CN216693921U - Disinfection apparatus - Google Patents

Abstract

The present application provides a disinfection apparatus, the apparatus comprising: electrolysis mechanism, casing, fan and control mechanism. The electrolysis mechanism is used for electrolyzing water containing chlorine elements to generate a solution containing hypochlorous acid; the shell is provided with a disinfection cavity; the fan is arranged in the disinfection cavity and used for bringing air into the disinfection cavity so as to disinfect the air through a solution containing hypochlorous acid and discharge the disinfected air from the disinfection cavity; the control mechanism is respectively connected with the electrolysis mechanism and the fan and is used for controlling the electrolysis mechanism and the fan to work. The application discloses disinfecting equipment can improve the convenience that disinfecting equipment used to reduce the disinfection cost.

Description

Disinfection apparatus

Technical Field

The application relates to the technical field of air disinfection, in particular to a disinfection device.

Background

The air contains various microorganisms such as bacteria and viruses, once the temperature and the humidity are proper, various microorganisms floating in the air can grow and reproduce quickly, and the harmful microorganisms can cause various inflammations after entering the respiratory tract of a human body through the air, and particularly, the harmful microorganisms are easy to cause infection after being inhaled into people such as old people and children with relatively weak resistance. In addition, the indoor microorganisms include mold and actinomycetes, besides bacteria, which may cause pneumonia or respiratory diseases and cause harm to human health.

The raw materials of the existing disinfection equipment for disinfection generally adopt the existing disinfectant, and the disinfection equipment is inconvenient to take materials, so that the disinfection equipment is not convenient to use and has high disinfection cost.

SUMMERY OF THE UTILITY MODEL

The main technical problem who solves of this application provides a disinfecting equipment, improves the convenience that disinfecting equipment used and reduces the disinfection cost.

In order to solve the technical problem, the present application provides a sterilization apparatus, which includes an electrolysis mechanism, a housing, a blower, and a control mechanism. The electrolysis mechanism is used for electrolyzing water containing chlorine elements to generate a solution containing hypochlorous acid; the shell is provided with a disinfection cavity; the fan is arranged in the disinfection cavity and used for bringing air into the disinfection cavity so as to disinfect the air through a solution containing hypochlorous acid and discharge the disinfected air from the disinfection cavity; the control mechanism is respectively connected with the electrolysis mechanism and the fan and is used for controlling the electrolysis mechanism and the fan to work.

The beneficial effect of this application does: the control mechanism controls the electrolysis mechanism to electrolyze water containing chlorine elements to generate a solution containing hypochlorous acid, and controls a fan arranged in a disinfection cavity formed by the shell to bring air into the disinfection cavity, disinfect the air through the solution containing hypochlorous acid, and discharge the disinfected air from the disinfection cavity. The sterilizing equipment can sterilize and disinfect the air in the surrounding environment of the sterilizing equipment in the mode, so that the air quality is improved, and a layer of guarantee is provided for the respiratory health of a human body; and this application just can follow the solution that contains hypochlorous acid through electrolysis mechanism, antiseptic solution promptly, and the raw materials is drawn materials conveniently, and the cost is lower, can improve the convenience that disinfecting equipment used and reduce the disinfection cost.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

FIG. 1 is a schematic structural view of an embodiment of the disinfection apparatus of the present application;

FIG. 2 is a schematic structural view of another embodiment of the disinfection apparatus of the present application;

FIG. 3 is a schematic view of an embodiment of the disinfection apparatus of 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, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work according to the embodiments of the present application are within the scope of the present application.

In the description of the embodiments of the present application, it should be noted that the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, unless explicitly stated or limited otherwise; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. Specific meanings of the above terms in the embodiments of the present application can be understood in specific cases by those of ordinary skill in the art.

In the embodiments of the present application, unless otherwise explicitly specified or limited, a first feature "on" or "under" a second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

Referring to fig. 1, fig. 1 is a schematic structural view of an embodiment of the sterilization apparatus of the present application. The sterilization apparatus 100 of the present embodiment includes an electrolysis mechanism 110, a housing 120, a fan 130, and a control mechanism 140. The electrolysis mechanism 110 is used for electrolyzing water containing chlorine elements to generate a solution containing hypochlorous acid; the housing 120 is formed with a sterilization chamber 121; a blower 130 is disposed in the sterilizing chamber 121 for taking air into the sterilizing chamber 121 to sterilize the air by a solution containing hypochlorous acid and discharging the sterilized air from the sterilizing chamber 121; the control mechanism 140 is connected to the electrolysis mechanism 110 and the blower 130, respectively, and is used for controlling the electrolysis mechanism 110 and the blower 130 to work.

