CN105467082A - Purification equipment determination method and system - Google Patents

Abstract

An embodiment of the invention provides a purification equipment determination method and system. The method comprises steps as follows: environmental quality parameters are acquired, non-standard quality parameters, which are not in the range of standard quality parameters, of the environmental quality parameters are determined, first purification equipment corresponding to the non-standard quality parameters is determined, and describing information of all the first purification equipment is integrated and output, wherein the describing information comprises purification technology information, purification medium information and purification equipment information. For a user, the type of used purification equipment can be determined according to the output describing information, when the output describing information changes, the user can know that the environment where the user is located is changed through the changed describing information, can add or reduce the used purification equipment according to the changed describing information, and/or can add or reduce replaceable parts of the used purification equipment according to the changed describing information, missing and mistaken usage of the purification equipment are avoided, and performance of the changed purification equipment is known.

Description

Purification equipment determination method and system

Technical Field

The invention relates to the technical field of environmental detection and purification, and is characterized by relating to a purification equipment determination method and a purification equipment determination system.

Background

A purification apparatus is a device for improving environmental quality, such as an air purification apparatus for improving air quality and a water purification apparatus for improving water quality, which generally achieve purification of environmental quality by adsorbing, decomposing or converting various pollutants (e.g., decoration pollution such as dust, pollen, odor, formaldehyde in the air, heavy metal ions, organic matter, bacteria and virus pollution in water, etc.) using a variety of different purification techniques and purification media.

Currently, common air purification techniques are: low-temperature asymmetric plasma air purification technology, adsorption technology, negative ion technology, negative oxygen ion technology, molecular complexation technology, photocatalyst technology, HEPA high-efficiency filtration technology, electrostatic dust collection technology, active oxygen technology, formaldehyde catalytic oxidation at room temperature, catalytic sterilization and the like; the commonly used air purification media are mainly: photocatalyst, active carbon, synthetic fiber, HEAP high-efficiency material, negative ion generator, etc. Common water purification techniques are: activated carbon adsorption, artificial molecular sieves, natural molecular sieves, ion exchange, ozone disinfection, electro-adsorption, electro-coagulation, sand filtration, membrane technology, magnetization, ultraviolet detoxification and the like. Common water purification media are: activated carbon, quartz sand, reverse osmosis membranes and the like.

In the actual use process, since the user does not know the state of the environment where the user is located, for example, whether formaldehyde pollution exists in the air and whether heavy metal pollution exists in the water in the environment where the user is located, when the user needs to use the purifying device, the user cannot know which purifying technology and which purifying medium should be used to improve the quality of the air and the water. Moreover, as time goes on, the environment where the user is located may change, for example, the formaldehyde content in the decorated room gradually decreases as time goes on, the pollen content in the air increases in spring and summer, the water quality changes due to the change of seasons or the lengthening of the use time of the water tower, and the user cannot directly know when the environment state where the user is located changes, so when the user uses one or more purification devices to purify the environment, the user cannot know when to add or simplify the purification devices, or when to add or simplify the replaceable parts of the purification devices, which easily causes the omission and misuse of the purification devices.

Disclosure of Invention

In view of this, embodiments of the present invention provide a method and a system for determining a purifying device, so as to solve the problems in the prior art that a user does not know the state of the environment where the user is located, when the user needs to use the purifying device, the user cannot know which purifying technology and which purifying medium should be used to improve the quality of air and water, the user cannot directly know when the state of the environment where the user is located changes, when the user uses one or more purifying devices to purify the environment, the user cannot know when the user needs to add or simplify the used purifying device, or when the user needs to add or simplify the replaceable component of the used purifying device, and the user is prone to cause the omission and misuse of the purifying device.

In order to achieve the above purpose, the embodiments of the present invention provide the following technical solutions:

a decontamination apparatus determination method, comprising:

acquiring environmental quality parameters, and determining non-standard quality parameters which are not in the standard quality parameter range in the environmental quality parameters;

determining first purifying equipment corresponding to each nonstandard quality parameter, integrating description information of all the first purifying equipment to obtain integrated information, and outputting the integrated information, wherein the description information comprises: decontamination technology information, decontamination medium information, and decontamination apparatus information.

Wherein, the obtaining the environmental quality parameters and the determining the non-standard quality parameters which are not in the standard quality parameter range in the environmental quality parameters comprise:

acquiring an environmental quality parameter, and storing the environmental quality parameter in a memory;

when a purifying equipment determining instruction is received, and/or the environmental quality parameters in the preset time period in the memory are extracted at preset time intervals, and the variation range of each extracted environmental quality parameter is determined;

judging whether each variation range is in the standard quality parameter range, and determining the environmental quality parameters with the variation ranges not in the standard quality parameter range as the non-standard quality parameters

Wherein, the obtaining the environmental quality parameters and the determining the non-standard quality parameters which are not in the standard quality parameter range in the environmental quality parameters comprise:

acquiring an environment quality parameter, and sending the environment quality parameter to a cloud server for storage;

when a purifying equipment determining instruction is received, and/or a comparison instruction is sent to the cloud server at preset time intervals;

and after receiving the comparison instruction, the cloud server extracts the stored environmental quality parameters within a preset time period to obtain the variation range of each extracted environmental quality parameter, judges whether each variation range is within the standard quality parameter range, returns the environmental quality parameters of which the variation ranges are not within the standard quality parameter range, and determines the environmental quality parameters of which the variation ranges are not within the standard quality parameter range as non-standard quality parameters.

