CN216159280U - Sterilizing machine - Google Patents

Abstract

The present application provides a sterilizing machine, including: a housing having an accommodating space; the water tank is accommodated in the accommodating space and comprises a barrel part, a first end plate, a second end plate and a partition plate; the first end plate and the second end plate are arranged at two ends of the barrel part to form a water storage cavity; the partition plate is arranged in the water storage cavity to divide the water storage cavity into a first water storage cavity and a second water storage cavity; the first end plate is provided with an air outlet channel which is communicated with the second water storage cavity; the atomization piece module is arranged on the first end plate and atomizes the liquid in the first water storage cavity and discharges the liquid out of the shell; and the ozone generator is arranged in the second water storage cavity and used for electrolyzing liquid in the second water storage cavity to generate ozone, and the ozone is discharged out of the water tank through the air outlet channel. The atomization piece module in the disinfection machine is not easy to corrode and has long service life.

Description

Sterilizing machine

Technical Field

The application belongs to the technical field of household appliances, and particularly relates to a sterilizing machine.

Background

With the development of society and the progress of science and technology, the requirements of people on the quality of life are higher and higher. More and more people are working in the room now, because the indoor environment is narrow, door and window leads to its air current to lead to smoothly less, including the indoor office equipment that has various operations, like printer, computer etc., make indoor air circumstance further worsen, can not satisfy people to the requirement of indoor air circumstance, consequently appeared on the market carry out humidification and disinfection to the air and mix sterilizer as an organic whole, but the water tank of atomizing water and the disinfection water sharing of this sterilizer, lead to the disinfection water can corrode the atomizing piece, thereby the life of sterilizer has been reduced.

Therefore, there is still a need to provide a new sterilizer to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a sterilizing machine that atomizing piece is difficult for corroding, sterilizing machine long service life.

The present application provides a sterilizing machine, including: a housing having an accommodating space; the water tank is accommodated in the accommodating space and comprises a barrel part, a first end plate, a second end plate and a partition plate; the first end plate and the second end plate are respectively arranged at two opposite ends of the barrel part in a sealing manner so as to enclose a water storage cavity; the partition plate is arranged in the water storage cavity and divides the water storage cavity into a first water storage cavity and a second water storage cavity; the first end plate is provided with an air outlet channel which is communicated with the second water storage cavity; the atomization piece module is arranged on one side, far away from the second end plate, of the first end plate and is used for atomizing and discharging liquid in the first water storage cavity out of the shell; the ozone generator is arranged in the second water storage cavity and used for electrolyzing liquid in the second water storage cavity to generate ozone, and the ozone is discharged out of the water tank through the air outlet channel.

Optionally, the sterilizer further comprises a one-way valve, the one-way valve is arranged on the isolation plate, and the one-way valve is used for enabling liquid in the first water storage cavity to flow into the second water storage cavity in a one-way mode.

Optionally, the separation plate is disposed between the first end plate and the second end plate at intervals; the first end plate, the barrel part and the partition plate are enclosed to form the first water storage cavity; the isolating plate, the barrel part and the second end plate are encircled to form the second water storage cavity.

Optionally, the air outlet channel extends from the first end plate to the isolation plate and is communicated with the second water storage cavity, and the air outlet channel is used for isolating the ozone from the first water storage cavity.

Optionally, the partition plate is connected to the barrel portion, the first end plate, and the second end plate, respectively.

Optionally, the casing includes a side wall, an upper water injection cover and a bottom cover, and the upper water injection cover and the bottom cover are respectively disposed at two opposite ends of the side wall; and the water injection upper cover is close to the first end plate, and the bottom cover is close to the second end plate.

Optionally, a water inlet pipe is arranged on one side, close to the water injection upper cover, of the first end plate, and the water inlet pipe is communicated with the first water storage cavity; the water injection upper cover is provided with a water injection pipe corresponding to the position of the water inlet pipe, and the water injection pipe is arranged in the water inlet pipe.