The control means 140 controls the electrolysis means 110 to electrolyze the water containing chlorine element to generate a solution containing hypochlorous acid, and the control means 140 controls the blower 130 disposed in the sterilizing chamber 121 formed by the housing 120 to introduce air into the sterilizing chamber 121, sterilize the air with the solution containing hypochlorous acid, and discharge the sterilized air from the sterilizing chamber 121. Through the working mode, the sterilizing equipment 100 can sterilize and disinfect air in the surrounding environment, improve the air quality and provide a layer of guarantee for the respiratory health of a human body; and this application just can follow the aquatic through electrolysis mechanism 110 and obtain the solution that contains hypochlorous acid, antiseptic solution promptly, and the raw materials is drawn materials conveniently, and the cost is lower, can improve the convenience that disinfecting equipment 100 used and reduce disinfection cost.

When the electrolysis mechanism 110 electrolyzes the water containing chlorine, the operating voltage is 5-30V, such as 5V, 5.5V, 12V, 24V, 30V, etc.; the working current is 0.1-3A, such as 0.1A, 0.5A, 1A, 2A, 3A, etc.; the electrolysis time is 5-60min, such as 5min, 10min, 30min, 50min, 60min, etc. The specific value can be determined according to the electrolysis time, the type of the water containing chlorine elements or the capacity needing electrolysis. For example, when it is desired to rapidly obtain a solution containing hypochlorous acid, the control means 140 selects the electrolysis conditions: the working voltage is 30V, the working current is 3A, and the electrolysis time is 5 min.

In another embodiment, the control mechanism 140 may also be disposed outside the housing 120 to facilitate maintenance and control of the operation of the disinfection device 100. The control mechanism 140 includes a controller (not shown), which may also be referred to as a Central Processing Unit (CPU). The controller may be an integrated circuit chip having signal processing capabilities. The controller may also be a general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components. A general purpose processor may be a microprocessor or the controller may be any conventional processor or the like.

In another embodiment, as shown in FIG. 2, the disinfection device 100 further comprises an aerosolization mechanism 150. The atomizing mechanism 150 is used for atomizing a solution containing hypochlorous acid to form a disinfection mist, and delivering the disinfection mist into the disinfection chamber 121 so as to disinfect air in the disinfection chamber 121 by the disinfection mist; the fan 130 is further adapted to discharge at least a portion of the sterilization mist.

Wherein, atomizing mechanism 150 is connected with control mechanism 140, and control mechanism 140 can control atomizing mechanism 150 and atomize the solution that contains hypochlorous acid, forms disinfection fog, and disinfection fog gets into disinfection chamber 121, and the disinfection fog disinfects the disinfection to the air in disinfection chamber 121. Meanwhile, the air is sterilized and disinfected in the disinfection cavity 121 due to the disinfection mist, and the fan 130 arranged in the disinfection cavity 121 can discharge at least part of the disinfection mist while discharging the sterilized and disinfected air, and the discharged disinfection mist can also be used for sterilizing and disinfecting the air in the surrounding environment or the surface of an object contacted with the air, so that the maximum utilization rate of the disinfection mist is realized, and the waste of the disinfection mist is avoided.

The sterilizing equipment 100 atomizes the hypochlorous acid-containing solution with sterilizing capability into the sterilizing mist by arranging the atomizing mechanism 150, so that the contact area of the sterilizing mist and air is wider, and the sterilizing effect is more sufficient; the air after disinfection is discharged out of the disinfection chamber 121 by the fan 130, and the air in the surrounding environment and the surfaces of objects contacted with the air can be sterilized and disinfected, so that the utilization rate of the disinfection mist is improved to the maximum extent.

