CN112958361B - Ultrasonic atomizer system - Google Patents

Abstract

The application relates to an ultrasonic atomizer system, which comprises a shell, wherein the shell comprises a containing chamber and an aerosol chamber, the containing chamber is used for storing disinfectant, and a through opening is formed between the containing chamber and the aerosol chamber; one side of the accommodating chamber is provided with a blast device and an ultrasonic atomization device for atomizing disinfectant; the bottom wall of the aerosol chamber is provided with an air outlet device, the input end of the air outlet device is communicated with the aerosol chamber, and the output end of the air outlet device is communicated with the outside. This application has the effect that improves the utilization ratio of antiseptic solution.

Description

Ultrasonic atomizer system

Technical Field

The application relates to the technical field of disinfection channels, in particular to an ultrasonic atomizer system.

Background

In some areas with high hygienic requirements, a hygienic disinfection channel is usually arranged at the entrance, the disinfection channel generally adopts a spray disinfection method, and the ultrasonic atomizer is widely applied to a fire fighting channel.

In the related art, the ultrasonic atomizers are arranged on two sides of the disinfection channel, the disinfection solution is atomized by the ultrasonic atomizers and then sprayed to the center of the disinfection channel, and people finish the disinfection step in the process of passing through the disinfection channel.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: in the practical application process, the consumption of the disinfectant is large, and the disinfectant which is really sprayed on human bodies is little, so that the utilization rate of the disinfectant is low, and therefore, the improvement space is still left.

Disclosure of Invention

In order to improve the utilization ratio of antiseptic solution, this application provides an ultrasonic nebulizer system.

The application provides an ultrasonic nebulizer system adopts following technical scheme:

an ultrasonic atomizer system comprises a shell, wherein the shell comprises an accommodating chamber and an aerosol chamber, the accommodating chamber is used for storing disinfectant, and a through hole is formed between the accommodating chamber and the aerosol chamber; one side of the accommodating chamber is provided with a blast device and an ultrasonic atomization device for atomizing disinfectant; the bottom wall of the aerosol chamber is provided with an air outlet device, the input end of the air outlet device is communicated with the aerosol chamber, and the output end of the air outlet device is communicated with the outside.

Through adopting above-mentioned technical scheme, divide into the room and the aerosol chamber that hold of intercommunication each other with the casing, the air-blast device of room can blow the antiseptic solution after the atomizing toward the aerosol chamber direction, the air-out device blowout to the external world of atomized liquid process aerosol chamber bottom, thereby reach the purpose that down spouts atomized liquid from the top, through installing the casing in the top of disinfection passageway, when the people is through disinfection passageway, can stand in air-out device below, be favorable to improving aerial fog and fall to ground before to the contact probability with the people's health, and then improve the utilization ratio of antiseptic solution.

Preferably, the accommodating chamber is provided with a partition plate, and the partition plate is positioned above the liquid level of the disinfectant.

Through adopting above-mentioned technical scheme, because air-blast device work causes the antiseptic solution liquid level to produce the water wave easily, the baffle can block toward the antiseptic solution of fog room direction spun, reduces the condition that the antiseptic solution that does not pass through atomizing gets into the fog room, does benefit to again and reduces the atomizing liquid with the form spun probability of water droplet, reduces the influence to user experience.

Preferably, the lower side edge of the port is provided with an inclined plate, and the inclined plate extends upwards in an inclined mode towards the direction of the aerosol chamber.

Through adopting above-mentioned technical scheme, when the liquid antiseptic solution that part was mingled with in the atomizing liquid gets into the fog room, the swash plate blocks liquid antiseptic solution, and the antiseptic solution of fog state continues to lead to the fog room, and liquid antiseptic solution is attached to the swash plate surface to hold the room direction backward flow back backward, thereby be favorable to further reducing the probability that liquid antiseptic solution got into in the fog room, reduce the liquid antiseptic solution simultaneously and detain in the fog room and cause the condition of resource loss.