Optionally, the atomizing sheet module comprises a packaging shell, an atomizing sheet, a water absorbing piece and a clamping seat, and the atomizing sheet module is mounted on the first end plate through the clamping seat; one end of the water absorbing piece is abutted against the atomizing sheet, the other end of the water absorbing piece penetrates through the first end plate and then is arranged in the first water storage cavity, and the water absorbing piece is used for conveying liquid in the first water storage cavity to the atomizing sheet; the atomizing sheet is arranged in the packaging shell and is used for atomizing the liquid absorbed by the water absorbing piece; the packaging shell is arranged on the clamping seat.

Optionally, a clamping groove is formed in one side, away from the first end plate, of the clamping seat, and the packaging shell is arranged in the clamping groove; a positioning groove is formed in one side, close to the first end plate, of the clamping seat, a first positioning pipe is arranged in the positioning groove, and the first positioning pipe is communicated with the clamping groove; the first end plate is provided with a second positioning pipe corresponding to the position of the first positioning pipe, the second positioning pipe is communicated with the first water storage cavity, and the first positioning pipe is arranged in the second positioning pipe.

Optionally, a baffle is disposed at a position of the first end plate corresponding to the card seat, and the baffle provides a guiding function for installation or detachment of the card seat.

The application provides a sterilizing machine passes through the division board and separates the water tank for first water storage chamber and second water storage chamber, the liquid in the first water storage intracavity of atomizing piece module atomizing produces the fog, the liquid in ozone generator electrolysis second water storage intracavity produces ozone, fog and ozone are respectively through the sterilizer of different modes discharge outside, it forms the ozone water to have solved ozone entering first water storage intracavity, corrode the atomizing piece module, lead to the atomizing piece module scheduling problem that became invalid, thereby the life of sterilizing machine has been improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the application, and that other drawings can be derived from these drawings without inventive effort for a person skilled in the art.

For a more complete understanding of the present application and its advantages, reference is now made to the following descriptions taken in conjunction with the accompanying drawings. Wherein like reference numerals refer to like parts in the following description.

Fig. 1 is a schematic structural diagram of a sterilization machine provided by the present application.

Fig. 2 is a schematic diagram of an exploded structure of the sterilizer provided in the present application.

Fig. 3 is a cross-sectional view taken along a-a in fig. 1.

Fig. 4 is a schematic structural diagram of a water tank in the present application.

Fig. 5 is a schematic structural view of another view angle of the water tank in the present application.

Fig. 6 is an exploded view of the atomizing module according to the present application.

Fig. 7 is a schematic structural view of the front case of fig. 6.

Fig. 8 is a schematic structural view of the rear case of fig. 6.

Fig. 9 is a schematic structural diagram of the card socket in fig. 6.

Fig. 10 is a schematic structural view of the ozone generator and the second end plate in the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1-10, fig. 1 is a schematic structural view of a sterilizer provided in the present application. Fig. 2 is a schematic diagram of an exploded structure of the sterilizer provided in the present application. Fig. 3 is a cross-sectional view taken along a-a in fig. 1. Fig. 4 is a schematic structural diagram of a water tank in the present application. Fig. 5 is a schematic structural view of another view angle of the water tank in the present application. Fig. 6 is an exploded view of the atomizing module according to the present application. Fig. 7 is a schematic structural view of the front case of fig. 6. Fig. 8 is a schematic structural view of the rear case of fig. 6. Fig. 9 is a schematic structural diagram of the card socket in fig. 6. Fig. 10 is a schematic structural view of the ozone generator and the second end plate in the present application.

The present application provides a sterilizing machine 100 comprising a housing 1, a water tank, an atomizing plate module 3, an ozone generator 4 and a circuit assembly 8. The housing 1 has an accommodating space therein, and the water tank is accommodated in the accommodating space. The atomization plate module 3 and the ozone generator 4 are respectively electrically connected with the circuit component 8.