Specifically, referring to fig. 3, the atomizing mechanism 150 is disposed at one side of the sterilizing chamber 121 and between the blower 130 and the electrolyzing mechanism 110. The atomizing mechanism 150 is arranged between the fan 130 and the electrolyzing mechanism 110, so that the atomizing mechanism 150 can atomize the solution containing hypochlorous acid generated by electrolyzing the water containing chlorine element by the electrolyzing mechanism 110 into a disinfection mist to sterilize and disinfect the air; after the atomizing mechanism 150 atomizes the solution containing hypochlorous acid into the disinfection mist, the disinfection mist sterilizes the air in the disinfection chamber 121, and the sterilized air is rapidly discharged out of the disinfection apparatus 100 under the action of the fan 130, so as to accelerate the replacement of the air in the disinfection chamber 121.

Optionally, the housing 120 is provided with an air inlet and an air outlet which communicate with the sterilization chamber 121. The sterilization apparatus 100 further comprises a filter screen disposed at the air inlet for filtering the air entering the sterilization chamber 121.

The air contacts with the disinfection fog in the disinfection cavity 121 and is sterilized and disinfected by the disinfection fog, so that the shell 120 is provided with an air inlet and an air outlet which are communicated with the disinfection cavity 121. The air inlet is used as a channel to provide an air passage for the sterilizing equipment 100, and the fan 130 guides air in the surrounding environment of the sterilizing equipment 100 into the sterilizing cavity 121 communicated with the air inlet through the air inlet; the air outlet discharges the air sterilized by the sterilization mist, the air that has not been sterilized and disinfected, and a part of the sterilization mist to the outside of the sterilization apparatus 100 under the assistance of the fan 130. The air replacement of the sterilization apparatus 100 is realized by providing the air inlet and the air outlet connected to the sterilization chamber 121 in the housing 120 of the sterilization apparatus 100.

Further, the sterilizing equipment 100 comprises a filter screen, the filter screen is arranged at the air inlet, when the outside air enters the cavity of the sterilizing cavity 121 through the air inlet, the filter screen filters the air in advance, and the suspended dust particles and microorganism in the air are filtered, so that the quality of the sterilized air is further improved.

Specifically, the fan 130 includes a wind wheel, the wind inlet and the wind outlet are disposed on opposite side walls of the housing 120, an included angle between a rotating shaft of the wind wheel and a connecting line between the wind inlet and the wind outlet is an acute angle, and a projection of the wind wheel on the side walls at least partially covers the wind inlet and the wind outlet.

The fan 130 comprises a wind wheel, the wind wheel can accelerate the air circulation when rotating, the wind wheel is used for guiding air in the surrounding environment of the disinfection device 100 to enter the disinfection cavity 121 through the air inlet for sterilization and disinfection, and meanwhile, the air which is in contact with the disinfection mist in the disinfection cavity 121 to complete sterilization and disinfection, the air which is not in time for disinfection and part of the disinfection mist is discharged out of the disinfection cavity 121 through the air outlet, so that the circulation speed of the air in the disinfection cavity 121 is accelerated. The air inlet and the air outlet are disposed on opposite side walls of the housing 120, an included angle between a rotating shaft of the wind wheel and a connecting line of the air inlet and the air outlet is an acute angle, and a projection of the wind wheel on the side walls at least partially covers the air inlet and the air outlet. Through the arrangement, the sterilizing equipment 100 enables the wind wheel to discharge the sterilized air at the air outlet to the maximum extent, and the external air near the air inlet rapidly enters the sterilizing cavity 121, so that the flowability of the air in the sterilizing cavity 121 is enhanced.

Optionally, the disinfection device 100 further comprises an aromatherapy mechanism 170, disposed within the disinfection chamber 121. The aromatherapy mechanism 170 may include a fixing member (not labeled) and an aromatherapy member (not labeled). The fixing member is mainly used for fixing or accommodating the aromatherapy in the disinfection cavity 121, wherein the fixing member can be a fixing member with an accommodating cavity. The aromatherapy can be aromatherapy essential oil, aromatherapy liquid, solid aromatherapy or natural plant perfume and the like with a volatile function, and a user can randomly change the aromatherapy and customize personalized fragrance. Rely on the volatility function of champignon, under the effect of fan 130, the outside air of disinfecting equipment 100 gets into the disinfection chamber 121 of installing champignon mechanism 170 through the air intake, and the fragrant fine molecule that the champignon was volatilized mixes with the air, and fan 130 will be with the air that fragrant fine molecule mixes again, through air outlet discharge disinfecting equipment 100, and fragrant fine molecule that is taken away by the air then can improve the air outside disinfecting equipment 100, alleviates the peculiar smell of surrounding environment.

