阅读说明：本技术 一种臭氧消毒设备和臭氧消毒系统 (Ozone disinfection equipment and ozone disinfection system ) 是由 何礼桂 于 2020-06-04 设计创作，主要内容包括：一种臭氧消毒设备和臭氧消毒系统。该臭氧消毒设备包括：消毒密封空间,用于收容待消毒设备或暂存臭氧,该消毒密封空间与避让孔连通；气体分配单元,包括彼此互通的第一接口、第二接口和第三接口,该第二接口用于与待消毒设备的进气端连通；臭氧发生单元,与该第一接口连通；该臭氧发生单元包括用于产生臭氧的臭氧发生器和用于将臭氧输向该第一接口的动力装置；抽气泵,该抽气泵具有吸气端口和排气端口,该吸气端口与该第三接口连通；过滤器,具有多个排气口和至少一个进气口,该过滤器的进气口与该抽气泵的排气端口连通；控制模块,用于连接和控制该臭氧发生单元和该抽气泵的工作。与现有技术相比,其具有更高效、快速、安全和环保的优势。(An ozone disinfection apparatus and an ozone disinfection system. The ozone disinfection apparatus comprises: the disinfection sealed space is used for accommodating equipment to be disinfected or temporarily storing ozone and is communicated with the avoidance hole; the gas distribution unit comprises a first interface, a second interface and a third interface which are communicated with each other, and the second interface is used for being communicated with the gas inlet end of the equipment to be disinfected; the ozone generating unit is communicated with the first interface; the ozone generating unit comprises an ozone generator for generating ozone and a power device for transmitting the ozone to the first interface; a suction pump having a suction port and an exhaust port, the suction port communicating with the third interface; a filter having a plurality of exhaust ports and at least one intake port, the intake port of the filter communicating with the exhaust port of the suction pump; and the control module is used for connecting and controlling the ozone generating unit and the air pump to work. Compared with the prior art, the method has the advantages of high efficiency, rapidness, safety and environmental protection.)

1. An ozone disinfection apparatus, comprising:

the device comprises a disinfection sealed space (102) used for accommodating equipment to be disinfected or temporarily storing ozone, wherein the disinfection sealed space (102) is communicated with an avoidance hole (104), and the avoidance hole (104) is used for inserting an air outlet end of the equipment to be disinfected;

a gas distribution unit (200) comprising a first interface, a second interface and a third interface which are communicated with each other, wherein the second interface is used for being communicated with the gas inlet end (601) of the equipment to be disinfected;

an ozone generating unit (300) having an ozone outlet (301) communicating with the first port; the ozone generating unit (300) comprises an ozone generator for generating ozone and a power device for delivering ozone to the first interface;

a suction pump (400), the suction pump (400) having a suction port (401) and an exhaust port (402), the suction port (401) communicating with the third interface;

a filter (500) having a plurality of exhaust ports (502) and at least one intake port (501), the intake port (501) of the filter (500) communicating with the exhaust port (402) of the suction pump (400);

and the control module (700) is used for connecting and controlling the ozone generating unit (300) and the air pump (400) to work.

2. Ozone disinfection apparatus according to claim 1, wherein the filter (500) comprises a hollow housing with a plurality of outlet openings (502) and inlet openings (501), at least one filter layer (504) being arranged between the inlet openings (501) and the outlet openings (502), and a buffer cavity (503) being arranged inside the housing between the filter layer (504) and the inlet openings (501) of the filter (500).

3. The ozone disinfection apparatus of claim 2, wherein two filter layers (504) are arranged between the air inlet (501) and the air outlet (502), and a gap is formed between the two filter layers (504).

4. An ozone disinfection apparatus as claimed in claim 3, characterized in that at least one of said filter layers (504) is filled with manganese-containing particles for catalysing the ozonolysis.

5. The ozone disinfection apparatus according to claim 1, characterized in that it comprises a base (101), said ozone generating unit (300), said suction pump (400) and said filter (500) being fixed to said base (101); the sterilizing sealed space (102) is located at an upper side of the ozone generating unit (300), the suction pump (400) and the filter (500).

6. The ozone disinfection apparatus as claimed in claim 1, wherein the opening and closing of the disinfection enclosure (102) is made of a clamshell type or a drawer type.

7. The ozone disinfection apparatus as claimed in claim 1, wherein the control module (700) comprises a display screen for displaying work progress and work content.

8. The ozone disinfection apparatus of claim 7, wherein the work schedule comprises a percentage of total work time or a countdown of work time.

9. The ozone disinfection apparatus of claim 1, wherein the control module (700) is configured to control the ozone generating unit (300) to output sufficient ozone such that the concentration of ozone in the disinfection enclosure (102) is not below a level that would kill common pathogens inside the ventilator.

