CN115672554A

CN115672554A - Humidifying and dedusting treatment method and control system thereof

Info

Publication number: CN115672554A
Application number: CN202110855400.0A
Authority: CN
Inventors: 马中发; 孙琪琛; 张虎晨
Original assignee: Shaanxi Qinglang Wancheng Environmental Protection Technology Co Ltd
Current assignee: Shaanxi Qinglang Wancheng Environmental Protection Technology Co Ltd
Priority date: 2021-07-28
Filing date: 2021-07-28
Publication date: 2023-02-03

Abstract

The invention provides a humidifying and dedusting treatment method and a control system thereof, wherein the method comprises the following steps: acquiring target characteristic parameters in the humidifying and dedusting treatment equipment, wherein the target characteristic parameters comprise the current water level in the water tank, the current concentration of the current gas at the gas outlet and/or the current humidity of the current gas; determining a target processing strategy matched with the target characteristic parameters; and controlling to execute the target processing operation according to the target processing strategy. That is to say, the invention can realize the purpose of efficiently and rapidly humidifying and dedusting the flue gas according to the current water level in the water tank, the current concentration of the current gas at the gas outlet and/or the current humidity of the current gas, the whole humidifying and dedusting treatment processes are mutually matched, the humidifying and dedusting treatment efficiency of the indoor air such as moxa smoke, kitchen oil smoke and the like is greatly improved, the energy consumption is reduced, the service life of the humidifying and dedusting treatment equipment is prolonged, and the invention has wide application prospect in the fields of professional waste gas purification and indoor air purification.

Description

Humidifying and dedusting treatment method and control system thereof

Technical Field

The invention belongs to the technical field of air purification treatment, and relates to but is not limited to a humidification and dust removal treatment method and a control system thereof.

Background

At present, indoor air such as moxa smoke, kitchen oil smoke, and the like generally contains organic impurities such as particulate matters and dust which are harmful to human health and pollute the environment, and generally affects air humidity when the air is purified. Therefore, how to purify the air and ensure the humidity reaching the standard becomes one of the key problems to be solved urgently.

The existing humidifying air purification method purifies and humidifies air by a mode of filtering the air by a filtering device and a mode of generating electrostatic reaction between negative ions released in the process of changing liquid water in a water tank into water mist and smoke and dust floating in the air, although the whole treatment process involves filtering, electrostatic reaction and humidifying, the whole treatment process does not involve mutual matching treatment, so that the dust removal efficiency is not high and the humidifying effect is not good.

Disclosure of Invention

The invention aims to provide a humidifying and dedusting treatment method and a control system thereof aiming at the defects of the existing humidifying air purification method in the humidifying and dedusting process, so as to solve the problems of low dedusting efficiency and poor humidifying effect caused by no mutual coordination treatment among filtering, electrostatic reaction and humidifying operation in the whole treatment process of the existing humidifying air purification method.

In order to achieve the above purpose, the embodiment of the present invention adopts the following technical solutions:

in a first aspect, the present invention provides a humidification dust removal processing method, which is applied to a humidification dust removal processing apparatus, and comprises:

acquiring target characteristic parameters in the humidifying and dedusting treatment equipment; the target characteristic parameters comprise the current water level in the water tank, the current concentration of the current gas at the gas outlet and/or the current humidity of the current gas;

determining a target processing strategy matched with the target characteristic parameters;

and controlling and executing target processing operation according to the target processing strategy.

Optionally, when the target characteristic parameter includes a current water level in the water tank, the determining a target processing policy matched with the target characteristic parameter includes:

matching the current water level with a preset reference water level to obtain a first target matching result;

when the first target matching result represents that the current water level is lower than the preset reference water level, determining a target processing strategy comprising equipment shutdown;

and when the first target matching result represents that the current water level is higher than the preset reference water level, determining a target treatment strategy comprising cleaning and water pouring.

Optionally, when the target characteristic parameter includes a current concentration of a current gas at the gas outlet, the determining a target processing policy matched with the target characteristic parameter includes:

matching the current concentration with a preset reference concentration to obtain a second target matching result;

when the second target matching result indicates that the current concentration is lower than the preset reference concentration, determining a target processing strategy comprising exhausting the current gas;

and when the second target matching result indicates that the current concentration is higher than the preset reference concentration, determining a target processing strategy comprising increasing the electrostatic dust removal voltage.

Optionally, when the target characteristic parameter includes the current humidity of the current gas, the determining the target processing strategy matched with the target characteristic parameter includes:

matching the current humidity with a preset reference humidity to obtain a third target matching result;

when the third target matching result represents that the current humidity is lower than the preset reference humidity, determining a target processing strategy comprising reduction of the voltage for removing the water mist;

and when the third target matching result indicates that the current humidity is higher than the preset reference humidity, determining a target processing strategy comprising increasing the water mist removing voltage.

Optionally, before the step of obtaining the current water level in the water tank, the method further comprises:

acquiring a device starting instruction;

acquiring current circuit connection information of each dry-method electrostatic dust removal module in the equipment based on the equipment starting instruction;

when the current circuit connection information represents the short circuit of the dry-method electrostatic wet-method dust removal module, target reminding information is output; the target reminding information is used for reminding a user that the equipment is not started currently and a circuit is overhauled in time;

and when the current circuit connection information is determined to represent that the dry-method electrostatic dust removal module is not short-circuited, controlling the equipment to execute humidification and dust removal processing operation aiming at the to-be-processed smoke.

Optionally, the controlling and executing target processing operation according to the target processing policy includes:

when a target processing strategy comprising equipment closing is determined, controlling the ultrasonic floater to stop floating and closing the equipment to obtain first target indication information;

and under the action of the first target indication information, controlling to execute dry electrostatic dust collection operation aiming at the smoke to be processed entering the equipment.

when the target treatment strategy comprising cleaning and water pouring is determined, outputting second target prompt information; the second target prompt message is used for prompting a user to clean the water tank and execute a water pouring operation;

detecting the water level information in the water tank again under the action of the second target prompt message;

and when the water level information is lower than the preset reference water level, continuing to control and execute the humidifying and dedusting treatment operation aiming at the flue gas to be treated entering the equipment.

