CN111336631A - Air sterilizer - Google Patents

Abstract

The invention discloses an air sterilizer which comprises a machine body, an atomizing device and a liquid supply structure, wherein the atomizing device is arranged in the machine body, the liquid supply structure is embedded at the side part of the machine body, the liquid supply structure is communicated with the atomizing device so as to supply liquid to the atomizing device, and the atomizing device is used for atomizing the liquid and outputting aerial fog to the outside of the machine body. The air sterilizer integrates the atomizing device and the liquid supply structure on the same machine body, the atomizing device is used for generating and outputting aerial fog, the liquid supply device can be used for storing and replacing disinfectant or water, the liquid supply device is embedded in the side part of the machine body and is communicated with the atomizing device so as to automatically supply water to the atomizing device, and the disinfectant or water can be supplied without opening the machine body. Compared with the prior art, the air sterilizer can be used for air sterilization and humidification, has a simple structure, is convenient to use, and can further improve the use experience of users.

Description

Air sterilizer

Technical Field

The invention relates to the technical field of air purification, in particular to an air sterilizer.

Background

The existing part of the humidifier is of a structure of adding water in an upper water adding mode or a lower water adding mode, the water tank can be added with water only by opening the machine body, after the humidifier is used, redundant water in the box body needs to be poured out, so that the situation that water is accumulated in the box body for a long time and pollution is caused is avoided, and the humidifier of the structure is not suitable for atomization of disinfectant and can cause waste of the disinfectant. The existing air disinfectors usually have one or more sterilization modules installed in the machine body to filter out air pollutants, such as a photocatalyst module, an ultraviolet sterilization module, etc., which have the following disadvantages: the novel sterilization device has the advantages of long-time opening, high power consumption, fixed structure, incapability of adding a new sterilization module on a finished product machine, more sterilization assemblies required to be installed, complex structure and high design and processing cost.

From the above, it can be seen that if the water adding structure of the existing humidifier is improved to make it be used for atomizing the disinfectant to be used as an air disinfection device, the problems of low disinfection efficiency and large energy consumption of the existing air disinfection device can be effectively reduced, and the design and processing costs are reduced.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an air sterilizer which can be provided with a liquid supply structure, can realize the supply of solution without opening a sterilizer body and is more convenient to use.

In order to achieve the above purpose, the invention adopts the following technical scheme:

air sterilizing apparatus, including organism, atomizing device and confession liquid structure, atomizing device sets up in the organism, it establishes to supply the liquid structure inlay the organism lateral part, supply the liquid structure with atomizing device intercommunication, with to atomizing device provides liquid, atomizing device is used for atomizing liquid and to organism outside output aerial fog.

The air sterilizer integrates the atomizing device and the liquid supply structure on the same machine body, the atomizing device is used for generating and outputting aerial fog, the liquid supply device can be used for storing and replacing disinfectant or water, the liquid supply device is embedded in the side part of the machine body and is communicated with the atomizing device so as to automatically supply water to the atomizing device, and the disinfectant or water can be supplied without opening the machine body. Compared with the prior art, the air sterilizer can be used for air sterilization and humidification, has a simple structure, is convenient to use, and can further improve the use experience of users.

Preferably, the atomization device comprises a mist generator, a lower box body and an air supply mechanism, the air supply mechanism comprises a first air shell, a second air shell and a fan, and the lower box body is provided with an atomization cavity and an air inlet channel; the fog generator is arranged in the atomization cavity, the fan is arranged at the lower end of the air inlet channel, the first air shell cover is arranged on the atomization cavity to guide the fog to be discharged, the second air shell cover is arranged on the outer side of the first air shell, an air outlet channel is formed between the inner wall of the second air shell and the outer wall of the first air shell, and the air inlet channel is communicated with the air outlet channel. In this scheme, first shell and lower box inner chamber intercommunication are in order to form the aerial fog passageway, so that the water smoke accessible that the fog generator produced goes out the fog mouth and discharges, the air current of air-out passageway can drive the water smoke diffusion from the air outlet discharge, thereby promote diffusion range and speed, the aerial fog passageway is favorable to keeping the cleanness of aerial fog passageway and preventing the air-out passageway condensate with air-out passageway mutual independence, the fog generator is located the atomizing intracavity, the weeping problem that probably appears when can avoid the fog generator to inlay the dress in lower box diapire.