Wherein, the volatile fragrant molecule in the fragrant mechanism can coexist with the disinfection fog simultaneously, does not influence the disinfection fog to the sterile effect of air sterilization, therefore fragrant mechanism 170 and atomizing mechanism 150 can work simultaneously, also can work separately, do not influence each other, and the user can control at will.

The disinfection apparatus 100 can sterilize and disinfect air and improve air odor by providing the aromatherapy mechanism 170 in the disinfection chamber 121.

Optionally, the disinfection apparatus 100 further comprises a water storage tank 160 and a water intake mechanism (not labeled). The water storage tank 160 is connected to the electrolysis mechanism 110 for storing water containing chlorine element, and the electrolysis mechanism 110 electrolyzes the water containing chlorine element in the water storage tank 160 to generate a solution containing hypochlorous acid. The water inlet mechanism is connected to a water supply mechanism (not labeled) and the water storage tank 160, respectively, for delivering water containing chlorine element in the water supply mechanism to the water storage tank 160.

The water storage tank 160 is mainly used to store water containing chlorine elements, for example, NaCl solution, tap water, and the like. Since the tap water in China is generally disinfected by chlorine, the tap water contains chlorine with a certain concentration and can be used as the source of the water containing chlorine in the water storage tank 160, and the tap water is easy to obtain and low in cost, so that the price advantage is achieved. The water tank 160 is connected to the electrolysis mechanism 110, so that the electrolysis mechanism 110 can electrolyze the water containing chlorine element in the water tank 160 to generate a solution containing hypochlorous acid. The capacity of the water storage tank 160 may be 5-20L according to different applications, such as the size of the activity space, and when the large capacity water storage tank 160 is disposed in a place with a large activity space, enough solution containing hypochlorous acid can be supplied at one time to sterilize the air.

When tap water containing chlorine is stored in the water storage tank 160, the electrolysis unit 110 electrolyzes the tap water to convert low-valent chlorine contained in the tap water into hypochlorous acid and a small amount of hypochlorous acid having a higher valence state and a small amount of chlorine having a higher valence state, and uses the converted hypochlorous acid and the chlorine salt for sterilization. Although the content of chlorine element in tap water is low, hypochlorous acid with low concentration can act on the cell wall of bacteria, permeate into the bacteria to oxidize organic molecules such as mycoprotein, nucleic acid, enzyme and the like, destroy the composition system, kill microorganisms and safely sterilize and disinfect the skin surface, and generate a small amount of hydrogen peroxide, hydroxyl radicals, superoxide anions and the like while electrolyzing tap water to decompose and inactivate the bacteria, so that the solution containing hypochlorous acid obtained by electrolyzing the tap water can completely sterilize and disinfect the air and the surfaces of objects contacted with the solution.

The water inlet mechanism is connected to the water supply mechanism and the water storage tank 160, respectively, and delivers the water containing chlorine provided by the water supply mechanism to the water storage tank 160. Wherein, the water supply mechanism can be a control outlet which can provide tap water at any time according to the opening and closing of the control switch, and can also be a mechanism with the function of storing the water containing the chlorine element.

The disinfection device 100 can provide water containing chlorine elements for the electrolysis mechanism 110 in time by arranging the water storage tank 160 and the water inlet mechanism to deal with a large amount of disinfection mist required by air disinfection, and meanwhile, the arrangement of the water storage tank 160 directly provides an electrolysis container for the electrolysis mechanism 110, so that the whole structure of the disinfection device 100 is greatly simplified.