In a second aspect, the present invention provides a humidification dust removal processing apparatus, the apparatus comprising: the device comprises a cavity, an air inlet, an air equalizing area, an electrostatic dust removal area, a water mist removal area, a water tank, an air outlet and a controller;

wherein, the gas area of samming the static dust removal district the remove water fog district with the water tank all set up in the inside of cavity, the gas area of samming the static dust removal district with remove water fog district from the left hand right side set gradually in the top of water tank, remove water fog district with be provided with the water smoke baffle between the water tank, the gas area of samming with static dust removal district respectively with communicate between the water tank, the one end in gas area is provided with the air inlet, the other end in water fog district is provided with the gas outlet, the water tank embeds there is ultrasonic float and external ultrasonic vibrator driver, the controller respectively with static dust removal district the remove water fog district the water tank with the gas outlet is connected.

In a third aspect, the present invention provides a humidification dust removal processing apparatus, including: the device comprises an acquisition module, a determination module and a processing module, wherein:

the acquisition module is used for acquiring target characteristic parameters in the humidifying and dedusting processing equipment; the target characteristic parameters comprise the current water level in the water tank, the current concentration of the current gas at the gas outlet and/or the current humidity of the current gas;

the determining module is used for determining a target processing strategy matched with the target characteristic parameters;

and the processing module is used for controlling and executing target processing operation according to the target processing strategy.

In a fourth aspect, the present invention provides a humidification dust removal processing control device, including: the processor is used for executing the instructions stored in the memory so as to enable the control device to execute the humidifying and dust-removing processing method of the first aspect.

The beneficial effects of the invention are: the invention relates to a humidifying and dedusting processing method and a control system thereof, wherein the humidifying and dedusting processing method is applied to humidifying and dedusting processing equipment and comprises the following steps: acquiring target characteristic parameters in the humidifying and dedusting treatment equipment; the target characteristic parameters comprise the current water level in the water tank, the current concentration of the current gas at the gas outlet and/or the current humidity of the current gas; determining a target processing strategy matched with the target characteristic parameters; and controlling and executing target processing operation according to the target processing strategy. That is to say, the invention can realize the purpose of efficiently and rapidly humidifying and dedusting the flue gas according to the current water level in the water tank, the current concentration of the current gas at the gas outlet and/or the current humidity of the current gas, and the whole humidifying and dedusting treatment processes are mutually matched, thereby solving the problems of low dedusting efficiency and poor humidifying effect caused by the fact that the filtering, electrostatic reaction and humidifying operations are not mutually matched in the whole treatment process of the existing humidifying air purification method, greatly improving the humidifying and dedusting treatment efficiency of the indoor air such as moxa smoke, kitchen oil smoke and the like, reducing the energy consumption, prolonging the service life of the humidifying and dedusting treatment equipment, and having wide application prospect in the fields of professional waste gas purification and indoor air purification.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic flow chart of a humidifying and dedusting treatment method according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a humidifying and dedusting treatment device according to another embodiment of the present invention;

FIG. 3 is a schematic view of a humidifying and dedusting treatment apparatus according to another embodiment of the present invention;

fig. 4 is a schematic view of a humidifying and dedusting processing control device according to another embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. 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: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or the orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another, and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical" and the like do not imply that the components are absolutely horizontal or hanging, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present invention, it should also be noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Here, the terms related in the invention are explained:

electrostatic dust removal: electrostatic dust removal is one of the methods of gas dust removal. The dust-containing gas is electrically separated when passing through a high-voltage electrostatic field, and dust particles and negative ions are combined to be charged negatively and then tend to discharge on the surface of the anode to be deposited. In the metallurgical, chemical and other industries to purify gases or recover useful dust particles. A dust collecting method in which gas is ionized by an electrostatic field to thereby electrically adsorb dust particles to an electrode. Air molecules are ionized into positive ions and electrons in a strong electric field, and the electrons encounter dust particles in the process of running to the positive electrode, so that the dust particles are negatively charged and adsorbed to the positive electrode to be collected; common types of electrostatic precipitators can be broadly divided into the following categories: the method is divided into vertical and horizontal according to the airflow direction, plate and tube according to the precipitation pole type, and dry and wet according to the dust removing method on the precipitation pole plate.

The water level floater is generally a floater water level meter which is an independent water level observation and measurement instrument and can be connected with an electric display, a gate opening instrument and a gate hoist control system to jointly form a computer comprehensive display and control system (such as a ship lock, a hydropower station, a pumped storage power station, an agricultural irrigation system, a water supply and drainage system and the like).

Fig. 1 is a schematic flow chart of a humidifying and dedusting treatment method according to an embodiment of the present invention; FIG. 2 is a schematic structural diagram of a humidifying and dedusting treatment device according to another embodiment of the present invention; FIG. 3 is a schematic view of a humidifying and dedusting treatment apparatus according to another embodiment of the present invention; fig. 4 is a schematic view of a humidifying and dedusting processing control device according to another embodiment of the present invention. The following will describe the humidifying and dedusting processing method and the control system thereof in detail with reference to fig. 1 to 4.

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.

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The humidifying and dust-removing processing method provided by the embodiment of the invention is applied to humidifying and dust-removing processing equipment, the execution main body of the humidifying and dust-removing processing method is a controller in the humidifying and dust-removing processing equipment, as shown in fig. 1, a flow schematic diagram of the humidifying and dust-removing processing method is shown, and the steps included in the method are specifically described below with reference to fig. 1.

And S101, acquiring target characteristic parameters in the humidifying and dedusting processing equipment.

