CN221694110U - Atomizer box structure - Google Patents

Abstract

The utility model discloses an atomizer box body structure, which comprises a water tank and an atomizer box, wherein a front baffle is arranged on the outer side of the front wall of the water tank, an air supply fixing plate is arranged on the outer side of the left side wall and/or the right side wall of the water tank, the top end of the front baffle is connected with the top end of the front wall of the water tank, a fog outlet opening is formed on the front baffle, the top end of the air supply fixing plate is connected with the top end of the side wall of the water tank, an opening is formed on the upper portion of the atomizer box, the water tank is inserted into the atomizer box through the opening, the lower end of the front baffle and the lower end of the air supply fixing plate are in clamping fit with the atomizer box, an air outlet cavity communicated with the atomizer box is formed between the front baffle and the front wall of the water tank, and an air inlet cavity communicated with the atomizer box is formed between the air supply fixing plate and the side wall of the water tank.

Description

Atomizer box structure

Technical Field

The utility model relates to the technical field of atomizing equipment, in particular to a box body structure of an atomizer.

Background

The atomizer is a device for atomizing and spraying liquid (such as water, disinfectant, liquid medicine and the like), the liquid is added into the atomizer, the liquid is atomized through vibration and sprayed out through a fog nozzle, for example, the water is atomized to humidify a place, the disinfectant is atomized to disinfect the place, and the application is more and more widely performed at present.

The prior atomizer structure on the market generally comprises a water tank, an atomizing box, an air supply device and a mist outlet nozzle, wherein the water tank is arranged above the atomizing box, the water tank supplements liquid in the atomizing box, the atomizing box is communicated with the mist outlet nozzle, an atomizer is arranged in the atomizing box, the air supply device blows air into the atomizing box, mist is formed under the vibration effect of the atomizer, and the air supply device blows air into the atomizing box to enable the mist in the atomizing box to be sprayed outwards through the mist outlet nozzle.

How to realize the rapid installation of a water tank and an atomization tank, effectively prevent liquid from leaking and have a compact structure and small occupied space is a problem to be solved in the application.

Disclosure of utility model

The utility model aims to solve the defects in the prior art and provides the box body structure of the atomizer, which has a simple structure, is used for quickly installing a water tank and an atomization box and effectively preventing liquid leakage.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides an atomizer box structure, includes water tank and atomizing case, its characterized in that: the outer side of the front wall of the water tank is provided with a front baffle, the outer side of the left side wall and/or the right side wall is provided with an air supply fixing plate, the top end of the front baffle is connected with the top end of the front wall of the water tank, the front baffle is provided with a fog nozzle opening, and the top end of the air supply fixing plate is connected with the top end of the side wall of the water tank; the upper part of the atomizing box is provided with an opening, the water tank is inserted into the atomizing box through the opening, the lower end of the front baffle plate and the lower end of the air supply fixing plate are matched with the atomizing box in a clamping way, a mist outlet cavity communicated with the atomizing box is formed between the front baffle plate and the front wall of the water tank, and an air inlet cavity communicated with the atomizing box is formed between the air supply fixing plate and the side wall of the water tank; simple structure, the design is compact, realizes the quick installation of water tank and atomizing case.

A rear positioning plate is fixed on the outer side of the rear wall of the water tank, and the lower end of the front baffle plate, the lower end of the air supply fixing plate and the lower end of the rear positioning plate are matched with the atomization tank in a clamping mode.

The upper end of the atomization box extends outwards circumferentially to form an annular positioning plate, a limiting groove is formed in the annular positioning plate, and the front baffle, the air supply fixing plate and the rear positioning plate are clamped in the limiting groove; realizing the rapid installation and positioning of the water tank.

Sealing strips are arranged in the limiting grooves; sealing is achieved.

The limiting groove is annularly arranged on the annular positioning plate.

The front panel of the atomizing box is fixedly provided with a sealing piece protruding forwards, and a controller of the atomizer is arranged below or in the sealing piece; a sealing piece is arranged on the front panel of the atomization box so as to prevent the front baffle from damaging the controller if water drops drop out at the opening of the fog outlet.

The sealing element is arranged along the transverse direction of the atomization box or is arranged in an inverted U shape; the water bead at the opening of the fog nozzle can be effectively prevented from being dropped on the controller.

According to the utility model, the water tank and the atomizing tank are sleeved with the atomizing machine shell, the sealing piece on the front panel of the atomizing tank adopts one of the sealing slot and the sealing plugboard, the inner wall of the atomizing machine shell is provided with the other one of the sealing slot and the sealing plugboard, and the sealing slot is in plug-in fit with the sealing plugboard; the installation and the positioning of the shell can be realized, and the sealing effect can be ensured.

The structure of the sealing slot comprises an outer arc baffle and an inner arc baffle, wherein the outer arc baffle and the inner arc baffle are both arranged in an inverted U shape, the inner arc baffle is arranged on the inner side of the outer arc baffle, a slot structure is formed between the outer arc baffle and the inner arc baffle, and the shape of the sealing plugboard is matched with the shape of the slot and is inserted into the slot.

The slot is internally provided with a sealing strip; ensuring the sealing effect.

The beneficial effects of the utility model are as follows: the box body has simple structure and compact design, and realizes the rapid installation of the water tank and the atomizing box; a sealing piece is arranged on the front panel of the atomization box so as to prevent the front baffle from damaging the controller if water drops drop out at the opening of the fog outlet.

Drawings

Fig. 1 is a schematic view of the overall structure of the atomizer.

Fig. 2 is another angular schematic view of the overall structure of the atomizer.

Fig. 3 is a side view of the overall structure of the atomizer.

Fig. 4 is a schematic view of the hidden front cover plate of the atomizer.

Fig. 5 is a schematic view of a hidden atomizer housing structure of the atomizer.

Fig. 6 is a schematic view of another angle structure of fig. 5.

Fig. 7 is a schematic view of another angle structure of fig. 5.

Fig. 8 is a front view of fig. 5.

Fig. 9 is a cross-sectional view A-A of fig. 8.

Fig. 10 is a schematic view of the structure of the water tank.

Fig. 11 is a schematic view of another angle structure of fig. 10.

Fig. 12 is a front view of fig. 10.

Fig. 13 is a sectional view of B-B in fig. 12.

Fig. 14 is a schematic view of the structure of the nozzle.

Fig. 15 is a front view of fig. 14.

Fig. 16 is a side view of fig. 14.

Fig. 17 is a schematic view of the structure of the atomizing box.

Fig. 18 is a schematic view of the front side plate structure of the atomizer housing.

Fig. 19 is a top view of fig. 17.

Fig. 20 is a cross-sectional view of fig. 19C-C.

Fig. 21 is a front view of fig. 17.

Fig. 22 is a sectional view D-D of fig. 21.

