CN219146864U - Simulation plant modeling atomizer - Google Patents

Abstract

The utility model discloses a simulated plant modeling atomizer, which comprises an atomizer main body and a simulated plant modeling piece, wherein the simulated plant modeling piece is provided with an inner cavity, a water adding avoiding hole and an outer fog outlet; the atomizer main body comprises a base and a liquid storage tank arranged on the base; the base is provided with a fan, the liquid storage tank is provided with a liquid storage cavity, an atomization device, a water inlet, an inner mist outlet and an air inlet, the atomization device is used for atomizing liquid in the liquid storage cavity, the water inlet, the inner mist outlet and the air inlet are all communicated with the liquid storage cavity, and the air outlet side of the fan is communicated with the air inlet; the simulated plant modeling piece is covered on the atomizer main body, the water adding avoidance hole is communicated with the water adding port, and the inner mist outlet is communicated with the outer mist outlet. The simulation plant modeling piece can be suitable for various simulation plants by changing, mist is floated on the simulation plant modeling piece by utilizing the combination of the atomizing device and the fan, a sense of smoke is generated, and the simulation plant modeling piece has the sense of faery plants/trees in a television play and is suitable for various scenes such as home, office places and the like.

Description

Simulation plant modeling atomizer

Technical Field

The utility model relates to the technical field of atomizers, in particular to a simulated plant modeling atomizer.

Background

At present, the atomizer is very popular in application, and along with the pursuit of people for beautifying the environment, more and more atomizers are combined and applied to simulation plants, and landscape culture and atomizing use requirements are combined, so that better living experience is provided for people.

For example, in CN 215013932U, it discloses an intelligent cooling simulation tree comprising: the simulation tree body comprises a trunk and branches, wherein a plurality of through holes are formed in the branches; the solar cell panel is arranged at one end of the branch far away from the trunk; the intelligent spraying cooling system comprises a main control module, an infrared sensor, a micropore atomization sheet and a water supply module, wherein the main control module, the infrared sensor and the water supply module are arranged in a trunk, the micropore atomization sheet is arranged in a through hole, the output end of the infrared sensor is connected with the first input end of the main control module, the first output end of the main control module is connected with the input end of the water supply module, the second output end of the main control module is connected with the micropore atomization sheet, the water supply module is further connected with the micropore atomization sheet, and the main control module, the infrared sensor, the micropore atomization sheet and the water supply module are all electrically connected with a solar cell panel.

Above-mentioned this kind of emulation tree with atomizing function, it is with water supply module setting in the trunk, with micropore atomizing piece setting in the different through-holes of branch, on the one hand it needs the atomizing piece that uses more, on the other hand, it designs a model emulation tree, the structure of corresponding selection and installation each functional unit is also different, result in the design cost of manufacture of a model emulation tree higher, moreover, its water supply module utilizes the suction pump to send water to the play water end of water pipe and be connected with micropore atomizing piece, fog is the diffusion, can't form fog and fly around atmosphere.

Therefore, a new technical solution is needed to solve the above problems.

Disclosure of Invention

In view of the above, the present utility model aims at overcoming the drawbacks of the prior art, and it is a primary object of the present utility model to provide a simulated plant model atomizer, which directly changes a simulated plant model, is applicable to various simulated plants, is suitable for mass production and is beneficial to control the cost, and meanwhile, by utilizing the combination of an atomizing device and a fan, mist is blown out on the simulated plant model, and a smoke swirling sensation is generated.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the simulated plant modeling atomizer comprises an atomizer main body and a simulated plant modeling piece, wherein the simulated plant modeling piece is provided with an inner cavity, a water adding avoiding hole and an outer fog outlet; the inner cavity penetrates through the bottom of the simulated plant modeling piece, and the water adding avoidance hole and the external fog outlet are both communicated with the inner cavity;

the atomizer main body comprises a base and a liquid storage tank arranged on the base; the base is provided with a fan, the liquid storage tank is provided with a liquid storage cavity, an atomization device, a water inlet, an inner mist outlet and an air inlet, the atomization device is used for atomizing liquid in the liquid storage cavity, the water inlet, the inner mist outlet and the air inlet are all communicated with the liquid storage cavity, and the air outlet side of the fan is communicated with the air inlet;

the simulated plant modeling piece is covered on the atomizer main body, the water adding avoidance hole is communicated with the water adding port, and the inner mist outlet is communicated with the outer mist outlet.

