CN115120766A - Probiotic compound atomization method applied to space disinfection and environment purification - Google Patents

Abstract

The invention discloses a probiotic compound atomization method applied to space disinfection and environmental purification, which comprises the following steps of S1: carrying out ultrasonic atomization on the probiotic disinfectant to obtain water-based probiotic vapor mist with the diameter of 5-10 um; s2: heating the oil-based liquid at a high temperature for atomization to obtain oil-based smoke; s3: and (4) cooling the oil-based smoke formed in the step S2 through an air blower, blowing the oil-based smoke into the main air path pipeline, cooling the oil-based smoke through a fan of the main pipeline, blowing the oil-based smoke into the S1 atomization bin, and impacting the water-based probiotic vapor mist formed in the step S1 at a high speed to form probiotic composite aerosol in the suspended air. The method provided by the invention can produce the mixed mist which simultaneously has the active water-based probiotic aerosol molecular groups and the oil-based aerosol, the survival rate of the probiotics is high, the probiotics can float to the whole three-dimensional space in the air, the whole three-dimensional space is not porous, the oil-based aerosol can provide nutrients for the probiotics, the production and propagation capacity of the probiotics in the whole space is increased, the space is disinfected in all directions, the composite aerosol is harmless to people and livestock, the immunity of the people and livestock can be improved, and the environment of the whole space can be improved to purify the environment.

Description

Probiotic composite atomization method applied to space disinfection and environment purification

Technical Field

The invention relates to the technical field of space disinfection and environment purification, in particular to a probiotic composite atomization method applied to space disinfection and environment purification.

Background

Probiotics are active microorganisms which are beneficial to a host and change the composition of flora at a certain part of the host by colonizing in a human body. The health of the intestinal tract is kept by promoting the absorption of nutrients by regulating the immune function of the host mucous membrane and the system or by regulating the balance of flora in the intestinal tract, so that single microorganisms or mixed microorganisms with definite compositions which are beneficial to the health are generated. Hundreds of probiotic disinfectant solutions have been developed at home and abroad. The survival rate of the probiotics is a great technical problem, and experimental research shows that the survival rate of the probiotics disinfectant is higher under the condition of ultrasonic low-temperature atomization, the probiotics disinfectant can survive and reproduce for a long time in a normal-temperature environment, and the survival rate of the probiotics is very low when the probiotics is used at the temperature of more than 40 ℃.

The probiotics atomization device in the current market basically adopts a single ultrasonic atomization mode, only has an effect on the ground surface, the steam fog of the probiotics disinfectant can not stagnate, the time existing in the space low-altitude air is short, and the effects of space dead-angle-free disinfection and environment purification can not be achieved. This has greatly limited the use of probiotics for nebulization. Therefore, the present invention provides a new probiotic atomization method to solve the problems in the background art mentioned above.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a novel probiotic atomization method applied to space disinfection and environmental purification, and the specific scheme is as follows:

the method comprises the following steps:

s1: atomizing probiotic disinfectant by ultrasonic waves to obtain water-based probiotic steam mist;

s2: heating the oil-based liquid at a high temperature for atomization to obtain oil-based smoke;

s3: and (4) cooling the oil-based smoke formed in the step S2 through an air blower, blowing the oil-based smoke into the main air path pipeline, cooling the oil-based smoke through a fan of the main pipeline, blowing the oil-based smoke into the S1 atomization bin, and impacting the water-based probiotic vapor mist formed in the step S1 at a high speed to form probiotic composite aerosol in the suspended air.

Preferably, in the step S1, the temperature is controlled below 40 ℃ during the ultrasonic atomization of the water-based probiotic aerosol, the water-based probiotic liquid is a probiotic disinfection liquid, and the diameter of the obtained aerosol molecular group is 5-10 um.

Preferably, the temperature of the water-based probiotic disinfection solution is controlled below 40 ℃ during low-temperature atomization.

Preferably, the low-temperature atomization mode of the water-based probiotic disinfection solution in the step S1 is ultrasonic atomization.