Preferably, first wind shell includes first gathering can portion and first arc guide part, first arc guide part tip is equipped with out the fog mouth, second wind shell includes second gathering can portion and second arc guide part, second arc guide part tip is equipped with the air outlet, the air outlet with go out fog mouth parallel and level and slope setting. In this scheme, air outlet, play fog mouth slope setting can increase its play fog angle and diffusion range to make the hydrops of play fog mouth flow back along the inner wall of second shell of wind in the atomizing chamber, and the air outlet makes the air current of air outlet drive the fog flow around a fog mouth, in order to increase diffusion efficiency and scope.

Preferably, a hollow convex column is arranged in the atomizing cavity, the two ends of the convex column penetrate through the air inlet duct, and an air outlet of the air inlet duct is located in the second air casing.

Preferably, the air inlet channel further comprises a side air outlet, and the side air outlet is communicated with the atomization cavity. In this scheme, during partial air current passes through lateral part air outlet entering atomizing chamber to increase the pressure and the aerial fog velocity of flow in the atomizing chamber. When the design, can adjust the maximum liquid level height in lateral part air outlet and atomizing chamber according to the specification of product to the maximum liquid level height in messenger atomizing chamber is less than the bottom height of lateral part air outlet.

Preferably, the liquid supply structure comprises a support body and a liquid supply device, the support body is embedded in the side part of the machine body, a liquid supply cavity is arranged in the support body, and butt joint holes are formed in the support body and the atomizing device; the liquid supply device is detachably arranged in the liquid supply cavity and is communicated with the atomizing device through the butt joint hole. In this scheme, the confession liquid device detachable locates and supplies the liquid intracavity, makes the user assemble confession liquid device in supplying the liquid intracavity as required to supply liquid to atomizing device through supplying liquid device, or, pull down confession liquid device, supply water to atomizing device through outside water pipe.

Preferably, the liquid supply device comprises a liquid supply tank body and a connecting assembly, the machine body comprises a water inlet valve assembly, the water inlet valve assembly is arranged on the atomization device, a water inlet end of the water inlet valve assembly penetrates through the butt joint hole and extends into the liquid supply cavity, the liquid supply tank body is detachably assembled in the liquid supply cavity through the connecting assembly and is communicated with a water inlet end of the water inlet valve assembly, and the water inlet valve assembly automatically opens or closes a valve port according to the water level change of the atomization device, so that the atomization effect is prevented from being influenced by overhigh liquid level.

Preferably, the connecting assembly comprises a connecting platform and a liquid supply valve, and the liquid supply valve is hermetically arranged on the liquid supply tank body; the connecting platform is detachably arranged in the liquid supply cavity, a connecting seat is arranged on the connecting platform, the connecting seat is connected with the water inlet end of the water inlet valve component through a pipeline, and the liquid supply valve is matched with the connecting seat to open the liquid supply tank body. In the scheme, after the liquid supply valve and the connecting seat are assembled in place, the connecting seat triggers the liquid supply valve to automatically open the valve port, so that the tank port of the liquid supply tank body is communicated with the water inlet valve assembly through the pipeline, and when the liquid supply valve is separated from the connecting seat or is not connected in place, the valve port is closed, so that the tank port of the liquid supply tank body is closed.

In order to open the liquid supply cavity conveniently, a door body is arranged on the support body, one end of the door body is hinged to the support body, the other end of the door body can horizontally swing relative to the support body to open or close the liquid supply cavity, and a locking mechanism is arranged between the support body and the door body to lock the door body.

