CN101836624A

CN101836624A - Environmental friendly mosquito killer

Info

Publication number: CN101836624A
Application number: CN 200910106137
Authority: CN
Inventors: 陈华家
Original assignee: Shenzhen Foowah Handbags Co Ltd
Current assignee: Shenzhen Foowah Handbags Co Ltd
Priority date: 2009-03-20
Filing date: 2009-03-20
Publication date: 2010-09-22
Anticipated expiration: 2029-03-20
Also published as: CN101836624B

Abstract

The invention relates to the field of daily articles and provides an environmental friendly mosquito killer which comprises a power unit, a mosquito trapping device, a mosquito killing device and a fixing device, wherein the power unit is used for supplying power for killing mosquitoes, the mosquito trapping device is connected with the power unit and traps mosquitoes, the mosquito killing device kills the trapped mosquitoes, and the fixing device is used for fixing the power unit, the mosquito trapping device and the mosquito killing device and comprises a mosquito inlet; the mosquito trapping device comprises a drug inducing module, a photoinduced module and a suction module, wherein the drug inducing module is connected with the fixing device and attracts the mosquitoes to approach the mosquito inlet through a mosquito trapping drug, the photoinduced module generates light sources through the power unit and attracts the mosquitoes to approach the mosquito inlet, and the suction module is connected with the fixing device, generates suction through a fan, and sucks the mosquitoes which approach the mosquito inlet into the mosquito killing device; and the mosquito killing device is communicated with the mosquito trapping device and traps the mosquitoes sucked by the mosquito trapping device so that the mosquitoes are isolated with the external. The environmental friendly mosquito killer achieves the purpose of killing mosquitoes by isolating the survival environment of the mosquitoes and lowers the energy consumption.

Description

Environment-friendly mosquito killer

Technical Field

The invention relates to the field of articles for daily use, in particular to an environment-friendly mosquito killer.

Background

In daily life, mosquito is generally repelled or killed by mosquito repellent medicines. For example, in the household life, people repel mosquitoes or kill mosquitoes through mosquito coils. Still others use electric shock to kill mosquitoes. For example, in the existing mosquito killer, the mosquitoes are attracted to the power grid through drugs or light, and when the mosquitoes approach or contact the power grid, the power grid generates current to shock the mosquitoes, so that the mosquito killing purpose is achieved. The method has the defects of large energy consumption and environmental protection.

Disclosure of Invention

One of the purposes of the invention is to provide an environment-friendly mosquito killer, aiming at reducing the energy consumption of the existing mosquito killer.

The purpose of the invention is realized by the following scheme: this environment-friendly mosquito killer includes: the electric energy unit is used for providing electric energy required by mosquito killing; the mosquito attracting device is connected with the electric energy unit and attracts mosquitoes through the electric energy unit; the mosquito killing device kills the mosquitoes attracted by the mosquito attracting device; the fixing device is used for fixing the electric energy unit, the mosquito trapping device and the mosquito killing device and comprises a mosquito inlet. Wherein,

the fixing device is of a cover body structure and comprises a mosquito inlet.

Mosquito device is lured to be located fixing device is interior, includes:

the drug-induced module can be connected with the fixing device and attracts mosquitoes to be close to the mosquito inlet through the mosquito-inducing drug;

the light induction module can generate light capable of attracting mosquitoes through the electric energy unit so that the mosquitoes are close to the mosquito inlet;

the suction module is connected with the fixing device and comprises a fan device, and suction force is generated by rotation of the fan, so that mosquitoes close to the mosquito inlet are sucked into the mosquito killing device.

The mosquito killing device is communicated with the mosquito trapping device to trap the mosquito trapped by the mosquito trapping device so as to isolate the mosquito from the outside.

The fixing device can be integrally formed with the mosquito-luring drug. The fixing device may include: the upper cover body is used for fixing the electric energy unit and the mosquito trapping device and is provided with a mosquito inlet; the lower cover body is connected with the upper cover body and comprises a detachable structure and a shell, wherein the detachable structure can enable the lower cover body to be separated from the upper cover body, and the shell is used for fixing the mosquito killing device.