Wherein, target characteristic parameter can include the current water level in the water tank, the current concentration of the current gas of gas outlet department and/or the current humidity of current gas, humidification dust removal treatment facility can be used for carrying out humidification dust removal processing to indoor pending flue gas, wherein humidification dust removal processing can include carrying out humidification operation, dust removal operation and harmful components removal operation to the flue gas, also can be used for carrying out high-efficient dust removal processing with indoor pending flue gas and simultaneously ensure that the gas humidity after handling is up to standard, and with humidity up to standard and the clean gas of handling discharge via the gas outlet. The flue gas to be treated can contain organic impurities such as dust and particles, and can also contain harmful substances such as organic impurities and viruses and bacteria.

Specifically, a water level scale can be arranged in a water tank of the humidification and dust removal treatment equipment, a sensor can be arranged at the air outlet of the humidification and dust removal treatment equipment, the controller can obtain the current water level in the water tank according to the water level scale, the sensor can be used for detecting the current concentration of the current air at the air outlet, and the detected current concentration is sent to the controller. Thus, the controller can receive the current concentration of the gas at the gas outlet detected by the sensor and the current water level in the water tank measured by the water level gauge.

And S102, determining a target processing strategy matched with the target characteristic parameters.

Specifically, when the controller receives the target characteristic parameter, the controller may further match the target characteristic parameter with preset target characteristic information, so as to obtain a target processing strategy matched with the target characteristic parameter; wherein, when the target characteristic parameter includes a current water level in the water tank and/or a current concentration of the gas at the gas outlet, the preset target characteristic information may include a preset reference water level and/or a preset reference concentration.

Therefore, when the target characteristic parameter includes the current water level in the water tank of the humidification and dust removal processing device, step S102 can be implemented by the following sub-steps:

and S1021, matching the current water level with a preset reference water level to obtain a first target matching result.

The preset reference water level can be used for representing that the water in the water tank is enough for humidification and dust removal treatment and the cleanliness in the water tank reaches the standard and does not need to be cleaned; and, the preset reference water level may be a reference water level threshold, and may also be a reference water level range. Not intended to be limiting herein.

Specifically, when the controller acquires the current water level in the water tank through the water level scale, the current water level can be further matched with a preset reference water level, for example, the current water level is compared with a reference water level threshold value, or the current water level is compared with the minimum value and the maximum value of the reference water level range respectively, so that a first target matching result is obtained.

Step S1022, when the first target matching result indicates that the current water level is lower than the preset reference water level, determining a target processing policy including equipment shutdown.

Specifically, when the controller determines that the current water level in the first target matching result representation water tank is lower than the preset reference water level, the water level in the water tank of the device is considered to be too low and not enough for efficient and rapid humidification and dust removal treatment of the flue gas, and at the moment, a target treatment strategy including equipment closing can be determined, so that the purpose of rapidly and efficiently humidifying and dust removal treatment of the flue gas on the premise of prolonging the service life of the device and protecting the device from being damaged is achieved. Wherein, the current water level in the water tank being lower than the preset reference water level may include that the current water level is less than the reference water level threshold or that the current water level is less than the minimum value of the reference water level range.

And step S1023, when the first target matching result represents that the current water level is higher than the preset reference water level, determining a target processing strategy comprising cleaning and water pouring.

Specifically, when the controller determines that the current water level in the first target matching result representation water tank is higher than the preset reference water level, the water level in the water tank of the equipment is too high, and the cleanliness in the water tank does not reach the standard, and at the moment, a target treatment strategy including cleaning and water pouring can be determined, so that the aim of rapidly and efficiently humidifying, dedusting and treating smoke is fulfilled. Wherein, the current water level in the water tank being higher than the preset reference water level may include the current water level being greater than the reference water level threshold or the current water level being greater than the maximum value of the reference water level range.

It should be noted that, when the controller determines that the current water level is equal to the reference water level threshold or the current water level is between the minimum value and the maximum value of the reference water level range, it may be considered that the water in the water tank of the device is enough for the humidification and dust removal processing, and the cleanliness in the water tank reaches the standard and does not need to be cleaned, and at this time, the controller may continue to control the device to perform the humidification and dust removal processing operation on the flue gas.

In the actual processing process, when the target characteristic parameter includes the current concentration of the current gas at the gas outlet of the humidification dust removal processing device, the step S102 can be further implemented by the following sub-steps:

and S11, matching the current concentration with a preset reference concentration to obtain a second target matching result.

The preset reference concentration can be used for representing that harmful substance components contained in the gas reach the standard, and the gas cannot cause secondary pollution or harm human health; the preset reference concentration may be a reference concentration threshold, or a reference concentration range, and is not limited specifically herein.

Specifically, when the controller obtains the current concentration of the current gas at the gas outlet via the sensor, the controller may further match the current concentration with a preset reference concentration, for example, compare the current concentration with a reference concentration threshold, or compare the current concentration with the minimum value and the maximum value of a reference concentration range, respectively, so as to obtain a second target matching result.

And S12, when the second target matching result indicates that the current concentration is lower than the preset reference concentration, determining a target processing strategy for exhausting the current gas.

Specifically, when the controller determines that the second target matching result represents that the current concentration of the current gas at the gas outlet is lower than the preset reference concentration, the device can be considered to perform humidification and dust removal treatment on the flue gas to reach the standard and generate no secondary pollution, and at the moment, a target treatment strategy for discharging the current gas at the gas outlet can be determined, so that the aim of timely discharging the gas reaching the standard is fulfilled. Wherein the current concentration of the current gas at the gas outlet being lower than the preset reference concentration may include the current concentration being less than a reference concentration threshold, the current concentration being less than a minimum value of a reference concentration range, or the current concentration being between the minimum value and the maximum value of the reference concentration range.

And S13, when the second target matching result represents that the current concentration is higher than the preset reference concentration, determining a target processing strategy for increasing the electrostatic dust removal voltage.