Preferably, the connecting seat is provided with a thimble structure, and the thimble structure is matched with the liquid supply valve to trigger the liquid supply valve to open the valve port.

Drawings

FIG. 1 is a general schematic view of an air sterilizer 1;

FIG. 2 is an exploded view of the air sterilizer;

FIG. 3 is an exploded view of the liquid supply structure;

FIG. 4 is a cross-sectional view of the air sterilizer 1;

FIG. 5 is an enlarged view of portion A of FIG. 4;

FIG. 6 is an enlarged view of the portion B of FIG. 4;

FIG. 7 is a cross-sectional view of the air sterilizer 2;

FIG. 8 is a schematic view of a liquid supply structure;

FIG. 9 is an exploded view of the atomizer device;

fig. 10 is an overall schematic view 2 of the air sterilizer.

Description of reference numerals:

the air conditioner comprises a machine body 1, a support frame 11, an air inlet 12, a machine body air supply outlet 13, an air inlet cavity 14, an air outlet channel 15, an air inlet duct 151, a control panel 16, an atomizing cavity 17, a liquid supply cavity 18, a support body 2, a first fastener 21, a T-shaped shaft 211, a clasp 212, a second fastener 22, a clasp ring 221, a clasp plate 222, an installation cavity 23, an installation hole 231, a connecting port 232, a door body 24, a hinge portion 25, an atomizing device 3, a lower box 31, a first air shell 32, a first energy gathering portion 321, a first arc guiding portion 3211, a baffle 3212, a connecting wall 322, a convex column 324, an fog outlet 325, a second air shell 33, a second energy gathering portion 333, a second arc guiding portion 334, an air outlet 331, a side air outlet 332, an installation boss 351, a water collecting groove 361, a water discharging hole 362, an atomizer 41, a fog gathering piece 42, a guiding and liquid supply wall 421, a sealing panel 422, a tank device 5, a tank body 51, a lifting, The liquid level control device comprises a buckle hole 5222, a liquid supply valve 523, a connecting seat 525, a thimble structure 524, a first top block 5241, a connecting rib 5242, a mounting cylinder 5231, a sealing plug 5232, a vertical rod 5233, a second top block 5234, an elastic piece 5235, a stepped through hole 5236, a limiting ring 5237, a mounting rib 5238, a water inlet valve assembly 6, a pipeline 61, an electric control device 7, a fan 8 and a filtering device 9.

Detailed description of the preferred embodiments

The technical scheme of the invention is further explained according to the attached drawings:

in the description of the present invention, it is to be understood that the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "horizontal", "inner", "outer", and the like are based on the directions or positional relationships shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific direction, be constructed and operated in a specific direction, and thus, cannot be construed as limiting the present invention.

Referring to fig. 1-10, the air sterilizer of the present invention includes a body 1, an atomizing device 3, and a liquid supply structure, wherein the atomizing device 3 is disposed in the body 1, the liquid supply structure is embedded in a side portion of the body 1, the liquid supply structure is communicated with the atomizing device 3 to supply liquid to the atomizing device 3, and the atomizing device 3 is used for atomizing the liquid and outputting aerosol to an outside of the body 1.