Fig. 23 is a schematic view of the bottom structure of the atomizer box.

FIG. 24 is a schematic view of a drain structure.

Fig. 25 is a front view of fig. 24.

Fig. 26 is a sectional view of E-E in fig. 25.

FIG. 27 is a schematic view of a blow down sub-coupling.

Fig. 28 is a front view of fig. 27.

Fig. 29 is a cross-sectional view of F-F in fig. 28.

FIG. 30 is a schematic view of an electrode level sensor configuration.

Fig. 31 is a top view of fig. 30.

Fig. 32 is a schematic view of an electrode protecting jacket structure.

Reference numerals: the atomizer comprises an atomizer shell-1, a front air inlet opening-101, a front cover plate-102, a fog outlet opening-1021, an air inlet gap-103, an upper opening-104, an upper sealing cover-105, an upper liquid inlet-106, an upper liquid outlet-107, a front side panel-108, an upper transverse plugboard-1091, a left vertical plugboard-1092, a right vertical plugboard-1093, a left lower arc board-1094 and a right lower arc board-1095;

The water tank comprises a water tank body-2, a front wall-201, an upper guide inclined plate-2011, a lower vertical plate-2012, a rear wall-202, a left side wall-203, a right side wall-204, a liquid inlet-205, a liquid outlet-206 and a water tank upper opening-207;

A left air supply fixing plate-301, a right air supply fixing plate-302, a front baffle-303 and a rear positioning plate-304;

a left air inlet cavity-401 and a right air inlet cavity-402;

a fog outlet cavity-5;

The atomization device comprises an atomization box-6, an annular positioning plate-601, a limiting groove-602, an air outlet vertical baffle-603, a transverse mist outlet baffle-604, a mist outlet tank-6041, a pollution discharge hole-605, an atomizer-606, a sensor coaming-607, a liquid inlet-6071, an upper outer diaphragm-6081, a left outer diaphragm-6082, a right outer diaphragm-6083, a left outer lower arc plate-6084, a right outer lower arc plate-6085, an upper inner diaphragm-6086, a left inner diaphragm-6087, a right inner diaphragm-6088, a left inner lower arc plate-6089 and a right inner lower arc plate-60810;

The water pump-701, the waterproof joint-702, the liquid outlet joint-703 and the liquid outlet groove-704;

The device comprises a liquid supplementing device-8, a liquid supplementing joint-801, an electromagnetic valve-802 and a flowmeter-803;

The device comprises a fog nozzle-9, a front inclined section-901, an upper inclined plate-9011, a lower inclined plate-9012, a left side plate-9013, a right side plate-9014, a rear horizontal section-902, an upper flat plate-9021, a left arc plate-9022, a right arc plate-9023, an annular limiting plate-903, an upper transverse limiting plate-9031, a lower transverse limiting plate-9032, a left limiting plate-9033, a right limiting plate-9034, a fixed plate-9035, a liquid guide groove-904, a limiting barrier bar-905 and a limiting clamping groove-906;

The sewage disposal device comprises a sewage disposal device body 10, a sewage disposal external joint body 1001, a sewage disposal internal joint body 1002, an external thread body 10021, an internal thread body 10022, a sewage disposal groove body 10023, a sewage disposal lower joint body 1003, an external thread section II-10031, a limit boss body 10032, a hose joint body 1004, a ball jack post 1005, a connecting plate 1006, a sealing ball 1007, a spring 1008, a spring top plate 10081, an O-shaped sealing ring I-10091, an O-shaped sealing ring II-10092 and an O-shaped sealing ring III-10093;

Electrode liquid level sensor-11, electrode core one-1101, electrode core two-1102, electrode core three-1103, electrode core four-1104, electrode protective sleeve-1105, electrode two protective sleeve-1106, electrode three protective sleeve-1107, electrode four protective sleeve-1108, electrode one perforation-1109, electrode two perforation-1110, electrode three perforation-1111, electrode four perforation-1112, threaded connecting column-1113, screw cap-1114, limit disk-1115, left limit groove-11151, right limit groove-11152, O-shaped seal ring four-1116 and baffle plate-1117;

Button-12.

Detailed Description

The utility model is described below with reference to the drawings and examples.

In this embodiment, the overall structure of the atomizer is described, and the structure of the atomizer box is shown in fig. 5-13, fig. 17 and fig. 21.

The embodiment is exemplified by the atomization of disinfectant, but not limited to, and the atomizer can atomize water, liquid medicine and the like.

As shown in the drawing, an atomizer comprises an atomizer shell 1, a water tank 2, an atomizing box 6, a mist outlet nozzle 9, an air supply device, an atomizing liquid inlet device and a pollution discharge device 10, wherein the water tank 2, the atomizing box 6, the air supply device and the atomizing liquid inlet device are arranged in the atomizer shell 1, the water tank 2 is arranged above the atomizing box 6, liquid in the water tank 2 is sucked into the atomizing box 6 through the atomizing liquid inlet device, an atomizing mechanism is arranged in the atomizing box 6, the atomizing mechanism adopts an atomizer 606 for ultrasonic vibration atomization, the atomizing mechanism is not limited to the atomizing mechanism, a structure of a vibrating rod matched with a net cover, a compressor and the like can be adopted, the liquid can be atomized, a pollution discharge hole 605 is formed in the bottom of the atomizing box 6, the pollution discharge device 10 for controlling the on-off of the liquid is arranged at the position of the pollution discharge hole 605, the atomizing box 6 is communicated with the mist outlet nozzle 9, and the air supply device supplies air to the atomizing box 6; liquid in the water tank is sucked into the atomizing box through the atomizing liquid inlet device, so that the amount of liquid entering the atomizing box can be effectively controlled, and the problem of adopting a valve structure in the existing structure can not occur.

As shown in fig. 17, in this embodiment, an opening is provided at the upper portion of the atomization tank 6, the upper end of the atomization tank 6 extends circumferentially and outwardly to form an annular positioning plate 601, a limiting groove 602 is provided on the annular positioning plate 601, and the limiting groove 602 is disposed annularly on the annular positioning plate 601.

As shown in fig. 10-13, in this embodiment, an upper cover plate is fixedly covered on the upper portion of the water tank, an upper opening 207 of the water tank is formed in the upper cover plate, a front wall 201 of the water tank includes a lower riser 2012 and an upper guide inclined plate 2011, the upper guide inclined plate 2011 is obliquely arranged from bottom to top, and the lower end of the upper guide inclined plate 2011 is in smooth transition connection with the upper end of the lower riser 2012.

