CN218129370U - Ozone nano aerial fog air sterilizing machine - Google Patents

Abstract

The utility model discloses an ozone nano aerial fog air sterilizing machine, which comprises a sterilizing machine body, wherein the sterilizing machine body comprises a machine case, an electrolytic water ozone generator, an ultrasonic atomizer, a fan, a front Venturi tube, a static mixer, a rear Venturi tube and a micro-nano fiber filter screen; the electrolytic water ozone generator is arranged below the front Venturi tube and communicated with the front Venturi tube; the fan is arranged on the left side of the front Venturi tube and communicated with the front Venturi tube; the static mixer is arranged on the right side of the front Venturi tube and communicated with the front Venturi tube; the utility model discloses a high concentration ozone gas that electrolytic water ozone generator prepared does not contain to human harmful gas composition nitrogen oxide, can form moist, effectual ozone nanometer aerial fog to reach the sterile effect of disinfecting of ideal.

Description

Ozone nano aerial fog air sterilizing machine

Technical Field

The utility model relates to the technical field of air disinfection equipment, in particular to an ozone nano aerial fog air disinfection machine.

Background

Ozone is a known sterilization gas with broad-spectrum long-acting effect, high speed, high efficiency, strong antibacterial effect, safety and no secondary pollution, has the killing rate of over 99.99 percent on various bacteria, viruses, fungi, mould, mycoplasma, escherichia coli, streptococcus and staphylococcus aureus, and has the same killing effect on new coronavirus, hepatitis virus, SARS virus, cold virus, poliovirus and AIDS virus. The ozone disinfection technology is widely applied and is mainly used for space air sterilization and object surface sterilization in the industries of logistics, medical treatment, medicines, foods, cosmetics and the like.

However, in the prior art, most of the ozone gas is prepared by adopting a high-frequency high-voltage corona method, and the principle is as follows: air is used as a raw material, the air contains 78% of nitrogen and 21% of oxygen, when the air passes through the discharge gap, oxygen molecules in the air are excited by electrons to obtain energy to form ozone molecules, and the concentration of the ozone generated by a corona method is 3-8%. The corona method produces ozone from oxygen in corona air, and simultaneously, the corona method also produces nitrogen and other gases in the air and produces a large amount of highly toxic and highly carcinogenic nitrogen oxides. The corona process requires the use of dry air, and the ozone produced is also dry. However, ozone gas with high humidity has good disinfection and sterilization effects, the relative humidity is less than 45%, and ozone has almost no killing effect on suspended microorganisms in air. The ozone gas disinfection and sterilization effect is gradually enhanced when the humidity is 60 percent, and reaches the maximum value when the humidity is 95 percent. This is because the cell membrane swells and thins under high humidity, and its tissue is easily damaged by ozone. The ozone air disinfector has small ozone generation amount, contains harmful gas components to human bodies, and can not form moist and effective ozone nano aerial fog, thereby not achieving ideal sterilization and disinfection effects.

Therefore, an ozone nano-aerosol air sterilizer becomes a problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is that the ozone generating capacity of the existing ozone air sterilizer is small, and the ozone air sterilizer contains harmful gas components to human bodies, and can not form moist and effective ozone nano aerial fog, thereby not reaching the ideal sterilization and disinfection effect.

In order to solve the technical problem, the utility model provides a technical scheme does: an ozone nano aerosol air disinfection machine comprises a disinfection machine body, wherein the disinfection machine body comprises a case, an electrolyzed water ozone generator, an ultrasonic atomizer, a fan, a front Venturi tube, a static mixer, a rear Venturi tube and a micro-nano fiber filter screen;

the electrolytic water ozone generator is arranged below the front Venturi tube and communicated with the front Venturi tube; the fan is arranged on the left side of the front Venturi tube and communicated with the front Venturi tube; the static mixer is arranged on the right side of the front Venturi tube and communicated with the front Venturi tube;

the ultrasonic atomizer is arranged below the rear Venturi tube and communicated with the rear Venturi tube; the other end of the static mixer is arranged on the left side of the rear Venturi tube, and the static mixer is communicated with the rear Venturi tube; the micro-nano fiber filter screen is arranged on the right side of the rear Venturi tube and is communicated with the rear Venturi tube;

the electrolyzed water ozone generator, the ultrasonic atomizer, the fan, the front Venturi tube, the static mixer, the rear Venturi tube and the micro-nano fiber filter screen are all arranged in the case; the machine case is provided with an air inlet and an air outlet, the air inlet is formed in the left side of the machine case and communicated with the electrolyzed water ozone generator, and the air outlet is formed in the right side of the machine case and communicated with the micro-nanofiber filter screen.

Further, the electrolyzed water ozone generator electrolyzes pure water by using a low-voltage direct current electrode, the pure water is electrolyzed and separated into hydrogen molecules and oxygen molecules, and the oxygen molecules are excited by electrons on an anode interface to obtain energy to form ozone; the ozone gas prepared by the low-pressure electrolytic water method has high purity, the concentration of the produced ozone reaches 25 to 30 percent, and the ozone does not contain nitrogen oxides and other harmful substances.