The atomization device 3 comprises a mist generator 41, a lower box body 31 and an air supply mechanism, wherein the air supply mechanism comprises a first air shell 32, a second air shell 33 and a fan 8, and the lower box body 31 is provided with an atomization cavity 17 and an air inlet duct 151; the mist generator 41 is arranged in the atomizing cavity 17, the fan 8 is arranged at the lower end of the air inlet duct 151, the first air casing 32 is covered on the atomizing cavity 17 to guide the mist to be discharged out of the machine body 1, the second air casing 33 is sleeved outside the first air casing 32, an air outlet channel 15 is formed between the inner wall of the second air casing 33 and the outer wall of the first air casing 32, the air inlet duct 151 is communicated with the air outlet channel 15, and a machine body air supply opening 13 is arranged on the side wall of the machine body 1 corresponding to the air outlet 331. In this scheme, first shell 32 and 31 inner chambers of lower box communicate in order to form the aerial fog passageway, so that the water smoke accessible that mist generator 41 produced goes out fog mouth 325 and discharges, air outlet channel 15's air current can drive the water smoke diffusion from air outlet 331 discharges, thereby promote diffusion range and speed, aerial fog passageway and air outlet channel 15 mutual independence are favorable to keeping the cleanness of aerial fog passageway and prevent that air outlet channel 15 from condensing water, mist generator 41 locates in atomizing chamber 17, the weeping problem that probably appears when mist generator 41 inlays the dress in lower box 31 diapire can be avoided.

The first wind casing 32 includes a first energy gathering portion 321 and a first arc-shaped guiding portion 3211, a mist outlet 325 is formed in an end portion of the first arc-shaped guiding portion 3211, the second wind casing 33 includes a second energy gathering portion 333 and a second arc-shaped guiding portion 334, an air outlet 331 is formed in an end portion of the second arc-shaped guiding portion 334, and the air outlet 331 is flush with the mist outlet 325 and is obliquely arranged. In this scheme, the air outlet 331 and the mist outlet 325 are obliquely arranged to increase the mist outlet angle and the diffusion range thereof, so that accumulated liquid in the mist outlet 325 flows back to the lower box body 31 along the inner wall of the second air casing 33, and the air outlet 331 surrounds the mist outlet 325 so that the airflow in the air outlet 331 drives the mist to flow, thereby increasing the diffusion efficiency and the diffusion range.

As a preferred embodiment, an air inlet chamber 14 is arranged between the inner wall of the machine body 1 and the lower box 31, an air inlet 12 is arranged on the outer wall of the machine body 1 corresponding to the air inlet chamber 14, and a filtering device 9 is arranged on the air inlet chamber 14 corresponding to the air inlet 12.

As a preferred embodiment, the electric control device 7 of the machine body 1 is disposed in the air inlet cavity 14, the electric control device 7 comprises an electric control board, and the side wall of the machine body 1 is provided with a control panel 16 corresponding to the electric control device 7.

In a preferred embodiment, the first energy concentrating part 321 and the first arc guiding part 3211 are separately designed, and the second energy concentrating part 333 and the second arc guiding part 334 are integrally formed.

In a preferred embodiment, the first wind housing 32 includes a connecting wall 322 disposed around the lower side of the outer periphery of the first energy concentrating portion 321, and a bolt fixing structure is disposed between the connecting wall 322 and the second wind housing 33.

In a preferred embodiment, a baffle 3212 is provided in the first energy concentrating part 321 to block water droplets splashed by the operation of the mist eliminator 41 under the baffle 3212.

A hollow convex column 324 is arranged in the atomizing cavity 17, two ends of the convex column 324 penetrate through to form an air inlet duct 151, and an air outlet 331 of the air inlet duct 151 is located in the second air casing 33.

The air inlet channel further comprises a side air outlet 332, and the side air outlet 332 is communicated with the atomizing cavity 17. In this scheme, part air current gets into in the atomizing chamber 17 through lateral part air outlet 332 to increase pressure and the aerial fog velocity in the atomizing chamber 17, be equipped with a convex part on the lateral wall of projection 324 lower part so that the outline of projection 324 is "h" shape, and lateral part air outlet 332 sets up on the convex part. During design, the maximum liquid level heights of the side air outlets 332 and the atomizing chamber 17 can be adjusted according to the specification of the product, so that the maximum liquid level height of the atomizing chamber 17 is lower than the bottom height of the side air outlets 332.