10. The ozone sterilization apparatus according to claim 1, wherein a suction air amount of said suction pump (400) is not lower than an exhaust air amount of said ozone generation unit (300).

11. The ozone disinfection apparatus according to claim 1, wherein the ozone generating unit (300) communicates with the first port of the gas distribution unit (200) through a first line (201); the suction port (401) of the suction pump (400) is communicated with the third interface of the gas distribution unit (200) through a third pipeline (203); an exhaust port (402) of the suction pump (400) is communicated with an air inlet (501) of the filter (500) through a fourth pipe (204); the second port of the gas distribution unit (200) is connected to the gas inlet end (601) of the device to be disinfected via a second line (202).

12. The ozone disinfection apparatus of claim 11, wherein the first pipeline (201), the second pipeline (202), the third pipeline (203) and the fourth pipeline (204) are made of silica gel or EPDM.

13. An ozone disinfection system, comprising: a ventilator (600), a hose (602), a mask (603), and the ozone disinfection apparatus of any of claims 1-12;

the respirator (600), the hose (602) and the mask (603) are communicated in sequence;

the air inlet end (601) of the respirator (600) is communicated with a second interface of a gas distribution unit (200) of the ozone disinfection equipment through a second pipeline (202);

the air outlet end of the hose (602) extends into the disinfection sealed space (102) from the avoidance hole (104);

the mask (603) is accommodated in the disinfection and sealing space (102).

14. The ozone disinfection system of claim 13, wherein the control module (700) is configured to control the ozone generating unit (300) to output sufficient ozone such that the concentration of ozone in the disinfection enclosure (102) is not below a level that would kill common pathogens inside the ventilator.

15. The ozone sterilization system according to claim 13, wherein a suction air amount of said suction pump (400) is not lower than an exhaust air amount of said ozone generation unit (300).

16. The ozone disinfection system as claimed in claim 13, wherein the opening and closing of the disinfection enclosure (102) is made of a clamshell or a drawer.

17. An ozone disinfection system as claimed in claim 13, wherein said ozone generating unit (300) communicates with a first interface of said gas distribution unit (200) through a first line (201); the suction port (401) of the suction pump (400) is communicated with the third interface of the gas distribution unit (200) through a third pipeline (203); an exhaust port (402) of the suction pump (400) is communicated with an air inlet (501) of the filter (500) through a fourth pipe (204); the second port of the gas distribution unit (200) is connected to the ventilator (600) via a second line (202).

18. An ozone disinfection system, comprising: -a hose (602), a mask (603), and an ozone disinfection apparatus according to any of claims 1-12;

the hose (602) and the mask (603) are in communication;

the air inlet end (601) of the hose (602) is communicated with a second interface of a gas distribution unit (200) of the ozone disinfection device through a second pipeline (202);

the air outlet end of the hose (602) extends into the disinfection sealed space (102) from the avoidance hole (104);

the mask (603) is accommodated in the disinfection and sealing space (102).

19. An ozone disinfection system as claimed in claim 18, wherein said ozone generating unit (300) communicates with a first interface of said gas distribution unit (200) through a first line (201); the suction port (401) of the suction pump (400) is communicated with the third interface of the gas distribution unit (200) through a third pipeline (203); an exhaust port (402) of the suction pump (400) is communicated with an air inlet (501) of the filter (500) through a fourth pipe (204); the second connection of the gas distribution unit (200) is connected to the hose (602) via a second line (202).

Technical Field

The invention relates to the technical field of disinfection, in particular to equipment capable of disinfecting a breathing machine, a mask and a hose, and more particularly relates to ozone disinfection equipment and an ozone disinfection system.

Background

At present, the ozone disinfection mode is generally applied to the fields of medical instruments, tableware, food processing and the like. The ozone disinfection efficiency is high, and the economy is strong. When the articles are disinfected by ozone, the articles to be disinfected are required to be placed in the closed space, and ozone is introduced into the closed space to realize disinfection. Because the space for introducing ozone is closed, and ozone with higher concentration is needed to realize comprehensive disinfection. Resulting in ozone being partially retained in the enclosed space after the items are sterilized. Such as within the ventilator, or in the ventilator circuit. Can not be completely eliminated in a short time, and further, when a user takes out an article, a sharp taste can be generated; on the other hand, the human health is also harmed by the large amount of inhaled ozone. At present, equipment and products for carrying out ozone disinfection on a respirator in the market do not actively recover ozone. The active elimination is characterized in that the equipment can actively recover all generated residual ozone, so that the ozone can be filtered, catalyzed and decomposed by the ozone filter, and the safe and reliable effect is achieved. Different from the passive technology, the passive technology is that a filter is placed at a certain position in a disinfection space, ozone is simply adsorbed through the surface under the condition of no external force, the effect of the technology is poor, the efficiency is low, and ozone which is only around the filter can be simply adsorbed can not effectively adsorb ozone which is remained in other spaces such as a hose.