The water tank includes a body 21, a first end plate 22, a second end plate 23 and a partition plate 24, wherein the first end plate 22 and the second end plate 23 are hermetically disposed at opposite ends of the body 21, respectively, to form a water storage chamber. The partition plate 24 is disposed in the water storage chamber and partitions the water storage chamber into a first water storage chamber 21A and a second water storage chamber 21B. The atomization plate module 3 is disposed on the first end plate 22 and is used for atomizing the liquid in the first water storage cavity 21A. The ozone generator 4 is disposed in the second water storage chamber 21B and is mounted on the second end plate 23. The ozone generator 4 is used for electrolyzing the liquid in the second water storage cavity 21B to generate ozone. An air outlet channel 221 is arranged on the first end plate 22, and the air outlet channel 221 is communicated with the second water storage cavity 21B. Illustratively, the partition plate 24 is disposed between the first end plate 22 and the second end plate 23 at an interval, and the partition plate 24 divides the barrel 21 into a first water storage cavity 21A and a second water storage cavity 21B (the first water storage cavity 21A is located above the second water storage cavity 21B), that is, the barrel 21, the first end plate 22 and the partition plate 24 enclose to form the first water storage cavity 21A. The body portion 21, the second end plate 23 and the partition plate 24 enclose to form a second water storage chamber 21B.

A passage 240 is provided on the partition plate 24, and the first water storage chamber 21A and the second water storage chamber 21B are communicated by the passage 240. The sterilizer 100 further includes a check valve 5, the check valve 5 is disposed in the passage 240, and the check valve 5 is used to make the liquid in the first water storage chamber 21A flow into the second water storage chamber 21B in one direction.

The air outlet channel 221 extends from the first end plate 22 to the partition plate 24 and is communicated with the second water storage cavity 21B, and the air outlet channel 221 is used for isolating the ozone generated by the ozone generator 4 from the liquid in the first water storage cavity 21A and discharging the ozone out of the water tank.

The atomization plate module 3 is mounted on the first end plate 22, and part of the atomization plate module 3 passes through the first end plate 22 and is disposed in the first water storage cavity 21A. The atomization piece module 3 is used for atomizing the liquid in the first water storage cavity 21A to generate mist, and the mist is discharged out of the shell 1, so that the external environment is humidified. The ozone generator 4 is disposed in the second water storage chamber 21B and is mounted on the second end plate 23. The ozone generator 4 is used for electrolyzing the liquid in the second water storage cavity 21B to generate ozone, and the ozone is discharged out of the water tank through the air outlet channel 221, so that the external environment is disinfected. This sterilizing machine 100 separates the water storage chamber for first water storage chamber 21A and second water storage chamber 21B through division board 24, the liquid in the first water storage chamber 21A of atomizing piece module 3 atomizing produces the fog, the liquid in the ozone generator 4 electrolysis second water storage chamber 21B produces ozone, fog and ozone are respectively through different modes outside the casing 1 of discharging, prevent that ozone from getting into and forming the ozone water in the first water storage chamber 21A, it can corrode atomizing piece module 3 to have solved the ozone water, lead to atomizing piece module 3 inefficacy scheduling problem, thereby the life of sterilizing machine 100 has been improved.

It should be noted that the partition plate 24 may also be connected to the barrel 21, the first end plate 22 and the second end plate 23, respectively, that is, the partition plate 24 divides the water storage cavity into a first water storage cavity 21A and a second water storage cavity 21B (the first water storage cavity 21A is located at the left of the second water storage cavity 21B), and the first water storage cavity 21A and the second water storage cavity 21B are sealed and separated by the partition plate 24. Thus, the air outlet channel 221 does not need to extend to the isolation plate 24, which not only increases the service life of the sterilizer 100, but also reduces the production cost of the sterilizer 100.