The mosquito trapping device can also comprise a mosquito trapping medicine catalyzing module which is connected with the electric energy unit and generates light energy through the electric energy unit to volatilize the mosquito trapping medicine.

The mosquito attractant comprises a main component capable of generating carbon dioxide gas and generating the carbon dioxide gas for attracting mosquitoes; the mosquito-luring medicine catalysis module comprises ultraviolet light, and the ultraviolet light is generated through the electric energy unit to stimulate the main component and generate carbon dioxide gas capable of attracting mosquitoes to approach.

The mosquito killing device is connected with the lower cover body to form a mosquito killing room capable of preventing mosquitoes from escaping, and comprises an air exhaust device for exhausting air generated by the fan device.

The electric energy unit may include a battery module connected to the mosquito attracting device, and a rechargeable battery for supplying electric energy to the mosquito attracting device.

The electric energy unit can also comprise an electric energy conversion module which is connected with an external power supply and the rechargeable battery, converts the external power supply into electric energy matched with the rechargeable battery and provides the electric energy for the rechargeable battery.

The upper cover body can comprise a first cover body for protecting the electric energy module; the second cover body is positioned at the top of the upper shell and used for fixing the battery module; the main cavity is used for fixing the fan device.

The electric energy unit may further include a solar energy conversion module converting solar energy into electric energy and outputting the electric energy to the mosquito trapping device.

The electric energy unit can also comprise an intelligent control module which is connected with the mosquito trapping device and automatically controls the mosquito trapping device. The intelligent control module may include: the timing sub-block is used for setting a time point and disconnecting the electric energy unit at the time point so as to stop the mosquito killer; and the horizontal control sub-block stops the mosquito killer from working when the mosquito killer inclines or falls to the ground.

Therefore, the environment-friendly mosquito killer disclosed by the invention combines the mosquito-luring medicine, the mosquito-luring light and the fan, attracts mosquitoes into the mosquito killing room, and achieves the mosquito killing purpose by isolating the living environment of the mosquitoes. Therefore, the energy consumption of the existing mosquito killer is reduced.

Drawings

FIG. 1 is a schematic view showing a connection structure of an environment-friendly mosquito killer according to an embodiment of the present invention;

FIG. 2 is a block diagram of a fixture in one example of the above embodiment;

FIG. 3 is a sectional view showing the lower cover in the above embodiment;

FIG. 4 is a structural view of the mosquito attracting device in the above embodiment;

FIG. 5 is a schematic circuit diagram of the mosquito killer in the above embodiment;

fig. 6 is a structural view of the mosquito eradication device according to the above embodiment.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Fig. 1 shows a structure of an environment-friendly type mosquito killer according to an embodiment of the present invention. As shown in fig. 1, the environment-friendly mosquito killer includes a fixing device 1, an electric energy unit 2, a mosquito attracting device 3 and a mosquito killing device 4. The mosquito trapping device 3 may include a drug trapping module 31, a light trapping module 32, and a suction module 33.

The fixing device 1 is used for fixing the electric energy unit 2, the mosquito attracting device 3 and the mosquito killing device 4. For example, in one embodiment, the fixing device 1 may be a cover body, which can accommodate the electric energy unit 2, the mosquito attracting device 3, and the mosquito killing device 4. The fixture 1 further comprises a mosquito inlet 11.

The electric energy unit 2 is connected with the mosquito attracting device 3 and can provide electric energy for the mosquito attracting device 3.

The mosquito attracting device 3 can attract the mosquitoes through the electric energy unit 2, so that the mosquitoes fall into the mosquito killing device 4. In the above embodiment, the mosquito trapping device 3 may include a drug trapping module 31, and the drug trapping module 31 may be connected to the fixing device to attract mosquitoes to approach the mosquito inlet 11 of the fixing device 1 through the mosquito trapping drug. The mosquito attracting device 3 may further include a light attracting module 32, and the light attracting module 32 may generate light for attracting mosquitoes through the electric energy unit 2 so that the mosquitoes approach the mosquito entrance 11 of the fixing device. The suction module 33 may include a fan device 331. The fan unit 331 generates suction force when rotating, and sucks the mosquitoes near the mosquito inlet 11 into the mosquito eradication device 4.