The above is only for the purpose of assisting understanding of the technical solutions of the present application, and does not represent an admission that the above is prior art.

Disclosure of Invention

The technical problem to be solved by the invention is to provide ozone disinfection equipment, which can be used for quickly disinfecting a breathing machine, a mask and a hose, and can efficiently extract ozone residues and evacuate the filtered ozone residues after disinfection is finished, so that the ozone residues are eliminated at high speed, and ozone pollution to the surrounding environment is avoided.

The invention aims to solve another technical problem of providing an ozone disinfection system.

Still another object of the present invention is to provide an ozone sterilization system.

In order to solve the technical problem, the technical scheme adopted by the invention is to provide ozone disinfection equipment, which comprises:

the disinfection sealed space is used for accommodating equipment to be disinfected or temporarily storing ozone, and is communicated with an avoidance hole, and the avoidance hole is used for inserting an air outlet end of the equipment to be disinfected;

the gas distribution unit comprises a first interface, a second interface and a third interface which are communicated with each other, wherein the second interface is used for being communicated with the gas inlet end of the equipment to be disinfected;

the ozone generating unit is provided with an ozone outlet communicated with the first interface; the ozone generating unit comprises an ozone generator for generating ozone and a power device for transmitting the ozone to the first interface;

a suction pump having a suction port and an exhaust port, the suction port in communication with the third interface;

a filter having a plurality of exhaust ports and at least one intake port, the intake port of the filter communicating with the exhaust port of the suction pump;

and the control module is used for connecting and controlling the ozone generating unit and the air pump to work.

Through adopting the ozone disinfection equipment among the above-mentioned technical scheme, when disinfecting breathing machine and face guard and hose, with breathing machine and second interface intercommunication, open disinfection confined space after insert the disinfection confined space with the hose from dodging the hole in to put into disinfection confined space with the face guard, close disinfection confined space after connecting breathing machine, hose and face guard in proper order. After the operation is finished, the ozone generating unit is started through the control module, and ozone generated by the ozone generating unit flows into the breathing machine, the hose, the face mask and the disinfection sealed space in sequence through the gas distribution unit, so that ozone disinfection treatment is carried out on the breathing machine, the hose and the face mask. After the disinfection is accomplished, through control module control ozone generation unit stop work and start the aspiration pump, the aspiration pump produces powerful negative pressure, will remain and all take out extremely at the inside ozone of disinfection enclosure space, face guard, hose and breathing machine the filter, the filter carries out evacuation after the catalytic decomposition handles to the ozone of flowing through to eliminate in the disinfection enclosure space and breathing machine, hose, the face guard remaining ozone, avoid the user to inhale remaining ozone when using breathing machine, hose, face guard after the disinfection, can not produce ozone pollution to all ring edge borders again simultaneously. The safety and the environmental protection of the ozone disinfection equipment are improved. Compared with the prior passive ozone disinfection technology, the method has the advantages of high efficiency, rapidness, safety and environmental protection.

In addition, the power device can rapidly discharge the ozone generated by the ozone generator into the second interface, that is, the ozone generated by the ozone generator does not enter the second interface through a slow diffusion process, so that the working efficiency of the whole ozone disinfection equipment is improved.

As an improvement of the ozone disinfection equipment provided by the invention, the filter comprises a hollow shell, the shell is provided with a plurality of air outlets and air inlets, at least one filter layer is arranged between the air inlets and the air outlets, and a buffer cavity is arranged in the shell and is positioned between the filter layer and the air inlets of the filter. Through the improvement, because the filter is provided with a plurality of exhaust ports, the pollution-free gas generated after the ozone is catalytically decomposed can be discharged more quickly, and the ventilation efficiency of the filter is improved. In addition, considering that solid particles such as dust particles can be included in the fast flowing ozone gas, a buffer cavity is designed in the shell, and the buffer cavity is used for collecting the solid particles included in the ozone gas and facilitating centralized removal.

As an improvement of the ozone disinfection equipment provided by the invention, two filter layers are arranged between the air inlet and the air outlet, and a gap is formed between the two filter layers. Through the improvement, the catalytic decomposition capacity and efficiency of ozone in the filter are improved, and the gas discharged from the filter is ensured to be free of ozone.

