Portable mosquito trap

By designing a portable mosquito trap, utilizing a guide tube and ring groove structure, safe and efficient mosquito capture and removal are achieved, solving the limitations and safety issues of existing mosquito control products and providing a flexible mosquito treatment solution.

CN224402716UActive Publication Date: 2026-06-26ZHONGSHAN KINGSWAY FINANCIAL MACHINERY

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN KINGSWAY FINANCIAL MACHINERY
Filing Date
2025-07-03
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing mosquito control products have limitations such as slightly toxic chemical reagents, electric shock hazards, and fixed-location use, making it difficult to achieve portable, safe, and efficient mosquito capture.

Method used

Design a portable mosquito trap, including a bottle, a transfer component, and a cap. Utilize the ring groove structure and guide tube structure of the mosquito-trapping liquid. The guide tube structure uses plant oil as the main active ingredient. Through the ring groove structure and guide tube design, mosquitoes are effectively captured and easily cleaned.

Benefits of technology

It achieves portable mosquito capture, is highly safe, energy-saving and environmentally friendly, flexible in use, does not pollute the environment, and is suitable for mosquito capture on mosquito nets and walls. The dead mosquitoes can be collected and disposed of.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224402716U_ABST
    Figure CN224402716U_ABST
Patent Text Reader

Abstract

The utility model provides a portable mosquito catcher, including bottle body, transfer spare, upper cover and lower cover, the bottle body is equipped with inner chamber, the cavity wall of inner chamber is covered with the mosquito liquid that can stick mosquito, the bottom of bottle body is equipped with the female mouth of intercommunication with inner chamber, the cavity wall between the female mouth and inner chamber forms the annular groove, the annular groove is used for receiving the mosquito liquid that flows down the cavity wall, the transfer spare is connected with the bottom of bottle body, the transfer spare is equipped with the guide cylinder of intercommunication with female mouth, the guide cylinder extends outward from the bottom of bottle body, the lower extreme of guide cylinder is equipped with the mosquito entrance, the lower cover can be detached and is sealed on the mosquito entrance, the top of bottle body is equipped with the bottle mouth of intercommunication with inner chamber, the upper cover can be detached and is sealed on the bottle mouth, the utility model discloses a mosquito catcher can carry use, and the mosquito that stays on mosquito net and wall is captured actively, and the mosquito remains corpse is collected, will not pollute the environment, and the use is flexible and convenient, and the safety is high and energy -conserving environmental protection.
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Description

Technical Field

[0001] This utility model relates to a portable mosquito catcher. Background Technology

[0002] There are various mosquito control products available, such as mosquito coils and repellent liquids that use chemical agents to kill mosquitoes, and mosquito lamps and electric mosquito swatters that use electric shocks to kill mosquitoes. Chemical agents are slightly toxic, and long-term use can easily affect health. Electric shocks pose a high risk of accidental injury. Furthermore, most mosquito control products require fixed locations for use, making them inconvenient to carry around for active mosquito catching. Utility Model Content

[0003] The purpose of this utility model is to provide a portable mosquito trap, comprising a bottle body, a transfer component, an upper cover, and a lower cover; the bottle body has an inner cavity, the cavity wall of which is covered with a mosquito-trapping liquid that can trap mosquitoes; the bottom of the bottle body has an indentation communicating with the inner cavity, and an annular groove is formed between the indentation and the cavity wall of the inner cavity, the annular groove being used to receive the mosquito-trapping liquid flowing down the cavity wall; the transfer component is connected to the bottom of the bottle body, and the transfer component has a guide tube communicating with the indentation, the guide tube extending outward from the bottom of the bottle body; the lower end of the guide tube has a mosquito-trapping inlet, and the lower cover is detachably sealed to the mosquito-trapping inlet; the top of the bottle body has a bottle mouth communicating with the inner cavity, and the upper cover is detachably sealed to the bottle mouth.

[0004] To use, first invert the bottle to ensure the mosquito-repellent liquid covers the inner wall of the bottle. Then, open the bottom cap, hold the bottle, and aim it at the location where mosquitoes are resting. Place the guide tube over the mosquito, allowing it to enter the inner cavity and become stuck in the mosquito-repellent liquid. After catching a certain number of mosquitoes, open the top cap and pour out the mosquito-repellent liquid along with the dead mosquitoes for disposal. You can replenish the mosquito-repellent liquid by pouring it in through the bottle opening. Thanks to the ring groove, the mosquito-repellent liquid will not flow towards the transfer unit and will instead exit through the mosquito-catching inlet.

[0005] This utility model of mosquito trap is portable and can actively catch mosquitoes that are attached to mosquito nets and walls. The mosquito carcasses are collected without polluting the environment. It is flexible and convenient to use, highly safe, and energy-saving and environmentally friendly. Attached Figure Description

[0006] Figure 1 This is a structural schematic diagram of Embodiment 1 of the present utility model.

[0007] Figure 2 This is a diagram showing the usage state of the present invention with the lower cover opened, according to Embodiment 1.

[0008] Figure 3 This is an exploded view of the structure of Embodiment 1 of this utility model.

[0009] Figure 4 This is a cross-sectional view of Embodiment 1 of the present utility model.

[0010] Figure 5 This is an exploded cross-sectional view of Embodiment 1 of the present invention.

[0011] Figure 6 This is a structural schematic diagram of Embodiment 2 of the present invention. Detailed Implementation

[0012] The following description, in conjunction with the accompanying drawings, further illustrates the proposed solution:

[0013] Example 1

[0014] See appendix Figure 1-5 A portable mosquito catcher includes a bottle body 1, a transfer component 2, an upper cover 3, and a lower cover 4.