Preferably, the housing is provided with an installation chamber, a vent is arranged between the installation chamber and the accommodating chamber, and the blower device is arranged in the installation chamber; the room is provided with the baffle that the position is higher than the antiseptic solution liquid level, form the air duct between baffle and the room lateral wall that holds, the air duct opening down and with the vent intercommunication.

By adopting the technical scheme, when the air blowing device disturbs the disinfectant and generates a sputtering phenomenon, the baffle can prevent the disinfectant from sputtering into the installation room, so that the probability of the disinfectant corroding the air blowing device is favorably reduced; the setting of baffle not only plays the effect of separation liquid antiseptic solution, also forms the air duct that the opening faces down simultaneously with the accommodation chamber lateral wall to can form the air current that flows towards antiseptic solution liquid level direction at the air duct, be favorable to in time letting in the aerosol with fog-state antiseptic solution indoor, and then be favorable to improving the discharge amount of stage antiseptic solution.

Preferably, the installation chamber includes the mounting panel that the slope set up, the slope lower extreme and the vent downside edge of mounting panel link up, the air-blast device inlays and adorns in the mounting panel.

Through adopting above-mentioned technical scheme, when partial liquid antiseptic solution splashes into the installation indoor, liquid antiseptic solution can flow back along the incline direction of mounting panel to from the vent backward flow to hold indoor, be favorable to reducing the probability that antiseptic solution is detained in the installation indoor.

Preferably, the aerosol chamber includes the bottom plate that two slopes set up, two the slope lower extreme of bottom plate links up each other, the aerosol chamber still includes the frame plate that encircles in two bottom plate week sides, the frame plate runs through there is the delivery port, the delivery port is located the linking department of the slope lower extreme of two bottom plates.

By adopting the technical scheme, when part of the liquid disinfectant is sprayed to the aerosol chamber, the liquid disinfectant can be collected at the inclined lower end of the bottom plate and is discharged from the water outlet, so that the liquid disinfectant discharged from the water outlet under the condition that the liquid disinfectant is retained in the aerosol chamber can be utilized, and the utilization rate of the disinfectant can be improved.

Preferably, the air outlet device comprises a protective cylinder and a heat conduction cylinder, the heat conduction cylinder is positioned in the protective cylinder, and two ends of the heat conduction cylinder are respectively communicated with the inside and the outside of the aerosol chamber; and a heating assembly is arranged in the heat conduction cylinder.

Through adopting above-mentioned technical scheme, disinfect the during operation in the lower environment of temperature, the atomizing liquid meets cold liquefaction easily and gathers into the water droplet, through add heating element at the heat conduction barrel, heating element can heat the heat conduction barrel, thereby make heat conduction barrel lateral wall temperature rise, be favorable to the antiseptic solution after the atomizing to be difficult for the liquefaction formation water droplet when the inner tube, the water droplet that the part has formed is evaporated at heat conduction inner tube wall flow in-process, thereby be favorable to reducing the antiseptic solution and gather into the phenomenon appearance that water droplet becomes the stream down.

Preferably, the heat conduction cylinder comprises an outer cylinder connected to the inner wall of the protection cylinder and an inner cylinder positioned on the inner side of the outer cylinder, and the heating component is attached to the outer side of the inner cylinder; the edge of the opening at the two ends of the inner cylinder is provided with an outer edge, the two outer edges of the inner cylinder are respectively connected with the edge of the opening at the two ends of the outer cylinder, and a cavity for accommodating the heating component is formed.

Through adopting above-mentioned technical scheme, be fixed in the inner tube outside with the heating element laminating earlier, link up with the urceolus opening at the outer edge through the inner tube and form the cavity, be favorable to reducing the condition of atomized liquid and heating element direct contact, be favorable to reducing the probability that heating element receives the moisture damage.

Preferably, the inner side of the inner cylinder is sunken with an annular groove, and the annular groove is filled with water-absorbing sponge.

