Double-sided and bidirectional heating mosquito repellent device
The double-sided and bidirectional heating mosquito repellent device addresses low heating efficiency by using a heating unit to heat both sides of mosquito mats, enhanced by a blower and grid diffusion, effectively repelling mosquitoes in outdoor infestations.
Patent Information
- Authority / Receiving Office
- GB · GB
- Patent Type
- Patents
- Current Assignee / Owner
- FLEXTAIL TECH CO LTD
- Filing Date
- 2022-07-05
- Publication Date
- 2026-07-06
AI Technical Summary
Existing electric heating mosquito repellent devices suffer from low heating efficiency, which is inadequate for effectively repelling mosquitoes in heavily infested environments.
A double-sided and bidirectional heating mosquito repellent device with a heating unit that transfers heat to two heat conduction units, each heating a mosquito mat compartment, enhanced by a blower component for diffusion and a grid diffusion plate for improved smell dispersal.
The device achieves efficient mosquito repellency on both sides, suitable for outdoor environments with high mosquito populations, by increasing heating efficiency and diffusion effectiveness.
Smart Images

Figure 00000001_0000 
Figure 00000002_0000 
Figure 00000003_0000
Abstract
Description
FIELD OF THE DISCLOSURE The present application relates to the technical field of mosquito repellent devices, specifically to a double-sided and bidirectional heating mosquito repellent device. BACKGROUND In the prior arts, electric heating mosquito repellent devices generally use single-sided heating, which has low heating efficiency. And the mosquito repellent effect cannot meet the requirements in environments heavily infested with mosquitoes. The patent document with the publication number CN213127783U discloses an electric mosquito repellent device, which includes a repellent bottle and a mosquito repellent device housing. The inside of the repellent bottle is provided with a liquid level sensor. The top of the repellent bottle is provided with a threaded mouth. The bottom of the mosquito repellent device housing is provided with a threaded sleeve. The top center of the mosquito repellent device housing is provided with a spray port, and the top of the mosquito repellent device housing is provided with a control switch, and the outer circumferential wall of the mosquito repellent device housing is provided with a power indicator light, a display screen, and a power supply interface. The bottom of the mosquito repellent device housing is provided with a threaded sleeve, the mosquito repellent housing and the medicine bottle are threadedly connected through the threaded sleeve and the threaded mouth, and the interior of the mosquito repellent device housing is equipped with a water pump, a fan, a heating device, a battery, a control motherboard and a Bluetooth module. The control motherboard is electrically connected to the Bluetooth module. The Bluetooth module is wirelessly connected to a mobile APP client. The bottom of the water pump is connected to a conduit that extends to the bottom of the repellent bottle. There is also a filter at the conduit away from the mosquito repellent device housing. However, this patent document still has the drawback of a low heating efficiency and cannot meet the repellent requirements in an environment heavily infested with mosquitoes. SUMMARY OF THE INVENTION In view of the technical issues of the prior arts, the purpose of this application is to provide a double-sided and bidirectional heating mosquito repellent device. According to an embodiment of the present application, a double-sided and bidirectional heating mosquito repellent device comprises a main housing, wherein, the main housing is provided with a first placement compartment and a second placement compartment, and an installation cavity; and, the first placement compartment and the second placement compartment are respectively provided on two opposite side walls of the main housing, and the first placement compartment and the second placement compartment are used to place mosquito mats; and, the installation cavity is provided with a heating unit, a first heat conduction unit and a second heat conduction unit; wherein the heating unit is sandwiched between the first heat conduction unit and the second heat conduction unit, and the heating unit is used to heat the first heat conduction unit and the second heat conduction unit; and, the first heat conduction unit is used to heat the mosquito mat in the first placement compartment, and the second heat conduction unit is used to heat the mosquito mat in the second placement compartment. Preferably, the first heat conduction unit and the second heat conduction unit are each provided with an accommodating depression; wherein, openings of the two accommodating depressions are matched and connected, and the two accommodating depressions constitute an accommodating cavity, and the heating unit is arranged in the accommodating cavity. Preferably, the heating unit is a spherical heating block, and the two accommodating depressions are arranged in hemispherical shapes matched to the heating unit. Preferably, the main housing includes a first housing and a second housing, and the first housing is connected to the second housing; wherein, the first placement compartment is provided on the first housing, and the second placement compartment is provided on the second housing, and the installation cavity is formed between the first housing and the second housing. Preferably, a first diffusion plate is provided on the first housing at a position corresponding to the first placement compartment, and a second diffusion plate is provided on the second housing at a position