As a preferred embodiment, the air supply mechanism further comprises a mist gathering member 42, the mist gathering member 42 comprises a sealing panel 422, and a via hole and a mist gathering port which are arranged on the sealing panel 422, and a guide wall 421 extends downwards from the mist gathering port; the sealing panel 422 is arranged at the open end of the lower box 31 in a sealing manner, the mist gathering port is communicated with the atomizing cavity 17 and the first wind shell 32, and the convex column 324 passes through the through hole and extends into the second wind shell 33. In the present embodiment, the guiding wall 421 can improve the atomization efficiency, and the water mist in the atomization chamber 17 is discharged to the outside through the guiding wall 421 and the first wind housing 32 in sequence.

As a preferred embodiment, a notch is formed on the side of the guiding wall 421 away from the through hole, and the side air outlet 332 is opened toward the inner side wall of the lower box 31, so as to prevent the air from the side air outlet 332 from directly discharging from the mist collecting port, and to fully mix the air and the mist.

The liquid supply structure comprises a support body 2 and a liquid supply device 5, wherein the support body 2 is embedded at the side part of the machine body 1, a liquid supply cavity 18 is arranged in the support body 2, and butt joint holes are formed in the support body 2 and the atomizing device 3; the liquid supply device 5 is detachably arranged in the liquid supply cavity 18 and is communicated with the atomizing device 3 through a butt joint hole. In the scheme, the liquid supply device 5 is detachably arranged in the liquid supply cavity 18, so that a user can assemble the liquid supply device 5 in the liquid supply cavity 18 according to needs, and then liquid is supplied to the atomizing device 3 through the liquid supply device 5, or the liquid supply device 5 is detached and water is supplied to the atomizing device 3 through an external water pipe.

The liquid supply device 5 comprises a liquid supply tank body 51 and a connecting assembly, the machine body 1 comprises a water inlet valve assembly 6, the water inlet valve assembly 6 is arranged on the atomization device 3, the water inlet end of the water inlet valve assembly 6 penetrates through the butt joint hole and extends into the liquid supply cavity 18, the liquid supply tank body 51 is detachably assembled in the liquid supply cavity 18 through the connecting assembly and is communicated with the water inlet end of the water inlet valve assembly 6, and the water inlet valve assembly 6 automatically opens or closes a valve port according to the water level change of the atomization device 3, so that the phenomenon that the atomization effect is influenced by overhigh liquid level.

The connecting assembly comprises a connecting platform 522 and a liquid supply valve 523, wherein the liquid supply valve 523 is hermetically arranged on the liquid supply tank body 51; the connecting platform 522 is detachably disposed in the liquid supply chamber 18, the connecting platform 522 is provided with a connecting seat 525, the connecting seat 525 is connected with the water inlet end of the water inlet valve assembly 6 through the pipeline 61, and the liquid supply valve 523 is matched with the connecting seat 525 to open the liquid supply tank 51. In the scheme, after the liquid supply valve 523 and the connecting seat 525 are assembled in place, the connecting seat 525 triggers the liquid supply valve 523 to automatically open a valve port, so that the tank port of the liquid supply tank body 51 is communicated with the water inlet valve assembly through the pipeline 61, and when the liquid supply valve 523 is separated from the connecting seat 525 or is not connected in place, the valve port is closed, so that the tank port of the liquid supply tank body 51 is closed.

For the convenience of promoting the assembly of coupling assembling, connection platform 522 is the open cavity form in inner, is equipped with installation boss 351 in the support body 2, and the outline of installation boss 351 and connection platform 522's inner chamber shape phase-match to make connection platform 522 can overlap and establish on installation boss 351.

In a preferred embodiment, the connection platform 522 is provided with a fastening hole 5222, and the outer wall of the mounting boss 351 is provided with a fixing buckle, which is elastically fastened to the fastening hole 5222.