The front wall 201 of the water tank is provided with a front baffle 303 at the outer side, the upper end of the upper guide inclined plate 2011 is connected with the top end of the front baffle 303, the front baffle is provided with a fog outlet opening, the position of the fog outlet opening is lower than the connection position of the upper end of the upper guide inclined plate and the top end of the front baffle, in this embodiment, the fog outlet opening is arranged in the middle of the front baffle, the fog outlet 9 is fixed at the fog outlet opening, the rear wall 202 of the water tank is fixed with a rear positioning plate 304, the front baffle 303 and the rear positioning plate 304 are vertically arranged, the left side wall 203 is fixed with a left air supply fixing plate 301, the right side wall 204 is fixed with a right air supply fixing plate 302, the left air supply fixing plate 301 is obliquely arranged from top to bottom to left, the right air supply fixing plate 302 is obliquely arranged from top to bottom to right, the lower ends of the left air supply fixing plate 301 and the right air supply fixing plate 302 are vertically arranged, the water tank 2 is inserted into the atomizing box 6 from the opening of the atomizing box 6, the lower ends of the rear positioning plate 304, the lower ends of the front baffle 303, the left air supply fixing plate 301 and the right air supply fixing plate 302 are vertically arranged, the lower end of the left air supply fixing plate 301 and the right air supply fixing plate 302 are fixed in the groove 602, the sealing groove 602 is sealed, and the sealing position of the water tank 2 is realized, and the sealing position is realized; a left air inlet cavity 401 is formed between the left air supply fixing plate 301 and the left side wall 203 of the water tank, the left air inlet cavity 401 is communicated with the atomizing box 6, a right air inlet cavity 402 is formed between the right air supply fixing plate 302 and the right side wall 204 of the water tank, the left air inlet cavity 401 and the right air inlet cavity 402 are communicated with the atomizing box 6, a mist outlet cavity 5 communicated with the atomizing box 6 is formed between the front baffle 303 and the front wall 201 of the water tank, and liquid in the atomizing box 6 is atomized and then sprayed out from the mist outlet nozzle 9 through the mist outlet cavity 5 under the action of an air supply device; mist blown to the top is condensed into small water drops at the upper guide inclined plate 2011, and the arrangement of the mist outlet nozzle is matched with the upper guide inclined plate, so that the small water drops can slide down along the upper guide inclined plate and flow into the atomization box, and the mist outlet nozzle can not directly spray out along with the mist, and the mist outlet quality is ensured.

The upper end of the left side wall of the water tank 2 of the embodiment is provided with a liquid inlet 205, the upper end of the right side wall is provided with a liquid outlet 206,

The atomization liquid inlet device comprises a liquid suction pipe, a liquid outlet pipe, a water pump 701 and a liquid outlet joint 703, wherein the water pump is fixed outside the side wall of the atomization box, the water pump is connected with the controller, a liquid inlet of the water pump 701 is communicated with the liquid suction pipe, the liquid suction pipe stretches into the water tank 2 through the liquid outlet 206, a liquid outlet of the water pump 701 is communicated with the liquid outlet pipe, the liquid outlet pipe stretches into the atomization box 6 and is connected with the liquid outlet joint 703, the liquid outlet joint 703 is fixed at the bottom of the atomization box 6, a liquid outlet groove 704 is formed in the liquid outlet joint 703, the liquid outlet groove 704 is communicated with the atomization box, and liquid in the liquid outlet pipe flows into the atomization box 6 through the liquid outlet groove 704 of the liquid outlet joint 703; add liquid in to the atomizing case through the mode of water pump 701 suction, can accurate control flow into the quantity of liquid in the atomizing case, can guarantee that the quantity of liquid in the atomizing case can satisfy the atomizing demand, also can prevent too much influence atomizing of quantity of liquid in the atomizing case, fix the drain joint in atomizing bottom, can make the drain pipe stretch to the bottom of atomizing case, prevent that the liquid in the drain pipe from directly following out the fog mouth blowout under the effect of air supply device, influence atomization effect.

In this embodiment, be equipped with waterproof joint 702 on right air feed fixed plate 302, drain pipe one end is connected with the liquid outlet of water pump 701, the other end is first from outside the right air feed fixed plate 302 through waterproof joint 702 entering right air inlet chamber 402 inside, stretch into in the play liquid joint 703 of atomizer bottom, install the check valve in the drain pipe, the check valve is reverse to be installed, when the water pump is inoperative, liquid in the water tank can not get into the atomizer under the siphon effect from suction tube and drain pipe under the check valve, the pressure of water pump during operation can open the check valve, liquid suction in the water tank gets into the drain pipe, flow into the atomizer from the drain pipe, guarantee the accuracy of control entering the liquid in the atomizer, the atomizing of atomizer is not influenced.

As shown in fig. 7, this embodiment is further provided with a fluid-supplementing device 8, where the fluid-supplementing device 8 includes a fluid-supplementing pipe, a fluid-supplementing joint 801, an electromagnetic valve 802 and a flowmeter 803, the fluid-supplementing joint 801 is installed on the housing of the atomizer, the fluid-supplementing joint 801 is communicated with the fluid-supplementing pipe, the fluid-supplementing pipe extends into the water tank 2 from the fluid inlet 205 on the left side wall of the water tank, the electromagnetic valve 802 is installed at the fluid-supplementing joint 801, the flowmeter 803 is installed at the position of the fluid-supplementing joint 801 or the fluid-supplementing pipe, the electromagnetic valve 802 and the flowmeter 803 are respectively connected with the controller, and the fluid-supplementing joint and the electromagnetic valve are both fixed on the rear positioning plate 304 on the rear side of the water tank; the flowmeter is used for detecting whether the liquid is fed or not and the flow of the liquid fed, the liquid is directly fed into the water tank through the liquid feeding device, the liquid is not required to be fed into the water tank by manually uncovering, the operation is convenient, and the liquid cannot splash.

In this embodiment, the fluid infusion device 8 is connected to a disinfectant generator or a disinfectant filling machine, and a liquid outlet of the disinfectant generator or the disinfectant filling machine is connected to a fluid infusion connector 801 through a pipeline, and when the liquid level in the water tank is reduced, the controller controls the electromagnetic valve 802 to open to infuse the water tank.

In this embodiment, the upper opening 207 of the water tank is covered with the upper sealing cover 105, when the atomizer works, the water tank 2 is in a sealing state, the upper opening 207 of the water tank is arranged to facilitate the operator to observe the liquid level in the water tank 2, and the liquid can be filled into the water tank through the upper opening 207 of the water tank.

In this embodiment, two fans are adopted in the air supply device, or one or more fans may be arranged according to actual needs, and fans are mounted on the left air supply fixing plate 301 and the right air supply fixing plate 302.