Specifically, when the controller determines that the second target matching result represents that the current concentration of the current gas at the gas outlet is higher than the preset reference concentration, the device may be considered to not humidify and dedust the flue gas to reach the standard, that is, the current gas contains at least one of exceeding virus, bacteria, organic impurities, organic waste gas molecules and other harmful components, and at this time, a target processing strategy of increasing the electrostatic dust removal voltage may be included, so that the purpose of efficiently and quickly humidifying, dedust and processing the flue gas is achieved. Wherein the current concentration of the current gas at the gas outlet being higher than the preset reference concentration may include the current concentration being greater than a reference concentration threshold, the current concentration being greater than a maximum of the reference concentration range.

In the actual processing process, when the target characteristic parameter includes the current humidity of the current gas at the gas outlet of the humidification dust removal processing device, the step S102 can be further implemented by the following sub-steps:

and S21, matching the current humidity with a preset reference humidity to obtain a third target matching result.

Wherein the preset reference humidity can be used for representing that the content of the water vapor contained in the gas is enough to indicate that the gas reaches the humidity standard and is beneficial to human health; the preset reference humidity may be a reference humidity threshold, or a reference humidity range, and is not limited specifically here.

Specifically, when the controller obtains the current humidity of the current gas at the gas outlet via the sensor, the controller may further match the current humidity with a preset reference humidity, for example, compare the current humidity with a reference humidity threshold, or compare the current humidity with a minimum value and a maximum value of a reference humidity range, respectively, so as to obtain a third target matching result.

And S22, when the third target matching result indicates that the current humidity is lower than the preset reference humidity, determining a target processing strategy comprising reduction of the voltage for removing the water mist.

Specifically, when the controller determines that the third target matching result represents that the current humidity of the current gas at the gas outlet is lower than the preset reference humidity, it may be considered that the content of the water vapor in the current gas is too low and the humidity of the current gas does not reach the standard, and at this time, a target processing strategy including reducing the voltage for removing the water mist may be determined, so that the humidity of the gas after the water mist removal operation is performed in the water mist removal region reaches the standard. Wherein the current humidity of the current gas at the gas outlet being lower than the preset reference humidity may include the current humidity being less than a reference humidity threshold or the current humidity being less than a minimum value of a reference humidity range.

And S23, when the third target matching result indicates that the current humidity is higher than the preset reference humidity, determining a target processing strategy for increasing the voltage of water mist removal.

Specifically, when the controller determines that the third target matching result represents that the current humidity of the current gas at the gas outlet is higher than the preset reference humidity, it may be considered that the content of water vapor in the current gas is too high and the humidity of the current gas does not reach the standard, and at this time, a target processing strategy including increasing the voltage for removing water mist may be determined, so that the humidity of the gas after the water mist removing operation is performed in the water mist removing region reaches the standard. Wherein the current humidity of the current gas at the gas outlet being higher than the preset reference humidity may include the current humidity being greater than a reference humidity threshold or the current humidity being greater than a maximum value of a reference humidity range.

It should be noted that, when the controller determines that the current humidity of the current gas is equal to the reference humidity threshold or the current humidity is between the minimum value and the maximum value of the reference humidity range, it may be considered that the water vapor content contained in the current gas is moderate and the humidity reaches the standard, that is, the current gas is a gas whose humidity reaches the standard and is beneficial to human health, and at this time, the controller may control the gas outlet to be opened and discharge the current gas.

In the actual processing process, before step S101 is executed, the method further includes a device boot process, which specifically includes:

and step S31, acquiring a device starting instruction.

Specifically, when the device needs to be started to perform humidification and dust removal treatment on flue gas to be treated, the controller can obtain a device starting instruction to perform a device starting process; the device start instruction may be an instruction generated by a device start request sent by a user terminal, or an instruction generated after a user manually presses or touches a power-on key on the device.

And S32, acquiring current circuit connection information of each dry-method electrostatic dust removal module in the equipment based on the equipment starting instruction.

Specifically, when the controller acquires an apparatus start instruction, current circuit connection information of each dry method electrostatic dust removal module in the electrostatic dust removal area and the water mist removal area in the apparatus may be further acquired to determine whether each dry method electrostatic dust removal module is short-circuited.

In the actual processing process, when the target characteristic parameters acquired by the controller include at least two of the current water level in the water tank, the current concentration of the current gas at the gas outlet, and the current humidity of the current gas, two of matching the current water level with the preset reference water level, matching the current concentration with the preset reference concentration, and matching the current humidity with the preset reference humidity may be further performed, so as to obtain at least two corresponding target matching results, thereby determining a target processing strategy corresponding to the at least two target matching results. The specific matching process is as described in the foregoing embodiments, and is not described herein again.

S33, when the current circuit connection information indicates that the dry-method electrostatic wet dust removal module is short-circuited, outputting target reminding information; the target reminding information is used for reminding a user that the equipment is not started currently and the circuit is overhauled timely.

Specifically, when the controller determines that the current circuit connection information represents the short circuit of at least one dry-method electrostatic wet-method dust removal module, the device is considered to be not suitable for performing humidification and dust removal processing currently, and at the moment, target reminding information can be output to remind a user that the device is not started currently and a circuit is overhauled timely, so that the device can be used for flue gas humidification and dust removal processing normally and efficiently. The target reminding information can represent that the controller reminds a user of the current short-circuit condition of the equipment in a voice reminding and/or text display mode.

And S34, when the current circuit connection information indicates that the dry-method electrostatic dust removal module is not short-circuited, controlling the equipment to execute a humidifying and dust removing treatment operation aiming at the flue gas to be treated.

Specifically, when the controller determines that the current circuit connection information indicates that all dry-method electrostatic wet dust removal modules are not short-circuited, it may be determined that the device is currently capable of performing humidification dust removal processing, and at this time, the controller may control the device to perform a humidification dust removal processing operation for flue gas to be processed.

It should be noted that the controller may also detect the circuit connection condition of each dry method electrostatic dust removal module in real time or periodically during the operation of the device, and when it is determined that at least one dry method electrostatic dust removal module is short-circuited, the device may be immediately turned off, so as to achieve the purposes of protecting the device from damage and prolonging the service life of the device.