As an improvement of the ozone disinfection equipment provided by the invention, at least one layer of the filter layer is filled with manganese-containing particles for catalyzing the ozone decomposition. Through the improvement, the ozone flowing through the filter is decomposed into nontoxic and pollution-free oxygen under the action of the particles, so that the sanitation and safety of the surrounding environment are ensured.

As an improvement of the ozone disinfection device provided by the invention, the ozone disinfection device comprises a base, wherein the ozone generating unit, the air suction pump and the filter are all fixed on the base; the disinfection sealed space is positioned at the upper sides of the ozone generating unit, the air suction pump and the filter; the opening and closing of the disinfection sealed space adopt a flip type or a drawer type. Through the improvement, the inner space of the ozone disinfection equipment is fully utilized, the integral miniaturization of the ozone disinfection equipment is facilitated, and the portability of the ozone disinfection equipment is improved.

As an improvement of the ozone disinfection device provided by the invention, the control module comprises a display screen for displaying the working progress and the working content. The work schedule includes a percentage of total work time or a countdown of work time. Through the improvement, a user can better know the working progress and the working content of the ozone disinfection equipment.

As an improvement of the ozone disinfection equipment provided by the invention, the control module is used for controlling the ozone generating unit to output enough ozone so that the concentration of the ozone in the disinfection sealed space is not lower than a concentration value capable of killing conventional germs inside the respirator. Through the improvement, the ozone generating unit can generate enough ozone in the disinfection process, and the germs in the breathing machine, the hose and the mask can be completely killed.

As an improvement of the ozone disinfection equipment provided by the invention, the air pumping quantity of the air pumping pump is not lower than the air displacement of the ozone generating unit. Through the improvement, the elimination efficiency of the ozone residue is further improved.

As an improvement of the ozone disinfection device provided by the invention, the ozone generating unit is communicated with the first interface of the gas distribution unit through a first pipeline; the air suction port of the air suction pump is communicated with the third interface of the gas distribution unit through a third pipeline; an exhaust port of the air pump is communicated with an air inlet of the filter through a fourth pipeline; the second interface of the gas distribution unit is communicated to the gas inlet end of the equipment to be disinfected through a second pipeline; the first pipeline, the second pipeline, the third pipeline and the fourth pipeline are made of silica gel or EPDM.

In order to solve another technical problem, the present invention provides an ozone disinfection system, including: a ventilator, a hose, a mask, and an ozone disinfection device as described above;

the respirator, the hose and the mask are communicated in sequence;

the air inlet end of the respirator is communicated with a second interface of the gas distribution unit of the ozone disinfection equipment through a second pipeline;

the air outlet end of the hose extends into the disinfection sealed space from the avoidance hole;

the mask is contained in the disinfection sealed space.

In the ozone disinfection system provided by the invention, the control module is used for controlling the ozone generating unit to output enough ozone so that the concentration of the ozone in the disinfection sealed space is not lower than a concentration value capable of killing conventional germs inside the respirator.

In the ozone disinfection system provided by the invention, the air pumping quantity of the air pumping pump is not lower than the air displacement of the ozone generating unit.

In the ozone disinfection system provided by the invention, the opening and closing of the disinfection sealed space adopt a flip type or a drawer type.

In the ozone disinfection system provided by the invention, the ozone generating unit is communicated with the first interface of the gas distribution unit through a first pipeline; the air suction port of the air suction pump is communicated with the third interface of the gas distribution unit through a third pipeline; an exhaust port of the air pump is communicated with an air inlet of the filter through a fourth pipeline; the second interface of the gas distribution unit is communicated to the respirator through a second pipeline.

In order to solve another technical problem, the present invention provides an ozone disinfection system, including: hose, face mask, and ozone disinfection device as described above;

the hose is communicated with the mask;

the air inlet end of the hose is communicated with a second interface of the gas distribution unit of the ozone disinfection equipment through a second pipeline;

the air outlet end of the hose extends into the disinfection sealed space from the avoidance hole;

the mask is contained in the disinfection sealed space.

In the ozone disinfection system provided by the invention, the control module is used for controlling the ozone generating unit to output enough ozone so that the concentration of the ozone in the disinfection sealed space is not lower than a concentration value capable of killing conventional germs inside the respirator.

In the ozone disinfection system provided by the invention, the air pumping quantity of the air pumping pump is not lower than the air displacement of the ozone generating unit.

In the ozone disinfection system provided by the invention, the opening and closing of the disinfection sealed space adopt a flip type or a drawer type.