The connecting seat 525 is provided with a pin structure 524, and the pin structure 524 is matched with the liquid supply valve 523 to trigger the liquid supply valve 523 to open the valve port. The connecting seat 525 is a cylindrical shape with two longitudinal ends communicated, the liquid supply valve 523 is detachably assembled on the upper side of the connecting seat 525 so as to enable the liquid supply tank body 51 to be arranged on the connecting seat 525 in an inverted mode, and the thimble structure 524 is arranged in an inner hole of the connecting seat 525.

The middle of the liquid supply valve 523 is a stepped through hole 5236 which longitudinally penetrates through the stepped through hole, the thimble structure 524 includes a first top block and a connecting rib 5242, the first top block is suspended in an inner hole of the connecting seat 525, the connecting rib 5242 is connected between the first top block and an inner wall of the connecting seat 525, the liquid supply valve 523 includes a mounting tube 5231, a limiting portion, a sealing plug 5232, a vertical rod 5233 and an elastic member 5235, the limiting portion includes a limiting ring 5237 and a mounting rib 5238, the limiting ring 5237 is suspended in the middle of the stepped through hole 5236, the mounting rib 5238 is connected between the limiting ring 5237 and the inner wall of the stepped through hole 5236, the sealing plug 5232 is located on the upper side of the limiting ring 5237, one end of the vertical rod 5233 is connected with the sealing plug 5232, the other end of the vertical rod 5237 penetrates through the limiting ring 5237, the other end of the vertical rod 5233 is provided with a second top block 5234, and the. In this solution, the sealing plug 5232 has a sealing effect on the can opening when abutting against the step of the stepped through hole 5236, so as to prevent the liquid from flowing to the lower side of the stepped through hole 5236, the limiting ring 5237 is matched with the second top block 5234, so as to limit the upward displacement of the sealing plug 5232, when the liquid supply can body 51 is installed in place, the first top block abuts against the second top block 5234, so that the vertical rod 5233 is displaced upward and drives the sealing plug 5232 to open the stepped through hole 5236, the liquid in the liquid supply can body 51 flows to the connecting seat 525 through the stepped through hole 5236, when the first top block is separated from the second top block 5234, the elastic force of the elastic member 5235 resets the sealing plug 5232, and the internal channel of the stepped through hole 5236 is blocked.

In a preferred embodiment, the elastic member 5235 is a return spring.

In a preferred embodiment, the opening of the liquid supply tank 51 is provided with a ring of convex walls 512, the convex walls 512 are provided with external threads, and the stepped through hole 5236 is provided with internal threads.

In order to open the liquid supply cavity 18 conveniently, a door body 24 is arranged on the support body 2, one end of the door body 24 is hinged to the support body 2, the other end of the door body 24 can horizontally swing relative to the support body 2 to open or close the liquid supply cavity 18, and a locking mechanism is arranged between the support body 2 and the door body 24 to lock the door body 24.

As a preferred embodiment, the door 24 is disposed on a side wall of the support body 2 far from the butt hole, one end of the door 24 is hinged to the support body 2, and the other end can swing horizontally relative to the support body 2 to open or close the inner cavity of the support body 2, the locking mechanism includes a first fastener 21 and a second fastener 22, the top wall of the support body 2 is provided with a mounting hole 231, the first fastener 21 is rotatably disposed on the mounting hole 231, the second fastener 22 is fixed on the upper side of the door 24, the first fastener 21 can be fastened or separated with the second fastener 22 by rotating, and the door 24 is locked when the first fastener 21 is fastened with the second fastener 22.

As a preferred embodiment, the first fastening member 21 includes a T-shaped shaft 211 and a hook 212, the upper end of the T-shaped shaft 211 is engaged with the mounting hole 231, the lower end of the T-shaped shaft 211 extends into the liquid supply chamber 18, the hook 212 is disposed at the lower end of the T-shaped shaft 211 and perpendicular to the T-shaped shaft 211, the second fastening member 22 includes a fastening plate 222 and a retaining ring 221 disposed on the fastening plate 222, the T-shaped shaft 211 can axially rotate and drive the hook 212 to horizontally swing, and the retaining ring 221 corresponds to the hook 212 in height, so that the hook 212 swings to a preset position and then is engaged with the retaining ring 221.