And step S103, controlling and executing target processing operation according to the target processing strategy.

In the actual processing procedure, step S103 can be realized by the following procedures:

and step S1031, when the target processing strategy comprising equipment closing is determined, controlling the ultrasonic floater to stop floating and closing the equipment to obtain first target indication information.

Specifically, when the controller determines a target treatment strategy including equipment closing, the water level in the water tank of the equipment is considered to be too low and insufficient for efficient and rapid humidification and dust removal treatment of flue gas, and at the moment, each ultrasonic float arranged in the water tank can be controlled to stop floating and close the equipment, so that first target indication information is obtained.

Wherein the first target indication information may include indication information indicating that the apparatus has been turned off, alarm information indicating that the water level in the water tank is too low, indication information indicating that the respective ultrasonic floats have been in a stationary state, and indication information indicating that the apparatus can perform only the electrostatic precipitation operation.

And S1032, controlling and executing dry electrostatic dust collection operation aiming at the flue gas to be processed entering the equipment under the action of the first target indication information.

Specifically, under the action of the information after the first target is adjusted, the controller can only control to execute the dry electrostatic dust removal operation on the flue gas entering the equipment to be processed, that is, control the dry electrostatic dust removal module in the electrostatic dust removal area to perform the dry electrostatic dust removal operation; and when water is added into the water tank by a user and the water level after the water is added is higher than a preset reference water level, controlling to execute humidification and dust removal treatment operation on the flue gas entering the equipment.

In the actual processing procedure, step S103 can also be realized by the following procedure:

s41, outputting second target prompt information when a target treatment strategy comprising cleaning and water pouring is determined; and the second target prompt message is used for prompting a user to clean the water tank and execute water pouring operation.

Specifically, when the controller determines the target treatment strategy including washing and pouring, the water level is too high in the water tank of the equipment and the cleanliness in the water tank is not up to standard, and the controller can output second prompt information in a mode of voice reminding and/or character display at the moment so as to remind the user of timely pouring and cleaning dirt and impurities in the water tank, and the cleanliness is up to standard when the water level in the water tank reaches the preset reference water level.

And S42, detecting the water level information in the water tank again under the action of the second target prompt message.

Specifically, the controller may further detect the water level information in the water tank in real time or periodically to determine whether the water level information of the water tank reaches the standard or not under the action of the second target prompt information, that is, when the user performs the operation of pouring the water in the water tank and the operation of cleaning the water tank.

And S43, when the water level information is lower than the preset reference water level, continuing to control and execute humidification and dust removal treatment operation on the flue gas to be treated entering the equipment.

Specifically, when the controller detects in real time or periodically that the water level information in the water tank is lower than the preset reference water level, the water level in the water tank can be considered to reach the standard and the cleanliness of the water tank also reaches the standard, and the controller can continue to control and execute the humidifying and dedusting processing operation for the flue gas to be processed in the inlet device.

when the controller determines a target processing strategy comprising increasing the electrostatic dust removal voltage, the controller can determine that the flue gas is not humidified and dedusted by the equipment until the flue gas reaches the standard, that is, the current gas contains at least one of virus, bacteria, organic impurities, organic waste gas molecules and other harmful components which exceed the standard, and at the moment, the controller controls and executes the voltage increasing operation of an electrostatic dust removal power supply externally connected with the electrostatic dust removal area, so that the flue gas reaches the standard after the flue gas is humidified and dedusted by the equipment.

When the controller determines a target processing strategy comprising the current gas at the gas outlet, the equipment can be considered to humidify and dedust the flue gas into standard gas without generating secondary pollution, and at the moment, the controller can control the gas outlet to be opened and the current gas to be discharged; further, the controller controls the air outlet to be closed after determining that the current air is exhausted.

In the embodiment of the present invention, the humidification and dust removal processing method of the present invention is applied to humidification and dust removal processing equipment, and the method includes: acquiring target characteristic parameters in the humidifying and dedusting treatment equipment; the target characteristic parameters comprise the current water level in the water tank, the current concentration of the current gas at the gas outlet and/or the current humidity of the current gas; determining a target processing strategy matched with the target characteristic parameters; and controlling and executing target processing operation according to the target processing strategy. That is to say, the invention can realize the purpose of efficiently and rapidly humidifying and dedusting the flue gas according to the current water level in the water tank and/or the current concentration of the current gas at the gas outlet, and the whole humidifying and dedusting treatment processes are mutually matched, thereby solving the problems of low dedusting efficiency and poor humidifying effect caused by the fact that the filtering, electrostatic reaction and humidifying operation are not mutually matched in the whole treatment process of the existing humidifying air purification method, greatly improving the humidifying and dedusting treatment efficiency of the indoor air such as moxa smoke, kitchen oil smoke and the like, reducing the energy consumption, prolonging the service life of the humidifying and dedusting treatment equipment, and having wide application prospect in the fields of professional waste gas purification and indoor air purification.

In another possible embodiment, the present invention further provides a humidification dust removal processing apparatus, as shown in fig. 2, the apparatus including: the device comprises a cavity 1, an air inlet 2, an air homogenizing area 3, an electrostatic dust collection area 4, a water mist removing area 5, a water tank 6, an air outlet 7 and a controller (not shown in figure 2).

Wherein, equal gas zone 3, electrostatic precipitator district 4, remove water mist district 5 and water tank 6 and can all set up in the inside of cavity 1, equal gas zone 3, electrostatic precipitator district 4 and remove water mist district 5 can set gradually in the top of water tank 6 from the left hand right side, can be provided with water mist baffle 8 between removal water mist district 5 and the water tank 6, equal gas zone 3 and electrostatic precipitator district 4 can communicate respectively with between the water tank 6, the one end of equal gas zone 3 can be provided with air inlet 2, the other end that removes water mist district 5 can be provided with gas outlet 7, water tank 6 can embed to have ultrasonic atomization float 61 and can be external to have ultrasonic vibrator driver 62, the controller respectively with electrostatic precipitator district 4, remove water mist district 5, water tank 6 and gas outlet 7 are connected.