In the ozone disinfection system provided by the invention, the ozone generating unit is communicated with the first interface of the gas distribution unit through a first pipeline; the air suction port of the air suction pump is communicated with the third interface of the gas distribution unit through a third pipeline; an exhaust port of the air pump is communicated with an air inlet of the filter through a fourth pipeline; the second port of the gas distribution unit is communicated to the hose through a second pipeline.

Compared with the prior art, the implementation of the invention can achieve the following beneficial effects:

1. ozone disinfection equipment can carry out ozone disinfection to breathing machine, hose, face guard, can also will remain simultaneously and disinfect sealed space, face guard, hose and the inside ozone of breathing machine all take out extremely the filter, the filter carries out catalytic decomposition to the ozone of flowing through and handles the back evacuation to eliminate in the sealed space of disinfection and breathing machine, hose, the face guard remaining ozone, avoid the user to inhale remaining ozone when using breathing machine, hose, the face guard after the disinfection, can not produce ozone pollution to all ring edge borders again simultaneously. The safety and the environmental protection of the ozone disinfection equipment are improved. Compared with the prior passive ozone disinfection technology, the method has the advantages of high efficiency, rapidness, safety and environmental protection.

2. The ozone generating unit comprises an ozone generator for generating ozone and a power device for transmitting the ozone to the first interface. The power device can rapidly discharge the ozone generated by the ozone generator into the second interface, namely, the ozone generated by the ozone generator does not enter the second interface through a slow diffusion process, so that the working efficiency of the whole ozone disinfection equipment is improved.

3. Because the filter is provided with a plurality of exhaust ports, the pollution-free gas generated after the ozone is catalytically decomposed can be discharged more quickly, and the ventilation efficiency of the filter is improved. In addition, considering that solid particles such as dust particles can be included in the fast flowing ozone gas, a buffer cavity is designed in the shell, and the buffer cavity is used for collecting the solid particles included in the ozone gas and facilitating centralized removal.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a first view of an ozone disinfection device according to a first embodiment of the present invention, illustrating a state of the ozone disinfection device in disinfecting a ventilator, a hose, and a mask;

FIG. 2 is a schematic diagram of an ozone disinfection apparatus provided in an embodiment of the present invention for disinfecting a ventilator, a hose, and a mask, in which straight line arrows represent ozone output and a path for disinfecting objects passing through, and curved arrows represent a path for filtering ozone pumped back by a suction pump;

FIG. 3 is a schematic view of the internal structure of an ozone sterilization apparatus according to an embodiment of the present invention;

FIG. 4 is a schematic sectional view of a filter of an ozone sterilization apparatus according to an embodiment of the present invention;

FIG. 5 is a view (II) showing a state of use of the ozone sterilization apparatus according to the first embodiment of the present invention, in which the ozone sterilization apparatus sterilizes the hose and the mask;

FIG. 6 is a schematic diagram of an ozone sterilization apparatus for sterilizing a hose and a mask according to an embodiment of the present invention, in which straight arrows indicate the paths of ozone output and sterilization of objects passing through, and curved arrows indicate the paths of ozone pumped back by a suction pump for filtration;

fig. 7 is a schematic perspective view of an ozone disinfection apparatus according to an embodiment of the present invention.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B," including either the A or B arrangement, or both A and B satisfied arrangement. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Example one

The present embodiment provides an ozone disinfection apparatus 100. The ozone disinfection apparatus 100 is particularly suitable for disinfecting a respiratory device. The breathing device comprises a breathing machine 600, a hose 602 and a mask 603 which are sequentially communicated. It is understood that the ventilator 600 is connected to the mask 603 through a hose 602, that the ventilator 600 is detachably connected to the hose 602, and that the mask 603 is detachably connected to the hose 602.

In the present embodiment, referring to fig. 1, the ozone sterilizing apparatus 100 includes: the disinfection sealed space 102 is used for accommodating equipment to be disinfected or temporarily storing ozone, the disinfection sealed space 102 is communicated with an avoidance hole 104, and the avoidance hole 104 is used for inserting an air outlet end of the equipment to be disinfected; the gas distribution unit 200 comprises a first interface, a second interface and a third interface which are communicated with each other, wherein the second interface is used for being communicated with the gas inlet end 601 of the equipment to be disinfected; an ozone generating unit 300, an ozone outlet 301 of which is communicated with the first interface; the ozone generating unit 300 comprises an ozone generator for generating ozone and a power device for transmitting the ozone to the first interface; a suction pump 400, said suction pump 400 having a suction port 401 and an exhaust port 402, said suction port 401 communicating with said third interface; a filter 500 having a plurality of exhaust ports 502 and at least one intake port 501, the intake port 501 of the filter 500 communicating with the exhaust port 402 of the suction pump 400; and a control module 700 for connecting and controlling the operation of the ozone generating unit 300 and the air pump 400.