Wherein, the determining the first purifying equipment corresponding to each non-standard quality parameter further comprises:

judging whether a preset environment quality parameter and a preset standard quality parameter corresponding to the preset environment quality parameter exist or not;

if yes, judging whether the preset environment quality parameter in the environment quality parameters is within the preset standard quality parameter range;

if not, determining second purifying equipment corresponding to the preset environmental quality parameters, and integrating the description information of all the first purifying equipment and the description information of all the second purifying equipment to obtain integrated information.

Wherein, before outputting the integration information, the method further comprises:

determining current integration information and previous integration information;

judging whether the current integration information is the same as the previous integration information;

and if not, outputting the current integration information.

Wherein the environmental quality parameters include: an air quality parameter and a water quality parameter; wherein,

the air quality parameters include: suspended solid particle concentration, concentration of each gaseous pollutant, temperature and humidity, and carbon dioxide concentration;

the water quality parameters include: acidity and alkalinity, conductivity, particulate matter concentration, suspended matter concentration, dissolved oxygen amount and temperature.

A decontamination apparatus validation system, comprising: a sensor and a central processor; wherein,

the sensor is used for acquiring environmental quality parameters;

the central processing unit comprises a parameter determining module, a first integrating module and an output module, wherein,

the parameter determination module is used for determining non-standard quality parameters which are not in the standard quality parameter range in the environment quality parameters;

the first integration module is configured to determine first purification equipment corresponding to each of the non-standard quality parameters, and integrate description information of all the first purification equipment to obtain integrated information, where the description information includes: decontamination technology information, decontamination medium information, and decontamination apparatus information;

and the output module is used for outputting the integrated information.

Wherein the purge device validation system further comprises: the memory is used for storing the environmental quality parameters acquired by the sensor;

the parameter determination module comprises: an extraction calculation unit and a first parameter determination unit; wherein,

the extraction and calculation unit is used for extracting the environmental quality parameters in the preset time period in the memory at preset time intervals and/or when receiving a purification equipment determination instruction, and determining the variation range of each extracted environmental quality parameter;

the first parameter determining unit is configured to determine whether each of the variation ranges is within a standard quality parameter range, and determine, as a non-standard quality parameter, an environmental quality parameter whose variation range is not within the standard quality parameter range.

Wherein the purge device validation system further comprises: the cloud server is used for storing the environment quality parameters acquired by the sensors; after receiving a comparison instruction sent by the central processing unit, extracting the stored environmental quality parameters within a preset time period to obtain the variation range of each extracted environmental quality parameter, and after judging whether each variation range is within the standard quality parameter range, returning the environmental quality parameters of which the variation ranges are not within the standard quality parameter range to the central processing unit;

the parameter determination module comprises: an instruction sending unit and a second parameter determining unit; wherein,

the instruction sending unit is used for sending a comparison instruction to the cloud server when receiving a purification equipment determination instruction and/or at preset time intervals;

the second parameter determining unit is configured to receive the environmental quality parameter, which is returned by the cloud server and whose variation range is not within the standard quality parameter range, and determine the environmental quality parameter, whose variation range is not within the standard quality parameter range, as a non-standard quality parameter.

Wherein, the central processing unit further comprises: a second integration module for integrating the first and second integrated modules,

the device is used for judging whether a preset environment quality parameter and a preset standard quality parameter corresponding to the preset environment quality parameter exist or not;

if yes, judging whether the preset environment quality parameter in the environment quality parameters is within the preset standard quality parameter range;

if not, determining second purifying equipment corresponding to the preset environmental quality parameters, and integrating the description information of all the first purifying equipment and the description information of all the second purifying equipment to obtain integrated information.

Based on the technical scheme, the purification equipment determining method and the purification equipment determining system provided by the embodiment of the invention obtain the environmental quality parameters and determine the non-standard quality parameters which are not in the standard quality parameter range in the obtained environmental quality parameters; determining first purifying equipment corresponding to each non-standard quality parameter, integrating description information of all the first purifying equipment to obtain integrated information, and outputting the obtained integrated information, wherein the description information comprises: decontamination technology information, decontamination medium information, and decontamination apparatus information. Acquiring environmental quality parameters, determining non-standard quality parameters therein, outputting description information of first purifying equipment corresponding to all the non-standard quality parameters, for a user, when the user needs to use the purifying equipment, determining which purifying equipment is used according to the output description information, specifically determining which purifying technology and which purifying medium are used by the used purifying equipment according to the description information, when the output description information changes, the user can know that the environment where the user is located changes from the changed description information, determining which purifying equipment is used after the environment where the user is located changes according to the changed description information, and further adding or simplifying the used purifying equipment according to the changed description information, and/or adding or simplifying the used replaceable component of the purifying equipment according to the changed description information, the omission and misuse of the purification equipment are avoided.