The mosquito killing device 4 can be communicated with the mosquito attracting device 3. The mosquitoes sucked by the mosquito attracting device 3 can be trapped, thereby isolating the living environment of the mosquitoes. In the above embodiment, the mosquito killer can treat the trapped mosquitoes according to different application occasions. For example, trapped mosquitoes can be eaten as fish food and put in fish farming places, so that economic effect can be realized.

Fig. 2 shows the structure of the fixing device 1 in one example of the above-described embodiment. The fixing device 1 is a cover-shaped structure and comprises an upper cover body 11 and a lower cover body 12.

The upper cover 11 is used for fixing the electric energy unit 2 and the mosquito attracting device 3 and comprises a mosquito inlet 111. In one embodiment, the mosquito inlets 111 may be located in an annular array on the upper housing 11.

Mosquitoes can enter the mosquito killing device 4 through the mosquito inlet 111. For example, in one embodiment, mosquito eradication means 4 is located on lower housing 12, having a cavity in communication with upper housing 11. When the traditional Chinese medicine luring module 31 works in the mosquito luring device 3, mosquitoes are close to the mosquito inlet 111, and the mosquito is sucked into the mosquito killing device 4 through the mosquito inlet 111 by the suction module 33.

The upper housing 11 may be a plastic housing. The mosquito-luring drug in the traditional Chinese medicine luring module 31 of the above embodiment can be added to the plastic, and the two can be formed into a whole. For example, in one embodiment, a mosquito attractant comprising titanium dioxide (TiO2) may be added to the plastic housing. As shown, the power unit 2 may be located in the upper housing 11. In the mosquito attracting module 3, the suction module 33 may be accommodated in the upper cover 11 and fixed by the upper cover 11.

The lower case 12 is connected to the upper case 11 and is detachable from the upper case 11. For example, in one embodiment, the lower shell 12 may be provided with a fastening body that fits into the fastening groove 112 of the upper shell 11, so as to fasten the lower shell 12 to the upper shell 11. The lower cover 12 can be detached from the upper cover 11 by separating the buckle body from the buckle slot 112.

The lower cover body 12 may further include a positioning structure to fix the mosquito eradication device 4.

As shown in fig. 3, the lower cover 12 may be a separate structure. Comprises a housing 121 and a base 125, wherein the housing 121 and the base 125 can be fastened together by a fastening structure 126. The base 125 may cooperate with the housing 121 to restrain the mosquito eradication device 4. For example, in one embodiment, the mosquito killing device 4 may be a cartridge that fits into the interior of the housing 121. The housing 121 may include a protrusion 122. The distance L from the protrusion 122 to the end surface of the base 125 may be equal to the height of the cylinder. Thereby limiting radial displacement of the cartridge. The housing 121 may also be provided with a limiting groove 124 to limit rotation of the mosquito eradication device 4. For example, in the above embodiment, a rib adapted to the stopper groove 124 may be provided on the periphery of the cylindrical mosquito eradication device 4. The protruding ribs and the limiting grooves 124 are correspondingly assembled, so that the rotation of the mosquito killing device 4 is limited.

The fastening body 123 of the lower housing 12 can also be matched with the fastening groove 112 of the upper housing 11 in the above embodiments, so as to fasten the lower housing 12 and the upper housing 11.

As shown in fig. 4, the power unit 2 may be connected to the upper case 11. The power unit 2 may include a battery module 21, a charging interface 22, and a switch 23.

The battery module 21 is located in the upper case 11. In the above embodiment, the upper cover 11 may be a separate structure, and includes the main housing 110 for fixing the suction module 33, the second cover 115 for fixing the battery module 21, and the fixing plate 116 for fixing the light induction module 32. A first cover 114 may be further included to be connected to the second cover 115 to protect the battery module 21. The main housing 10 may further have a fixing structure for fixing the charging interface 21 and the switch 23.