Optionally, the disinfection device 100 further comprises a detection mechanism. The detection mechanism is connected to the control mechanism 140 and is used for detecting the water level in the water storage tank 160 and feeding back the detected water level state in the water storage tank 160 to the control mechanism 140. Wherein the detection mechanism may be a sensing mechanism capable of detecting the water level in the water storage tank 160 in real time, or the detection mechanism may be a sensing mechanism capable of being set up for detecting certain specific water levels. For example, when there is no water in the water storage tank 160 or the water level is lower than a certain level, the detection mechanism feeds back low level information to the control mechanism 140. Preferably, in order to prevent the atomizing mechanism 150 from being operated at idle, the control mechanism 140 may preset a low water level threshold, and when the detection information fed back by the detection mechanism in real time reaches a preset low water level threshold, the control mechanism 140 controls the water inlet mechanism to deliver the water containing chlorine to the water storage tank 160 to replenish the water containing chlorine in response to a first water level threshold with a low water level. Alternatively, a first water level threshold value is set for detecting a low water level by the detection means, and when the detection means detects that the water level is lower than the first water level threshold value, the information is fed back to the control means 140, and the control means 140 controls the water inlet means to deliver the chlorine-containing water to the water storage tank 160 in response to the first water level threshold value.

The disinfection apparatus 100 monitors the solution containing hypochlorous acid in the water storage tank 160 by arranging the detection mechanism connected with the control mechanism 140, and when the lack of the solution containing hypochlorous acid in the water storage tank 160 is detected, the disinfection apparatus 100 can automatically supplement the source of water containing chlorine elements without manual operation, so that the disinfection apparatus 100 is more intelligent and has wide applicability.

Further, the sterilizing apparatus 100 includes an on-off valve. The switch valve is connected with the water inlet mechanism, and in response to the water level being lower than the first water level threshold, the control mechanism 140 controls the switch valve to open so as to control the water inlet mechanism to deliver the water containing chlorine to the water storage tank 160; in response to the water level being above the second water level threshold, the control mechanism 140 controls the on-off valve to close to control the water intake mechanism to stop delivering elemental chlorine containing water to the storage tank 160.

The sterilizing apparatus 100 further includes an on-off valve connected to the water supply mechanism. When the control mechanism 140 receives the feedback information corresponding to the first water level threshold value from the detection mechanism, the control switch valve is opened to control the water inlet mechanism to deliver the water containing chlorine to the water storage tank 160. Because the capacity of the water storage tank 160 is limited, the water inlet mechanism cannot always deliver water containing chlorine to the water storage tank 160, when the detection circuit is operated, the detection mechanism may be further configured to detect that the water level in the water storage tank 160 is higher than a certain value, i.e. a second water level threshold value, and feed back information corresponding to the second water level threshold value to the control mechanism 140, and the control mechanism 140 controls the switch valve to close in response to that the water level in the water storage tank 160 is higher than the second water level threshold value, so as to control the water inlet mechanism to stop delivering water containing chlorine to the water storage tank 160, thereby preventing water containing chlorine in the water storage tank from overflowing and damaging other mechanisms outside the water storage tank 160.

Optionally, the disinfection device 100 further comprises a drainage mechanism. A drainage mechanism connected to the control mechanism 140 for draining the solution containing hypochlorous acid in the water storage tank 160; the control mechanism 140 acquires a time period during which the electrolysis mechanism 110 stops operating, and in response to the time period being greater than a time period threshold, the control mechanism 140 controls the drain mechanism to drain the solution containing hypochlorous acid in the water storage tank 160.

Since the solution containing hypochlorous acid has volatility and when the solution containing hypochlorous acid in water storage tank 160 is not used up for a predetermined time, a part of hypochlorous acid contained therein is volatilized, and in order to ensure that the solution containing hypochlorous acid in water storage tank 160 can sufficiently sterilize and disinfect the air in disinfection chamber 121, disinfection apparatus 100 further includes a water discharge mechanism. The drainage mechanism is connected to the control mechanism 140 and drains the solution containing hypochlorous acid in the water storage tank 160. Wherein, the control mechanism 140 controls the drainage mechanism to drain the solution containing hypochlorous acid in the water storage tank 160 by acquiring the time length of the stop of the electrolysis mechanism 110, comparing with the predetermined time, when the time length of the stop of the electrolysis mechanism 110 is greater than or equal to the predetermined time. Wherein the predetermined time may be set as a time period threshold value, that is, when the time for which the electrolysis mechanism 110 stops operating is greater than or equal to the time period threshold value, the control mechanism 140 controls the drainage mechanism to drain the solution containing hypochlorous acid in the water storage tank 160.