The case 1 includes a sidewall 11, a water filling upper cover 12, and a bottom cover 13. The side wall 11 is cylindrical and has a hollow interior to form a receiving space, and the water injection upper cover 12 and the bottom cover 13 are respectively disposed at two opposite ends of the side wall 11. The water injection upper cover 12 is funnel-shaped, and the water injection upper cover 12 is communicated with the water tank. Illustratively, a water injection pipe 121 is disposed at one side of the water injection upper cover 12 close to the first end plate 22, a water inlet pipe 222 is disposed at a position of the first end plate 22 corresponding to the water injection pipe 121, and the water inlet pipe 222 is communicated with the first water storage cavity 21A. Water injection pipe 121 and oral siphon 222 phase-match, and water injection pipe 121 sets up in oral siphon 222, so can conveniently inject liquid into first water storage chamber 21A through water injection pipe 121 and oral siphon 222 to improve user experience.

The bottom cover 13 is installed at one end of the water tank far away from the first end plate 22, and illustratively, a first water outlet 25 is formed at one side of the water tank far away from the first end plate 22, and the first water outlet 25 is communicated with the first water storage cavity 21A. The bottom cover 13 is provided with a first mounting hole 130 at a position corresponding to the first water outlet 25, and the first water outlet 25 is matched with the first mounting hole 130 and is located in the first mounting hole 130. The second end plate 23 is provided with a second water outlet 230, and the second water outlet 230 is communicated with the second water storage cavity 21B. The bottom cover 13 is provided with a second mounting hole 131 at a position corresponding to the second water outlet 230, and the second water outlet 230 is matched with the second mounting hole 131 and is located in the second mounting hole 131. The sterilizer 100 further comprises two rubber stoppers 7, and the bottom cover 13 is mounted on the water tank through the two rubber stoppers 7. Wherein, a plug 7 is installed in the first mounting hole 130 and seals the first water outlet 25, and another plug 7 is installed in the second mounting hole 131 and seals the second water outlet 230. When the user takes off the rubber plug 7, the liquid in the first water storage chamber 21A and the second water storage chamber 21B can be discharged.

The atomization plate module 3 is mounted on the first end plate 22. The atomizing sheet module 3 includes a packaging shell 31, an atomizing sheet 32, a water absorbing member 33 and a clamping seat 34, the atomizing sheet module 3 is installed on the first end plate 22 through the clamping seat 34, and the clamping seat 34 abuts against the side wall 11. One end of the water absorbing member 33 is abutted against the atomizing sheet 32, the other end of the water absorbing member passes through the first end plate 22 and then is disposed in the first water storage cavity 21A, and the water absorbing member 33 is used for conveying the liquid in the first water storage cavity 21A to the atomizing sheet 32. The atomizing plate 32 is disposed in the enclosure 31, and the atomizing plate 32 is used for atomizing the liquid absorbed by the water absorbing member 33. The package housing 31 is mounted on the card holder 34. Illustratively, the card socket 34 is provided with a card slot 341, and the package housing 31 is disposed in the card slot 341. The clamping base 34 is further provided with a positioning groove 342, a first positioning tube 343 is further arranged in the positioning groove 342, and the first positioning tube 343 is communicated with the clamping groove 341. The first end plate 22 is provided with a second positioning tube 223 at a position corresponding to the first positioning tube 343. The first positioning tube 343 is disposed in the second positioning tube 223, and the second positioning tube 223 is disposed in the positioning groove 342, so that the clamping seat 34 can be clamped on the first end plate 22. When the user needs to replace the atomizing plate 32, the user only needs to take the clamping seat 34 off from the first end plate 22, take the enclosure 31 out of the clamping groove 341 and replace the atomizing plate 32 of a new enclosure 31, so that the installation process of replacing the atomizing plate 32 is simplified, and the user can conveniently maintain or replace the atomizing plate.

The first end plate 22 is further provided with a baffle 224 corresponding to the position of the clamping seat 34, the baffle 224 abuts against the clamping seat 34, so that the clamping seat 34 can be further prevented from moving, and the baffle 224 can also provide a guiding function for the installation or the disassembly of the atomizing plate module 3.