As a preferred solution, the outer mist outlet is located above the inner mist outlet.

As a preferable mode, the outer mist outlet is provided with one, two or more than three.

As a preferred scheme, the simulated plant modeling piece is a tree shape and is provided with a main trunk and a plurality of branches connected to the main trunk, the inner cavity is positioned in the main trunk and penetrates through the bottom of the main trunk, and the outlet fog outlet is arranged on the main trunk and/or the branches.

As a preferable scheme, the base is also provided with an input power board, and the input power board is respectively electrically connected with the atomizing device and the fan.

As a preferable scheme, the inner part of the liquid storage tank is provided with a mist guide block corresponding to the inner mist outlet, the mist guide block is provided with a mist guide cavity, the mist guide cavity is provided with a lateral inlet and a top outlet, the lateral inlet is communicated with the liquid storage cavity, and the top outlet is communicated with the inner mist outlet.

As a preferred scheme, the top of liquid reserve tank is the play fog passageway of upwards gradually receiving the design, interior fog mouth sets up in the upper end opening part that goes out the fog passageway, lead fog piece including diapire and connect in the peripheral U-shaped lateral wall of diapire, the side direction entry forms in the fracture end of U-shaped lateral wall, the top export sets up in the upper end of U-shaped lateral wall, the side of diapire extends there is the installation lug, the installation lug is connected in the lower extreme that goes out the fog passageway.

As a preferable scheme, the liquid storage tank is provided with an air guide channel which is positioned beside the liquid storage cavity, the air guide channel extends up and down, the lower end of the air guide channel is communicated with the air outlet side of the fan, and the upper end of the air guide channel is communicated with the air inlet.

As a preferable scheme, the position of the air inlet is higher than the highest liquid level of the liquid storage cavity.

As a preferred scheme, the liquid storage tank is including epitheca and inferior valve, atomizing device, water filling port, wind-guiding passageway all set up in the inferior valve, interior fog mouth and air intake all set up in the epitheca, the inferior valve is installed on the base, the fan is installed at the top of base and is located the bottom below of epitheca, the bottom of epitheca is assembled at the top of inferior valve and is link up from top to bottom.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, in particular, the technical proposal shows that the utility model mainly adopts the arrangement of the atomizer main body and the simulation plant modeling piece, the atomizer main body can be used as a general part, the simulation plant modeling piece can be changed to be suitable for various simulation plants, and is suitable for mass production and manufacture, thereby being beneficial to controlling the cost.

In order to more clearly illustrate the structural features and efficacy of the present utility model, the present utility model will be described in detail below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a perspective view of a simulated plant model atomizer according to an embodiment of the present utility model;

FIG. 2 is a first exploded view of a simulated plant model atomizer of an embodiment of the present utility model;

FIG. 3 is a first cross-sectional view (including inlet air flow direction and mist flow direction) of a simulated plant model atomizer according to an embodiment of the present utility model;

FIG. 4 is a second exploded view of a simulated plant model atomizer of an embodiment of the present utility model;

FIG. 5 is a third exploded view of a simulated plant model atomizer of an embodiment of the present utility model;

FIG. 6 is a second cross-sectional view (mist containing flow direction) of a simulated plant model atomizer according to an embodiment of the present utility model;

FIG. 7 is a perspective view of a mist guide block of a simulated plant model atomizer according to an embodiment of the utility model;

fig. 8 is a perspective view of a simulated plant model atomizer according to another embodiment of the utility model.

The attached drawings are used for identifying and describing: atomizer main part 1, simulation plant molding 2, inner chamber 3, water adding dodge hole 4, go out fog mouth 5, main trunk 6, branch 7, base 8, liquid reserve tank 9, fan 10, input power board 11, atomizing device 12, power cord 13, stock solution chamber 14, water filling port 15, interior fog mouth 16, air intake 17, guide fog piece 18, guide fog chamber 19, side entry 20, top export 21, play fog passageway 22, wind-guiding passageway 23, upper shell 24, inferior valve 25.

Detailed Description

Referring to fig. 1 to 8, specific structures of embodiments of the present utility model are shown.