17-18, A sealing slot is further formed in the front panel of the atomization box 6, the sealing slot comprises an outer arc baffle and an inner arc baffle, the outer arc baffle and the inner arc baffle are fixedly connected with the front panel of the atomization box, the outer arc baffle comprises an upper outer transverse plate 6081, a left outer vertical plate 6082, a right outer vertical plate 6083, a left outer lower arc plate 6084 and a right outer lower arc plate 6085, the upper end of the left outer vertical plate 6082 is fixedly connected with the left end of the upper outer transverse plate 6081, the lower end of the left outer vertical plate 6082 is fixedly connected with the upper end of the left outer lower arc plate 6084, the upper end of the right outer vertical plate 6083 is fixedly connected with the right end of the upper outer transverse plate 6081, the lower end of the right outer lower arc plate 6085 is fixedly connected with the upper end of the right outer lower arc plate 6085, and the left outer lower arc plate 6084 and the right outer lower arc plate 6085 are oppositely arranged and all open towards the inner side;

The inner arc baffle comprises an upper inner transverse plate 6086, a left inner vertical plate 6087, a right inner vertical plate 6088, a left inner lower arc plate 6089 and a right inner lower arc plate 60810, wherein the upper inner transverse plate 6086 is arranged below the upper outer transverse plate 6081, the upper inner transverse plate 6086 and the upper outer transverse plate 6081 are arranged in a vertically opposite mode, the left inner vertical plate 6087 is arranged on the inner side of the left outer vertical plate 6082, the left inner vertical plate 6087 and the left outer vertical plate 6082 are arranged in a horizontally opposite mode, the right inner vertical plate 6087 is arranged on the inner side of the right outer vertical plate 6083 in a horizontally opposite mode, the left inner lower arc plate 6089 is arranged on the inner side of the left outer lower arc plate 6084, the right inner lower arc plate 60810 is arranged on the inner side of the right outer lower arc plate 6085, the upper end of the left inner vertical plate 6087 is fixedly connected with the left end of the upper inner transverse plate 6086, the lower end is fixedly connected with the upper end of the left inner lower arc plate 6089, the upper end of the right inner vertical plate 6088 is fixedly connected with the upper end of the left inner lower arc plate 6089, the upper end of the right inner arc plate 6088 is fixedly connected with the upper end of the right inner arc plate 6035, and the upper end of the right inner arc 6035 is arranged on the right inner end of the right inner arc plate is opposite to the upper end of the right inner end of the upper end of the inner arc plate 6086;

A slot structure is formed between the outer arc baffle and the inner arc baffle, and a sealing strip is fixed in the slot;

The inner wall of the front side panel 108 of the atomizer shell is provided with a sealing plugboard, the shape of the sealing plugboard is matched with that of a slot, the sealing plugboard structure comprises an upper transverse plugboard 1091, a left vertical plugboard 1092, a right vertical plugboard 1093, a left lower arc board 1094 and a right lower arc board 1095, the upper end of the left vertical plugboard 1092 is fixedly connected with the left end of the upper transverse plugboard 1091, the lower end of the left vertical plugboard 1093 is fixedly connected with the upper end of the upper transverse plugboard 1091, the lower end of the right vertical plugboard 1093 is fixedly connected with the upper end of the right lower arc board 1095, the left lower arc board 1094 and the right lower arc board 1095 are oppositely arranged and the openings of the left vertical plugboard 1094 face inwards, and the sealing plugboard is inserted in the slot and sealed by a sealing strip;

In this embodiment, the components and parts of controller are fixed on the atomizing box front panel and are located between the inner arc baffle, the outside of controller sets up the structure of sealed slot, can live the controller parcel, when having the drop of water through the grafting seal structure of sealed slot and sealed baffle, the drop of water can follow outer diaphragm 6081 again and flow down along outer riser 6082 of left side and outer lower arc 6084 of left side and outer riser 6083 of right side and outer lower arc 6085 of right side, can not drench the components and parts of controller, the outer lower arc of left side and the outer lower arc of right side set up can make the drop of water gather in the middle of the atomizer bottom of the casing when dripping, can not splash everywhere.

In the embodiment, the sealing slot is arranged on the front panel of the atomizing box, the sealing plugboard is arranged on the front panel of the atomizer shell, and the sealing slot can be arranged on the front panel of the atomizer shell according to the requirement, and the sealing plugboard is arranged on the front panel of the atomizer shell.

As shown in fig. 19-20, the left and right sides inside the atomization box 6 are both fixed with an air outlet vertical baffle 603, the left air outlet vertical baffle 603 is arranged outside the left side wall of the water tank and forms a left air inlet channel with the left side wall of the atomization box, the left air inlet channel is communicated with the left air inlet cavity 401, the right air outlet vertical baffle 603 is arranged outside the right side wall of the water tank and forms a right air inlet channel with the right side wall of the atomization box, the right air inlet channel is communicated with the right air inlet cavity 402, an air inlet opening is formed between the air outlet vertical baffle 603 and the bottom of the atomization box 6, and the atomizer 606 is fixed between the air outlet vertical baffles positioned at the left and right sides at the bottom of the atomization box.

At least two transverse mist outlet clapboards 604 which are transversely arranged are arranged in the atomization box 6, the transverse mist outlet clapboards 604 are arranged between two air outlet vertical baffles, the two transverse mist outlet clapboards 604 are arranged up and down at intervals, a plurality of mist outlet grooves 6041 which are arranged in a penetrating manner are formed in the transverse mist outlet clapboards 604, and the mist outlet grooves 6041 on the two transverse mist outlet clapboards 604 are staggered; through setting up the fan and blowing in to the atomizing case 6 to make the fog after the atomizing can follow out fog mouth blowout, when both sides all set up the fan, can guarantee that the distance that goes out the fog is farther, go out the speed of fog faster, the setting of the perpendicular baffle of air-out guarantees that the fan blows into the wind and can get into from the bottom of atomizing case, guarantees that the fog that the atomizer made can effectually blow out, the setting of horizontal play fog baffle, the atomizer vibration in-process can take out partial drop of water, sets up two and transversely goes out fog baffle and two and go out fog groove stagger setting on the fog baffle, can effectively block the drop of water, do not influence the fog again and rise.

In this embodiment, the front side inner wall and the rear side inner wall of the atomization box 6 are provided with vertically arranged guide grooves, the air outlet vertical baffle 603 is inserted into the guide grooves from top to bottom, the air outlet vertical baffle 603 is provided with horizontally arranged guide grooves, and the horizontal mist outlet baffle 604 is horizontally inserted into the guide grooves, so that the installation and the disassembly are convenient.