In a preferred embodiment, the mounting hole 231 is a T-shaped hole, and a clearance gap is preset between an inner upper wall of the mounting hole 231 and the T-shaped shaft 211 to facilitate the rotation of the T-shaped shaft 211 by a user.

As a preferred embodiment, the upper end of the liquid supply cavity 18 is provided with a mounting cavity 23, two longitudinal ends of the T-shaped shaft 211 are rotatably disposed at two ends of the mounting cavity 23, a clamping groove is annularly disposed on a lower peripheral wall of the T-shaped shaft 211, one end of the hook 212 is sleeved on the T-shaped shaft 211 through the clamping groove, a connecting port 232 is disposed on a side wall of the mounting cavity 23 corresponding to the retaining ring 221, and the retaining ring 221 enters or exits the mounting cavity 23 through the connecting port 232. In this embodiment, the installation cavity 23 has a shielding effect on the first fastening member 21, and the user is prevented from mistakenly touching the hook 212 during operation, so that the safety of the machine body 1 is improved.

In a preferred embodiment, hinge portions 25 are provided between the door 24 and the upper, middle and lower sides of the inner cavity of the support body 2, and a gap is provided between the mounting cavity 23 and the top of the liquid supply tank body 51 so as to be offset from the hinge portions 25.

As a preferred embodiment, the lower case 31 includes a water collecting groove 361 and a water discharging hole 362, the water collecting groove 361 is disposed on the inner bottom wall of the lower case 31 and is located at a side close to the support body 2, the water discharging hole 362 is located on the side wall of the lower case 31 and corresponds to the water collecting groove 361, the outer end of the water discharging hole 362 extends into the liquid supply chamber 18, a through hole is disposed on the side wall of the support body 2 corresponding to the water discharging hole 362, the water discharging hole 362 is in a closed state when in use, and when the accumulated liquid in the atomization chamber 17 needs to be cleaned, the liquid supply chamber 18 and the water discharging hole 362 can be opened to pour out the accumulated liquid.

In a preferred embodiment, the inner housing of the connecting base 525 is stepped, and the mounting barrel 5231 abuts against the step of the inner bore.

In a preferred embodiment, the liquid supply tank 51 is provided with a protruding wall 512 at the opening, the handle 511 is provided with an external thread, and the upper side of the stepped through hole 5236 is provided with an internal thread, so that the liquid supply valve 523 is connected with the liquid supply tank 51.

In a preferred embodiment, the liquid supply tank 51 further comprises a handle 511 for facilitating handling by a user.

In a preferred embodiment, the inlet valve assembly 6 is a float valve.

As a preferred embodiment, the machine body 1 includes a supporting frame 11, an upper end of the supporting frame 11 is connected to a bottom of the machine body 1, and the air inlet 12 is disposed on a bottom wall of the machine body 1.

In a preferred embodiment, the lower side wall of the machine body 1 is provided with an insertion opening, and the filtering device 9 is detachably arranged in the machine body 1 through the insertion opening.

As a preferred embodiment, the bottom of the machine body 1 extends to the lower side of the support body 2 and is connected with the bottom of the support body 2, thereby enlarging the air inlet chamber 14 and the air inlet 12 and making the whole vision of the machine body 1 more uniform.

The air sterilizer integrates the atomizing device 3 and the liquid supply structure on the same machine body 1, the atomizing device 3 is used for generating and outputting aerial fog, the liquid supply device 5 can be used for storing and replacing disinfectant or water, the liquid supply device 5 is embedded on the side part of the machine body 1 and is communicated with the atomizing device 3 so as to automatically supplement water to the atomizing device 3, and the disinfectant or water can be supplemented without opening the machine body 1. Compared with the prior art, the air sterilizer can be used for air sterilization and humidification, has a simple structure, is convenient to use, and can further improve the use experience of users.