In the description of the present utility model, it should be noted that the azimuth or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present utility model.

As shown in fig. 1 to 7, a simulated plant model atomizer comprises an atomizer body 1 and a simulated plant model 2.

The shape of the simulated plant modeling piece 2 is not limited, the variable design is suitable for various simulated tree plants, and the simulated plant modeling piece 2 is provided with an inner cavity 3, a water adding avoiding hole 4 and an outlet fog outlet 5; the inner cavity 3 penetrates through the bottom of the simulated plant modeling piece 2, and the water adding avoidance hole 4 and the external fog outlet 5 are both communicated with the inner cavity 3 and are exposed outside the simulated plant modeling piece 2; in this embodiment, the simulated plant modeling member 2 may be designed as a tree shape, which has a main trunk 6 and a plurality of branches 7 connected to the main trunk 6, the inner cavity 3 is located in the main trunk 6 and penetrates the bottom of the main trunk 6, and the outer mist outlet 5 is disposed on the main trunk 6 and/or the branches 7. In general, a large number of fog outlets 5 can be designed on the branch 7 part of the simulation tree, some fog outlets 5 can be arranged on the part of the main trunk 6 close to the root of the tree, so that the part of the branch 7 and the part of the main trunk 6 close to the root of the tree can generate a smoke-turning feeling, the feeling of the faery tree in the TV play is realized, and when in actual use, the product can generate fog in an upper part and a lower part respectively, and also can generate fog simultaneously.

The atomizer body 1 comprises a base 8 which is assembled in a split way and a liquid storage tank 9 which is arranged on the base 8;

the base 8 is provided with a fan 10, the base 8 is also provided with an input power board 11, and the input power board 11 is respectively electrically connected with the atomizing device 12 and the fan 10. The outside of base 8 is provided with power source, power source is connected with power cord 13, power cord 13 can be plug-in connection in power source department, convenient connection uses. The rechargeable power supply can be arranged in the base 8, a charging port is arranged outside the base 8 or a charging wire is connected, the rechargeable power supply supplies power to the atomizing device 12 and the fan 10, and the starting switch controls the atomizing device 12 and the fan 10 to start working.

The liquid storage tank 9 is provided with a liquid storage cavity 14, an atomization device 12, a water adding port 15, an inner mist outlet 16 and an air inlet 17; the liquid added in the liquid storage tank 9 can be suitable for humidification, sterilization, aromatherapy and other functions, and the functions are different according to different selected liquid components, so that the common humidification can be realized by directly adding water. The interior of the liquid storage tank 9 is provided with a mist guide block 18 corresponding to the inner mist outlet 16, the mist guide block 18 is provided with a mist guide cavity 19, the mist guide cavity 19 is provided with a lateral inlet 20 and a top outlet 21, the lateral inlet 20 is communicated with the liquid storage cavity 14, and the top outlet 21 is communicated with the inner mist outlet 16. The top of liquid reserve tank 9 is the play fog passageway 22 of upwards gradual receipts design, interior fog mouth 16 sets up in the upper end opening part of play fog passageway 22, guide fog piece 18 is including diapire and connect in the peripheral U-shaped lateral wall of diapire, side direction entry 20 forms in the fracture end of U-shaped lateral wall, top export 21 sets up in the upper end of U-shaped lateral wall, the side of diapire extends there is the installation lug, installation lug screw lock is connected in the lower extreme of play fog passageway 22, is provided with the screw position at the top of liquid reserve tank 9, in the connecting hole of installation lug with the connection at the outside lock-in screw in the top of liquid reserve tank 9. The atomizing device 12 is used for atomizing liquid in the liquid storage cavity 14, the water inlet 15, the inner mist outlet 16 and the air inlet 17 are all communicated with the liquid storage cavity 14, and the air outlet side of the fan 10 is communicated with the air inlet 17; the liquid storage tank 9 is provided with an air guide channel 23 positioned beside the liquid storage cavity 14, the air guide channel 23 extends up and down, the lower end of the air guide channel 23 is communicated with the air outlet side of the fan 10, and the upper end of the air guide channel 23 is communicated with the air inlet 17. The air inlet 17 is located at a position higher than the highest liquid level of the liquid storage cavity 14. In this embodiment, the liquid storage tank 9 is including epitheca 24 and inferior valve 25, atomizing device 12, filler 15, wind-guiding passageway 23 all set up in inferior valve 25, interior fog mouth 16 and air intake 17 all set up in epitheca 24, inferior valve 25 installs on base 8, fan 10 installs in the top of base 8 and is located the bottom below of epitheca 24, is provided with the first annular limit that upwards extends at the top of base 8, encloses fan 10 and locates in the region surrounded by first annular limit, atomizing device's bottom of epitheca 24 is assembled in the top of inferior valve 25 and is link up from top to bottom, the bottom of inferior valve 25 downwardly extending has the second annular limit, utilizes second annular limit and first annular limit concatenation, and the wind-guiding passageway 23 of inferior valve 25 link up the bottom of inferior valve 25 and link up the region surrounded by first annular limit, so, fan 10 horizontal installation, the top of fan 10 is provided with the inlet opening from the bottom of base 8, and the air-out side of fan 10 sets up upwards and slightly to locate in the region surrounded by first annular limit, and just to the mist-spraying device is realized in the bottom of atomizing device 12, can also be directly being realized in the position of mist-spraying device under the mist-spraying device 25, can be realized in the bottom of the position of the atomizing device is directly setting up in the bottom to the lower than the atomizing device 12, and the atomizing device is realized in the bottom is directly under the bottom of the atomizing device is directly being directly to be directly to the bottom of the device is arranged to be in the bottom of the device 25. The electrical connection between the input power board 11 and the atomizing device 12 is disposed at the bottom of the lower housing 25, so that the connection operation is convenient.

