CN210054371U - Novel mosquito dispeller - Google Patents

Abstract

The utility model discloses a novel mosquito dispeller, which comprises a base and a mosquito dispeller body; the mosquito repelling body comprises a first mosquito repelling structure and a second mosquito repelling structure; the first mosquito repelling structure is a hemispherical shell internally provided with a fan; the second mosquito repelling structure comprises a hollow annular mounting body and a spiral structure arranged in the hollow position of the mounting body, and a plurality of groups of ultraviolet lamps are arranged on the inner side of the mounting body; the first mosquito repelling structure is arranged on the base, the second mosquito repelling structure is sleeved on the opening of the shell through the mounting body and is arranged to enable the fan to correspond to the spiral structure, and therefore surrounding mosquitoes are sucked into the shell through the fan driving the spiral structure. Therefore, the mosquito can be actively trapped, and the problems that the traditional physical mosquito repelling method can only attract mosquitoes in one direction and is low in mosquito repelling efficiency are solved.

Description

Novel mosquito dispeller

Technical Field

The utility model relates to a mosquito repellent technical field, especially a novel mosquito repellant.

Background

Mosquito is offensive because it affects not only work, learning and sleep but also more importantly, the spread of diseases such as malaria, epidemic encephalitis b, filariasis and dengue fever, which are well known to people. How to safely and effectively prevent mosquitoes and expel mosquitoes and take peace in summer is a practical problem which is commonly concerned by people.

For the chemical mosquito repelling method, people often use mosquito repellent incense to repel mosquitoes, but chemical substances contained in the mosquito repellent incense can generate gas which is toxic to human bodies when being burnt, and even have carcinogenic effect. In order to reduce toxicity, the electric mosquito repellent tablet or the liquid electric mosquito repellent has begun to be popularized, but all contain organic compounds harmful to human bodies, and adverse reactions may be caused if the electric mosquito repellent is used in a closed room.

For physical mosquito repelling methods, such as a mosquito catching lamp, phototaxis and sensitivity to specific wavelengths of the mosquito are utilized, such as ultraviolet light which attracts the mosquito, a lamp tube is used for trapping the mosquito to contact with a net surface, and high voltage is used for electrically shocking a net wire to instantly burn the mosquito. However, high voltage lines tend to consume a large amount of power and attract mosquitoes in only one direction.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a new mosquito dispeller, the mosquito dispeller that can save the power to solve the problem that traditional mosquito trap power consumption is big.

The utility model discloses a second aim at realizes the initiative and traps the mosquito on the basis of physics mosquito repellent to solve traditional physics mosquito repellent method and can only one-way attraction mosquito, problem that mosquito repellent efficiency is not high.

The third of the purpose of the utility model is to realize the multi-angle mosquito catching through the provided novel mosquito dispeller to further improve the efficiency of catching the mosquito.

The fourth purpose of the present invention is to provide a mosquito killer which can be blown into by wind to air dry, and can catch more mosquitoes by 360 degrees of rotating ultraviolet light end, and can automatically turn on and turn off according to the brightness degree, thereby greatly saving the power.

According to one aspect of the utility model, a novel mosquito dispeller is provided, which comprises a base and a mosquito dispeller body; the mosquito repelling body comprises a first mosquito repelling structure and a second mosquito repelling structure; the first mosquito repelling structure is a hemispherical shell internally provided with a fan; the second mosquito repelling structure comprises a hollow annular mounting body and a spiral structure arranged in the hollow position of the mounting body, and a plurality of groups of ultraviolet lamps are arranged on the inner side of the mounting body; the first mosquito repelling structure is arranged on the base, the second mosquito repelling structure is sleeved on the opening of the shell through the mounting body and is arranged to enable the fan to correspond to the spiral structure, and therefore surrounding mosquitoes are sucked into the shell through the fan driving the spiral structure. The first mosquito repelling fan and the ultraviolet lamp of the second mosquito repelling structure can induce mosquitoes and suck the mosquitoes into the mosquito repelling device through the fans to repel the mosquitoes, and compared with the traditional mode that the mosquitoes are attracted to a net surface and killed by electricity, the power supply can be greatly saved; and the spiral structure can also play a role of a protective net, so that the phenomena that some children and the like stretch out hands to touch and are scratched and the like are prevented. The second mosquito repelling structure is sleeved on the opening of the shell, so that the effects of convenient disassembly and cleaning can be achieved.