Through adopting above-mentioned technical scheme, thereby to absorb water the sponge is embedded in the inner wall of inner tube, the sponge that absorbs water has cut off the flow path of water droplet, when the condensation water droplet is because of the volume multithread is fast and fail in time to evaporate, can be absorbed by the sponge that absorbs water, and simultaneously, heating element is through heating the heat conduction barrel, not only can evaporate into the aerial fog form with the water droplet that flows on the inner tube surface, also make the sponge temperature that absorbs water rise simultaneously, and will adsorb the antiseptic solution evaporation that absorbs in the sponge that absorbs water and become aerial fog form and discharge, be favorable to keeping the adsorption efficiency of the sponge that absorbs water.

Preferably, the side wall of the accommodating chamber is provided with a water inlet, a water outlet and an overflow port.

By adopting the technical scheme, the liquid level of the disinfectant in the accommodating chamber can be controlled at a proper height; when the liquid level is too low, antiseptic solution accessible water inlet supplyes, until the liquid level reaches the designated height, too much antiseptic solution can in time be discharged to the overflow mouth, when the speed that the water inlet lets in antiseptic solution is greater than atomizing speed and overflows the sum of the speed and leads to the antiseptic solution liquid level too high, antiseptic solution can be discharged from the drain hole, be favorable to reducing because of the too high probability that leads to antiseptic solution to gush to the atomizer in the liquid level to reduce because of the antiseptic solution volume too little and lead to the condition that this ultrasonic nebulizer system discharge capacity descends.

Drawings

Fig. 1 is an exploded view of an ultrasonic atomizer system according to an embodiment of the present application.

Fig. 2 is a schematic view of an internal structure of a housing in an ultrasonic atomizer system according to an embodiment of the present disclosure.

Fig. 3 is a schematic structural diagram of an air outlet device in an ultrasonic atomizer system according to an embodiment of the present application.

Fig. 4 is a schematic view of an internal structure of an air outlet device in an embodiment of the present application.

Fig. 5 is a schematic view of an internal structure of the air outlet device in the second embodiment of the present application.

Description of reference numerals: 1. a housing; 11. an aerosol chamber; 111. a frame plate; 112. a base plate; 113. mounting the cylinder; 114. a water outlet; 115. a storage cylinder; 12. a housing chamber; 121. a baffle plate; 122. an air duct; 123. a port; 124. a side plate; 125. penetrating a groove; 126. a recessed position; 127. a water inlet; 128. a water discharge outlet; 129. an overflow port; 13. angle iron; 14. a partition plate; 15. a sloping plate; 16. a fixing plate; 17. a side chamber; 2. a cover plate; 3. an installation chamber; 31. mounting a plate; 32. a guard plate; 33. a vent; 4. a blower device; 5. an ultrasonic atomization device; 6. an air outlet device; 61. a protective cylinder; 611. a tray; 62. a heat-conducting cylinder; 621. an inner barrel; 6211. an outer edge; 6212. a through groove; 6213. an annular groove; 622. an outer cylinder; 623. a cavity; 63. a screw hole; 64. a boss portion; 65. a sponge layer; 7. a collar; 71. flanging; 72. a notch; 8. a heating assembly; 81. a heating plate; 82. an electric wire; 9. a water-absorbing sponge.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