The simulated plant modeling piece 2 is covered on the atomizer body 1, at least the liquid storage tank 9 of the atomizer body 1 is positioned in the inner cavity 3, the water adding avoidance hole 4 is communicated with the water adding hole 15, the inner mist outlet 16 is communicated with the outer mist outlet 5, and the outer mist outlet 5 is positioned above the inner mist outlet 16. The outer mist 5 is provided with one, two or more than three.

As shown in fig. 3 and 6, the mist generated by the atomizing device 12 is blown upward from the air guide channel 23 by the fan 10, and enters the liquid storage cavity 14 through the air inlet 17, and the air inlet position is higher than the highest liquid level of the liquid storage cavity 14, so that the mist on the liquid level is blown upward, the mist enters the mist guide cavity 19 through the lateral inlet 20 of the mist guide block 18, enters the mist outlet channel 22 from the top outlet 21 of the mist guide block 18, is blown out from the inner mist outlet 16, is conveyed in the inner cavity 3 of the trunk and is blown out from the outer mist outlet 5 of the main trunk 6 and/or the branches 7, and the smoke is generated to wind, such as a feeling of a fairy tree. The whole airflow and the flow direction of mist are ingenious in bending, and meanwhile, the mist airflow is formed by the aid of the assistance of the fan 10.

The simulated plant modeling atomizer of the embodiment is applicable to scenes such as home, office places, showcase decorations, catering places and the like, for example, when the simulated plant modeling atomizer is applied to offices, if a large number of people smoke, the atomization can reduce the taste brought by smoking and particles in smoke, so that the simulated plant modeling atomizer can also play a role in purifying air to a certain extent.

As shown in fig. 8, which shows a perspective view of a simulated plant model atomizer of another embodiment, the basic structure is the same as that of the previous embodiment, with the main differences: in the former embodiment, the simulated plant molding 2 is covered outside the liquid storage tank 9, and the bottom of the simulated plant molding 2 is placed at the top of the base 8, while in another embodiment shown in fig. 8, the simulated plant molding 2 covers the atomizer main body 1 completely, so that the overall molding is more vivid, and the control switch, the power connection part and the like of the base 8 can be exposed through the avoidance position correspondingly arranged on the simulated plant molding 2.

In addition, in practical design, the base 8 shown in fig. 1 and 2 can also be designed to have better engagement consistency with the simulated plant molding 2, namely: the shape of the base 8 is designed to simulate the root part of a tree, so that even if the simulated plant modeling piece 2 is spliced on the base 8, the base 8 is exposed below the simulated plant modeling piece 2, the whole modeling can not be influenced, and the whole decoration effect is good.