The battery module 21 may be a rechargeable battery, and may be charged through the charging interface 22. The power unit 2 may include a power conversion module 20 therein. The power unit 2 is connected to an external power source, and can convert the external power source into power matched with the battery module 21 to charge the battery module 21. For example, in one example, the power unit 2 may include a charger connected to the mains to convert 220V mains to 12V power compatible with a rechargeable battery. In another example, the power conversion module 20 can also convert an external power source into electric power adapted to the mosquito trapping unit 3 to directly supply power to the mosquito trapping unit 3.

The power unit 2 may further include a solar energy conversion module for receiving solar energy and converting the solar energy into electric power matched with the mosquito attracting device 3. For example, in one embodiment, a solar panel may be disposed on the top of the upper housing, and the solar energy is converted into electrical energy by the conversion device for use by the mosquito-luring device 3. Through this solar energy conversion module, can save the electric energy greatly.

In the above embodiment, the power unit 2 may further include an intelligent control module 24. The intelligent control module 24 may control the power unit 2 to open or close. In one example, a control circuit board may be provided at the power unit 2. The control circuit board may be provided with a timer. This timer can be at the point of time that the user set for, with electric energy unit 2 disconnection to control mosquito killer. For example, the intelligent control module 24 can set the time at which the mosquito killer is controlled to be turned off or on.

The intelligent control module 24 may also include a level control switch. The horizontal control switch can stop the mosquito killer from working when the mosquito killer inclines to a certain angle or falls to the ground. The intelligent control module 24 has various schemes, and can be set for different user groups according to different use occasions. For example, different curing software can be arranged on the control circuit board to achieve better control of the mosquito killer.

In the above embodiment, the structure of the light induction module 32 and the suction module 33 in the mosquito attracting device 3 can be seen in fig. 4.

Referring to fig. 4, the light-inducing module 32 is connected to the power unit 2 and emits light to attract mosquitoes to approach the mosquito entrance 111. For example, in one example, the light induction module 32 may include an ultraviolet lamp that generates ultraviolet light through the power unit 2 to attract mosquitoes to approach. The ultraviolet lamp may be secured by a securing plate 116.

The suction module 33 may be a fan unit. For example, the suction module 33 may be a micro motor including a fan blade. The micro motor can rotate through the electric energy unit 2 and drive the fan blades to rotate, so that suction force is generated, and mosquitoes are sucked into the mosquito killing device 4.

The light induction module 32 also volatilizes the mosquito-inducing medicine in the medicine induction module 31 to attract the mosquitoes to approach the mosquito inlet 111. For example, in one embodiment, the mosquito attractant includes a major component (e.g., titanium dioxide, TiO2) that generates carbon dioxide gas, and the ultraviolet light generated by the light induction module 32 catalyzes the component to volatilize the mosquito attractant to generate carbon dioxide gas that attracts mosquitoes. The mosquito-attracting medicine has no harm to human body and no side effect, and can be added with plastic shell to form a whole with the plastic shell and be catalyzed by ultraviolet light. Thereby saving energy consumption.

Fig. 5 shows the circuit connection of the mosquito killer in the above embodiment. As shown in fig. 5, the circuit of the mosquito killer may include a switch K, a plurality of lights L, a power supply C, and the like.

Fig. 6 shows the structure of the mosquito eradication device 4 in the above-described embodiment.

The mosquito killing device 4 is connected with the lower cover body 12, and the shape of the mosquito killing device is matched with that of the outer cover body 12. For example, in the above example, if the lower case 12 is cylindrical, the mosquito eradication device 4 may also be cylindrical. The size of the outer wall of the cover body is consistent with that of the inner wall of the lower cover body 12. The height L1 can be equal to the height L of the housing 121 and the base 125 after being fastened. After the cylindrical mosquito killing device 4 is connected with the lower cover body 12, an open cavity is formed. The open end of which faces upward and is communicated with the upper cover body 11, and through which mosquitoes fall onto the end surface of the base 125. The base 125 can be detached from the housing 121 to treat trapped mosquitoes according to the determination of whether the mosquitoes survive.

The mosquito eradication device 4 further has a rib 42 that fits into the stopper groove 124 in the housing 121. This fin is connected with spacing groove 124, can restrict mosquito eradication device 4 and rotate.