corresponding to the second placement compartment; wherein, the first diffusion plate and the second diffusion plate are used to diffuse a smell of the mosquito mats. Preferably, the first diffusion plate and the second diffusion plate are both provided with plug pegs, and both the first housing and the second housing are provided with sockets; wherein, the first diffusion plate is connected to the first housing through the plug pegs and the sockets, and the second diffusion plate is connected to the second housing through the plug pegs and the sockets. Preferably, the first diffusion plate is a grid plate, and the second diffusion plate is a grid plate. Preferably, both the first housing and the second housing have an arced profile. Preferably, the main housing is provided with a connecting component, and the connecting component is used to connect an external lanyard. Preferably, a blower component is further provided in the installation cavity, and the blower component is fluidly connected to the first placement compartment and the second placement compartment. Compared with the existing technologies, the present application has the following beneficial effects: 1. This application deploys a heating unit to transfer heat to the first heat conduction unit and the second heat conduction unit, so that the mosquito repellent mats on both sides can be heated. 2. This application can heat the mosquito repellent mats on both sides and is more efficient in repelling mosquitoes, and is especially suitable for users in outdoor environments heavily infested with mosquitoes. BRIEF DESCRIPTION OF THE DRAWINGS Other features, objectives and advantages of the present application will become more apparent by reading the detailed description of the non-limiting embodiments with reference to the following drawings: FIG. 1 is a partial schematic diagram of a double-sided and bidirectional heating mosquito repellent device in one embodiment; FIG. 2 is a partial exploded schematic diagram of one embodiment of the double-sided and bidirectional heating mosquito repellent device; FIG. 3 is a partial exploded schematic diagram 2 of one embodiment of the double-sided and bidirectional heating mosquito repellent device; FIG. 4 is a partial cross-sectional view of one embodiment of the double-sided and bidirectional heating mosquito repellent device; FIG. 5 is a structural diagram of one embodiment of the double-sided and bidirectional heating mosquito repellent device, with the accommodating depression highlighted; FIG. 6 is a structural diagram of one embodiment of the double-sided and bi-directional heating mosquito repellent device, with the plug pegs and sockets highlighted; FIG. 7 is a schematic diagram of one embodiment of the double-sided and bidirectional heating mosquito repellent device, highlighting the positional relationship between the heating unit and the heat conduction units. The figure shows: Main housing 1 First placement compartment 2 Second placement compartment 3 Installation cavity 4 Heating unit 5 First heat conduction unit 6 Second heat conduction unit 7 Accommodating depression 8 First housing 9 Second housing 10 First diffusion plate 11 Second diffusion plate 12 Plug peg 13 Socket 14 Blower component 15. DESCRIPTION OF THE ILLUSTRATED EMBODIMENTS The present application will be described in detail below with reference to specific embodiments. The following embodiments will help those skilled in the art further understand the present application, but do not limit the present application in any sense. It should be noted that, for those of ordinary skill in the art, several changes and improvements can be made without departing from the concept of the present application. These all belong to the protection scope of the present application. Embodiment 1. Referring to FIG’s 1 to 6, this embodiment provides a double-sided and bidirectional heating mosquito repellent device, which includes a main housing 1. The main housing 1 is provided with a first placement compartment 2, a second placement compartment 3 and an installation cavity 4. The first placement compartment 2 and the second placement compartment 3 are respectively arranged on two opposite side walls of the main housing 1. The first placement compartment 2 and the second placement compartment 3 are used to place mosquito mats. A main control unit, a rechargeable battery, a heating unit 5, a first heat conduction unit 6 and a second heat conduction unit 7 are provided in the installation cavity 4. The rechargeable battery, the main control unit, and the heating unit 5 are electrically connected in sequence, and the heating unit 5 is sandwiched between the first heat conduction unit 6 and the second heat conduction unit 7. The heating unit 5 is used to heat the first heat conduction unit 6 and the second heat conduction unit 7. The first heat conduction unit 6 is used to heat the mosquito mat in the first placement compartment 2, and the second heat conduction unit 7 is used to heat the mosquito mat in the second placement compartment 3. The heating unit 5 is an MCH (Metal Ceramic Heating) unit. In other embodiments, it can also be a PCT (Positive Temperature Coefficient) heating pad. The first heat conduction unit 6 is an aluminum heat conducting pad or a copper heat conducting pad. The second heat conduction unit 7 can also be an aluminum heat conducting pad or a copper heat conducting pad. The main housing 1 includes a first housing 9 and a second housing 10. The first housing 9 is connected to the second housing 10. The first placement compartment 2 is provided on the first housing 9, and the second placement compartment 3 is arranged on the second housing 10. The installation cavity 4 is formed between the first housing 