In some embodiments, the first mosquito repelling structure further comprises a rotating assembly for driving the shell to rotate by 360 degrees, and the base is provided with a gear button and a mode button for controlling the rotating mode and the rotating state of the rotating assembly. From this, can drive the rotation of whole mosquito repellant multi-angle through this runner assembly to this can catch more mosquitoes, is different from the mosquito repellent device that only can the unilateral on the market, and can customize catch the mosquito according to the user's demand through gear button and mode button, and the scene and the scope of being suitable for are bigger.

In some embodiments, the base further comprises a dumping power-off structure for performing shutdown control on the mosquito dispeller according to the placement angle of the mosquito dispeller. According to the dumping power-off structure, the problems of circuit burning and the like caused by the fact that the mosquito dispeller is knocked down can be prevented, the power can be automatically cut off when the mosquito dispeller has a dumping trend, and the safety of the mosquito dispeller is greatly improved.

In some embodiments, the base further comprises a photosensitive assembly and a control panel, and the fan, the ultraviolet lamp, the rotating assembly, the gear button, the mode button, the photosensitive assembly and the dumping power-off structure are electrically connected with the control panel; the photosensitive assembly is used for outputting a photosensitive signal to the control panel, and the control panel controls the automatic on-off of the mosquito dispeller according to the photosensitive signal. From this, can make the mosquito repellant turn on and turn off according to the light and shade automatic switch machine of light through photosensitive assembly for this mosquito repellant makes things convenient for the operation, and is more intelligent.

In some embodiments, the base underside is provided with a first exhaust structure. The back side of the mosquito repelling body is provided with a second air exhausting structure. The air direction in the mosquito dispeller can be guided through the two air exhaust structures, and the mosquito dispeller has a certain heat dissipation function and is beneficial to maintaining the normal operation of a circuit structure.

In some embodiments, the underside of the base is also provided with anti-slip posts. Therefore, the mosquito dispeller can be stabilized in the using process.

In some embodiments, the base is in communication with the first mosquito repelling structure, and a storage box is included on one side of the base for storing captured mosquitoes. Therefore, the captured mosquito carcasses can be collected and taken out in time.

In some embodiments, a charging port is provided on one side of the base. Therefore, the continuous electric energy can be provided for the mosquito dispeller.

Drawings

Fig. 1 is a front view of a mosquito dispeller according to an embodiment of the present invention;

fig. 2 is a left side view of the mosquito dispeller according to an embodiment of the present invention;

fig. 3 is a right side view of the mosquito dispeller according to an embodiment of the present invention;

fig. 4 is a rear view of the mosquito dispeller according to an embodiment of the present invention;

fig. 5 is a structural view of the inside of the base of the mosquito dispeller according to an embodiment of the present invention;

fig. 6 is a sectional view of the mosquito dispeller according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 schematically shows a front view of a mosquito dispeller according to an embodiment of the present invention. As shown in figure 1 of the drawings, in which,

the novel mosquito dispeller comprises a base 2 and a mosquito dispeller body 1. The mosquito repelling body 1 comprises a first mosquito repelling structure 11 and a second mosquito repelling structure 21. Base 2 and first mosquito repellent structure 11 intercommunication, wherein, the bottom plate and the base body of base can be connected through the connected mode of buckle connection, in other embodiments, also can be integrated into one piece. First mosquito repellent structure 11 is for being equipped with the hemisphere casing of fan (not shown in the figure) in, and second mosquito repellent structure 21 includes hollow annular installation body 41 and locates the helical structure 42 of the hollow department of installation body 41, and this helical structure 42 can keep apart fan and external environment, prevents in the use, does not touch the fan and leads to potential safety hazards such as fish tail. According to the phototaxis of the mosquitoes, three groups of ultraviolet lamps are arranged on the inner side of the installation body, and in other embodiments, the number of the ultraviolet lamps can be increased or decreased according to the requirements. First mosquito repellent structure 11 is located on base 2 (can be established on the base through a connecting axle, also can be through other structures, for example, the support etc.), the opening of casing (on hemispherical non-closed surface promptly) is located through installation body 41 cover to second mosquito repellent structure 21, and at the corresponding marginal installation buckle structure of installation body 1, in order to install installation body 41 on the casing, also can install the installation body on the casing through threaded connection structure, also can directly overlap on the casing opening, and threaded structure 42 then can be through buckle structure, threaded structure installs the cyclic annular cavity department at the installation body, or directly overlap on cyclic annular cavity department), can dismantle when the clearance. And the second mosquito repellent structure 21 is provided such that the fan corresponds to the spiral structure 42 for sucking surrounding mosquitoes into the case by driving the spiral structure 42 by the fan. When the mosquito dispeller works, mosquitoes are attracted to the place nearby by the ultraviolet lamp and then are sucked into the mosquito dispeller by the fan.