The package 31 includes a front case 311 and a rear case 312, the front case 311 is connected to the rear case 312, and the front case 311 is closer to the side wall 11. The atomization sheet 32 is mounted on the front case 311. Illustratively, a mounting groove 3111 is disposed on a side of the front housing 311 close to the rear housing, and a first through hole 3110 penetrating through the front housing 311 is disposed in the mounting groove 3111. The atomizing sheet 32 is disposed in the mounting groove 3111 and covers the first through hole 3110. The atomizing sheet 32 includes a vibrating portion 321 and a fixing portion 322, and the atomizing sheet 32 is mounted in the mounting groove 3111 through the fixing portion 322. The position of the vibration part 321 corresponds to the position of the first through hole 3110. The fixing portion 322 surrounds the vibrating portion 321 and is connected to the outer edge of the vibrating portion 321, and the thickness of the vibrating portion 321 is smaller than that of the fixing portion 322, so that the self-limiting effect generated during the vibrating process of the atomizing plate 32 can be reduced, and the vibrating efficiency of the atomizing plate 32 is improved.

The side wall 11 is provided with a second through hole 110 at a position corresponding to the first through hole 3110, and one end of the water absorbing member 33 abuts on the side of the vibrating portion 321 close to the rear case 312. Be equipped with a plurality of micropores that run through on the vibration portion 321, vibration portion 321 high-frequency vibration under the drive of electric energy for outside the liquid on the water absorption piece 33 drives down through the micropore after first through-hole 3110, the second through-hole 110 blowout casing 1, liquid can form the droplet of small particle size when being compelled to pass the micropore, and then forms the atomization effect in the outside of lateral wall 11, and humidify for external environment.

Both sides of the front case 311 are provided with a grip portion 3112, and the card holder 34 is provided with an escape portion 344 at a position corresponding to the grip portion 3112. The handle portion 3112 is used for grasping the package 31, and the escape portion 344 is used for escaping a finger of a user or a tool for grasping the package 31. Illustratively, the handle 3112 is formed by removing material from the front housing 311. The shapes of the handle portion 3112 and the relief portion 344 match the shapes of the fingers of the user, so that the user can conveniently take out or install the enclosure 31 from the card slot 341, thereby reducing the maintenance time. The handle portion 3112 may be integrally molded with the front case 311 by a mold.

The water absorbing material 33 includes a lateral portion 331 and a longitudinal portion 332, and the lateral portion 331 is attached to the rear case 312 and abuts against the vibrating portion 321. One end of the vertical portion 332 is connected to the horizontal portion 331, and the other end is disposed in the first water storage chamber 21A. Illustratively, the rear case 312 is provided with a limit groove 3121, the transverse portion 331 is mounted in the limit groove 3121, and one end of the transverse portion abuts against the vibration portion 321, and the other end abuts against the rear case 312. The vertical portion 332 is perpendicular to the horizontal portion 331. The packaging shell 31 is provided with a third through hole 313 corresponding to the first positioning tube 343, and the longitudinal portion 332 passes through the third through hole 313, the first positioning tube 343 and the second positioning tube 223 in sequence to be inserted into the first water storage cavity 21A.

The atomizing plate module 3 further includes an elastic member 35, the elastic member 35 is disposed between the transverse portion 331 and the rear housing 312, that is, one end of the elastic member 35 abuts against one end of the transverse portion 331 far away from the atomizing plate 32, and the other end abuts against the rear housing 312. The elastic member 35 may be a spring or the like that is elastically deformable. The elastic piece 35 is designed to pre-tighten the atomizing plate 32 and the transverse part 331 during the assembling process of the atomizing plate module 3, so that the atomizing plate 32 and the transverse part 331 are prevented from moving, and the assembling efficiency of the atomizing plate module 3 is improved; and the elastic member 35 can also increase the vibration frequency of the atomizing plate 32.

The atomizing sheet module 3 further includes a gasket 36, the gasket 36 is disposed between the atomizing sheet 32 and the rear housing, that is, one end of the gasket 36 abuts against the fixing portion 322, and the other end abuts against the limiting groove 3121. So can be fixed in the mounting groove 3111 with the atomizing piece 32, prevent that the atomizing piece 32 from taking place to remove when the vibration to prevent that the vibrating part 321 from colliding with backshell 312 and damaging, improved the reliability of atomizing piece module 3. It will be appreciated that the gasket 36 may be a rubber or the like having elasticity to further protect the atomization sheet 32 from damage.