Drawings

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

FIG. 1 is a flow chart of a decontamination apparatus determination method provided by an embodiment of the present invention;

FIG. 2 is a flowchart of a method for determining a non-standard quality parameter, which is not within a standard quality parameter, in an environmental quality parameter in a purification apparatus determining method according to an embodiment of the present invention;

FIG. 3 is a flowchart of another method for determining a non-standard quality parameter of the environmental quality parameters, which is not within the standard quality parameter range, in the purification apparatus determining method according to the embodiment of the present invention;

fig. 4 is a flowchart of a method for obtaining integration information when it is determined that a preset environmental quality parameter and a preset standard quality parameter exist in an environmental quality parameter in a purification apparatus determination method according to an embodiment of the present invention;

FIG. 5 is a flowchart illustrating a method for outputting current integration information in a purification apparatus determination method according to an embodiment of the present invention;

FIG. 6 is a system block diagram of a decontamination apparatus validation system provided by an embodiment of the present invention;

fig. 7 is a block diagram of a central processing unit 200 of a decontamination apparatus validation system according to an embodiment of the present invention;

FIG. 8 is another system block diagram of a decontamination apparatus validation system provided by an embodiment of the present invention;

FIG. 9 is a block diagram of a parameter determination module when the purge device validation system includes a memory according to an embodiment of the present invention;

FIG. 10 is a further system block diagram of a decontamination apparatus validation system provided by an embodiment of the present invention;

fig. 11 is another block diagram of the parameter determination module when the cloud server is included in the clarification plant confirmation system according to the embodiment of the present invention;

fig. 12 is another block diagram of the cpu 200 of the decontamination apparatus validation system according to the embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a flowchart of a method for determining a purifying apparatus according to an embodiment of the present invention, where an environmental quality parameter is obtained, and after a non-standard quality parameter is determined, description information of a first purifying apparatus corresponding to all the non-standard quality parameters is output, for a user, which purifying apparatus is to be used may be determined by the output description information, and when the output description information changes, the user may know that the environment where the user is located changes from the changed description information, and may add or reduce a used purifying apparatus according to the changed description information, and/or add or reduce a replaceable component of a used purifying apparatus according to the changed description information, so as to avoid omission and misuse of the purifying apparatus; referring to fig. 1, the purification apparatus determination method may include:

step S100: acquiring environmental quality parameters, and determining non-standard quality parameters which are not in the standard quality parameter range in the environmental quality parameters;

the acquired environmental quality parameters generally include various parameters, including standard quality parameters within a standard instruction parameter range and non-standard quality parameters not within a standard quality parameter range, and therefore, after the environmental quality parameters are acquired, the non-standard quality parameters in the environmental quality parameters need to be determined first. Of course, the obtained environmental quality parameter may also include only one parameter, and when only one environmental quality parameter is obtained, it may be directly determined whether the environmental quality parameter is within the standard quality parameter range, and whether the environmental quality parameter is a non-standard quality parameter.

Optionally, when there is no non-standard quality parameter in the obtained environment quality parameters, that is, the obtained environment quality parameters are all standard quality parameters, the environment quality parameters may be obtained again until there is a non-standard quality parameter in the obtained environment quality parameters.

Optionally, the acquired environmental quality parameters may include air quality parameters and water quality parameters.

Optionally, the acquired air quality parameters in the environmental quality parameters may include: suspended solid particle concentration (e.g., dust concentration, pollen concentration, smoke concentration, etc.), individual gaseous pollutant concentration (e.g., formaldehyde concentration, sulfur oxide concentration, nitrogen oxide concentration, etc.), temperature and humidity, and carbon dioxide concentration.

Optionally, the water quality parameter in the obtained environmental quality parameter may include: acidity and alkalinity, conductivity, particulate matter concentration, suspended matter concentration, dissolved oxygen amount and temperature.

Optionally, after the environmental quality parameter is acquired, the acquired environmental quality parameter may be stored in a local memory, or the acquired environmental quality parameter may be stored in a cloud server.

Optionally, when the acquired environmental quality parameter is stored in the local memory, it may be determined whether the environmental quality parameter is a non-standard instruction parameter by, when a purge device determination instruction is received, and/or extracting the environmental quality parameter stored in the memory at preset time intervals, and determining the determination of each extracted environmental quality parameter, and then determining whether each variation range is within a standard quality parameter range.