Example 1

The embodiment of the application discloses ultrasonic nebulizer system. Referring to fig. 1 and 2, the ultrasonic atomizer system includes a housing 1 provided with an upper end opened and a cover plate 2 closing the upper end opening of the housing 1. The housing 1 includes an accommodation chamber 12 and an aerosol chamber 11, and a port 123 for communicating the accommodation chamber 12 and the aerosol chamber 11 is provided therebetween. The side of the accommodating chamber 12 facing away from the aerosol chamber 11 is provided with an installation chamber 3, and a ventilation opening 33 for communicating the installation chamber 3 with the accommodating chamber 12 is provided therebetween. An air outlet device 6 communicated with the inside and the outside of the accommodating chamber 12 is arranged on the bottom wall of the accommodating chamber 12. The installation room 3 is installed with a blowing device 4, and the blowing device 4 is specifically an exhaust fan. The antiseptic solution is stored in holding room 12, ultrasonic atomization device 5 of submergence in the antiseptic solution is installed to bottom wall in holding room 12, ultrasonic atomization device 5 specifically is the ultrasonic atomization ware, atomize the antiseptic solution through the ultrasonic atomization ware, and last let in the air toward holding room 12 with the help of the air discharge fan, thereby the antiseptic solution after will atomizing lets in aerial fog room 11, vent 33 is just right each other with opening 123, the air current circulation of being convenient for, fog state antiseptic solution is outside through air-out device 6 discharge aerial fog room 11, thereby realized from the purpose of down discharging fog state antiseptic solution, be favorable to improving the contact probability with the human body at fog state antiseptic solution driftage in-process, thereby be favorable to improving the utilization ratio of antiseptic solution.

Referring to fig. 1 and 2, a water outlet 128, a water inlet 127 and an overflow opening 129 are horizontally arranged on the side wall of the accommodating chamber 12, the water outlet 128 and the water inlet 127 are close to the bottom wall of the accommodating chamber 12, and the overflow opening is higher than the water inlet 127 to control the height of the liquid level of the disinfectant, so that the ultrasonic atomizer is ensured to have a distance of 10cm from the liquid level of the disinfectant, and the atomization of the disinfectant is facilitated.

Referring to fig. 1 and 2, the installation chamber 3 includes an installation plate 31 and two shields 32 positioned at both sides of the installation plate 31. The slope of mounting panel 31 sets up, and slope lower extreme and vent 33 downside edge level link up, and the air discharge fan inlays and adorns in mounting panel 31, and the slope of mounting panel 31 for the antiseptic solution that spatters to the installation room 3 in from accommodation chamber 12 is difficult to be detained, is favorable to reducing the probability that the air discharge fan is corroded by the antiseptic solution.

Referring to fig. 1 and 2, a baffle 121 is fixed in the accommodating chamber 12. Baffle 121 position is higher than the antiseptic solution liquid level, and is close to vent 33 to with hold room 12 lateral wall and formed the opening down and with vent 33 intercommunication's ventiduct 122, baffle 121 not only plays the effect that blocks the antiseptic solution and get into installation room 3, has also changed the air current trend, the time air current flows toward the antiseptic solution direction, is convenient for in time arrange the fog state antiseptic solution that produces from the liquid level to fog room 11 in, is favorable to improving the content of fog state antiseptic solution in the air current.

Referring to fig. 1 and 2, a side plate 124 is fixed in the accommodating chamber 12, the side plate 124 divides a side chamber 17 for accommodating a power line on one side of the accommodating chamber 12, a through groove 125 for the power line to pass through is horizontally penetrated at the lower end of the side plate 124, a plurality of angle irons 13 are installed on the housing 1, the angle irons 13 are provided with comb line holes for the power line to pass through, one of the angle irons 13 is installed on the inner side of the side chamber 17, and a concave position 126 for the power line to pass through out of the accommodating chamber 12 is formed in the edge of the opening of the accommodating chamber 12, so that the wiring of an installer is facilitated.

Referring to fig. 1 and 2, a partition 14 is fixed in the accommodating chamber 12, the partition 14 is located above the liquid level of the disinfecting liquid, the partition 14 is close to the opening 123, and the partition 14 plays a role of blocking the fluctuating liquid disinfecting liquid from entering the aerosol chamber 11.