In one example, the mosquito killing device 4 also has a vent 41. The ventilation holes 41 allow air generated by the fan device to be discharged. The size of the air holes 41 is such that mosquitoes do not escape. The mosquito killing device of the mosquito killer is silent and tasteless, and does not cause any influence on the environment. Overcomes the defects of the prior mosquito killer.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. An environment-friendly mosquito killer, comprising: the electric energy unit is used for providing electric energy required by mosquito killing; the mosquito attracting device is connected with the electric energy unit and attracts mosquitoes through the electric energy unit; the mosquito killing device kills the mosquitoes attracted by the mosquito attracting device; the fixing device is used for fixing the electric energy unit, the mosquito trapping device and the mosquito killing device; it is characterized in that the preparation method is characterized in that,

the fixing device is of a cover body structure and comprises a mosquito inlet;

mosquito device is lured to be located fixing device is interior, includes:

the drug-induced module is connected with the fixing device and attracts mosquitoes to be close to the mosquito inlet through mosquito-inducing drugs;

the light induction module generates light capable of attracting mosquitoes through the electric energy unit to enable the mosquitoes to be close to the mosquito inlet;

the suction module is connected with the fixing device and comprises a fan device, and the suction force is generated by the fan to suck mosquitoes close to the mosquito inlet into the mosquito killing device;

the mosquito killing device is communicated with the mosquito trapping device and traps the mosquitoes sucked by the mosquito trapping device to isolate the mosquitoes from the outside.

2. The environment-friendly mosquito killer of claim 1, wherein the fixing means is integrally formed with the mosquito-attractant, comprising:

the upper cover body is used for fixing the electric energy unit and the mosquito trapping device and is provided with a mosquito inlet;

the lower cover body, with go up the cover body coupling, including can make the detachable construction of cover body follow upper cover body separation down, and fixed mosquito eradication device's casing.

3. The environment-friendly mosquito killer of claim 2, wherein the mosquito-attracting device further comprises:

the mosquito-luring medicine catalysis module is connected with the electric energy unit and enables the mosquito-luring medicine to volatilize by generating light energy through the electric energy unit.

4. The environment-friendly mosquito killer according to claim 3,

the mosquito-luring medicine comprises a main component capable of generating carbon dioxide gas and can generate the carbon dioxide gas for attracting mosquitoes to approach;

the mosquito-luring medicine catalytic module comprises ultraviolet light, and the ultraviolet light is generated through an electric energy unit to stimulate main components and generate carbon dioxide gas capable of attracting mosquitoes to approach.

5. The environment-friendly mosquito killer of claim 4, wherein the mosquito killing device is connected with the lower cover body to form a mosquito killing room for preventing mosquitoes from escaping, and comprises an air exhaust device for exhausting air generated by the fan device.

6. The environmentally friendly mosquito killer according to any one of claims 1 to 5, wherein the power unit comprises:

and the battery module is connected with the mosquito trapping device, comprises a rechargeable battery and provides electric energy required by the mosquito trapping device.

7. The environment-friendly mosquito killer according to claim 6,

the electric energy unit also comprises an electric energy conversion module which is connected with an external power supply and the rechargeable battery, converts the external power supply into electric energy matched with the rechargeable battery and provides the electric energy for the rechargeable battery.

8. The environment-friendly mosquito killer of claim 7, wherein the upper cover body is a split structure, comprising:

the first cover body protects the electric energy module;

the second cover body is positioned at the top of the upper shell and used for fixing the battery module;

the main cavity is used for fixing the fan device.

9. The environmentally friendly mosquito killer of claim 8, wherein the power unit further comprises:

and the solar energy conversion module converts the solar energy into electric energy and outputs the electric energy to the mosquito trapping device.

10. The environmentally friendly mosquito killer of claim 8, wherein the power unit further comprises:

intelligent control module, with lure the mosquito device to link to each other, automatic control lures the mosquito device, includes:

the timing sub-block is used for setting a time point and disconnecting the electric energy unit at the time point so as to stop the mosquito killer;

and the horizontal control sub-block stops the mosquito killer from working when the mosquito killer inclines or falls to the ground.