As shown in fig. 5 and 6, the first mosquito repelling structure 11 further includes a rotating assembly 72 for driving the housing to rotate 360 degrees, the rotating assembly 72 is composed of a driving motor 83, a plurality of pinions 82 and a bull gear 81 sleeved on the mosquito repelling body 1, a transmission shaft of the driving motor 83 is connected with the pinions 82, the pinions 82 are meshed with the bull gear 81, the driving motor 83 is connected with the control board 91, after the mosquito repelling device is started, the control board 91 drives the driving motor 83 to work, the driving gear of the driving motor rotates through the transmission shaft, and the bull gear 81 drives the mosquito repelling body 1 arranged thereon to rotate through rotation (the first mosquito repelling structure is arranged on the bull gear through a rotating shaft or the rotating shaft thereof is clamped in the bull gear, so as to drive the rotating shaft and the bull gear to rotate the whole mosquito repelling body together by driving the rotating shaft. The base 2 is provided with a shift button 52 and a mode button 53 for controlling the rotation mode and the rotation state of the rotating assembly. The shift position button 52 includes two rotational shift positions: automatic range and manual range, and the mode buttons 53 include a low rotation speed mode, a middle rotation speed mode and a high rotation speed mode. The stop interval at which the rotating assembly drives the first mosquito repellent structure 11 can be adjusted for the mode button 53, adjusted according to the mosquito volume and the user's needs.

The base 2 is also internally provided with an overturning power-off structure (not shown), and the structure is used for performing shutdown control on the mosquito dispeller according to the placement angle of the mosquito dispeller. The base 2 further comprises a photosensitive assembly 54 and a control board 91. Wherein, fan, ultraviolet lamp, runner assembly, gear button, mode button, photosensitive assembly and empty the outage structure and all be connected with control panel electricity 91. The photosensitive assembly 54 is used for outputting a photosensitive signal to the control board 91, and the control board 91 controls the automatic on-off of the mosquito dispeller according to the photosensitive signal. The concrete structure and the working principle of the dumping power-off structure are as follows: inside spout and the ball of placing in the spout of placing including a level of base, one side of spout is equipped with can the circular telegram contact, this contact is connected with the control panel, when mosquito repellant is static, the ball is static to be placed in the spout, when mosquito repellant state such as slope appears, the ball will the landing, when touching the contact, will send trigger signal to the control panel through the contact to trigger the close function of mosquito repellant, make mosquito repellant shut down, realized empting the function of outage from this. The photosensitive component 54 can be implemented as a photosensitive resistor, and the working principle thereof can be implemented by referring to the prior art, that is, a triggering range of a photosensitive signal is preset in the control board, and when the intensity of light absorbed by the photosensitive component is lower than or higher than the triggering range, a signal for starting up or shutting down (which can be a photosensitive signal, and the control board judges whether to trigger the starting up or shutting down according to the intensity of the photosensitive signal) is sent to the control board, so that the mosquito dispeller is driven to start up or shut down. The technical method is not applied to the existing mosquito repelling device, and the inventor finds that the photosensitive component 54 is not applied to the mosquito repelling device through researching a large number of mosquito repelling devices. Therefore, the experience of the user can be greatly improved, and the mosquito dispeller is more intelligent.