Variations and modifications to the above-described embodiments may also occur to those skilled in the art, based upon the disclosure and teachings of the above specification. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and modifications and variations of the present invention are also intended to fall within the scope of the appended claims. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (10)

1. Air sterilizing apparatus, its characterized in that: including organism, atomizing device and confession liquid structure, atomizing device sets up in the organism, it establishes to supply the liquid structure inlay the organism lateral part, supply the liquid structure with atomizing device intercommunication, in order to atomizing device provides liquid, atomizing device be used for atomizing liquid and to organism outside output aerial fog.

2. An air sterilizer as claimed in claim 1, wherein: the atomizing device comprises a mist generator, a lower box body and an air supply mechanism, the air supply mechanism comprises a first air shell, a second air shell and a fan, and the lower box body is provided with an atomizing cavity and an air inlet duct;

the fog generator is arranged in the atomization cavity, the fan is arranged at the lower end of the air inlet channel, the first air shell cover is arranged on the atomization cavity to guide the fog to be discharged, the second air shell cover is arranged on the outer side of the first air shell, an air outlet channel is formed between the inner wall of the second air shell and the outer wall of the first air shell, and the air inlet channel is communicated with the air outlet channel.

3. An air sterilizer as claimed in claim 2, wherein: first wind shell includes first gathering can portion and first arc guide part, first arc guide part tip is equipped with out the fog mouth, second wind shell includes second gathering can portion and second arc guide part, second arc guide part tip is equipped with the air outlet, the air outlet with go out fog mouth parallel and level and slope setting.

4. An air sterilizer as claimed in claim 2, wherein: the atomizing intracavity is equipped with a hollow projection, the projection both ends run through and form the air inlet duct, the air outlet in air inlet duct is located in the second blower housing.

5. An air sterilizer as claimed in claim 4, wherein: the air inlet channel further comprises a side air outlet which is communicated with the atomizing cavity.

6. An air sterilizer as claimed in claim 1, wherein: the liquid supply structure comprises a support body and a liquid supply device, the support body is embedded in the side part of the machine body, a liquid supply cavity is arranged in the support body, and butt joint holes are formed in the support body and the atomizing device;

the liquid supply device is detachably arranged in the liquid supply cavity and is communicated with the atomizing device through the butt joint hole.

7. An air sterilizer of claim 6, wherein: the liquid supply device comprises a liquid supply tank body and a connecting assembly, the machine body comprises a water inlet valve assembly, the water inlet valve assembly is arranged on the atomization device, the water inlet end of the water inlet valve assembly penetrates through the butt joint hole and extends into the liquid supply cavity, the liquid supply tank body is detachably assembled in the liquid supply cavity through the connecting assembly and is communicated with the water inlet end of the water inlet valve assembly, and the water inlet valve assembly automatically opens or closes a valve port according to the water level change of the atomization device.

8. An air sterilizer of claim 7, wherein: the connecting assembly comprises a connecting platform and a liquid supply valve, and the liquid supply valve is arranged on the liquid supply tank body in a sealing manner; the connecting platform is detachably arranged in the liquid supply cavity, a connecting seat is arranged on the connecting platform, the connecting seat is connected with the water inlet end of the water inlet valve component through a pipeline, and the liquid supply valve is matched with the connecting seat to open the liquid supply tank body.

9. An air sterilizer of claim 6, wherein: the support body is provided with a door body, one end of the door body is hinged to the support body, the other end of the door body can horizontally swing relative to the support body to open or close the liquid supply cavity, and a locking mechanism is arranged between the support body and the door body to lock the door body.

10. An air sterilizer of claim 8, wherein: the connecting seat is provided with an ejector pin structure, and the ejector pin structure is matched with the liquid supply valve to trigger the liquid supply valve to open the valve port.

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