In the embodiment of the present invention, the chamber 1 may be a metal chamber and the housing thereof may be grounded.

The humidifying and dedusting treatment equipment provided by the invention can be used for carrying out efficient dedusting treatment on indoor flue gas to be treated, ensuring that the humidity of the treated gas reaches the standard, and discharging the gas with the humidity reaching the standard and being treated cleanly through the gas outlet. Wherein, both can include organic matter impurity such as dust, particulate matter in the flue gas that awaits treatment, also can include harmful substance such as organic matter impurity and virus bacterium.

In the embodiment of the present invention, the gas-homogenizing zone 3 may include a plurality of vertically arranged gas-homogenizing plates 31, and a distance between adjacent gas-homogenizing plates 31 may be greater than or equal to 10cm.

Optionally, the gas homogenizing zone 3 can be composed of a plurality of vertically arranged gas homogenizing plates 31, and a plurality of slits or a plurality of holes can be distributed on each gas homogenizing plate 31, so that the gas homogenizing treatment can be performed on the to-be-treated flue gas entering through the gas inlet 2, and a foundation can be laid for the subsequent full contact with the water mist. Preferably, the number of the gas uniforming plates 31 may be 3.

It should be noted that each gas equalizing plate 31 can be taken out and cleaned periodically, so that the subsequent dust removing effect is not affected by the gas equalizing effect of the gas equalizing plate.

In the embodiment of the present invention, the electrostatic dust removing region 4 may include at least two dry electrostatic dust removing modules, and the water mist removing region 5 may include at least one dry electrostatic dust removing module.

Optionally, the electrostatic dust removal area 4 may be formed by 2 dry electrostatic dust removal modules, and the water mist removal area 5 may be formed by 1 dry electrostatic dust removal module.

It should be noted that the number of the dry electrostatic dust removal modules included in the electrostatic dust removal area 4 and the number of the dry electrostatic dust removal modules included in the water mist removal area 5 can be manually set according to actual conditions, for example, the total number of the dry electrostatic dust removal modules can be adaptively changed according to the air volume, so that the dry electrostatic dust removal modules with the least number are used to realize efficient and rapid dust removal processing and humidification processing of the flue gas to be processed, and the processing purpose is achieved on the premise of saving cost.

In the embodiment of the present invention, the bottom of the water mist removing region 5 may be provided with a water leaking port 51, and the water leaking port 51 may be used for flowing water droplets generated after the water mist removing treatment into the water tank 6.

Optionally, the water tank 6 may be a metal tank, and the water tank 6 may be used to contain water or a mixture of water and a disinfectant.

It should be noted that the water or the mixed liquid in the water tank 6 generates water mist under the action of the ultrasonic atomizing float 61 and the ultrasonic vibrator driver 62, and the generated water mist floats upwards to the gas homogenizing zone 3 and the electrostatic dust removing zone 4.

In the embodiment of the present invention, the number of the ultrasonic atomizing floats 61 may be plural, and each ultrasonic atomizing float 61 may float on the water surface of the water tank 6.

It should be noted that, the flue gas to be treated is combined with the water mist floating from the water tank 6 for uniform gas treatment, so that the organic impurities such as particulate matters and dust in the flue gas to be treated enter the electrostatic dust removal area 4 after the volume of the organic impurities becomes larger, the large-volume organic impurities in the electrostatic dust removal area 4 are also combined with the water mist floating from the water tank 6 again for charging, and meanwhile, the fine organic impurities such as fine particulate matters and fine dust in the flue gas to be treated are also combined with the water mist more fully for size enlargement and charging, so that all the organic impurities with negative electricity are adsorbed to the positive electrode, and thus, the dust and the organic impurities such as particulate matters in the flue gas to be treated can be treated by being efficiently and quickly adsorbed by the positive electrode after being charged; wherein, the speed of the flue gas to be treated can be reduced after the gas equalization treatment, and the flue gas can be further subjected to the dust removal treatment through the electrostatic dust removal area 4.

Optionally, the water mist removing area 5 is not communicated with the water tank 6 due to the water mist baffle 8, and the water mist baffle 8 can prevent the water mist generated in the water tank 6 from drifting upwards to the water mist removing area 5.

In the embodiment of the invention, each dry-method electrostatic dust removal module can comprise a positive electrode, a negative electrode and an electrostatic dust removal power supply.

Optionally, each electrostatic dust removal power supply may be configured to drive a corresponding dry electrostatic dust removal module, and each negative electrode may be configured to charge a large volume of organic impurities after the flue gas to be processed is combined with the water mist to a negative electrode and then move to a corresponding positive electrode, so that the organic impurities such as dust and particles in the flue gas to be processed are adsorbed onto the positive electrode, thereby achieving a high-efficiency dust removal effect.

It should be noted that, because the water mist is easier to combine with the dust, particulate matter and other organic impurities, the invention utilizes the principle that the liquid drop charge, and after being combined with the water mist with all the organic impurities such as large-size dust, large-size particulate matter, fine dust, fine particulate matter and the like in the flue gas to be treated, the dust removal effect can be further improved under the action of the electrostatic field; wherein the current in the electrostatic field is small and the electric field is large.

Optionally, the dry electrostatic dust removal module included in the electrostatic dust removal region 4 and the dry electrostatic dust removal module included in the water mist removal region 5 may be modules of the same type and function, the difference is that flue gas to be treated in the electrostatic dust removal region 4 can be combined with water mist for dust removal treatment, the water mist removal region 5 is used for performing excess water mist removal treatment on gas subjected to dust removal treatment, and water drops formed by condensation of the removed water mist flow into the water tank 6 through the water leakage port 51 formed in the bottom of the water mist removal region 5.