And if the variation range of the environment quality parameter is determined to be within the standard quality parameter range, determining the environment quality parameter as the standard quality parameter, and if the variation range of the environment quality parameter is within the non-standard quality parameter range, determining the environment quality parameter as the non-standard quality parameter.

Optionally, when a purifying device determining instruction is received, and/or after the environmental quality parameters stored in the memory within the preset time period are extracted at preset time intervals, it may be further determined whether the extracted data are complete, if so, the variation range of each extracted environmental quality parameter is determined, and if not, the environmental quality parameters stored in the memory within the preset time period are extracted again, until the extracted data are complete, the variation range of each extracted environmental quality parameter is determined.

Optionally, when the acquired environmental quality parameters are stored in the cloud server, whether the environmental quality parameters are nonstandard instruction parameters or not may be determined by sending a comparison instruction to the cloud server when receiving a purification device determination instruction and/or at preset time intervals, receiving the comparison instruction, extracting the stored environmental quality parameters within a preset time period after the cloud server receives the comparison instruction, obtaining a variation range of each extracted environmental quality parameter, determining whether each variation range is within a standard quality parameter range, returning the environmental quality parameters whose variation ranges are not within the standard quality parameter range, and determining the environmental quality parameters whose average values are not within the standard quality parameter range as the nonstandard quality parameters.

Optionally, after receiving the comparison instruction and extracting the stored environmental quality parameters within the preset time period, the cloud server may first determine whether the extracted data is complete, if so, determine to obtain a variation range of each extracted environmental quality parameter, and if not, extract the stored environmental quality parameters within the preset time period again, until the extracted data is complete, then determine to obtain the variation range of each extracted environmental quality parameter.

Optionally, after obtaining the variation range of a certain environmental quality parameter, calculating an excessive value and an excessive time in the environmental quality parameter to obtain a characteristic value, and determining whether the variation range of the environmental quality parameter is within the range of the standard instruction parameter by determining whether the characteristic value is greater than a preset threshold.

If the characteristic value corresponding to a certain environmental quality parameter is greater than the preset threshold value, the variation range of the environmental quality parameter is considered to be within the standard quality parameter range, and if the characteristic value corresponding to the environmental quality parameter is not greater than the preset threshold value, the variation range of the environmental quality parameter is considered to be within the standard quality parameter range.

When all data in a certain environmental quality parameter are in the standard quality parameter range, that is, the environmental quality parameter has no overproof value, then the characteristic value referred by the environmental quality is considered to be absent, or the characteristic value of the environmental quality parameter is considered to be 0, and the variation range of the environmental quality parameter is in the standard quality parameter range.

Step S110: determining first purifying equipment corresponding to each nonstandard quality parameter, integrating description information of all the first purifying equipment to obtain integrated information, and outputting the integrated information, wherein the description information comprises: decontamination technology information, decontamination medium information, and decontamination apparatus information.

Each environmental quality parameter is provided with a corresponding purification device, the environmental quality parameter can be converted into a standard quality parameter from a non-standard quality parameter through the purification device, namely, the environmental quality parameter is converted into a standard quality parameter from a non-standard quality parameter, namely, the environmental quality parameter is not in a standard quality parameter range, each purification device is provided with corresponding description information, namely, purification technical information and purification medium information, for example, the description information of the purification device corresponding to the concentration of the petroleum in the water is as follows: adsorption technology and activated carbon, and therefore, when it is determined that the concentration of petroleum in water is not within the standard quality parameter range, a purification apparatus using activated carbon and adsorption technology may be used to bring the concentration of petroleum in water within the standard quality parameter range.

Because different purification technologies and purification media used for obtaining purification equipment corresponding to environmental quality parameters may be the same, for example, adsorption technology and activated carbon are used for purification equipment corresponding to petroleum concentration in water, and adsorption technology and activated carbon are also used for purification equipment corresponding to phenol concentration in water, after description information of all first purification equipment corresponding to non-standard quality parameters is obtained, the description information needs to be integrated, purification technology information and purification media information of all first purification equipment are described in a centralized manner, and repeated purification technology information and purification media information are removed, so that integrated information is finally obtained.

Optionally, when the user pays attention to a certain feature of the environmental quality parameter, the environmental quality parameter and the standard quality parameter corresponding to the environmental quality parameter may be preset in advance, after determining the first purification equipment corresponding to each non-standard quality parameter, it can be determined whether the preset environmental quality parameter and the preset standard quality parameter exist, and if so, judging whether the preset environmental quality parameter in the acquired environmental quality parameters is within the preset standard quality parameter range, if not, determining second purification equipment corresponding to the preset environmental quality parameters, integrating the description information of all the first purification equipment and the description information of all the second purification equipment to obtain integrated information, and finally integrating the description information of all the first purification equipment and the description information of all the second purification equipment to obtain integrated information to be output. For example, when a user pays special attention to the concentration of formaldehyde in a room immediately after decoration, the parameter formaldehyde concentration can be preset in the central processing unit, and the custom standard quality parameter range of the formaldehyde concentration is preset, and each time the purifying device is determined, whether the concentration of formaldehyde in the air is within the preset standard quality parameter range is determined.