Preferably, the smoke generated by heating and atomizing the oil-based liquid in the step S2 is not more than 270 ℃, and the oil-based liquid is: propylene glycol, glycerol and essence and spice, and the molecular group diameter of the obtained oil-based smoke is 0.01-1 um.

Preferably, the specific implementation manner of step S3 is: adopt the air-blower to blow into the air in oil base liquid atomization storehouse top and cool down oil base smog and blow it to the trunk line, cool down the processing and blow in probiotic antiseptic solution atomization storehouse with oil base smog through the trunk line fan, and then mix with probiotic antiseptic solution aerial fog for oil base smog bonds and does not melt mutually with probiotic antiseptic solution vapour fog, forms compound aerial fog, then discharges and is used for space disinfection and environmental purification.

Preferably, the target value of the temperature reduction of the oil-based mist in the step S3 is below 40 ℃, that is, the temperature of the oil-based mist before entering the probiotic disinfectant atomization chamber is controlled below 40 ℃.

Preferably, the temperature of the oil-based smoke before entering the water-based disinfectant atomization bin is controlled below 40 ℃.

The novel probiotic atomization method applied to space disinfection and environmental purification provided by the invention has the following beneficial effects:

the method provided by the invention can be used for manufacturing the mixed aerosol simultaneously containing the active water-based probiotic aerosol molecular group and the oil-based aerosol, the survival rate of the probiotics is high, the probiotics can float to the whole three-dimensional space in the air, the whole three-dimensional space can be kept pore-free, the oil-based aerosol can provide nutrients for the probiotics, the production and propagation capacity of the probiotics in the whole space is increased, the comprehensive disinfection of the three-dimensional space is realized, the compound aerosol is harmless to people and livestock, the immunity of the people and the livestock can be improved, and the environment of the whole space can be improved, so that the environment can be purified.

Drawings

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a schematic diagram of an application of the present invention.

Detailed Description

The invention is further described below with reference to the following figures and specific examples. The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1, the invention provides a probiotic compound atomization method applied to space disinfection and environmental purification, which comprises the following steps:

s1: atomizing probiotic disinfectant by ultrasonic waves to obtain water-based probiotic steam mist;

specifically, as shown in fig. 2, in a probiotic disinfectant atomization bin, an ultrasonic atomizer is used to obtain the aerosol of the probiotic disinfectant, and the diameter of the obtained aerosol molecular group is 5-10 um; more specifically, in the present embodiment, the liquid is a probiotic disinfection liquid, and the atomization temperature of the probiotic disinfection liquid is lower than 40 ℃;

s2: heating the oil-based liquid at a high temperature for atomization to obtain oil-based smoke;

specifically, as shown in fig. 2, in the oil-based liquid atomization bin, atomizing the atomized oil-based liquid at a high temperature to obtain the small micelle oil-based smoke; more specifically, the mist obtained by atomizing an oil-based liquid does not exceed 270 ℃, the oil-based liquid being: the diameter of a molecular group of the oil-based smoke fog is 0.01-1 um;

s3: cooling the oil-based smoke formed in the step S2 by an air blower, blowing the oil-based smoke into a main gas path pipeline, cooling by a main pipeline air blower, blowing the oil-based smoke into an S1 atomization bin, and impacting the water-based probiotic vapor mist formed in the step S1 at a high speed to form probiotic composite aerosol in the suspended air;

specifically, as shown in fig. 2, cold air is blown into the oil-based smoke above the oil-based liquid atomizer by an air blower, the oil-based smoke is cooled and blown into a main gas path pipeline, then the oil-based smoke is cooled by a main pipeline fan and blown into a probiotic disinfectant atomization bin, and the oil-based smoke is collided with water-based probiotic vapor mist formed by atomization of probiotic disinfectant at a high speed to form probiotic composite aerosol in suspended air; the compound aerosol simultaneously has mixed mist of active water-based probiotic aerosol molecular groups and oil-based aerosol, probiotics can float to the whole three-dimensional space in the air, the whole three-dimensional space is free from entering, the oil-based aerosol can provide nutrients for the probiotics, the production and propagation capacity of the probiotics in the whole space is increased, the comprehensive disinfection of the three-dimensional space is realized, and the environment of the whole space can be improved to achieve the effect of purifying the environment;