Referring to fig. 1 and 2, be fixed with the swash plate 15 that the slope set up between accommodation chamber 12 and the aerosol chamber 11, the slope lower extreme and the port 123 downside edge of swash plate 15 link up, swash plate 15 both sides are fixed with fixed plate 16 respectively, swash plate 15 plays the barrier effect to liquid antiseptic solution, when liquid antiseptic solution splashes toward aerosol chamber 11, liquid antiseptic solution is blockked by swash plate 15, and flow back toward accommodation chamber 12 along swash plate 15 incline direction, swash plate 15 forms dual barrier effect with baffle 14, be favorable to further reducing the probability that the fog antiseptic solution is detained in aerosol chamber 11.

Referring to fig. 1 and 2, the aerosol chamber 11 includes two obliquely arranged bottom plates 112 and a frame plate 111 that surrounds the two bottom plates 112 on the circumferential side. The inclined lower ends of the two bottom plates 112 are connected with each other, so that the bottom of the aerosol chamber 11 is recessed downwards, and condensed water formed by condensing the liquid disinfectant or the mist disinfectant is concentrated towards the middle of the bottom wall of the aerosol chamber 11. A water outlet 114 horizontally penetrates one side of the frame plate 111, and the water outlet 114 is positioned at the joint of the inclined lower ends of the two bottom plates 112 so as to discharge condensed water concentrated in the middle of the bottom of the aerosol chamber 11.

Referring to fig. 1 and 2, two installation cylinders 113 are respectively disposed on the two bottom plates 112, and each air outlet device 6 corresponds to one installation cylinder 113.

Referring to fig. 3 and 4, the air outlet device 6 includes a protective cylinder 61 with two open ends and a heat conducting cylinder 62 located in the protective cylinder 622. The air inlet end of the heat conduction cylinder 62 is communicated with the inside of the aerosol chamber 11, and the air outlet end of the protection cylinder 61 is communicated with the outside. The heat conduction cylinder 62 is a spherical cylinder with a through middle part and two spherical tops at two ends, and the axis of the heat conduction cylinder 62 coincides with the axis of the protection cylinder 61, so that the atomized liquid can be conveniently discharged out of the aerosol chamber 11 after passing through the heat conduction cylinder 62. Be equipped with sponge layer 65 between heat conduction barrel 62 and the protection barrel 61, sponge layer 65 bonds and is fixed in protection barrel 61 inside wall. Elastic force for stabilizing the heat conduction cylinder 62 is provided by elastic deformation of the sponge layer 65, so that the heat conduction cylinder 62 can freely rotate in the protection cylinder 61, and the direction of the air outlet end of the heat conduction cylinder 62 is convenient to adjust. The protection cylinder 61 is horizontally provided with a plurality of screw holes 63, so that the protection cylinder 61 can be conveniently fixed in the installation cylinder 113 by screws.

Referring to fig. 3 and 4, three protrusions 64 are fixed on the inner wall of the protection cylinder 61 and circumferentially distributed on the inner circumferential side of the protection cylinder 61 at equal intervals, and each protrusion 64 is specifically a bolt which penetrates into the protection cylinder 61 from the horizontal thread of the outer wall of the protection cylinder 61. The opening edge of the air outlet end of the protection cylinder 61 extends to the outside of the protection cylinder 61 and forms a tray 611 surrounding the outer wall of the protection cylinder 61. The opening direction of the concave surface of the tray 611 is opposite to the air outlet direction of the atomized liquid. The air outlet end of the protective cylinder body 61 is provided with a clamping ring 7, the peripheral surface of the clamping ring 7 is provided with two groups of annular flanges 71, the two groups of annular flanges 71 are respectively connected with the edges of openings at two ends of the clamping ring 7, and the two groups of flanges 71 and the clamping ring 7 form an annular groove with outward openings. One group of flanges 71 is attached to the bottom of the tray 611, three notches 72 circumferentially distributed on the periphery of the collar 7 are formed in the outer side of the other group of flanges 71, and the three notches 72 correspond to the three protrusions 64 one to one. When installing rand 7 in protection barrel 61 end of giving vent to anger, three bellying 64 gets into the annular groove from three breach 72 respectively, then through rotating turn-ups 71, make bellying 64 rotate for rand 7, bellying 64 can provide ascending holding power for the turn-ups 71 of rand 7 top to the realization is fixed rand 7 and is given vent to anger the purpose at fixed protection barrel 61 end, in order to prevent that heat conduction barrel 62 from giving vent to anger from end breaking away from protection barrel 61, rand 7 has the advantage of the dismouting of being convenient for simultaneously.