9 and the second housing 10. The first housing 9 and the second housing 10 both have an arc shaped profile, and are basically arc-rectangular in shape, which is easy to hold, relatively small, easy to carry outdoors, and which can be stored in handbags, backpacks, coat pockets, etc. The first housing 9 is provided with a first diffusion plate 11 at a position of the first placement compartment 2, and the second housing 10 is provided with a second diffusion plate 12 at the position of the second placement compartment 3. The first diffusion plate 11 and the second diffusion plate 12 are used to diffuse the smell of the mosquito mats. The first diffusion plate 11 and the second diffusion plate 12 are both provided with plug pegs 13, and the first housing 9 and the second housing 10 are both provided with sockets 14. The first diffusion plate 11 is connected through plug pegs 13 and sockets 14 to the first housing 9, and the second diffusion plate 12 is connected to the second housing 10 through plug pegs 13 and sockets 14. When the diffusion plates are connected through plug pegs 13 and sockets 14, they are detachably arranged on the housings. When a diffusion plate is damaged, it is convenient to replace it, which improves the practicality of the double-sided and bidirectional heating mosquito repellent device. The first diffusion plate 11 is a grid plate, and the second diffusion plate 12 is also a grid plate. The grid plates are conducive to the diffusion of the smell of mosquito mats and enhance the mosquito repellent effect. The first heat conduction unit 6 and the second heat conduction unit 7 are both provided with an accommodating depression 8. The open ends of the two accommodating depressions 8 are connected correspondingly. The two accommodating depressions 8 form an accommodating cavity, and the heating unit 5 is arranged in the accommodating cavity. The heating unit 5 of this embodiment is an MCH ceramic heating unit, which is a cylindrical heating piece. The heating piece is completely located inside the accommodating cavity. The heating piece is in complete contact with the inner wall of the accommodating cavity, which improves the heat conduction effect and further improves the effectiveness of heating the mosquito mats. The heating effectiveness in turn enhances the mosquito repellent effect. In other embodiments, as shown in Figure 1, a blower component 15 is also provided in the installation cavity 4. The blower component 15 is fluidly connected to the first placement compartment 2 and the second placement compartment 3. The blower component 15 is used to blow air into the compartments and is conducive to the diffusion of the smell of mosquito mats, which in turn helps to improve the mosquito repellent effect. In an embodiment, the blowing component is a small fan. Through holes are provided on the bottom side walls of the first placement compartment 2 and the second placement compartment 3, and the small fan blows air toward the through holes. The main housing 1 is provided with a connecting component, which is used to connect an external lanyard. The connecting component can be a hanging hole so that a lanyard can be installed, so that it is more convenient for outdoor use. For example, the lanyard can be hung onto a backpack, a branch, a tent roof etc. Working mechanism: the heating unit 5 heats and transfers heat to the first heat conduction unit 6 and the second heat conduction unit 7 to achieve efficient mosquito repellent on both sides. Embodiment 2. As shown in FIG. 7, the difference from Embodiment 1 is, that the heating unit 5 is a spherical heating block, and the two accommodating depressions 8 are arranged in hemispherical shapes to match the heating unit 5. The heating unit 5 is configured as a spherical heating block, which further increases the contact area between the heating unit 5 and the first heat conduction unit 6 and the second heat conduction unit 7, improving the heat conduction effect, and in turn improving the heating effect of the first heat conduction unit 6 and the second heat conduction unit 7 upon the mosquito mats. The improved heating effect upon the mosquito mats in turn increases the mosquito repelling effect of the double-sided and bidirectional heating mosquito repellent device. The present application uses a heating unit to transfer heat to the first heat conduction unit and the second heat conduction unit, thereby achieving a bidirectional mosquito repellent diffusion and enhancing the mosquito repellent effect. In the description of this application, it should be understood, that the terms "upper", "lower", "front", "back", "left", "right", "vertical", "horizontal", "top", and orientations or positional relationships indicated by "bottom", "inner", "outer", etc., are based on the orientations or positional relationships shown in the drawings. These are only for the convenience of describing the present application and simplifying the description, rather than indicating or implying the device referred to, nor indicating that elements must have a specific orientation, must be constructed, or must be operated in a specific orientation. And therefore, these are not to be construed as limitations on the application. The specific embodiments of the present invention have been described above. It should be understood, that the present invention is not limited to the above-mentioned specific embodiments. Those skilled in the art can make various changes or modifications within the scope of the claims, which does not affect the essential content of the present application. The embodiments of the present application and the features in the embodiments can be combined with each other arbitrarily, as long as there is no conflict.