For example, the predetermined time for which the solution containing hypochlorous acid in the water storage tank 160 can be stored may be set to 3 to 7 days, for example, according to the size of the capacity of the water storage tank 160, and the immediate long threshold may be set to 3 to 7 days, for example, 3 days, 4 days, or 7 days, and the corresponding 3 days corresponds to the case where the capacity of the water storage tank 160 is small. When the preset time threshold is 3 days, the control mechanism 140 obtains the working time for the electrolysis mechanism 110 to stop the electrolysis of the water containing the chlorine element in the water storage tank 160, and when the working time exceeds or equals to 3 days, the control mechanism 140 controls the drainage mechanism to drain the solution containing the hypochlorous acid left in the water storage tank 160.

The sterilizing apparatus 100 can automatically discharge the solution containing hypochlorous acid which is out of order by providing the water discharging mechanism connected to the control mechanism 140, and can ensure the effectiveness of the solution containing hypochlorous acid in the water storage tank 160 by newly supplying the raw material of the solution containing hypochlorous acid through the water inlet mechanism, thereby improving the effectiveness of the sterilizing apparatus 100 in sterilizing air.

The method of operation of the disinfection apparatus 100 is as follows:

1. an electrolysis stage: 10L of tap water is injected into the water storage tank 160, and the control mechanism 140 controls the electrolysis mechanism 110 to electrolyze the tap water for 30min under the conditions of the working voltage of 12V and the working current of 1A, so as to generate a solution containing hypochlorous acid;

2. and (3) a sterilization stage: after the electrolysis stage, the control mechanism 140 controls the atomization mechanism 150 to start working, and the solution containing hypochlorous acid is atomized into a disinfection mist; meanwhile, the wind wheel of the fan 130 starts to work, the air brought into the disinfection chamber 121 is contacted with the disinfection mist, the air in the disinfection chamber 121 is sterilized and disinfected, and the sterilized and disinfected air is driven by the wind wheel to be discharged out of the disinfection device 100 through the air outlet. On the other hand, part of the disinfection mist is brought out of the disinfection device 100 by the wind wheel along with the disinfected air, and the external air and the surfaces of the objects contacted with the air are sterilized and disinfected surprisingly.

3. The aromatherapy mechanism 170 works: fragrance in the fragrance mechanism 170 volatilizes fragrance, the control mechanism 140 controls the wind wheel to work, the wind wheel brings the fragrance out of the disinfection equipment 100 through the air outlet, and a user can customize fragrance components individually according to personal taste.

The disinfection apparatus 100 of the present application controls the electrolysis mechanism 110 to electrolyze water containing chlorine elements through the control mechanism 140 to generate a solution containing hypochlorous acid, and controls the fan 130 disposed in the disinfection chamber 121 formed by the housing 120 to bring air into the disinfection chamber 121, sterilizes the air through the solution containing hypochlorous acid, and discharges the sterilized and disinfected air from the disinfection chamber 121. Through the working mode, the sterilizing equipment 100 can sterilize and disinfect air in the surrounding environment, improve the air quality and provide a layer of guarantee for the respiratory health of a human body; and this application just can follow the aquatic through electrolysis mechanism 110 and obtain the solution that contains hypochlorous acid, antiseptic solution promptly, and the raw materials is drawn materials conveniently, and the cost is lower, can improve the convenience that disinfecting equipment 100 used and reduce disinfection cost.

Further, the disinfection apparatus 100 is provided with the atomization mechanism 150 to atomize the hypochlorous acid-containing solution having disinfection capability into the disinfection mist, so that the contact area of the disinfection mist and air is wider, and the disinfection effect is more sufficient; the air after disinfection is discharged out of the disinfection chamber 121 by the fan 130, and the air in the surrounding environment and the surfaces of objects contacted with the air can be sterilized and disinfected, so that the utilization rate of the disinfection mist is improved to the maximum extent.

Further, the sterilization apparatus 100 realizes the air replacement of the sterilization apparatus 100 by providing an air inlet and an air outlet connected to the sterilization chamber 121 in the housing 120.

Further, the disinfection device 100 can sterilize and disinfect air and improve air odor by providing the aromatherapy mechanism 170 in the disinfection chamber 121.

Further, the disinfection device 100 can provide water containing chlorine element for the electrolysis mechanism 110 in time by arranging the water storage tank 160 and the water inlet mechanism to deal with a large amount of disinfection mist required by air disinfection, and meanwhile, the arrangement of the water storage tank 160 directly provides an electrolysis container for the electrolysis mechanism 110, so that the whole structure of the disinfection device 100 is greatly simplified.