As shown in fig. 21-29, the sewage draining device 10 includes a sewage draining upper joint and a sewage draining lower joint 1003, the sewage draining upper joint is fixed at the lower end of the sewage draining hole and is communicated with the sewage draining hole 605, the inside of the sewage draining upper joint is arranged in a penetrating way up and down along the axial direction, an inverted frustum-shaped sewage draining groove 10023 is arranged in the inside of the sewage draining groove 10023, a sealing sphere 1007 is arranged in the sewage draining groove 10023, the sealing sphere 1007 is propped against the small diameter opening of the sewage draining groove 10023, a spring 1008 is arranged at the top of the sealing sphere 1007, the lower end of the spring 1008 is propped against the sealing sphere 1007, and the upper end is propped against the bottom of the atomizing box;

The lower sewage draining connector 1003 is arranged at the lower end of the upper sewage draining connector and is in threaded connection with the upper sewage draining connector, the inside of the lower sewage draining connector 1003 is arranged in a penetrating way up and down along the axial direction, a ball jacking column 1005 is arranged at the upper end inside the lower sewage draining connector 1003, the ball jacking column 1005 is fixedly connected with the inside of the lower sewage draining connector 1003 through a connecting plate 1006, and the ball jacking column 1005 extends into a sewage draining groove 10023 and is contacted with a sealing ball 1007; the upper surface of the ball jack-up column 1005 is a concave arc surface matched with the sealing ball 1007 to ensure the stability of the sealing ball jack-up;

The sphere jacking columns 1005 are arranged at the inner axle center of the sewage drainage lower joint 1003, a plurality of connecting plates 1006 are arranged at intervals along the circumference of the sphere jacking columns 1005, the inner ends of the connecting plates 1006 are connected with the sphere jacking columns 1005, and the outer ends of the connecting plates 1006 are connected with the inside of the sewage drainage lower joint 1003; the fixing of the position of the sphere top column 1005 can be realized, and a liquid outflow channel can be reserved between the adjacent connecting plates 1006;

The lower drainage connector 1003 is rotated in one direction, the ball jack post 1005 can be driven to move upwards, the sealing ball 1007 in the drainage groove 10023 is jacked up, the small diameter opening of the drainage groove 10023 is communicated with the inside of the lower drainage connector 1003, liquid in the atomization box 6 flows into the drainage groove 10023 through the drainage hole 605, then flows through the lower drainage connector 1003 from the small diameter opening of the drainage groove 10023 and is discharged from the lower drainage connector 1003, the liquid in the atomization box is discharged, at the moment, the spring is in a compressed state, after a certain amount of liquid is discharged, the lower drainage connector 1003 can be rotated reversely, the ball jack post 1005 can be driven to move downwards, the sealing ball 1007 falls down, the sealing ball is pressed on the small diameter opening of the drainage groove 10023 under the action of the spring, the disconnection of the channel of the drainage groove 10023 and the lower drainage connector 1003 is realized, the liquid cannot flow out, the structure is simple, the operation is convenient, the liquid in the atomization box 6 can be led downwards, and the atomizer is generally hung on a wall, and the personnel cannot be wet by the liquid during operation.

The upper sewage joint in this embodiment comprises an outer sewage joint 1001 and an inner sewage joint 1002, the outer sewage joint 1001 is fixed at the lower end of the sewage hole 605, and the inner part of the outer sewage joint 1001 is provided with internal threads and penetrates up and down along the axial direction;

The outer ring of the sewage draining nipple 1002 is provided with an external thread 10021, the sewage draining nipple 1002 is in threaded connection with the sewage draining external joint 1001, the inside of the sewage draining nipple 1002 is arranged in a penetrating way up and down along the axial direction, the upper end of the inside is provided with an inverted frustum-shaped sewage draining groove 10023, and the lower end of the inside is provided with an internal thread 10022;

An external thread II 10031 is arranged at the upper end of the outer part of the lower blowdown connector 1003, the lower blowdown connector 1003 is in threaded connection with the internal blowdown connector 1002, a limiting boss 10032 is formed by extending outwards in the radial direction below the external thread II on the lower blowdown connector 1003, an O-shaped sealing ring III 10093 is sleeved on the lower blowdown connector 1003, and the O-shaped sealing ring III 10093 is propped between the limiting boss 10032 and the lower end of the internal blowdown connector 1002;

a second O-shaped sealing ring 10092 which is tightly matched is arranged at the small-diameter opening of the sewage draining groove 10023;

The top of the sewage draining inner joint 1002 is provided with an O-shaped sealing ring 10091, and the O-shaped sealing ring 10091 is propped between the bottom of the atomizing box 6 and the top of the sewage draining inner joint 1002;

The structure setting of blowdown nipple 1002 and blowdown nipple 1001, the installation maintenance of sealed spheroid 1007 of being convenient for and spring 1008, spacing boss 10032's setting can restrict the blowdown lower clutch and twist the whole distance that moves up, can guarantee here again that O shape sealing washer can be placed, prevent that liquid in the atomizing case from flowing out from the gap between blowdown lower clutch and the blowdown nipple when sealed spheroid is jacked, guarantee the leakproofness of drain, the setting of drain footpath mouth department sealing washer, when sealed spheroid supports in drain footpath mouth department, guarantee the leakproofness and prevent the liquid from discharging, the setting of the sealing washer at blowdown nipple top, in order to prevent that liquid from flowing out from the junction of blowdown nipple and blowdown nipple.

In this embodiment, a plurality of drain holes 605 are formed at intervals along the circumferential direction at the bottom of the atomization box, a spring top plate 10081 is formed in the middle of the plurality of drain holes 605, the lower end of the spring 1008 is in contact with the top of the sealing sphere, the upper end of the spring 1008 is in contact with the spring top plate 10081, and the inner diameter of the drain outer joint 1001 is larger than the circumferential outer diameter surrounded by the plurality of drain holes; this structure is arranged so that the spring can interfere with the bottom of the atomizer box.

The lower end of the sewage discharging lower joint 1003 is connected with a hose joint 1004, and the hose joint 1004 is connected with a hose; the provision of hose coupler 1004 further ensures that the drained liquid can flow out along the hose without wetting the operator and splashing onto the wall.

As shown in fig. 14-16, the fog outlet nozzle 9 includes a front inclined section 901 and a rear horizontal section 902, the front inclined section 901 includes an upper inclined plate 9011, a lower inclined plate 9012, a left side plate 9013 and a right side plate 9014, the upper inclined plate 9011 is parallel to the lower inclined plate 9012 and is inclined upwards from back to front, the upper end of the left side plate 9013 is fixedly connected with the left end of the upper inclined plate 9011, the lower end is fixedly connected with the left end of the lower inclined plate 9012, the upper end of the right side plate 9014 is fixedly connected with the right end of the upper inclined plate 9011, the lower end is fixedly connected with the right end of the lower inclined plate 9012, the left side plate and the right side plate are both provided with arc-shaped plates which are outwards protruded, the upper inclined plate 9011, the lower inclined plate 9012, the left side plate 9013 and the right side plate 9014 enclose a flat fog outlet channel, the rear end of the lower inclined plate 9012 is provided with a plurality of liquid guide grooves 904, and the rear ends of the lower inclined plate 9012 are laterally spaced apart along the lower inclined plate 9012, the lower inclined plate 9012 are provided with a plurality of liquid guide grooves 904, and the liquid guide grooves 904 are arranged in a triangular shape;