Optionally, after the integrated information is output, the integrated information may be displayed by a display device such as a display.

Optionally, when the integrated information is obtained each time, the integrated information is considered to be the current integrated information, and the last integrated information obtained before the integrated information is obtained is the last integrated information. After the current integration information is obtained every time, whether the current integration information is the same as the previous integration information or not can be determined, if the current integration information is determined to be the same as the previous integration information, the current integration information is not output, and when the current integration information is determined to be different from the previous integration information, the current integration information is output, so that a user can directly judge whether the environment is changed or not by judging whether the integration information is output or not.

Based on the technical scheme, the purification equipment determining method provided by the embodiment of the invention obtains the environmental quality parameters, and determines the non-standard quality parameters which are not in the standard quality parameter range in the obtained environmental quality parameters; determining first purifying equipment corresponding to each non-standard quality parameter, integrating description information of all the first purifying equipment to obtain integrated information, and outputting the obtained integrated information, wherein the description information comprises: decontamination technology information and decontamination medium information. Acquiring environmental quality parameters, determining non-standard quality parameters therein, outputting description information of first purifying equipment corresponding to all the non-standard quality parameters, for a user, when the user needs to use the purifying equipment, determining which purifying equipment is used according to the output description information, specifically determining which purifying technology and which purifying medium are used by the used purifying equipment according to the description information, when the output description information changes, the user can know that the environment where the user is located changes from the changed description information, determining which purifying equipment is used after the environment where the user is located changes according to the changed description information, and further adding or simplifying the used purifying equipment according to the changed description information, and/or adding or simplifying the used replaceable component of the purifying equipment according to the changed description information, the omission and misuse of the purification equipment are avoided.

Optionally, fig. 2 is a flowchart illustrating a method for determining a non-standard quality parameter, which is not within a standard quality parameter, in an environmental quality parameter determination method provided by an embodiment of the present invention, and referring to fig. 2, the method for determining a non-standard quality parameter, which is not within a standard quality parameter, in an environmental quality parameter may include:

step S200: acquiring an environmental quality parameter, and storing the environmental quality parameter in a memory;

the acquisition environmental quality parameters may be stored in a local memory.

Step S210: when a purifying equipment determining instruction is received, and/or the environmental quality parameters in the preset time period in the memory are extracted at preset time intervals, and the variation range of each extracted environmental quality parameter is determined;

when the acquired environmental quality parameters are stored in the memory, when a purification equipment determination instruction is received by the central processing unit, and/or at preset time intervals, the environmental quality parameters in a preset time period in the memory are extracted, and the variation range of each extracted environmental quality parameter is determined.

Step S220: and judging whether the variation range is in the standard quality parameter range or not, and determining the environmental quality parameter of which the variation range is not in the standard quality parameter range as a non-standard quality parameter.

When the acquired environmental quality parameters are stored in the memory, the central processing unit also judges whether the variation range is in the standard quality parameter range, and determines the environmental quality parameters of which the variation range is not in the standard quality parameter range as non-standard quality parameters.

Optionally, fig. 3 is a flowchart illustrating another method for determining a non-standard quality parameter, which is not within a standard quality parameter range, in an environmental quality parameter in the purification apparatus determining method provided by the embodiment of the present invention, and referring to fig. 3, the another method for determining a non-standard quality parameter, which is not within a standard quality parameter range, in an environmental quality parameter may include:

step S300: acquiring an environment quality parameter, and sending the environment quality parameter to a cloud server for storage;

the acquired environmental quality parameters may be stored in a cloud server.

Step S310: when a purifying equipment determining instruction is received, and/or a comparison instruction is sent to the cloud server at preset time intervals;

when the acquired environmental quality parameters are stored in the cloud server, the central processing unit sends a comparison instruction to the cloud server when receiving a purification equipment determination instruction, and/or at preset time intervals.

Step S320: after receiving the comparison instruction, the cloud server extracts the stored environmental quality parameters within the preset time period to obtain the variation range of each extracted environmental quality parameter, judges whether each variation range is within the standard quality parameter range, returns the environmental quality parameters of which the variation ranges are not within the standard quality parameter range, and determines the environmental quality parameters of which the variation ranges are not within the standard quality parameter range as the non-standard quality parameters.

And after receiving the comparison instruction, the cloud server extracts the stored environmental quality parameters within the preset time period to obtain the variation range of each extracted environmental quality parameter, and returns the environmental quality parameters of which the variation ranges are not within the standard quality parameter range after judging whether the variation ranges are within the standard quality parameter range.