Further, disinfection apparatus 100 monitors the hypochlorous acid-containing solution in water storage tank 160 by providing a detection mechanism connected to control mechanism 140, and when detecting that the hypochlorous acid-containing solution is absent from water storage tank 160, disinfection apparatus 100 can automatically replenish the source of water containing chlorine elements without manual operation, making disinfection apparatus 100 more intelligent and having a wide range of applicability.

Further, the sterilizing apparatus 100 can automatically discharge the solution containing hypochlorous acid which is out of order by providing the water discharging mechanism connected to the control mechanism 140, and the effectiveness of the solution containing hypochlorous acid in the water storage tank 160 can be ensured by newly supplying the raw material of the solution containing hypochlorous acid through the water feeding mechanism, thereby improving the effectiveness of the sterilizing apparatus 100 in sterilizing air.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (10)

1. A disinfection apparatus, comprising:

an electrolysis mechanism for electrolyzing water containing chlorine element to generate a solution containing hypochlorous acid;

a housing formed with a sterilization chamber;

the fan is arranged in the disinfection cavity and used for bringing air into the disinfection cavity so as to disinfect the air by the solution containing hypochlorous acid and discharge the disinfected air from the disinfection cavity;

and the control mechanism is respectively connected with the electrolysis mechanism and the fan and is used for controlling the electrolysis mechanism and the fan to work.

2. The sterilizing apparatus of claim 1, further comprising:

the atomization mechanism is used for atomizing the solution containing hypochlorous acid to form a disinfection fog and conveying the disinfection fog into the disinfection cavity so as to disinfect air in the disinfection cavity through the disinfection fog;

the fan is further used for discharging at least part of the disinfection fog.

3. The disinfection apparatus of claim 1, wherein the housing defines an air inlet and an air outlet in communication with the disinfection chamber, the disinfection apparatus further comprising: the filter screen sets up the air intake is used for filtering the air that gets into the disinfection chamber.

4. The sterilizing apparatus of claim 3, wherein the fan comprises a wind wheel, the wind inlet and the wind outlet are disposed on opposite side walls of the housing, an included angle between a rotating shaft of the wind wheel and a connecting line between the wind inlet and the wind outlet is an acute angle, and a projection of the wind wheel on the side walls at least partially covers the wind inlet and the wind outlet.

5. The disinfection apparatus of claim 1, further comprising: the aromatherapy mechanism is arranged in the disinfection cavity.

6. The disinfection apparatus of claim 1, further comprising:

a water storage tank connected to the electrolysis mechanism for storing the water containing chlorine, wherein the electrolysis mechanism electrolyzes the water containing chlorine in the water storage tank to generate the solution containing hypochlorous acid;

and the water inlet mechanism is respectively connected with the water supply mechanism and the water storage tank and is used for conveying the water containing the chlorine elements in the water supply mechanism to the water storage tank.

7. The disinfection apparatus of claim 2, wherein the atomizing mechanism is disposed on a side of the disinfection chamber, the atomizing mechanism being disposed between the fan and the electrolysis mechanism.

8. The disinfection apparatus of claim 6, further comprising: the detection mechanism is connected with the control mechanism and is used for detecting the water level in the water storage tank;

in response to the water level being below a first water level threshold, the control mechanism controls the water intake mechanism to deliver the elemental chlorine containing water to the storage tank.

9. The disinfection apparatus of claim 8, further comprising: the switch valve is connected with the water inlet mechanism;

in response to the water level being below the first water level threshold, the control mechanism controls the switch valve to open to control the water intake mechanism to deliver the elemental chlorine containing water to the storage tank;

in response to the water level being higher than a second water level threshold, the control mechanism controls the switch valve to close to control the water inlet mechanism to stop delivering the chlorine containing water to the storage tank.

10. The disinfection apparatus of claim 6, further comprising: a drainage mechanism connected to the control mechanism for draining the hypochlorous acid-containing solution in the water storage tank;

the control mechanism obtains the time length of the electrolysis mechanism stopping working, and in response to the time length being greater than a time length threshold value, the control mechanism controls the drainage mechanism to drain the solution containing hypochlorous acid in the water storage tank.

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