Optionally, a vibration hammer may be respectively disposed on the positive electrode of each dry method electrostatic dust removal module in the electrostatic dust removal region 4, and an ash bucket may be respectively disposed below each positive electrode, and each vibration hammer may drop organic impurities adsorbed on the corresponding positive electrode into the corresponding ash bucket in a periodic knocking manner.

It should be noted that the positive electrode of each dry electrostatic dust collection module in the electrostatic dust collection area 4 may also collect the adsorbed organic impurities by periodically taking out and cleaning, and is not limited herein.

In an embodiment of the present invention, the apparatus may further include a water level gauge 63 and a water level float 64, the water level gauge 63 may be disposed at a side portion of the water tank 6, and the water level float 64 may be disposed at an inside of the water tank 6.

Optionally, the water level float 64 may include an upper water level float 641 and a lower water level float 642, and the water level gauge 63 may display the current water level of the water in the water tank 6 according to the current positions of the upper water level float 641 and the lower water level float 642, so that a user can timely know whether the amount of the water in the water tank 6 is too much, too little or normal, thereby providing a guarantee for subsequently controlling the amount of the water in the water tank 6 to be within a normal range.

In the embodiment of the invention, the equipment can also be used for air purification or moxa smoke killing at the rear end of the MW-LEP killing equipment.

Optionally, the device may be further made into a moxa smoke sterilizer or a moxa smoke eliminator and then subjected to moxa smoke treatment, that is, the moxa smoke is subjected to dust removal humidification treatment and partial taste removal treatment as flue gas to be treated via the gas equalizing zone 3, the electrostatic dust removal zone 4 and the water mist removal zone 5 in the cavity 1, so as to remove impurities such as partial taste and small particles in the moxa smoke, and thus, the gas reaching the standard and having moderate humidity is discharged.

Optionally, the equipment can also be arranged at the rear end of the MW-LEP sterilizing equipment, so that an integrated indoor air purifier is manufactured, and waste gas is treated in a MW-LEP + electrostatic dust removal + ultrasonic atomization mode. Wherein, the MW-LEP device can comprise 254nm electrodeless ultraviolet lamp tubes.

Optionally, the water tank 6 is also used for containing mixed liquid of water and disinfectant such as Bass disinfectant, and the device can be used for performing dust removal and humidification treatment and sterilizing and killing viruses and bacteria.

In the embodiment of the present invention, the apparatus may further include at least one fan, and the fan may be disposed at the air inlet 2 and/or the air outlet 7, so as to blow the flue gas to be treated into the cavity 1 and/or blow the gas which reaches the standard and has moderate humidity and is generated after treatment out of the cavity 1.

Illustratively, in the process that the flue gas to be treated enters the gas homogenizing area and the electrostatic dust collection area 4 in the cavity 1 through the gas inlet 2, the flue gas to be treated is fully combined with water mist generated by water in the water tank 6 under the action of the ultrasonic atomizing floater 61 and the ultrasonic vibrator driver 62, so that the flue gas to be treated is efficiently electrically condensed in the electrostatic dust collection area 4 after being changed into large-volume particles and large-volume dust, fine organic matter impurities such as fine particles and fine dust in the flue gas to be treated are also fully combined with the water mist to be increased in size and charged, so that all the organic matter impurities in the flue gas to be treated are adsorbed to each positive electrode in the electrostatic dust collection area 4, and the gas generated through the gas homogenizing treatment and the electrostatic dust collection treatment is subjected to removal treatment of excessive water mist through the water mist removing area 5, so that the gas with moderate humidity is discharged through the gas outlet 7.

In the embodiment of the invention, the device may further include a controller, and the controller may control the device to perform self-checking so as to determine whether each electrostatic dust removal module in the cavity 1 is short-circuited and detect whether the water level in the water tank 6 is appropriate, and when the controller determines that the water level in the water tank 6 is too low, the device is controlled to be turned off and an alarm prompt for water adding is given at the same time, at this time, the ultrasonic vibrator driver 62 is turned off and the ultrasonic atomization float 61 stops floating. That is, the invention utilizes the principle that the liquid drop charge and the organic matter impurity are combined and can improve the dust removal effect under the electrostatic action to carry out dust removal humidification treatment.

It should be noted that, the specific control process of the controller in this embodiment and the descriptions in other embodiments have the same steps and the same contents, and reference may be made to the descriptions in other embodiments, which are not repeated herein.

The invention provides a humidifying and dedusting treatment device, which comprises: the device comprises a cavity, an air inlet, an air equalizing area, an electrostatic dust removal area, a water mist removal area, a water tank, an air outlet and a controller; wherein, equal gas zone static dust removal district remove water fog district with the water tank all set up in the inside of cavity, equal gas zone static dust removal district with remove water fog district from the left hand right side set gradually in the top of water tank, remove water fog district with be provided with the water smoke baffle between the water tank, equal gas zone with static dust removal district respectively with communicate between the water tank, the one end in equal gas zone is provided with the air inlet, the other end in removal water fog district is provided with the gas outlet, the water tank embeds there is ultrasonic float and external ultrasonic vibrator driver, the controller respectively with static dust removal district remove water fog district the water tank with the gas outlet is connected. That is to say, when the flue gas enters the gas homogenizing area and the electrostatic dust removal area in the cavity through the air inlet, the flue gas can be mixed with water mist generated by water in the water tank under the action of the ultrasonic atomizing floater and the ultrasonic vibrator driver, so that when large-size particles and large-size dust in the flue gas are removed through electrostatic dust removal, fine dust and fine particles can also be combined with the water mist to become large-size organic matter impurities and then are removed through the electrostatic dust removal, and finally, the gas treated by the electrostatic dust removal treatment area is subjected to excessive water mist removal through the water mist removal area, so that the gas discharged from the air outlet meets the discharge standard and the moisture reaches the standard, namely, the traditional electrostatic dust removal and ultrasonic atomization are combined, the dust removal effect can be improved, and the humidifying effect can be achieved; furthermore, if disinfectant such as Bass disinfectant is added into water in the water tank, the air humidifying and dedusting device can also kill viruses and bacteria in the air, greatly improves the humidifying and dedusting treatment efficiency, has the advantages of simple structure, easiness in operation, low cost, high reliability and capability of continuously running, can be widely applied to the field of indoor air purification, and has wide application prospect.

