, when the fruit flies are flapped, the body of the fruit flies can simultaneously touch the high-voltage electrode and the negative electrode of the middle-layer high-voltage electrode net with the gap smaller than that of the body of the fruit flies, the body of the fruit flies can form a conductor, the high-voltage electrode and the negative electrode can immediately discharge electricity, and the fruit flies can be wounded or killed. Meanwhile, if the mosquito and the fly are flapped, the mosquito and the fly can be hurt or killed by touching the high-voltage electrode and the negative electrode of the high-voltage electrode net in the middle layer; if the high-voltage electrode and the negative electrode of the high-voltage electrode net in the middle layer are not touched at the same time, the negative electrode net on one side can be touched to receive electric shock, so that the application range is enlarged, and the electronic fly swatter is convenient to use.

Advantageous effects

The invention has the advantages that under the basic condition that the appearance and the circuit principle of the existing electronic fly swatter are not changed, the problem that the existing electronic fly swatter can only be used for mosquitoes and flies to be ineffective on fruit flies is solved by improving the arrangement structure of the high-voltage net at the middle layer of the electronic fly swatter. Effectively enhancing the practicability of the electronic fly swatter and being beneficial to the popularization and the use of the electronic fly swatter.

Drawings

Fig. 1 is a diagram of a three-layer electrode mesh arrangement according to an embodiment of the present invention.

In the figure, 1 is a high-voltage electrode net, 2 is a negative electrode net, and 3 is a negative electrode net.

FIG. 2 is a plan view of the longitudinal arrangement of the interlayer high voltage electrode mesh in an embodiment of the present invention.

In the figure, 4 high voltage poles, 5 negative poles.

Detailed Description

The following describes a specific embodiment of the present invention with reference to fig. 1 and 2.

The multifunctional fruit fly electronic mosquito-fly swatter also adopts a three-layer arrangement structure that the middle layer is a high-voltage electrode net (1) and the two sides are respectively a negative electrode net (2) and a negative electrode net (3). In order to better act on fruit flies, the high-voltage electrode net (1) in the middle layer is structurally provided with a high-voltage electrode (4), a negative electrode (5), the high-voltage electrode (4) and the negative electrode (5) which are arranged in parallel in sequence on the same plane, a double-electrode grid layer with a gap of 1.5-2 mm is arranged in parallel, and the negative electrode net (2) and the negative electrode net (3) are arranged on two sides. Therefore, when the fly swatter is used for swatting fruit flies, the body of the fruit flies can simultaneously touch the high-voltage electrode (4) and the negative electrode (5) of which the gaps are smaller than the high-voltage electrode net (1) in the middle layer of the body of the fruit flies, the body of the fruit flies can form a conductor, the high-voltage electrode (4) and the negative electrode (5) can immediately discharge electricity, and the fruit flies can be injured or killed by knocking. When the mosquito and the fly are flapped, if the high-voltage electrode (4) and the negative electrode (5) of the middle-layer high-voltage electrode net (1) are touched, the mosquito and the fly can be hurt or killed; if the high-voltage electrode (4) and the negative electrode (5) of the middle-layer high-voltage electrode net (1) are not touched at the same time, the negative electrode net (2) or the negative electrode net (3) which is touched at the outer side can be touched to receive electric shock. The arrangement structures of the high-voltage electrode (4) and the negative electrode (5) of the middle-layer high-voltage electrode net (1) can also be arranged in parallel in sequence and transversely.

Claims (2)

1. A fruit fly multipurpose electronic mosquito and fly swatter is characterized in that: the multifunctional fruit fly electronic mosquito swatter has a swatter surface structure with a high-voltage electrode net structure in the middle layer, wherein the high-voltage electrode net structure is a double-electrode net layer with a high-voltage electrode, a negative electrode, a high-voltage electrode and a negative electrode which are arranged in parallel in sequence on the same plane, and negative electrode nets are arranged on two sides of the double-electrode net layer.

2. The multipurpose fruit fly electronic mosquito fly swatter as recited in claim 1, wherein: the high-voltage electrode mesh structure of the middle layer is a double-electrode mesh layer with a gap of 1.5-2 mm, wherein the high-voltage electrode, the negative electrode, the high-voltage electrode and the negative electrode are arranged on the same plane in sequence and are arranged in parallel.

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