The rear horizontal section 902 comprises an upper flat plate 9021, a left arc plate 9022 and a right arc plate 9023, wherein the front end of the upper flat plate 9021 is connected with the rear end of an upper inclined plate 9011, the left end of the upper flat plate 9021 is connected with the upper end of the left arc plate 9022, the right end is connected with the upper end of the right arc plate 9023, the front end of the left arc plate 9022 is connected with the rear end of the left side plate, the front end of the right arc plate 9023 is connected with the rear end of the right side plate, and the left arc plate 9022 and the right arc plate 9023 are arc plates protruding outwards;

The rear end of the front inclined section 901 extends outwards to form an annular limiting plate 903, the annular limiting plate 903 is arranged between the front inclined section 901 and the rear horizontal section 902, the rear end of the lower inclined plate extends backwards to be located at the inner side of the annular limiting plate, a liquid guiding groove is located at the inner side of the annular limiting plate, the annular limiting plate 903 comprises an upper transverse limiting plate 9031, a lower transverse limiting plate 9032, a left limiting plate 9033 and a right limiting plate 9034, the upper transverse limiting plate 9031 is fixed between the upper flat plate 9021 and the upper inclined plate 9011, the lower transverse limiting plate 9032 is fixed at the rear end of the lower inclined plate 9012, the left limiting plate 9033 is fixed between the left side plate 9013 and the left arc plate 9022, the right limiting plate 9034 is fixed between the right side plate 9014 and the right arc plate 9023, the left limiting plate 9033 and the right limiting plate 9034 are arranged to be outwards convex arc plates, the left ends of the upper transverse limiting plate 9031 and the lower transverse limiting plate 9032 are fixedly connected with the left limiting plate 9033, the right end is fixedly connected with the right limiting plate 9034, and a plurality of fixing plates 9035 are fixedly provided with through bolts;

A limiting stop bar 905 transversely arranged is fixed on the upper flat plate 9021, and a limiting clamping groove 906 is formed between the limiting stop bar 905 and the upper transverse limiting plate 9031;

The rear horizontal section 902 extends into the mist outlet cavity 5 from the mist outlet opening on the front baffle 303, the upper surface of the mist outlet opening on the front baffle 303 is clamped in the limiting clamping groove 906, the rear end surface of the annular limiting plate 903 is in contact with the front end surface of the front baffle 303, a plurality of threaded holes are formed in the front baffle 303 below the mist outlet opening, and bolts penetrate through the bolt through holes in the fixing plate 9035 and are in threaded connection with the front baffle 303;

The setting of preceding sloping section 901 for fog spun scope is wider, the setting of drain tank 904, the in-process of fog through going out fog mouth 9 exhaust, at last swash plate, lower swash plate position condensation's little drop can flow back into atomizing box 6 along drain tank 904, effectively prevent out fog mouth department's drop and take under the effect of blowing out fog, further guarantee out fog quality, and the drain tank is established in annular limiting plate inboard is located out the fog chamber, can prevent effectively that the drop from flowing out from annular limiting plate and the fixed position of preceding baffle, the setting of back horizontal segment 902, make out fog chamber 5 in the drop of drop on the dull and stereotyped 9021 of preceding baffle 303 top, again follow fog and spout out from the fog mouth along left arc plate 9022 and right arc plate 9023 inflow atomizing box 6, further guarantee out fog quality, annular limiting plate 903 and limiting clamp groove 906's setting makes things convenient for the location installation of fog mouth 9, realize out fog mouth 9 and install fast.

The embodiment is provided with an atomizer shell 1, the water tank 2, the atomizer box 6 and the air supply device are arranged in the atomizer shell 1, a front air inlet opening 101 is formed in the front side panel of the atomizer shell 1, a plurality of front air inlet openings 101 are formed in the embodiment, a front cover plate 102 is covered at the front air inlet opening 101, the front cover plate 102 is connected with the front side panel of the atomizer shell, and an air inlet gap 103 is reserved between the front cover plate 102 and the front side panel of the atomizer shell along the peripheral circumference of the front cover plate;

The front side panel and the front cover plate 102 of the atomizer shell are provided with fog outlet openings 1021, and the fog outlet 9 penetrates out of the fog outlet openings on the front side panel and the front cover plate 102 of the atomizer shell after being fixed with the front baffle 303;

The air inlet is formed in the front side of the atomizer shell 1, the front cover plate 102 is covered outside the front air inlet opening 101, an air inlet gap 103 is reserved, when the air supply device works, air is sucked in from the air inlet gap 103 and enters the atomizer shell 1 through the front air inlet opening 101, impurities such as dust can be effectively prevented from entering the atomizer shell for a long time, atomization effect is affected, the front cover plate 102 in the embodiment is connected with the front side plate through bolts, the front cover plate is convenient to detach, and the front cover plate can be opened after long-time use to clean dust between the front cover plate and the front side plate.

The top of the atomizer housing 1 is provided with an upper opening 104, a water tank upper opening 207 is positioned at the position of the upper opening 104 of the atomizer housing 1, an upper sealing cover 105 is covered at the position, an upper liquid inlet 106 is formed at the rear side of the upper opening 104 of the atomizer housing, a liquid outlet joint 703 is inserted into the upper liquid inlet 106, the bottom of the atomizer housing 1 is provided with a lower liquid outlet 107, a sewage discharging lower joint 1003 penetrates out of the lower liquid outlet 107, and the atomizer box 6 is fixed in the atomizer housing 1.

As shown in fig. 30-32, a liquid level sensor 11 is installed in the water tank and the atomization tank, the liquid level sensor 11 is connected with a controller, the liquid level sensor 11 comprises an electrode fixing head, an electrode insulating member and at least two electrode cores with different lengths, the electrode cores are made of conductive corrosion-resistant materials, in this embodiment, the electrode cores comprise an electrode core one 1101, an electrode core two 1102, an electrode core three 1103 and an electrode core four 1104, the lengths of the electrode core one 1101, the electrode core two 1102, the electrode core three 1103 and the electrode core four 1104 are different and are used for detecting different liquid levels, the electrode core one 1101, the electrode core two 1102, the electrode core three 1103 and the electrode core four 1104 are separated by the electrode insulating member, and the upper ends of the electrode core one 1101, the electrode core two 1102, the electrode core three and the electrode core four 1104 are respectively connected with the electrode fixing head;