In this embodiment, the opening and closing of the disinfection and sealing space 102 is implemented by a drawer. Specifically, referring to fig. 1, 3 and 7, the ozone disinfection apparatus 100 includes an outer box and an inner box, the outer box includes a top cover, a base 101 and a peripheral side wall connected between the top cover and the base 101, and a mounting hole for inserting the inner box is formed at the front side of the peripheral side wall. The upper end of the inner box body is provided with an opening, the disinfection sealed space 102 is arranged in the inner box body, and the avoidance hole 104 is arranged on the front side of the inner box body. When the inner box body is inserted into the outer box body from the mounting hole, the opening at the upper end of the inner box body is blocked, and at the moment, the disinfection sealed space 102 can only be communicated with the outside through the avoiding hole 104, namely, if the avoiding hole 104 is blocked, the gas in the disinfection sealed space 102 cannot escape.

In some other embodiments, the opening and closing of the disinfection sealed space 102 may also be a flip cover, and the detailed structure of the present invention is not described in detail. It should be understood that this is also the claimed solution.

In this embodiment, referring to fig. 3, the ozone generating unit 300, the suction pump 400 and the filter 500 are all fixed on the base 101; the sterilizing sealed space 102 is located at an upper side of the ozone generating unit 300, the suction pump 400 and the filter 500. Specifically, when the inner box is inserted into the outer box, the inner box is located just above the base 101, and the ozone generating unit 300, the suction pump 400 and the filter 500 are located between the inner box and the base 101. By the design, the inner space of the outer box body is fully utilized, the whole miniaturization of the ozone disinfection equipment 100 is facilitated, and the portability of the ozone disinfection equipment is improved.

In this embodiment, referring to fig. 3, the ozone generating unit 300 is communicated with the first interface of the gas distribution unit 200 through the first pipeline 201; the suction port 401 of the suction pump 400 communicates with the third port of the gas distribution unit 200 through the third pipe 203; the exhaust port 402 of the suction pump 400 communicates with the intake port 501 of the filter 500 through the fourth pipe 204; the second port of the gas distribution unit 200 is connected to the gas inlet 601 of the device to be disinfected via a second line 202. Preferably, the first pipeline 201, the second pipeline 202, the third pipeline 203 and the fourth pipeline 204 are made of silica gel.

In some other embodiments, the material of the first pipe 201, the second pipe 202, the third pipe 203 and the fourth pipe 204 may also be EPDM.

In this embodiment, the gas distribution unit 200 is a tee.

In this embodiment, the filter 500 has a plurality of the exhaust ports 502. Specifically, referring to fig. 4, the filter 500 includes a hollow casing having a plurality of exhaust ports 502 and an intake port 501, the intake port 501 is disposed at a lower side of the plurality of exhaust ports 502, at least one filter layer 504 is disposed between the intake port 501 and the exhaust port 502, and a buffer cavity 503 is disposed in the casing and is communicated with the intake port 501 of the filter 500, and is located at a lower side of the filter layer 504 at the lowest side. Because the filter 500 is provided with a plurality of exhaust ports 502, the pollution-free gas generated after the ozone is catalytically decomposed can be exhausted more quickly, and the ventilation efficiency of the filter 500 is improved. In addition, considering that solid particles such as dust particles may be entrained in the fast flowing ozone gas, a buffer cavity 503 is designed inside the housing and is used for collecting the solid particles entrained in the ozone gas, so as to facilitate centralized removal. Preferably, two filter layers 504 are disposed between the inlet 501 and the outlet 502, and a gap is formed between the two filter layers 504. This improves the catalytic decomposition capacity and efficiency of the filter 500 for ozone, and ensures that the gas discharged from the filter 500 is free of ozone. Here, at least one of the filter layers 504 is filled with manganese-containing particles for catalyzing the decomposition of ozone, so that the ozone flowing through the filter 500 is decomposed into non-toxic and pollution-free oxygen under the action of the particles, thereby ensuring the sanitation and safety of the surrounding environment.

In some other embodiments, three or more layers of the filter layers 504 may be disposed in the housing, and a gap is left between two adjacent filter layers 504, so that ozone flowing through the filter 500 flows in from the inlet 501 of the filter 500, sequentially passes through the layers of the filter layers 504, and then is discharged from the outlet 502. Ozone can be completely decomposed into nontoxic and pollution-free oxygen after being catalyzed and decomposed by the plurality of filter layers 504. It should be noted that the substance filled in each of the filter layers 504 may be the same, and of course, may be different, as long as the function of absorbing or catalyzing the decomposition of ozone is provided.