The atomizing sheet module 3 further includes two conductive members 37, and each of the conductive members 37 is mounted on the rear housing 312. Each conductive member 37 has one end electrically connected to the atomizing plate 32 and the other end electrically connected to the circuit assembly 8. When the atomization plate module 3 is mounted on the first end plate 22, the atomization plate 32 can be electrically connected with the circuit assembly 8 through the conductive member 37. Therefore, complicated operations such as wiring and the like when the atomization plate 32 is installed in the sterilizer 100 can be omitted, so that the assembly time of the sterilizer 100 is reduced, and the user can conveniently maintain or replace the atomization plate 32.

The second end plate 23 is disposed at one end of the second water storage cavity 21B far from the first water storage cavity 21A and seals the second water storage cavity 21B. The ozone generator 4 is installed on one side of the second end plate 23 close to the first water storage cavity 21A, and the ozone generator 4 is used for electrolyzing the liquid in the second water storage cavity 21B to generate ozone. Illustratively, the ozone generator 4 includes an anode member 41 and a cathode member 42, and the anode member 41 and the cathode member 42 are spaced apart from each other. The ozone generator 4 further comprises an anode conductive pin 43 and a cathode conductive pin 44. The anode plug 43 has one end electrically connected to the anode member 41 and the other end mounted on the second end plate 23 and electrically connected to the circuit module 8. The cathode plug 44 has one end connected to the cathode member 42 and the other end mounted on the second end plate 23 and electrically connected to the circuit assembly 8. It should be noted that the number of the anode members 41 and the number of the cathode members 42 may be plural, thereby increasing the efficiency of the ozone generator 4 for generating ozone.

The sterilizer 100 further includes a decoration ring 9, and ozone generated by the ozone generator 4 electrolyzing the liquid in the second water storage chamber 21B is discharged out of the sterilizer 100 through the decoration ring 9, thereby sterilizing the external environment. The decoration ring 9 is arranged between the water injection upper cover 12 and the side wall 11, and the decoration ring 9 is arranged at a distance from the first end plate 22. Illustratively, the position of the decoration ring 9 corresponding to the water injection pipe 121 is provided with an avoidance hole 90, and the water injection pipe 121 passes through the avoidance hole 90 and then is connected with the water inlet pipe 222. The position of the decoration ring 9 corresponding to the top of the clamping seat 34 is provided with a notch 91, and the notch 91 is matched with the top of the clamping seat 34. The user can lift the water filling upper cover 12, then take out the clamping seat 34, and finally replace the atomizing plate 32. This facilitates the user to replace the atomization sheet 32 while maintaining the aesthetic appearance of the sterilizer 100.

The circuit assembly 8 includes a circuit board 81 and a battery 82, and the circuit board 81 and the battery 82 are electrically connected. Illustratively, the circuit board 81 is mounted on a side of the decorative ring 9 close to the first end plate 22, and the circuit board 81 is provided with a USB interface 811, and the USB interface 811 is used for charging the battery 82. The battery 82 is mounted on the side of the body portion 21 near the outer wall.

The sterilizer 100 further includes an air pump 6, and the air pump 6 is used to accelerate the discharge of ozone out of the sterilizer 100. Illustratively, the air pump 6 is mounted on a side of the first end plate 22 away from the second end plate 23, and the air outlet of the air pump 6 is close to the air outlet channel 221.

Compared with the prior art, the water storage cavity of the disinfection machine 100 is divided into the first water storage cavity 21A and the second water storage cavity 21B by the partition plate 24, the atomizing sheet module 3 atomizes liquid in the first water storage cavity 21A to generate mist, the ozone generator 4 electrolyzes liquid in the second water storage cavity 21B to generate ozone, the mist and the ozone are respectively discharged out of the shell 1 in different modes, ozone is prevented from entering the first water storage cavity 21A to form ozone water, the problems that the atomizing sheet module 3 is failed due to the fact that the ozone water corrodes the atomizing sheet module 3 and the like are solved, and therefore the service life of the disinfection machine 100 is prolonged.