And after receiving the environmental quality parameters of which the mean values are not in the standard quality parameter range, the central processing unit determines the environmental quality parameters of which the mean values are not in the standard quality parameter range as the non-standard quality parameters.

Optionally, fig. 4 is a flowchart illustrating a method for obtaining integration information when it is determined that a preset environmental quality parameter and a preset standard quality parameter exist in an environmental quality parameter in a purification apparatus determination method according to an embodiment of the present invention, and referring to fig. 4, the method for obtaining integration information when a preset environmental quality parameter and a preset standard quality parameter exist may include:

step S400: judging whether a preset environment quality parameter and a preset standard quality parameter corresponding to the preset environment quality parameter exist or not;

when a user pays attention to a certain environmental quality parameter characteristic, the environmental quality parameter and a standard quality parameter corresponding to the environmental quality parameter can be preset in advance, for example, when the user pays attention to the concentration of formaldehyde in a room just after decoration, the parameter formaldehyde concentration can be preset in a central processing unit, and the self-defined standard quality parameter range of the formaldehyde concentration can be preset.

Step S410: if yes, judging whether the preset environment quality parameter in the environment quality parameters is within the preset standard quality parameter range;

if the preset environmental quality parameter and the preset standard quality parameter exist, it indicates that the user pays attention to the characteristics of the preset environmental quality parameter, and the preset environmental quality parameter is required to be within the preset standard quality parameter range, so that whether the preset environmental quality parameter is within the preset standard quality parameter range is judged.

Step S420: if not, determining second purifying equipment corresponding to the preset environmental quality parameters, and integrating the description information of all the first purifying equipment and the description information of all the second purifying equipment to obtain integrated information.

If the preset environmental quality parameter is judged not to be in the preset standard quality parameter range, determining the purification equipment corresponding to the preset environmental quality parameter, calling the purification equipment corresponding to the preset environmental quality parameter as second purification equipment, integrating the description information of all the first purification equipment and the description information of all the second purification equipment to obtain integrated information, and finally integrating the description information of all the first purification equipment and the description information of all the second purification equipment to obtain integrated information to be output.

Optionally, fig. 5 shows a flowchart of a method for outputting current integrated information in the purification apparatus determination method provided in the embodiment of the present invention, and referring to fig. 5, the method for outputting current integrated information may include:

step S500: determining current integration information and previous integration information;

and when the integrated information is obtained each time, the integrated information is considered as the current integrated information, and the last integrated information obtained before the integrated information is obtained is the last integrated information.

Step S510: judging whether the current integration information is the same as the previous integration information;

step S520: and if not, outputting the current integration information.

After the current integration information is obtained every time, whether the current integration information is the same as the previous integration information or not can be determined, if the current integration information is determined to be the same as the previous integration information, the current integration information is not output, and when the current integration information is determined to be different from the previous integration information, the current integration information is output, so that a user can directly judge whether the environment is changed or not by judging whether the integration information is output or not.

According to the purifying equipment confirming method provided by the embodiment of the invention, the environmental quality parameters are obtained, the non-standard quality parameters are determined, the description information of the first purifying equipment corresponding to all the non-standard quality parameters is output, for a user, the type of the purifying equipment to be used can be determined through the output description information, when the output description information changes, the user can know that the environment where the purifying equipment is located changes from the changed description information, the purifying equipment can be additionally or simply used according to the changed description information, and/or the replaceable parts of the purifying equipment can be additionally or simply used according to the changed description information, so that the omission and misuse of the purifying equipment are avoided.

In the following, the purifying device confirming system provided by the embodiment of the present invention is introduced, and the purifying device confirming system described below and the purifying device confirming method described above may be referred to correspondingly.

Fig. 6 is a system block diagram of a purge device validation system according to an embodiment of the present invention, and referring to fig. 6, the purge device validation system may include: sensor 100 and central processor 200; wherein,

a sensor 100 for acquiring environmental quality parameters;

the central processing unit 200 is used for determining non-standard quality parameters which are not in the standard quality parameter range in the environmental quality parameters acquired by the sensor 100; determining first purifying equipment corresponding to each nonstandard quality parameter, integrating description information of all the first purifying equipment to obtain integrated information, and outputting the integrated information, wherein the description information comprises: decontamination technology information, decontamination medium information, and decontamination apparatus information.

Fig. 7 is a block diagram of a central processing unit 200 of a purification apparatus validation system according to an embodiment of the present invention, and referring to fig. 7, the central processing unit 200 may include: a parameter determination module 210, a first integration module 220, and an output module 230; wherein,

a parameter determining module 210, configured to determine a non-standard quality parameter that is not within a standard quality parameter range in the environmental quality parameters;

a first integrating module 220, configured to determine first purifying devices corresponding to the non-standard quality parameters, and integrate description information of all the first purifying devices to obtain integrated information, where the description information includes: decontamination technology information, decontamination medium information, and decontamination apparatus information;

an output module 230, configured to output the integration information.