[0015] The bottle body 1 has an inner cavity 10, the cavity wall 11 of which is covered with a mosquito-trapping liquid (not shown in the attached figure). The bottom of the bottle body 1 has an indentation 12 communicating with the inner cavity 10. An annular groove 13 is formed between the indentation 12 and the cavity wall 11 of the inner cavity 10. The annular groove 13 receives the mosquito-trapping liquid flowing down the cavity wall 11 to prevent it from flowing out of the indentation 12. The transfer component 2 is connected to the bottom of the bottle body 1. The transfer component 2 has a guide tube 21 communicating with the indentation 12. The guide tube 21 extends outward from the bottom of the bottle body 1; the guide tube 21 increases the user's mosquito-trapping distance, guides mosquitoes into the bottle body 1, avoids disturbing the mosquitoes and causing them to fly away, and improves the mosquito-trapping success rate. The lower end of the guide tube 21 has a mosquito-trapping inlet 22, and the lower cover 4 is detachably sealed to the mosquito-trapping inlet 22. The top of the bottle body 1 is provided with a bottle opening 14 that communicates with the inner cavity 10, and the upper cover 3 is detachably sealed on the bottle opening 14.

[0016] The mosquito repellent liquid is made of plant oil, which is safe, non-toxic, and readily available.

[0017] The bottle body 1 is made of transparent material and has light transmission. After mosquitoes enter the bottle body 1, they are easily attracted by external light and approach the cavity wall 11, where they are stuck to the mosquito-catching liquid.

[0018] The cross-section of the annular groove 13 is U-shaped to facilitate the flow of mosquito-catching liquid.

[0019] The transfer component 2 is provided with a connecting part 23 that connects to the bottle body 1; the connecting part 23 is fitted around the annular groove 13 with an interference fit or screwed to it; the outer wall of the bottle body 1 is provided with a limiting edge 15, and the connecting part 23 abuts against the limiting edge 15. The installation structure of the transfer component 2 is simple and easy to implement.

[0020] The top cover 3 is screwed to the bottle mouth 14, and its material structure is simple and easy to implement. An oil-feeding gasket 31 is provided on the inner side of the top cover 3 to prevent leakage.

[0021] In use, first invert the bottle 1 to cover the cavity wall 11 with mosquito-repellent liquid. Then open the lower cap 4, hold the bottle 1 and aim it at the location where mosquitoes are resting. Cover the mosquito with the guide tube 21 so that the mosquitoes enter the inner cavity 10 and are stuck to the mosquito-repellent liquid. After catching a certain number of mosquitoes, open the upper cap 3 and pour out the mosquito-repellent liquid along with the dead mosquitoes for cleaning. Mosquito-repellent liquid can be added to replenish the bottle through the opening 14. Due to the receiving ring 13, the mosquito-repellent liquid will not flow to the transfer element 2 and will not flow out from the mosquito-catching inlet 22.

[0022] The mosquito trap provided by this technical solution is portable and actively catches mosquitoes that are attached to mosquito nets and walls. The mosquito carcasses are collected without polluting the environment. It is flexible, convenient, safe, energy-saving and environmentally friendly.

[0023] Example 2

[0024] See appendix Figure 6 A portable mosquito catcher, based on Embodiment 1, has raised textures 16 on the bottle body 1 to form concave textures on the cavity wall 11 of the inner cavity 10, so that the mosquito catcher liquid can easily adhere to the wall.

[0025] The above preferred embodiments should be regarded as illustrative examples of the embodiments of the present application. Any technical deductions, substitutions, improvements, etc. that are similar to or based on the present application should be considered within the scope of protection of this patent.

Claims

1. A portable mosquito catcher, characterized in that: Includes the bottle body, transfer component, top cap, and bottom cap; The bottle body has an inner cavity, and the cavity wall is covered with a mosquito-catching liquid that can trap mosquitoes. The bottom of the bottle is provided with an indentation that communicates with the inner cavity. An annular groove is formed between the indentation and the cavity wall of the inner cavity. The annular groove is used to receive the mosquito-catching liquid flowing down the cavity wall. The transfer component is connected to the bottom of the bottle body, and the transfer component is provided with a guide cylinder that communicates with the inner recess, the guide cylinder extending outward from the bottom of the bottle body; The lower end of the guide tube is provided with a mosquito-catching inlet, and the lower cover is detachably sealed on the mosquito-catching inlet; The top of the bottle body is provided with a bottle opening that communicates with the inner cavity, and the top cover is detachably sealed on the bottle opening.

2. The portable mosquito catcher according to claim 1, characterized in that: The mosquito-repellent liquid is a plant oil.

3. The portable mosquito catcher according to claim 1, characterized in that: The bottle is made of transparent material.

4. The portable mosquito catcher according to claim 1, characterized in that: The cross-section of the annular groove is U-shaped.

5. The portable mosquito catcher according to claim 1 or 4, characterized in that: The transfer component is provided with a connecting part that connects to the bottle body; the connecting part is fitted around the annular groove with an interference fit or screwed in; the outer wall of the bottle body is provided with a limiting edge, and the connecting part abuts against the limiting edge.

6. The portable mosquito catcher according to claim 1, characterized in that: The top cover is screwed to the bottle mouth, and an oil delivery gasket is provided on the inner side of the top cover.

7. The portable mosquito catcher according to claim 1, characterized in that: The bottle body has raised textures to form concave textures on the inner cavity wall.