In this embodiment, the power device is a positive pressure air pump, so that the ozone generated by the ozone generator is rapidly discharged into the second interface, that is, the ozone generated by the ozone generator does not enter the second interface through a slow diffusion process, so that the working efficiency of the entire ozone disinfection apparatus 100 is improved.

Referring to fig. 1 and 2, when the ozone disinfection apparatus 100 is used to disinfect a ventilator 600, a mask 603 and a hose 602 thereof, the ventilator 600 is communicated with a second interface through a second pipeline 202, the hose 602 is inserted into the disinfection sealed space 102 from the avoidance hole 104 after the disinfection sealed space 102 is opened, the mask 603 is placed into the disinfection sealed space 102, and the ventilator 600, the hose 602 and the mask 603 are sequentially connected to close the disinfection sealed space 102. After the above operations are completed, the ozone generating unit 300 is started by the control module 700, and ozone generated by the ozone generating unit 300 flows into the ventilator 600, the hose 602, the mask 603 and the disinfection sealed space 102 in sequence through the gas distribution unit 200, so as to perform ozone disinfection treatment on the ventilator 600, the hose 602 and the mask 603. After the disinfection is completed, control ozone generation unit 300 through control module 700 stops working and starts aspiration pump 400, and aspiration pump 400 produces powerful negative pressure, will remain the inside ozone of disinfection enclosure 102, face guard 603, hose 602 and breathing machine 600 all take out extremely filter 500, filter 500 carries out the evacuation after the catalytic decomposition processing to the ozone that flows through to eliminate in the disinfection enclosure 102 and breathing machine 600, hose 602, face guard 603 remaining ozone, avoid the user to inhale remaining ozone when using the breathing machine 600, hose 602, face guard 603 after the disinfection, can not produce ozone pollution to the surrounding environment again simultaneously. The safety and environmental friendliness of the ozone disinfection apparatus 100 are improved. Compared with the prior passive ozone disinfection technology, the method has the advantages of high efficiency, rapidness, safety and environmental protection.

Referring to fig. 5 and 6, when the ozone disinfection apparatus 100 is used to disinfect the mask 603 and the hose 602, the hose 602 is communicated with the second port through the second pipeline 202, the disinfection sealed space 102 is opened, the hose 602 is inserted into the disinfection sealed space 102 from the avoidance hole 104, the mask 603 is placed into the disinfection sealed space 102, and the disinfection sealed space 102 is closed after the hose 602 and the mask 603 are connected. After the above operations are completed, the ozone generating unit 300 is activated by the control module 700, and ozone generated by the ozone generating unit 300 flows into the hose 602, the mask 603 and the disinfection sealed space 102 in sequence through the gas distribution unit 200, so that the hose 602 and the mask 603 are subjected to ozone disinfection treatment. After the disinfection is completed, the ozone generating unit 300 is controlled by the control module 700 to stop working and start the air pump 400, the air pump 400 generates strong negative pressure, all ozone remained in the disinfection sealed space 102, the mask 603 and the hose 602 is pumped to the filter 500, the filter 500 carries out catalytic decomposition treatment on the ozone flowing through and then exhausts the ozone, so that the ozone remained in the disinfection sealed space 102, the hose 602 and the mask 603 is eliminated, the phenomenon that a user inhales residual ozone when using the disinfected hose 602 and the mask 603 is avoided, and ozone pollution to the surrounding environment is avoided. The safety and environmental friendliness of the ozone disinfection apparatus 100 are improved. Compared with the prior passive ozone disinfection technology, the method has the advantages of high efficiency, rapidness, safety and environmental protection.

Through experimental tests, the residual ozone after disinfection can be quickly and completely recycled and then completely processed safely through the ozone filter 500, and the residual ozone in the breathing machine 600, the hose 602 and the disinfection sealed space 102 can be actively removed. The invention is characterized in that the ozone is actively eliminated, and the ozone elimination device 100 can actively recycle all the generated residual ozone, so that the ozone can be filtered, catalyzed and decomposed by the ozone filter 500 to form nontoxic and pollution-free gas, thereby achieving the effects of safety and reliability. Unlike the passive technology in the prior art, the passive technology is to place the filter 500 at a certain position in the disinfection space, and to simply adsorb ozone through the surface without external force, and the passive technology has poor effect and low efficiency, and can only simply adsorb ozone around the filter 500 and cannot effectively adsorb ozone remaining in other spaces such as the hose 602.

In some other implementations, if both ozone generating unit 300 and pump 400 are connected to gas distribution unit 200, one or more interfaces of gas distribution unit 200 to the sterile sealed space 102 are within the scope of protection.