Further, the concentration of the ozone gas prepared by the electrolyzed water ozone generator is 25-30%.

Furthermore, the ultrasonic atomizer utilizes electronic high-frequency oscillation, the oscillation frequency is 1.6MHz-2.5MHz, the liquid water molecule structure is scattered through the high-frequency resonance of the ceramic atomizing sheet to generate naturally elegant water mist, and the water mist and ozone gas are uniformly mixed out of phase to form wet effective ozone mist.

Further, the micro-nanofiber filter screen is made of micro-nanofibers, and the air resistance of the micro-nanofiber filter screen is 40-55 Pa; the non-woven material prepared by electrostatic spinning has the characteristics of high porosity, high specific surface area, high adsorption and the like.

Furthermore, the micro-nanofiber filter screen is used for forming ozone nano aerial fog.

Further, the static mixer functions to uniformly mix the ozone gas with the air.

Compared with the prior art, the utility model the advantage lie in: the utility model adopts the matching structure of the case, the electrolyzed water ozone generator, the ultrasonic atomizer, the fan, the front Venturi tube, the static mixer, the rear Venturi tube and the micro-nano fiber filter screen; the high-concentration ozone gas prepared by the electrolyzed water ozone generator does not contain nitrogen oxide which is a harmful gas component to human bodies, and can form moist and effective ozone nano aerial fog, thereby achieving the ideal sterilization effect; the utility model relates to a rationally, be worth wideling popularize.

Drawings

Fig. 1 is a schematic structural view of the ozone nano-aerosol air sterilizer of the present invention.

As shown in the figure: 1. the device comprises a sterilizing machine body, 2, a case, 3, an electrolyzed water ozone generator, 4, an ultrasonic atomizer, 5, a fan, 6, a front Venturi tube, 7, a static mixer, 8, a rear Venturi tube, 9, a micro-nano fiber filter screen, 10, an air inlet, 11 and an air outlet.

Detailed Description

The ozone nano aerosol air sterilizer of the present invention will be further described in detail with reference to the accompanying drawings.

The present invention will be described in detail with reference to fig. 1.

An ozone nano aerial fog air sterilizing machine comprises a sterilizing machine body 1, wherein the sterilizing machine body 1 comprises a machine case 2, an electrolyzed water ozone generator 3, an ultrasonic atomizer 4, a fan 5, a front Venturi tube 6, a static mixer 7, a rear Venturi tube 8 and a micro-nano fiber filter screen 9;

the electrolyzed water ozone generator 3 is arranged below the front Venturi tube 6, and the electrolyzed water ozone generator 3 is communicated with the front Venturi tube 6; the fan 5 is arranged on the left side of the front Venturi tube 6, and the fan 5 is communicated with the front Venturi tube 6; the static mixer 7 is arranged on the right side of the front Venturi tube 6, and the static mixer 7 is communicated with the front Venturi tube 6;

the ultrasonic atomizer 4 is arranged below the rear Venturi tube 8, and the ultrasonic atomizer 4 is communicated with the rear Venturi tube 8; the other end of the static mixer 7 is arranged on the left side of the rear Venturi tube 8, and the static mixer 7 is communicated with the rear Venturi tube 8; the micro-nano fiber filter screen 9 is arranged on the right side of the rear Venturi tube 8, and the micro-nano fiber filter screen 9 is communicated with the rear Venturi tube 8;

the electrolyzed water ozone generator 3, the ultrasonic atomizer 4, the fan 5, the front Venturi tube 6, the static mixer 7, the rear Venturi tube 8 and the micro-nano fiber filter screen 9 are all arranged in the case 2; an air inlet 10 and an air outlet 11 are arranged on the case 2, the air inlet 10 is arranged on the left side of the case 2 and communicated with the electrolyzed water ozone generator 3, and the air outlet 11 is arranged on the right side of the case 2 and communicated with the micro-nanofiber filter screen 9.

The electrolyzed water ozone generator 3 electrolyzes pure water by using a low-voltage direct-current electrode, the pure water is electrolyzed and separated into hydrogen molecules and oxygen molecules, and the oxygen molecules are excited by electrons on an anode interface to obtain energy to form ozone.

The concentration of the ozone gas prepared by the electrolyzed water ozone generator 3 is 25 to 30 percent.

The ultrasonic atomizer 4 utilizes electronic high-frequency oscillation, the oscillation frequency is 1.6MHz-2.5MHz, the high-frequency resonance of the ceramic atomization sheet is utilized to break up the liquid water molecule structure to generate naturally elegant water mist, and the water mist and ozone gas are uniformly mixed out of phase to form wet effective ozone mist.

The micro-nanofiber filter screen 9 is made of micro-nanofibers, and the air resistance of the micro-nanofiber filter screen is 40-55 Pa.

The micro-nano fiber filter screen 9 is used for forming ozone nano aerial fog.

The action of the static mixer 7 causes the ozone gas to be uniformly mixed with the air.