The electrode insulator is made of an insulating corrosion-resistant material, the electrode insulator comprises an electrode protection sleeve 1105, an electrode two protection sleeve 1106, an electrode three protection sleeve 1107 and an electrode four protection sleeve 1108 with different length, an electrode one perforation 1109 is arranged on the electrode protection sleeve 1105 in a penetrating way, an electrode two perforation 1110 is arranged on the electrode two protection sleeve 1106 in a penetrating way, an electrode three perforation 1111 is arranged on the electrode three protection sleeve 1107 in a penetrating way, an electrode four perforation 1112 is arranged on the electrode four protection sleeve 1108 in a penetrating way, the electrode first 1101 is inserted into the electrode one perforation 1109 of the electrode protection sleeve 1105 and the lower end of the electrode is penetrated out of the electrode one perforation 1109, the second electrode core 1102 is inserted into the second electrode perforation 1110 of the second electrode protection sleeve 1106, the lower end of the second electrode core is penetrated out of the second electrode perforation 1110, the third electrode core 1103 is inserted into the third electrode perforation 1111 of the third electrode protection sleeve 1107, the lower end of the third electrode core 1103 is penetrated out of the third electrode perforation 1111, the fourth electrode core 1104 is inserted into the fourth electrode perforation 1112 of the fourth electrode protection sleeve 1108, the lower end of the fourth electrode core 1104 is penetrated out of the fourth electrode perforation 1112, and the adjacent electrode protection sleeves are fixedly connected, in this embodiment, the first electrode protection sleeve 1105, the second electrode protection sleeve 1106, the third electrode protection sleeve 1107 and the fourth electrode protection sleeve 1108 are integrally formed, and the upper ends of the first electrode protection sleeve 1105, the second electrode protection sleeve 1106, the third electrode protection sleeve 1107 and the fourth electrode protection sleeve 1108 are connected with an electrode fixing head; the electrode protection sleeve is used for detecting the liquid level in the water tank and the atomization box, supplementing liquid to the water tank when the liquid level in the water tank is low, feeding liquid to the atomization box through the atomization liquid feeding device when the liquid level in the atomization box is low, the electrode core is corrosion-resistant, cannot pollute liquid, is not prone to failure, is high in use reliability, long in service life and high in detection precision, the electrode protection sleeve is structurally arranged to ensure that the electrode core is separated to prevent conduction, electrode core corrosion can be further prevented, and the electrode protection sleeve is connected with an electrode fixing head to ensure use stability.

In this embodiment, the length of the electrode core is long, the corresponding electrode protecting sleeves are long, the length ratio of the electrode protecting sleeve 1105, the electrode protecting sleeve 1106, the electrode protecting sleeve 1107 and the electrode protecting sleeve 1108 is consistent with the length ratio of the electrode core 1101, the electrode core 1102, the electrode core 1103 and the electrode core 1104, and only the lower end part of the electrode core is exposed out of the electrode protecting sleeve, so that the electrode core is further protected.

The electrode fixing head comprises a limit disc 1115, a threaded connection column 1113 and a screw cap 1114, wherein the threaded connection column 1113, the limit disc 1115 and an electrode pole core are sequentially arranged from top to bottom, the outer diameter of the limit disc 1115 is larger than that of the threaded connection column 1113, the electrode pole core and an electrode protection sleeve are connected with the limit disc 1115, the limit disc 1115 is fixedly connected with the threaded connection column 1113, and external threads are arranged on the threaded connection column 1113;

The inside of the threaded connecting column 1113 is hollow, the electrode pole core is fixedly connected with the limiting disc 1115, the upper end of the electrode pole core extends into the inside of the threaded connecting column 1113, a partition plate 1117 is fixed in the inside of the threaded connecting column 1113, and the partition plate 1117 separates adjacent electrode pole cores; the electrode core is convenient to install and fix, and the adjacent electrode cores can be effectively prevented from being contacted and conducted, so that the liquid level detection effect is affected.

The left side of the limit disc 1115 is provided with a left limit groove 11151, the right side of the limit disc 1115 is provided with a right limit groove 11152, the upper cover plate of the water tank is provided with a through hole for the threaded connection column 1113 to pass through, a threaded hole is formed near the through hole, the electrode liquid level sensor is vertically arranged in the water tank, the threaded connection column 1113 passes through the through hole of the upper cover plate of the water tank, the threaded connection column 1113 is sleeved with an O-shaped sealing ring IV 1116, the O-shaped sealing ring IV 1116 is propped against the space between the limit disc 1115 and the inner wall of the upper cover plate, the screw cap 1114 is in threaded connection with the threaded connection column 1113 and propped against the upper cover plate, and then passes through the left limit groove 11151 through a bolt, and passes through the right limit groove 11152 through the threaded hole near the through hole of the water tank through the bolt; the position of the electrode liquid level sensor is fixed, and the electrode liquid level sensor is convenient to install and detach; the bottom of the atomization box 6 is provided with a perforation for the threaded connection column 1113 to pass through, a threaded hole is formed near the perforation, the electrode liquid level sensor is reversely and vertically arranged in the atomization box 6, the threaded connection column 1113 passes through the perforation at the bottom of the atomization box 6, the O-shaped sealing ring IV 1116 is propped between the limit disc 1115 and the inner wall at the bottom of the atomization box, the screw cap 1114 is in threaded connection with the threaded connection column 1113 and propped against the outer surface at the bottom of the atomization box, and then passes through the left limit groove 11151 through a bolt, and passes through the right limit groove 11152 through a bolt to be in threaded connection with the threaded hole near the perforation of the atomization box; the electrode liquid level sensor is fixed, the installation and the disassembly are convenient, and the sealing performance of the inside and the outside of the water tank and the atomizing box is ensured by the arrangement of the O-shaped sealing ring.

In this embodiment, the electrode core is made of one or more materials of graphite, stainless steel, copper, titanium alloy, etc., and the electrode protecting sleeve is made of one or more materials of ABS, PE, PVC, etc., and is electrically conductive, corrosion-resistant and oxidation-resistant.

The electrode liquid level sensor 11 in the atomization box 6 is arranged at the corner of the atomization box 6, the electrode liquid level sensor 11 is enclosed by the sensor coaming 607 and the inner wall of the atomization box, the sensor coaming is L-shaped, the sensor coaming 607 is fixed in the atomization box 6, and the lower end of the sensor coaming 607 is provided with a liquid inlet 6071; establish electrode level sensor at the corner of atomizing case and enclose with the sensor bounding wall simultaneously, liquid in the atomizing case flows into in the sensor bounding wall through the liquid entry for liquid level height in the atomizing case is unanimous with liquid level height in the sensor bounding wall, can lead to the surface of water undulant because of the vibration of atomizer, and electrode level sensor's position setting and sensor bounding wall can reduce the undulant influence of surface of water, guarantees electrode level sensor's accuracy that detects. In the embodiment, a power supply and a controller are arranged in a atomizer shell 1, a button is arranged at the bottom of the atomizer shell, the power supply can be turned on by pressing the button, and the power supply supplies power to an atomizer, a fan, the controller and the like; in the embodiment, the power supply supplies alternating current to the electrode liquid level sensor, and the alternating current does not electrolyze liquid, so that the electrode core is further prevented from being corroded and polluted by the liquid.