more specifically, the oil-based aerial fog is cooled to below 40 ℃, preferably 20-40 ℃ by adopting an air blower, and then enters the probiotic disinfectant low-temperature atomization bin, wherein the temperature control method comprises the steps of controlling the rotating speed of the air blower, the rotating speed of a main pipeline fan, and the shape and the length of a connecting pipeline between the oil-based liquid atomization bin and the probiotic disinfectant low-temperature atomization.

The probiotic compound atomization method applied to space disinfection and environmental purification provided by the invention has the following advantages:

the method provided by the invention can be used for manufacturing the mixed aerosol simultaneously provided with the active water-based probiotic aerosol molecular group and the oil-based aerosol, the survival rate of probiotics is high, the probiotics can float to the whole three-dimensional space in the air, the whole three-dimensional space can be kept without holes, the oil-based aerosol can provide nutrients for the probiotics, the production and propagation capacity of the probiotics in the whole space is increased, the space is disinfected in an all-around manner, the composite aerosol is harmless to people and livestock, the immunity of the composite aerosol can be improved, and the environment of the whole space can be improved to purify the environment.

The above description is only a preferred embodiment of the present invention, and is 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.

Claims (6)

1. A probiotic composite atomization method applied to space disinfection and environmental purification is characterized in that: the method comprises the following steps:

s1: carrying out ultrasonic atomization on the probiotic disinfectant to obtain water-based probiotic vapor;

s2: heating the oil-based liquid at a high temperature for atomization to obtain oil-based smoke;

s3: and (4) cooling the oil-based smoke formed in the step S2 through an air blower, blowing the oil-based smoke into the main air path pipeline, cooling the oil-based smoke through a fan of the main pipeline, blowing the oil-based smoke into the S1 atomization bin, and impacting the water-based probiotic vapor mist formed in the step S1 at a high speed to form probiotic composite aerosol in the suspended air.

2. The probiotic composite atomization method for space disinfection and environmental decontamination as claimed in claim 1, characterized in that: in the step S1, the temperature is controlled below 40 ℃ in the process of atomizing the probiotic disinfection solution, and the diameter of the obtained steam-fog molecular group is 5-10 um.

3. The probiotic composite atomization method for space disinfection and environmental decontamination as claimed in claim 1, characterized in that: in the step S2, the smoke generated by heating the oil-based liquid at high temperature and atomizing does not exceed 270 ℃, and the oil-based liquid is as follows: propylene glycol, glycerol and essence and spice, and the molecular group diameter of the obtained oil-based smoke is 0.01-1 um.

4. The method for the complex atomization of probiotics for the disinfection and environmental purification of space as claimed in claim 1, wherein the method comprises the following steps: the specific implementation manner of step S3 is: adopt the air-blower to blow into the air in oil base liquid atomizing bullet top and cool down oil base smog and blow it to the trunk line, cool down the processing and blow in probiotic antiseptic solution atomizing storehouse with oil base smog through the trunk line fan, and then mix with probiotic antiseptic solution vapour and fog for oil base smog bonds and does not melt mutually with probiotic antiseptic solution vapour and fog, forms compound aerial fog, then discharges and is used for space disinfection and environmental purification.

5. The probiotic compound atomization method applied to space disinfection and environmental decontamination as claimed in claim 4, characterized in that: the target value of the temperature reduction of the oil-based smoke in the step S3 is 40 ℃ or lower.

6. The method for the complex atomization of probiotics for the space disinfection and environmental decontamination according to claim 5, wherein the method comprises the following steps: the temperature of the oil-based smoke before entering the probiotic disinfectant atomization bin is controlled to be below 40 ℃.

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