The utility model mainly uses the atomizer body 1 and the simulated plant modeling piece 2, the atomizer body 1 can be used as a general part, the changed simulated plant modeling piece 2 can be suitable for various simulated plants, and is suitable for mass production and manufacture, thereby being beneficial to controlling the cost, meanwhile, the combination of the atomizing device 12 and the fan 10 is utilized to float mist on the simulated plant modeling piece 2, generating a smoke-surrounding feeling, having the feeling of the plant/tree in the television play, being suitable for various scenes such as home, office, and the like, and having simple structure, reducing the use of an atomizing sheet, avoiding the setting of a water pump and further reducing the production cost.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model are still within the scope of the technical solutions of the present utility model.

Claims (10)

1. The utility model provides a simulation plant model atomizer, including atomizer main part and simulation plant model spare, its characterized in that:

the simulated plant modeling piece is provided with an inner cavity, a water adding avoidance hole and an outer fog outlet; the inner cavity penetrates through the bottom of the simulated plant modeling piece, and the water adding avoidance hole and the external fog outlet are both communicated with the inner cavity;

the atomizer main body comprises a base and a liquid storage tank arranged on the base; the base is provided with a fan, the liquid storage tank is provided with a liquid storage cavity, an atomization device, a water inlet, an inner mist outlet and an air inlet, the atomization device is used for atomizing liquid in the liquid storage cavity, the water inlet, the inner mist outlet and the air inlet are all communicated with the liquid storage cavity, and the air outlet side of the fan is communicated with the air inlet;

the simulated plant modeling piece is covered on the atomizer main body, the water adding avoidance hole is communicated with the water adding port, and the inner mist outlet is communicated with the outer mist outlet.

2. The simulated plant shaping atomizer of claim 1, wherein: the outer mist outlet is positioned above the inner mist outlet.

3. The simulated plant shaping atomizer of claim 1, wherein: the outer fog outlet is provided with one, two or more than three.

4. The simulated plant shaping atomizer of claim 1, wherein: the simulated plant modeling piece is in a tree shape and is provided with a main trunk and a plurality of branches connected to the main trunk, the inner cavity is positioned in the main trunk and penetrates through the bottom of the main trunk, and the outlet fog outlet is arranged on the main trunk and/or the branches.

5. The simulated plant shaping atomizer of claim 1, wherein: the base is also provided with an input power board which is respectively electrically connected with the atomizing device and the fan.

6. The simulated plant shaping atomizer of claim 1, wherein: the inside of liquid reserve tank corresponds interior fog mouth and is provided with and leads the fog piece, it leads the fog chamber to be provided with on the fog piece, it has side direction entry and top export to lead the fog chamber, side direction entry intercommunication liquid reserve chamber, the interior fog mouth that goes out of top export intercommunication.

7. The simulated plant shaping atomizer of claim 6, wherein: the top of liquid reserve tank is the play fog passageway of upwards gradually receiving design, interior fog mouth sets up in the upper end opening part that goes out the fog passageway, lead fog piece including diapire and connect in diapire peripheral U-shaped lateral wall, the side direction entry forms in the fracture end of U-shaped lateral wall, the top export sets up in the upper end of U-shaped lateral wall, the side of diapire extends there is the installation lug, the installation lug is connected in the lower extreme that goes out the fog passageway.

8. The simulated plant shaping atomizer of claim 1, wherein: the liquid storage tank is provided with an air guide channel which is positioned beside the liquid storage cavity, the air guide channel extends up and down, the lower end of the air guide channel is communicated with the air outlet side of the fan, and the upper end of the air guide channel is communicated with the air inlet.

9. The simulated plant shaping atomizer of claim 1 or 8, wherein: the position of the air inlet is higher than the highest liquid level of the liquid storage cavity.

10. The simulated plant shaping atomizer of claim 8, wherein: the liquid storage tank is including epitheca and inferior valve, atomizing device, water filling port, wind-guiding passageway all set up in the inferior valve, interior fog mouth and air intake all set up in the epitheca, the inferior valve is installed on the base, the fan is installed in the top of base and is located the bottom below of epitheca, the bottom of epitheca is assembled at the top of inferior valve and is link up from top to bottom.

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