Claims
1. A double-sided and bidirectional heating mosquito repellent device, characterized by comprising a main housing (1), wherein,the main housing (1) is provided with a first placement compartment (2) and a second placement compartment (3), and an installation cavity (4); and,the first placement compartment (2) and the second placement compartment (3) are respectively provided on two opposite side walls of the main housing (1), and the first placement compartment (2) and the second placement compartment (3) are used to place mosquito mats; and,the installation cavity (4) is provided with a heating unit (5), a first heat conduction unit (6) and a second heat conduction unit (7);wherein the heating unit (5) is sandwiched between the first heat conduction unit (6) and the second heat conduction unit (7), and the heating unit (5) is used to heat the first heat conduction unit (6) and the second heat conduction unit (7); and,the first heat conduction unit (6) is used to heat a mosquito mat in the first placement compartment (2), and the second heat conduction unit (7) is used to heat a mosquito mat in the second placement compartment (3).
2. The double-sided and bidirectional heating mosquito repellent device according to claim 1, characterized in that,the first heat conduction unit (6) and the second heat conduction unit (7) are each provided with an accommodating depression (8); wherein,openings of the two accommodating depressions (8) are matched and connected, and the two accommodating depressions (8) constitute an accommodating cavity, and the heating unit (5) is arranged in the accommodating cavity.
3. The double-sided and bidirectional heating mosquito repellent device according to claim 2, characterized in that,the heating unit (5) is a spherical heating block, and the two accommodating depressions (8) are arranged in hemispherical shapes matched to the heating unit (5).
4. The double-sided and bidirectional heating mosquito repellent device according to claim 1, characterized in that,the main housing (1) includes a first housing (9) and a second housing (10), and the first housing (9) is connected to the second housing (10); wherein,the first placement compartment (2) is provided on the first housing (9), and the second placement compartment (3) is provided on the second housing (10), and the installation cavity (4) is formed between the first housing (9) and the second housing (10).
5. The double-sided and bidirectional heating mosquito repellent device according to claim 4, characterized in that,a first diffusion plate (11) is provided on the first housing (9) at a position corresponding to the first placement compartment (2), and a second diffusion plate (12) is provided on the second housing (10) at a position corresponding to the second placement compartment (3);wherein,the first diffusion plate (11) and the second diffusion plate (12) are used to diffuse a smell of the mosquito mats.
6. The double-sided and bidirectional heating mosquito repellent device according to claim 5, characterized in that,the first diffusion plate (11) and the second diffusion plate (12) are both provided with plug pegs (13), and both the first housing (9) and the second housing (10) are provided with sockets (14); wherein,the first diffusion plate (11) is connected to the first housing (9) through plug pegs (13) and sockets (14), and the second diffusion plate (12) is connected to the second housing (10) through plug pegs (13) and sockets (14).
7. The double-sided and bidirectional heating mosquito repellent device according to claim 5, characterized in that,the first diffusion plate (11) is a grid plate, and the second diffusion plate (12) is a grid plate.
8. The double-sided and bidirectional heating mosquito repellent device according to claim 4, characterized in that,both the first housing (9) and the second housing (10) have an arced profile.
9. The double-sided and bidirectional heating mosquito repellent device according to claim 1, characterized in that,the main housing (1) is provided with a connecting component, and the connecting component is used to connect an external lanyard.
10. The double-sided and bidirectional heating mosquito repellent device according to claim 1, characterized in that,a blower component (15) is further provided in the installation cavity (4), and the blower component (15) is fluidly connected to the first placement compartment (2) and the second placement compartment (3).