Further, the ozone sterilizing apparatus 100 is provided with a door opening button 103 and a handle 105. Referring to fig. 7, the door opening button 103 is provided on the top cover of the outer case, and the handle 105 is provided at the front side of the inner case. The cap opening button 103 functions to lock the inner case, and when the cap opening button 103 is pressed, the inner case is unlocked and the outer case can be drawn out by pulling the handle 105, thereby opening the sterilization and containment space 102.

Further, referring to fig. 7, the control module 700 includes a display screen for displaying the work progress and the work content. The work schedule includes a percentage of total work time or a countdown of work time. In this way, the user can better understand the working progress and working content of the ozone disinfection device 100.

Further, the control module 700 is configured to control the ozone generating unit 300 to output enough ozone to make the ozone concentration in the disinfection sealed space 102 not lower than a concentration value capable of killing the conventional germs inside the respirator. This ensures that sufficient ozone is generated by the ozone generating unit 300 during the disinfection process to ensure that the germs in the ventilator 600, the hose 602 and the mask 603 are completely killed.

Further, referring to fig. 7, in order to facilitate the connection between the second pipeline 202 and the gas distribution unit 200, the second port of the gas distribution unit 200 is designed to penetrate out of the outer box.

Example two

The present embodiments provide an ozone disinfection system. The system comprises a respirator 600, a hose 602, a mask 603 and ozone disinfection equipment provided by the first embodiment; the respirator 600, the hose 602 and the mask 603 are communicated in sequence; the air inlet 601 of the ventilator 600 is communicated with the second interface of the gas distribution unit 200 of the ozone disinfection device through a second pipeline 202; the air outlet end of the hose 602 extends into the disinfection sealed space 102 from the avoidance hole 104; the mask 603 is housed in the sterile sealed space 102. The hose 602 and the mask 603 are both devices matched with the respirator 600.

The control module 700 is used for controlling the ozone generating unit 300 to output enough ozone so that the ozone concentration in the disinfection sealed space 102 is not lower than a concentration value capable of killing conventional germs inside the respirator.

In this embodiment, the air pumping amount of the air pumping pump 400 is not less than the air displacement of the ozone generating unit 300.

In this embodiment, the opening and closing of the disinfection and sealing space 102 is implemented by a drawer. Of course, in other embodiments, a clamshell style may be used.

In this embodiment, the ozone generating unit 300 is communicated with the first port of the gas distribution unit 200 through a first pipeline 201; the suction port 401 of the suction pump 400 communicates with the third port of the gas distribution unit 200 through the third pipe 203; the exhaust port 402 of the suction pump 400 communicates with the intake port 501 of the filter 500 through the fourth pipe 204; the second port of the gas distribution unit 200 communicates to the ventilator 600 via a second line 202.

The working principle of the ozone disinfection device is shown in the first embodiment of the invention, which relates to the process of disinfecting the respirator 600, the mask 603 and the hose 602 by using the ozone disinfection device 100.

EXAMPLE III

The present embodiments provide an ozone disinfection system. The ozone disinfection system comprises a hose 602, a mask 603 and the ozone disinfection equipment provided by the first embodiment; the hose 602 and the mask 603 are in communication; the air inlet end 601 of the hose 602 is communicated with the second interface of the gas distribution unit 200 of the ozone disinfection device through the second pipeline 202; the air outlet end of the hose 602 extends into the disinfection sealed space 102 from the avoidance hole 104; the mask 603 is housed in the sterile sealed space 102. The hose 602 and the mask 603 are both devices matched with the respirator 600.

In this embodiment, the control module 700 is configured to control the ozone generating unit 300 to output enough ozone to make the ozone concentration in the disinfection sealed space 102 not lower than a concentration value capable of killing conventional germs inside the ventilator.

In this embodiment, the air pumping amount of the air pumping pump 400 is not less than the air displacement of the ozone generating unit 300.

In this embodiment, the opening and closing of the disinfection and sealing space 102 is implemented by a drawer. Of course, in other embodiments, a clamshell style may be used.

In this embodiment, the ozone generating unit 300 is communicated with the first port of the gas distribution unit 200 through a first pipeline 201; the suction port 401 of the suction pump 400 communicates with the third port of the gas distribution unit 200 through the third pipe 203; the exhaust port 402 of the suction pump 400 communicates with the intake port 501 of the filter 500 through the fourth pipe 204; the second port of the gas distribution unit 200 is connected to the hose 602 via a second line 202

The working principle of the ozone disinfection device is shown in the first embodiment of the invention, which relates to the process of disinfecting the hose 602 and the mask 603 by using the ozone disinfection device 100.

The above description is only an alternative embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.