In the description of the present application, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more features. The above detailed description of the disinfection machine provided in the embodiments of the present application, and the specific examples used herein to explain the principles and embodiments of the present application, are merely provided to help understand the method and the core ideas of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. A sterilizer, comprising:

a housing having an accommodating space;

the water tank is accommodated in the accommodating space and comprises a barrel part, a first end plate, a second end plate and a partition plate; the first end plate and the second end plate are respectively arranged at two opposite ends of the barrel part in a sealing manner so as to enclose a water storage cavity; the partition plate is arranged in the water storage cavity and divides the water storage cavity into a first water storage cavity and a second water storage cavity; the first end plate is provided with an air outlet channel which is communicated with the second water storage cavity;

the atomization piece module is arranged on one side, far away from the second end plate, of the first end plate and is used for atomizing and discharging liquid in the first water storage cavity out of the shell;

the ozone generator is arranged in the second water storage cavity and used for electrolyzing liquid in the second water storage cavity to generate ozone, and the ozone is discharged out of the water tank through the air outlet channel.

2. The disinfection machine of claim 1, further comprising a one-way valve disposed on the isolation plate, the one-way valve configured to allow one-way flow of the liquid in the first water storage chamber into the second water storage chamber.

3. A sterilizer as claimed in claim 1, wherein said separator plate is disposed in spaced relation between said first and second end plates; the first end plate, the barrel part and the partition plate are enclosed to form the first water storage cavity; the isolating plate, the barrel part and the second end plate are encircled to form the second water storage cavity.

4. A sterilizer as claimed in claim 3, wherein said air outlet channel extends from said first end plate to said partition plate and communicates with said second water storage chamber, said air outlet channel serving to separate said ozone from said first water storage chamber.

5. A sterilizer as claimed in claim 1, wherein the separator plates are connected to the barrel, the first end plate and the second end plate respectively.

6. The sterilizer of claim 1, wherein the housing comprises side walls, an upper water injection cover and a bottom cover, said upper water injection cover and said bottom cover being disposed at opposite ends of said side walls, respectively; and the water injection upper cover is close to the first end plate, and the bottom cover is close to the second end plate.

7. The disinfection machine of claim 6, wherein a water inlet pipe is arranged on one side of the first end plate close to the water injection upper cover, and the water inlet pipe is communicated with the first water storage cavity; the water injection upper cover is provided with a water injection pipe corresponding to the position of the water inlet pipe, and the water injection pipe is arranged in the water inlet pipe.

8. The sterilizer of claim 1, wherein the atomizing sheet module comprises an enclosure, an atomizing sheet, a water absorber and a cartridge, and the atomizing sheet module is mounted on the first end plate through the cartridge; one end of the water absorbing piece is abutted against the atomizing sheet, the other end of the water absorbing piece penetrates through the first end plate and then is arranged in the first water storage cavity, and the water absorbing piece is used for conveying liquid in the first water storage cavity to the atomizing sheet; the atomizing sheet is arranged in the packaging shell and is used for atomizing the liquid absorbed by the water absorbing piece; the packaging shell is arranged on the clamping seat.

9. A disinfecting machine as recited in claim 8, characterized in that a clamping groove is provided on the side of the clamping seat remote from the first end plate, and the packaging shell is disposed in the clamping groove; a positioning groove is formed in one side, close to the first end plate, of the clamping seat, a first positioning pipe is arranged in the positioning groove, and the first positioning pipe is communicated with the clamping groove; the first end plate is provided with a second positioning pipe corresponding to the position of the first positioning pipe, the second positioning pipe is communicated with the first water storage cavity, and the first positioning pipe is arranged in the second positioning pipe.

10. A disinfecting machine as recited in claim 9, characterized in that the first end plate is provided with a baffle at a position corresponding to the cassette, and the baffle provides a guiding function for the installation or removal of the cassette.

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