The utility model relates to an ozone nanometer aerial fog air sterilizing machine's concrete implementation process as follows: firstly, assembling an electrolyzed water ozone generator 3, an ultrasonic atomizer 4, a fan 5, a front Venturi tube 6, a static mixer 7, a rear Venturi tube 8 and a micro-nanofiber filter screen 9 in a case, so that an air inlet 10 is formed in the left side of the case 2 and is communicated with the electrolyzed water ozone generator 3, and an air outlet 11 is formed in the right side of the case 2 and is communicated with the micro-nanofiber filter screen 9;

an air source with a certain flow generated by a fan 5 absorbs high-concentration ozone gas prepared by an electrolytic water ozone generator through a front Venturi tube 6, and then the high-concentration ozone gas and the air are uniformly mixed through a static mixer 7; then the water mist particles atomized by the ultrasonic atomizer 4 are absorbed by the rear Venturi tube 8 and are mixed with the ozone gas out of phase and uniformly to form wet and effective ozone mist; and finally, forming ozone nano aerial fog through the micro-nano fiber filter screen to sterilize the air.

The utility model adopts the matching structure of a case 2, an electrolytic water ozone generator 3, an ultrasonic atomizer 4, a fan 5, a front Venturi tube 6, a static mixer 7, a rear Venturi tube 8 and a micro-nano fiber filter screen 9; the high-concentration ozone gas prepared by the electrolyzed water ozone generator 3 does not contain nitrogen oxide which is a harmful gas component to human bodies, and can form moist and effective ozone nano aerial fog, thereby achieving the ideal sterilization effect; the utility model relates to a rationally, be worth wideling popularize.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, it should be understood that those skilled in the art should also understand the scope of the present invention without inventively designing the similar structure and embodiments of the present invention without departing from the spirit of the present invention.

Claims (7)

1. The utility model provides an ozone nanometer aerial fog air sterilizing machine, includes sterilizer body (1), its characterized in that: the disinfection machine body (1) comprises a machine case (2), an electrolyzed water ozone generator (3), an ultrasonic atomizer (4), a fan (5), a front Venturi tube (6), a static mixer (7), a rear Venturi tube (8) and a micro-nano fiber filter screen (9);

the electrolyzed water ozone generator (3) is arranged below the front Venturi tube (6), and the electrolyzed water ozone generator (3) is communicated with the front Venturi tube (6); the fan (5) is arranged on the left side of the front Venturi tube (6), and the fan (5) is communicated with the front Venturi tube (6); the static mixer (7) is arranged on the right side of the front Venturi tube (6), and the static mixer (7) is communicated with the front Venturi tube (6);

the ultrasonic atomizer (4) is arranged below the rear Venturi tube (8), and the ultrasonic atomizer (4) is communicated with the rear Venturi tube (8); the other end of the static mixer (7) is arranged on the left side of the rear Venturi tube (8), and the static mixer (7) is communicated with the rear Venturi tube (8); the micro-nano fiber filter screen (9) is arranged on the right side of the rear Venturi tube (8), and the micro-nano fiber filter screen (9) is communicated with the rear Venturi tube (8);

the electrolyzed water ozone generator (3), the ultrasonic atomizer (4), the fan (5), the front Venturi tube (6), the static mixer (7), the rear Venturi tube (8) and the micro-nano fiber filter screen (9) are all arranged in the case (2); the electrolytic water ozone generator is characterized in that an air inlet (10) and an air outlet (11) are formed in the case (2), the air inlet (10) is formed in the left side of the case (2) and communicated with the electrolytic water ozone generator (3), and the air outlet (11) is formed in the right side of the case (2) and communicated with the micro-nanofiber filter screen (9).

2. The ozone nano-aerosol air sterilizer of claim 1, wherein: the electrolyzed water ozone generator (3) adopts a low-voltage direct current electrode to electrolyze pure water, the pure water is electrolyzed and separated into hydrogen molecules and oxygen molecules, and the oxygen molecules are excited by electrons on an anode interface to obtain energy to form ozone.

3. The ozone nano-aerosol air sterilizer of claim 2, wherein: the concentration of the ozone gas prepared by the electrolyzed water ozone generator (3) is 25 to 30 percent.

4. The ozone nano-aerosol air sterilizer of claim 1, wherein: the ultrasonic atomizer (4) utilizes electronic high-frequency oscillation, the oscillation frequency is 1.6MHz-2.5MHz, the liquid water molecule structure is scattered through the high-frequency resonance of the ceramic atomizing sheet to generate naturally elegant water mist, and the water mist and ozone gas are uniformly mixed out of phase to form wet effective ozone mist.

5. The ozone nano-aerosol air sterilizer of claim 1, wherein: the micro-nanofiber filter screen (9) is made of micro-nanofibers, and the air resistance of the micro-nanofiber filter screen is 40-55 Pa.

6. The ozone nano-aerosol air sterilizer of claim 5, wherein: the micro-nano fiber filter screen (9) is used for forming ozone nano aerial fog.

7. The ozone nano-aerosol air sterilizer of claim 1, wherein: the action of the static mixer (7) causes the ozone gas to be uniformly mixed with the air.

Images