As shown in fig. 3, the humidifying and dedusting processing device provided in the embodiment of the present invention, as shown in fig. 3, includes: an obtaining module 301, a determining module 302 and a processing module 303, wherein: an obtaining module 301, configured to obtain a target characteristic parameter in the humidification and dust removal processing device; the target characteristic parameters comprise the current water level in the water tank, the current concentration of the current gas at the gas outlet and/or the current humidity of the current gas; a determining module 302, configured to determine a target processing policy matching the target feature parameter; and the processing module 303 is configured to control to execute the target processing operation according to the target processing policy.

It should be noted that, for the descriptions of the same steps and the same contents in this embodiment as those in other embodiments, reference may be made to the descriptions in other embodiments, which are not described herein again.

The invention relates to a humidifying and dedusting treatment device, which comprises: the acquisition module is used for acquiring target characteristic parameters in the humidifying and dedusting treatment equipment; the target characteristic parameters comprise the current water level in the water tank, the current concentration of the current gas at the gas outlet and/or the current humidity of the current gas; the determining module is used for determining a target processing strategy matched with the target characteristic parameters; and the processing module is used for controlling and executing target processing operation according to the target processing strategy. That is to say, the invention can realize the purpose of efficiently and rapidly humidifying and dedusting the flue gas according to the current water level in the water tank, the current concentration of the current gas at the gas outlet and/or the current humidity of the current gas, and the whole humidifying and dedusting treatment processes are mutually matched, thereby solving the problems of low dedusting efficiency and poor humidifying effect caused by the fact that the filtering, electrostatic reaction and humidifying operations are not mutually matched in the whole treatment process of the existing humidifying air purification method, greatly improving the humidifying and dedusting treatment efficiency of the indoor air such as moxa smoke, kitchen oil smoke and the like, reducing the energy consumption, prolonging the service life of the humidifying and dedusting treatment equipment, and having wide application prospect in the fields of professional waste gas purification and indoor air purification.

Fig. 4 is a schematic diagram of a humidifying and dedusting treatment control device according to another embodiment of the present invention, where the control device may be integrated in a terminal device or a chip of the terminal device, and the device includes: memory 401, processor 402.

The memory 401 is used for storing programs, and the processor 402 calls the programs stored in the memory 401 to execute the above-mentioned method embodiments. The specific implementation and technical effects are similar, and are not described herein again.

Preferably, the present invention also provides a computer-readable storage medium, in which computer-executable instructions are stored, and when executed, the instructions cause a computer to perform the above method embodiments. The specific implementation and technical effects are similar, and are not described herein again.

In the embodiments provided in the present invention, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, a division of a unit is merely a logical division, and an actual implementation may have another division, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

The integrated unit implemented in the form of a software functional unit may be stored in a computer readable storage medium. The software functional unit is stored in a storage medium and includes several instructions to enable a computer device (which may be a personal computer, a server, or a network device) or a processor (processor) to execute some steps of the methods according to the embodiments of the present invention. And the aforementioned storage medium includes: a U disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

Claims

1. A humidification dust removal processing method is applied to humidification dust removal processing equipment, and comprises the following steps:

2. The humidification dust removal processing method according to claim 1, wherein when the target characteristic parameter includes a current water level in a water tank, the determining a target processing strategy matching the target characteristic parameter includes:

3. The humidification dust removal processing method according to claim 1, wherein when the target characteristic parameter includes a current concentration of the current gas at the gas outlet, the determining of the target processing strategy matching the target characteristic parameter includes:

4. The humidification dust removal processing method according to claim 1, wherein when the target characteristic parameter includes the current humidity of the current gas, the determining of the target processing strategy matching the target characteristic parameter includes:

5. The humidification dust removal processing method according to claim 1, wherein before the step of obtaining the current water level in the water tank, the method further comprises:

acquiring a device starting instruction;

when the current circuit connection information represents the short circuit of the dry-method electrostatic wet dust removal module, target reminding information is output; the target reminding information is used for reminding a user that the equipment is not started currently and a circuit is overhauled in time;

6. The humidification dust removal processing method according to claim 2, wherein the controlling of execution of the target processing operation according to the target processing strategy includes:

and under the action of the first target indication information, controlling to execute dry-method electrostatic dust collection operation on the smoke to be processed entering the equipment.

7. The humidification dust removal processing method according to claim 2, wherein the controlling execution of a target processing operation according to the target processing strategy comprises:

and when the water level information is lower than the preset reference water level, continuing to control and execute the humidifying and dedusting treatment operation of the flue gas to be treated entering the equipment.

8. A humidification and dust removal processing apparatus, characterized in that the apparatus comprises: the device comprises a cavity, an air inlet, an air equalizing area, an electrostatic dust removal area, a water mist removal area, a water tank, an air outlet and a controller;

wherein, equal gas zone static dust removal district remove water fog district with the water tank all set up in the inside of cavity, equal gas zone static dust removal district with remove water fog district from the left hand right side set gradually in the top of water tank, remove water fog district with be provided with the water smoke baffle between the water tank, equal gas zone with static dust removal district respectively with communicate between the water tank, the one end in equal gas zone is provided with the air inlet, the other end in removal water fog district is provided with the gas outlet, the water tank embeds there is ultrasonic float and external ultrasonic vibrator driver, the controller respectively with static dust removal district remove water fog district the water tank with the gas outlet is connected.

9. A humidification dust removal processing apparatus, characterized in that, the device includes: the device comprises an acquisition module, a determination module and a processing module, wherein:

10. A humidification and dust removal processing control device is characterized by comprising: a processor and a memory, the memory being used for storing instructions, the processor being used for executing the instructions stored in the memory to cause the control device to execute the humidifying and dust-removing treatment method according to any one of claims 1-7.