In a preferred embodiment, as shown in fig. 2 and 4, the lower side of the base 2 is provided with a first air exhausting structure which is implemented as a plurality of strip-shaped air exhausting holes arranged in sequence (preferably, the arrangement mode is a fan shape and comprises a plurality of fan-shaped air exhausting holes, and the plurality of fan-shaped air exhausting holes can also form other configurations, such as a circle, etc.). The back side of the mosquito repelling body 1 is provided with a second air exhausting structure (62, which can be realized to be the same as or similar to the first air exhausting structure). Therefore, the wind direction in the mosquito dispeller can be guided, the captured mosquitoes can be blown to the base 2 of the mosquito dispeller and can be air-dried, heat energy generated in the working state of circuit elements, motors and the like can be emitted, and the working efficiency of the mosquito dispeller is improved. Three anti-slip columns 63 are further arranged on the lower side of the base 2, so that the stability of the mosquito dispeller can be improved.

In a preferred embodiment, as shown in fig. 3, one side of the base 2 comprises a storage box 51, and the storage box 51 is of a pull type and is provided with a cover and can be used for storing caught mosquitoes. When specifically realizing, can set the storing box of base and the casing of first mosquito repellent structure to be linked together, the mosquito of being inhaled in the casing will scatter to the storing box of base after being air-dried, just so can store the mosquito of seizure through storing box 51 from this to pull open the storing box through taking out and clear up.

According to the utility model discloses a novel mosquito repellant can provide wind-force through the fan and will be air-dried in the mosquito repellant is directly blown into by wind-force by the mosquito that the ultraviolet ray was traped to rotatory ultraviolet end that can 360 degrees catches more mosquitoes with this, and can be automatically according to bright degree switching on and shutting down, great saving the power.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (9)

1. A novel mosquito dispeller is characterized by comprising a base (2) and a mosquito dispeller body (1);

the mosquito repelling body (1) comprises a first mosquito repelling structure (11) and a second mosquito repelling structure (21);

the first mosquito repelling structure (11) is a hemispherical shell (31) internally provided with a fan;

the second mosquito repelling structure (21) comprises a hollow annular mounting body (41) and a spiral structure (42) arranged in the hollow position of the mounting body, and a plurality of groups of ultraviolet lamps are arranged on the inner side of the mounting body (41);

the first mosquito repelling structure is arranged on the base, the second mosquito repelling structure is sleeved on the opening of the shell (31) through the mounting body and is arranged to enable the fan to correspond to the spiral structure, and therefore surrounding mosquitoes are sucked into the shell (31) through the spiral structure (42) driven by the fan.

2. A mosquito dispeller according to claim 1, wherein the first mosquito dispelling structure (11) further comprises a rotating assembly for driving the shell to rotate 360 degrees, and the base (2) is provided with a gear button (52) and a mode button (53) for controlling the rotating mode and the rotating state of the rotating assembly.

3. A mosquito dispeller according to claim 2, wherein the base (2) further comprises a dumping power-off structure for performing shutdown control on the mosquito dispeller according to the placement angle of the mosquito dispeller.

4. A mosquito dispeller according to claim 3, wherein the base (2) further comprises a photosensitive assembly (54) and a control panel, and the fan, the ultraviolet lamp, the rotating assembly, the gear button, the mode button, the photosensitive assembly and the dumping power-off structure are electrically connected with the control panel;

the photosensitive assembly is used for outputting a photosensitive signal to the control panel, and the control panel controls the automatic on-off of the mosquito dispeller according to the photosensitive signal.

5. A mosquito dispeller according to claim 4, wherein a first air exhaust structure is arranged on the lower side of the base (2).

6. A mosquito dispeller according to claim 1, wherein a second air exhausting structure (62) is arranged on the back side of the mosquito dispeller body (1).

7. A mosquito dispeller according to claim 6, wherein an anti-slip column (63) is further arranged on the lower side of the base (2).

8. A mosquito dispeller according to claim 1, wherein the base (2) is in communication with the first mosquito repellent structure (11),

one side of the base (2) comprises a storage box (51) for storing caught mosquitoes.

9. A mosquito dispeller according to any one of claims 1 to 8, wherein a charging port (71) is formed in one side of the base (2).

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