Optionally, fig. 8 shows another system block diagram of the purge device validation system according to the embodiment of the present invention, and referring to fig. 8, the purge device validation system may further include: a memory 300.

And a memory 300 for storing the environmental quality parameters acquired by the sensor 100.

Optionally, fig. 9 shows a block diagram of a structure of the parameter determining module 210 when the purifying device validation system includes the memory 300 according to an embodiment of the present invention, and referring to fig. 9, when the purifying device validation system includes the memory 300, the parameter determining module 210 may include: an extraction calculation unit 211 and a first parameter determination unit 212; wherein,

an extraction calculation unit 211, configured to, when receiving a purge device determination instruction, and/or at preset time intervals, extract the environmental quality parameters within a preset time period in the memory 300, and determine a variation range of each extracted environmental quality parameter;

the first parameter determining unit 212 is configured to determine whether each of the variation ranges is within a standard quality parameter range, and determine, as a non-standard quality parameter, an environmental quality parameter whose variation range is not within the standard quality parameter range.

Optionally, fig. 10 shows another system block diagram of the purge device validation system according to the embodiment of the present invention, and with reference to fig. 10, the purge device validation system may further include: cloud server 400.

The cloud server 400 is used for storing the environment quality parameters acquired by the sensor 100; after receiving a comparison instruction sent by the central processing unit 200, extracting the stored environmental quality parameters within a preset time period to obtain the variation range of each extracted environmental quality parameter, and after judging whether each variation range is within the standard quality parameter range, returning the environmental quality parameters of which the variation range is not within the standard quality parameter range to the central processing unit.

Optionally, fig. 11 shows another structural block diagram of the parameter determining module 210 when the cloud server 400 is included in the purifying device confirmation system provided in the embodiment of the present invention, and referring to fig. 11, when the cloud server 400 is included in the purifying device confirmation system, the parameter determining module 210 may include: an instruction transmission unit 213 and a second parameter determination unit 214; wherein,

the instruction sending unit 213 is configured to send a comparison instruction to the cloud server 400 when receiving the purification device determination instruction and/or at preset time intervals;

a second parameter determining unit 214, configured to receive the environmental quality parameter that is returned by the cloud server 400 and whose variation range is not within the standard quality parameter range, and determine the environmental quality parameter that is not within the standard quality parameter range as a non-standard quality parameter.

Optionally, when the purge device confirmation system provided in the embodiment of the present invention includes both the memory 300 and the cloud server 400, when the purge device confirmation system includes both the memory 300 and the cloud server 400, the parameter determination module 210 may include both the fetch calculation unit 211 and the first parameter determination unit 212, and also include the instruction sending unit 213 and the second parameter determination unit 214.

Optionally, fig. 12 shows another structural block diagram of the central processing unit 200 of the purification apparatus validation system according to the embodiment of the present invention, and referring to fig. 12, the central processing unit 200 may further include: a second integration module 240.

A second integration module 240, configured to determine whether a preset environmental quality parameter and a preset standard quality parameter corresponding to the preset environmental quality parameter exist;

if yes, judging whether the preset environment quality parameter in the environment quality parameters is within the preset standard quality parameter range;

if not, determining second purifying equipment corresponding to the preset environmental quality parameters, and integrating the description information of all the first purifying equipment and the description information of all the second purifying equipment to obtain integrated information.

The purifying equipment confirming system provided by the embodiment of the invention acquires the environmental quality parameters, determines the nonstandard quality parameters in the environmental quality parameters, and then outputs the description information of the first purifying equipment corresponding to all the nonstandard quality parameters, for a user, the user can determine the type of the purifying equipment to be used according to the output description information, when the output description information changes, the user can know that the environment where the purifying equipment is located changes from the changed description information, and can add or reduce the used purifying equipment according to the changed description information, and/or add or reduce the used replaceable parts of the purifying equipment according to the changed description information, so that the omission and misuse of the purifying equipment are avoided.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the system disclosed by the embodiment, the description is relatively simple because the system corresponds to the method disclosed by the embodiment, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A purge device determination method, comprising:

acquiring environmental quality parameters, and determining non-standard quality parameters which are not in the standard quality parameter range in the environmental quality parameters;

determining first purifying equipment corresponding to each nonstandard quality parameter, integrating description information of all the first purifying equipment to obtain integrated information, and outputting the integrated information, wherein the description information comprises: decontamination technology information, decontamination medium information, and decontamination apparatus information.

2. The purification apparatus determination method according to claim 1, wherein the acquiring of the environmental quality parameters and the determining of the non-standard quality parameters of the environmental quality parameters that are not within the standard quality parameter range comprise:

acquiring an environmental quality parameter, and storing the environmental quality parameter in a memory;

when a purifying equipment determining instruction is received, and/or the environmental quality parameters in the preset time period in the memory are extracted at preset time intervals, and the variation range of each extracted environmental quality parameter is determined;

and judging whether the variation range is in the standard quality parameter range or not, and determining the environmental quality parameter of which the variation range is not in the standard quality parameter range as a non-standard quality parameter.