Referring to fig. 3 and 4, the heat-conducting cylinder 62 includes an outer cylinder 622 and an inner cylinder 621, the outer cylinder 622 is fixed to the protective cylinder 61, and the inner cylinder 621 is located in the outer cylinder 622, and the axes of the two cylinders coincide. The openings at the two ends of the inner cylinder 621 are convenient to be respectively provided with an annular outer edge 6211, the two outer edges 6211 extend towards the outer side of the inner cylinder 621, the outer edge 6211 at the opening edge of the air outlet end of the inner cylinder 621 is in sealed splicing with the air outlet end of the outer cylinder 622, the outer edge 6211 at the opening edge of the air inlet end of the inner cylinder 621 is connected with the air inlet end of the outer cylinder 622, so that the outer cylinder 622, the inner cylinder 621 and the two outer edges 6211 form a ring-shaped cavity 623, two components of heating components 8 arranged on the two sides of the inner cylinder 621 are accommodated in the cavity 623, each group of heating components 8 comprises a heating sheet 81 at 70 ℃ and an electric wire 82 connected with the heating sheet 81, and the two heating sheets 81 can be wound and fixed on the outer side of the inner cylinder 621 through an adhesive tape. Two through slots 6212 are perforated in the outer edge 6211 of the edge of the air inlet end opening of the inner cylinder 621. Two electric wires 8222 respectively extend out of the cavity 623 from the two through grooves 6212. Connect electric wire 82 with the power, make heating plate 81 work, be favorable to carrying out continuous heating for inner tube 621, heat conduction barrel 62 is the aluminum alloy barrel, good heat conductivility has, be favorable to heat conduction barrel 62 thermally equivalent, the antiseptic solution that is favorable to after the atomizing is difficult for the liquefaction to form the water droplet when through inner tube 621, the water droplet that part has formed is evaporated at heat conduction inner tube 621 wall flow in-process, thereby be favorable to reducing the antiseptic solution and gather into the phenomenon appearance that the water droplet becomes the stream down.

The implementation principle of an ultrasonic atomizer system in the embodiment of the application is as follows:

ultrasonic nebulizer system during operation, ultrasonic nebulizer atomizes the antiseptic solution in holding room 12, the exhaust fan discharges into in holding room 12 with the external air, and form the air current, fog state antiseptic solution follows the air current and gets into aerial fog room 11, and discharge from air-out device 6, because heat fin 81 heats air-out device 6's heat conduction barrel 62, make the antiseptic solution after the atomizing be difficult for the liquefaction to form the water droplet when passing through inner tube 621, the water droplet that part has formed is evaporated at heat conduction inner tube 621 wall flow in-process, thereby be favorable to reducing the antiseptic solution and gather into the phenomenon appearance that water drips into the stream down.

Example 2 differs from example 1 in that:

referring to fig. 3 and 5, an annular groove 6213 is recessed inside the inner cylinder 621, and the annular groove 6213 is filled with an annular water-absorbing sponge 9. Thereby realize the purpose of the sponge 9 that will absorb water embedded in inner tube 621 inner wall, the sponge 9 that absorbs water has cut off the flow path of water droplet, when the condensation water droplet is because of the volume multithread is fast and fail in time to evaporate, can be absorbed by the sponge 9 that absorbs water, and simultaneously, heating element 8 is through heating heat conduction barrel 62, not only can evaporate into the aerial fog form with the water droplet that flows on inner tube 621 surface, also make the sponge 9 temperature that absorbs water rise simultaneously, and will adsorb the antiseptic solution evaporation that absorbs water in the sponge 9 and become aerial fog form and discharge, be favorable to keeping the adsorption efficiency of the sponge 9 that absorbs water.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An ultrasonic atomizer system characterized by: the disinfectant spraying device comprises a shell (1), wherein the shell (1) comprises an accommodating chamber (12) and an aerosol chamber (11), the accommodating chamber (12) is used for storing disinfectant, and a through hole (123) is formed between the accommodating chamber (12) and the aerosol chamber (11); a blowing device (4) and an ultrasonic atomizing device (5) for atomizing disinfectant are arranged on one side of the accommodating chamber (12); an air outlet device (6) is arranged on the bottom wall of the aerosol chamber (11), the input end of the air outlet device (6) is communicated with the aerosol chamber (11), and the output end of the air outlet device is communicated with the outside; the air outlet device (6) comprises a protective cylinder (61) and a heat conduction cylinder (62), the heat conduction cylinder (62) is positioned in the protective cylinder (61), and two ends of the heat conduction cylinder (62) are respectively communicated with the inside and the outside of the aerosol chamber (11); a heating assembly (8) is arranged in the heat conduction cylinder (62); the heating component (8) comprises an outer cylinder (622) connected to the inner wall of the protective cylinder body (61) and an inner cylinder (621) positioned on the inner side of the outer cylinder (622), and the heating component (8) is attached to the outer side of the inner cylinder (621); the edge of the opening at the two ends of the inner cylinder (621) is provided with an outer edge (6211), the two outer edges (6211) of the inner cylinder (621) are respectively connected with the edge of the opening at the two ends of the outer cylinder (622) to form a cavity (623) for accommodating the heating component (8).

2. The ultrasonic nebulizer system of claim 1, wherein: the accommodating chamber (12) is provided with a partition plate (14), and the partition plate (14) is positioned above the liquid level of the disinfectant.

3. The ultrasonic nebulizer system of claim 1, wherein: the edge of the lower side of the port (123) is provided with an inclined plate (15), and the inclined plate (15) extends upwards in an inclined mode towards the direction of the aerosol chamber (11).

4. The ultrasonic nebulizer system of claim 1, wherein: the shell (1) is provided with an installation chamber (3), a ventilation opening (33) is formed between the installation chamber (3) and the containing chamber (12), and the air blowing device (4) is arranged in the installation chamber (3); the accommodating chamber (12) is provided with a baffle (121) with a position higher than the liquid level of the disinfectant, a ventilation channel (122) is formed between the baffle (121) and the side wall of the accommodating chamber (12), and the opening of the ventilation channel (122) faces downwards and is communicated with the ventilation opening (33).

5. The ultrasonic nebulizer system of claim 4, wherein: the installation chamber (3) comprises an installation plate (31) which is obliquely arranged, the oblique lower end of the installation plate (31) is connected with the lower side edge of the ventilation opening (33), and the air blowing device (4) is embedded in the installation plate (31).

6. The ultrasonic nebulizer system of claim 1, wherein: aerial fog room (11) include bottom plate (112) that two slopes set up, two the slope lower extreme of bottom plate (112) links up each other, aerial fog room (11) still include frame plate (111) around in two bottom plate (112) week sides, frame plate (111) run through there are delivery port (114), delivery port (114) are located the linking department of the slope lower extreme of two bottom plates (112).

7. The ultrasonic nebulizer system of claim 1, wherein: an annular groove (6213) is recessed in the inner side of the inner cylinder (621), and a water-absorbing sponge (9) is filled in the annular groove (6213).

8. The ultrasonic nebulizer system of claim 1, wherein: the side wall of the accommodating chamber (12) is provided with a water inlet (127), a water outlet (128) and an overflow port (129).

Images