The controller in this embodiment may be a controller developed based on an MCU or a PLC controller.

The working method of the atomizer comprises the following steps:

1. The atomizer is hung on a wall, and the fog outlet faces to an indoor place;

2. The operator presses a button 12 at the bottom of the atomizer shell 1, the atomizer is started, the atomizer 606 is electrified, the sterilizing liquid is atomized through ultrasonic vibration, the fan is electrified, wind enters the atomizer shell 1 from a front air inlet opening 101 from an air inlet gap 103 in the circumferential direction of a front cover plate 102, mist generated by vibration of the atomizer 606 at the bottom of the atomizer box is sprayed out through a mist outlet cavity 5 and a mist outlet nozzle 9 through a left air inlet cavity 401, a left air inlet channel, a right air inlet cavity 402 and a right air inlet channel, when the mist rises in the process, the carried-up water drops are blocked by a transverse mist outlet baffle 604 and are sprayed into the atomizer box, the mist is blown out into the mist outlet cavity 5 through a mist outlet groove 6041 which is arranged in a staggered manner and sprayed out from the mist outlet nozzle 9, the mist reaches the mist outlet cavity 5, the mist can be condensed into small water drops at an upper guide inclined plate 2011, part of the water drops at the top of the upper guide inclined plate 2011 can fall onto the upper surface of the atomizer 9021 along the upper guide inclined plate 2011, and then flows back to the upper flat plate 9012 along the upper arc of the inclined plate 22 and the right plate 23 and the lower flat plate 9012 when the mist is sprayed out from the mist outlet groove 6 along the inclined plane 9012;

3. The electrode liquid level sensor 11 in the atomization box detects the liquid level in the atomization box, when the liquid level in the atomization box is low, the controller controls the water pump 701 to work, disinfectant in the water tank 2 is pumped out through the liquid pumping pipe, enters the position of the liquid outlet joint 703 in the atomization box through the liquid outlet pipe and flows into the atomization box from the liquid outlet groove 704, when the liquid level in the atomization box reaches the set height meeting the atomization of the atomizer, the electrode liquid level sensor 11 feeds back signals to the controller, and the controller controls the water pump to stop working;

4. When the liquid level of the water tank is low, the electrode liquid level sensor 11 in the water tank feeds a signal back to the controller, the controller controls the electromagnetic valve 802 to be opened, controls the disinfectant generator or the disinfectant filling machine to start, fills disinfectant into the water tank of the atomizer, and enters the water tank 2 through the liquid supplementing joint 703 and the liquid supplementing pipe, when the liquid level in the water tank 2 reaches a high liquid level, the electrode liquid level sensor 11 in the water tank feeds a signal back to the controller, the controller controls the electromagnetic valve 802 to be closed, and the disinfectant generator or the disinfectant filling machine stops working;

5. When the liquid in the atomization box affects atomization of the atomizer or the liquid in the atomization box needs to be discharged, the button 12 is pressed to stop the operation of the atomizer, an operator tightens the lower blowdown connector 1003 to enable the lower blowdown connector 1003 to move upwards, the ball jack 1005 is driven to move upwards, the ball jack 1005 moves upwards to extend into the small diameter opening of the blowdown tank 10023, the sealing ball 1007 is jacked up to enable the blowdown tank 10023 to be communicated with the lower blowdown connector 1003, the disinfectant in the atomization box flows into the lower blowdown connector 1003 through the blowdown hole 605 and the small diameter opening of the blowdown tank 10023 and is discharged through a hose, the lower blowdown connector 1003 is rotated in the opposite direction after the disinfectant in the atomization box is discharged, the lower blowdown connector 1003 moves downwards to drive the ball jack 1005 to move downwards, the sealing ball 1007 is pressed at the small diameter opening of the blowdown tank 10023 under the action of gravity and the spring 1008, disconnection of the liquid passage of the blowdown tank 10023 is achieved, and liquid discharge is blocked.

Claims (10)

1. The utility model provides an atomizer box structure, includes water tank and atomizing case, its characterized in that: the outer side of the front wall of the water tank is provided with a front baffle, the outer side of the left side wall and/or the right side wall is provided with an air supply fixing plate, the top end of the front baffle is connected with the top end of the front wall of the water tank, the front baffle is provided with a fog nozzle opening, and the top end of the air supply fixing plate is connected with the top end of the side wall of the water tank;

the atomizing box upper portion is equipped with the opening, the water tank inserts in the atomizing box through the opening, the lower extreme and the atomizing box joint cooperation of preceding baffle, air feed fixed plate, form the play fog chamber with the atomizing box intercommunication between preceding baffle and the water tank front wall, form the air inlet chamber with the atomizing box intercommunication between air feed fixed plate and the water tank lateral wall.

2. The atomizer box structure as recited in claim 1, wherein: the rear locating plate is fixed on the outer side of the rear wall of the water tank, and the lower end of the front baffle plate, the lower end of the air supply fixing plate and the lower end of the rear locating plate are matched with the atomization box in a clamping mode.

3. An atomizer box structure according to claim 2, wherein: the upper end circumference of atomizing case outwards extends and forms annular locating plate, set up spacing recess on the annular locating plate, preceding baffle and air feed fixed plate and back locating plate card are in spacing recess.

4. A nebulizer housing structure as claimed in claim 3, wherein: and a sealing strip is arranged in the limiting groove.

5. The atomizer box structure as recited in claim 4, wherein: the limiting groove is annularly arranged on the annular positioning plate.

6. A nebulizer case structure according to claim 1 or 2 or 3 or 4 or 5, characterized in that: the front panel of the atomizing box is fixedly provided with a sealing piece protruding forwards, and a controller of the atomizer is arranged below or in the sealing piece.

7. The atomizer box structure as recited in claim 6, wherein: the sealing member is arranged along the transverse direction of the atomization box or is arranged in an inverted U shape.

8. The atomizer box construction as recited in claim 7, wherein: the atomizing machine is characterized in that the water tank and the atomizing box are sleeved with an atomizing machine shell, a sealing piece on the front panel of the atomizing box adopts one of a sealing slot and a sealing plugboard, the other one of the sealing slot and the sealing plugboard is arranged on the inner wall of the atomizing machine shell, and the sealing slot is in plug-in fit with the sealing plugboard.

9. The atomizer box construction as recited in claim 8, wherein: the structure of sealed slot includes outer arc baffle and interior arc baffle, outer arc baffle, interior arc baffle all set up to the shape of falling U-shaped, interior arc baffle is established in outer arc baffle inboard, form slot structure between outer arc baffle and the interior arc baffle, sealed picture peg's shape matches with the slot shape and inserts in the slot.

10. The atomizer box construction as recited in claim 9, wherein: and a sealing strip is arranged in the slot.