3. The purification apparatus determination method according to claim 1, wherein the acquiring of the environmental quality parameters and the determining of the non-standard quality parameters of the environmental quality parameters that are not within the standard quality parameter range comprise:

acquiring an environment quality parameter, and sending the environment quality parameter to a cloud server for storage;

when a purifying equipment determining instruction is received, and/or a comparison instruction is sent to the cloud server at preset time intervals;

and after receiving the comparison instruction, the cloud server extracts the stored environmental quality parameters within a preset time period to obtain the variation range of each extracted environmental quality parameter, judges whether each variation range is within the standard quality parameter range, returns the environmental quality parameters of which the variation ranges are not within the standard quality parameter range, and determines the environmental quality parameters of which the variation ranges are not within the standard quality parameter range as non-standard quality parameters.

4. The purification apparatus determination method according to claim 1, wherein the determining of the first purification apparatus corresponding to each of the non-standard quality parameters further comprises:

judging whether a preset environment quality parameter and a preset standard quality parameter corresponding to the preset environment quality parameter exist or not;

if yes, judging whether the preset environment quality parameter in the environment quality parameters is within the preset standard quality parameter range;

if not, determining second purifying equipment corresponding to the preset environmental quality parameters, and integrating the description information of all the first purifying equipment and the description information of all the second purifying equipment to obtain integrated information.

5. The purge device determination method according to claim 1, wherein said outputting the integrated information further comprises:

determining current integration information and previous integration information;

judging whether the current integration information is the same as the previous integration information;

and if not, outputting the current integration information.

6. The purge device determination method of claim 1, wherein the environmental quality parameter comprises: an air quality parameter and a water quality parameter; wherein,

the air quality parameters include: suspended solid particle concentration, concentration of each gaseous pollutant, temperature and humidity, and carbon dioxide concentration;

the water quality parameters include: acidity and alkalinity, conductivity, particulate matter concentration, suspended matter concentration, dissolved oxygen amount and temperature.

7. A decontamination apparatus validation system, comprising: a sensor and a central processor; wherein,

the sensor is used for acquiring environmental quality parameters;

the central processing unit comprises a parameter determining module, a first integrating module and an output module, wherein,

the parameter determination module is used for determining non-standard quality parameters which are not in the standard quality parameter range in the environment quality parameters;

the first integration module is configured to determine first purification equipment corresponding to each of the non-standard quality parameters, and integrate description information of all the first purification equipment to obtain integrated information, where the description information includes: decontamination technology information, decontamination medium information, and decontamination apparatus information;

and the output module is used for outputting the integrated information.

8. The clarification device validation system according to claim 7,

the purge device confirmation system further includes: the memory is used for storing the environmental quality parameters acquired by the sensor;

the parameter determination module comprises: an extraction calculation unit and a first parameter determination unit; wherein,

the extraction and calculation unit is used for extracting the environmental quality parameters in the preset time period in the memory at preset time intervals and/or when receiving a purification equipment determination instruction, and determining the variation range of each extracted environmental quality parameter;

the first parameter determining unit is configured to determine whether each of the variation ranges is within a standard quality parameter range, and determine, as a non-standard quality parameter, an environmental quality parameter whose variation range is not within the standard quality parameter range.

9. The clarification device validation system according to claim 7,

the purge device confirmation system further includes: the cloud server is used for storing the environment quality parameters acquired by the sensors; after receiving a comparison instruction sent by the central processing unit, extracting the stored environmental quality parameters within a preset time period to obtain the variation range of each extracted environmental quality parameter, and after judging whether each variation range is within the standard quality parameter range, returning the environmental quality parameters of which the variation ranges are not within the standard quality parameter range to the central processing unit;

the parameter determination module comprises: an instruction sending unit and a second parameter determining unit; wherein,

the instruction sending unit is used for sending a comparison instruction to the cloud server when receiving a purification equipment determination instruction and/or at preset time intervals;

the second parameter determining unit is configured to receive the environmental quality parameter, which is returned by the cloud server and whose variation range is not within the standard quality parameter range, and determine the environmental quality parameter, whose variation range is not within the standard quality parameter range, as a non-standard quality parameter.

10. The decontamination apparatus validation system of claim 7, wherein the central processor further comprises: a second integration module for integrating the first and second integrated modules,

the device is used for judging whether a preset environment quality parameter and a preset standard quality parameter corresponding to the preset environment quality parameter exist or not;

if yes, judging whether the preset environment quality parameter in the environment quality parameters is within the preset standard quality parameter range;

if not, determining second purifying equipment corresponding to the preset environmental quality parameters, and integrating the description information of all the first purifying equipment and the description information of all the second purifying equipment to obtain integrated information.