CN116007148A

CN116007148A - Intelligent household air purification system based on Internet of things

Info

Publication number: CN116007148A
Application number: CN202310027149.8A
Authority: CN
Inventors: 余长江; 陈璐; 仇璐
Original assignee: Jiangsu Yueda Green Building Technology Co ltd
Current assignee: Jiangsu Yueda Green Building Technology Co ltd
Priority date: 2023-01-09
Filing date: 2023-01-09
Publication date: 2023-04-25
Anticipated expiration: 2043-01-09
Also published as: CN116007148B

Abstract

The invention provides an intelligent household air purification system based on the Internet of things, which comprises: the monitoring end is used for monitoring the air environment in the target space in real time and determining first dynamic environment data in the target space; the control end is used for judging whether the target space meets the air quality standard or not based on the first dynamic environment data, generating an air purification instruction when the target space does not meet the air quality standard, transmitting the air purification instruction to the target device, purifying the air of the target space based on the target device, and generating second dynamic environment data of the target space; the remote display end is used for generating a monitoring report based on the first dynamic environment data and the second dynamic environment data, and transmitting the monitoring report to the target display terminal for display based on the Internet of things. The target device is accurately and reliably controlled through the Internet of things, and timeliness and purification effect of air purification are guaranteed.

Description

Intelligent household air purification system based on Internet of things

Technical Field

The invention relates to the technical field of household air purification of the Internet of things, in particular to an intelligent household air purification system based on the Internet of things.

Background

The existing air purifier usually needs to realize purification of household air by manually operating a purification device, so that the remote control of the air purifier by a user cannot be met, and the user cannot master the environmental condition of the household space in real time;

therefore, in order to overcome the problems, the invention provides an intelligent household air purification system based on the Internet of things.

Disclosure of Invention

The invention provides an intelligent household air purification system based on the Internet of things, which is used for monitoring the air environment of a target space, comparing the monitoring result with an air quality standard, and timely generating an air purification instruction when the air quality standard does not meet the requirement, so that the target device is controlled to purify the air environment of the target space through the air purification instruction, the purified dynamic environment data is generated into a monitoring report and displayed on a display terminal, the target device is accurately and reliably controlled through the Internet of things, and the timeliness and the purification effect of air purification are ensured.

The invention provides an intelligent household air purification system based on the Internet of things, which comprises the following steps:

the monitoring end is used for monitoring the air environment in the target space in real time and determining first dynamic environment data in the target space;

the control end is used for judging whether the target space meets the air quality standard or not based on the first dynamic environment data, generating an air purification instruction when the target space does not meet the air quality standard, transmitting the air purification instruction to the target device, purifying the air of the target space based on the target device, and generating second dynamic environment data of the target space;

the remote display end is used for generating a monitoring report based on the first dynamic environment data and the second dynamic environment data, and transmitting the monitoring report to the target display terminal for display based on the Internet of things.

Preferably, an intelligent house air purification system based on thing networking, monitoring end includes:

the space analysis module is used for acquiring a space structure of the target space, determining space distribution characteristics in the target space, determining environment monitoring points based on the space distribution characteristics, and setting air environment monitoring equipment at the environment monitoring points, wherein the environment monitoring points are in one-to-one correspondence with the air environment monitoring equipment;

the data acquisition module is used for carrying out air environment monitoring on the target space based on the air environment monitoring equipment and determining dynamic environment data corresponding to each air environment monitoring equipment;

and the first dynamic environment parameter determining module is used for averaging the dynamic environment data corresponding to each air environment monitoring device and determining the first dynamic environment data.

Preferably, an intelligent house air purification system based on thing networking, space analysis module includes:

the space scanning unit is used for carrying out space scanning on the target space, determining three-dimensional space data of the target space and constructing a space model of the target space according to the three-dimensional space data of the target space;

a model reading unit for:

reading the space model, and determining a space structure in the space model and a ventilation position of the space model;

determining a first influence position point for air environment collection based on the space structure, and taking a ventilation position of the space model as a second influence position point;

determining environmental monitoring points in the target space according to the first influence position point and the second influence position point;

and the air environment monitoring equipment setting unit is used for setting the air environment monitoring equipment in the environment monitoring points.

Preferably, an intelligent house air purification system based on thing networking, the control end includes:

the data transmission module is used for constructing a data transmission link based on the Internet of things and transmitting the first dynamic environment data to the remote analysis terminal;

a data reading module for:

reading the first dynamic environment data based on the remote analysis terminal, determining the environment dynamic change characteristics corresponding to the first dynamic environment data, and simultaneously determining a first environment change characteristic matrix of the target space according to the environment dynamic change characteristics;

reading optimal dynamic environment data of a target space, and determining a second environment change feature matrix corresponding to the target space according to the optimal dynamic environment data;

the judging module is used for overlapping the first environment change characteristic matrix and the second environment change characteristic matrix, determining a third environment change characteristic matrix and determining whether the target space meets the air quality standard or not based on the third environment change characteristic matrix.

Preferably, an intelligent house air purification system based on thing networking, judge module includes:

the matrix reading unit is used for reading the third environment change feature matrix and the second environment change feature, and determining a difference interval of the third environment change feature matrix based on the second environment change feature matrix;

the judging unit is used for comparing the difference interval with a set threshold interval and judging whether the target space meets the air quality standard or not;

when the difference interval is input into the set threshold interval, judging that the target space meets the air quality standard;

otherwise, the target space is judged to be not in accordance with the air quality standard.

the remote instruction generation module is used for generating an air purification instruction based on the remote analysis terminal when the target space does not meet the air quality standard;

the communication module is used for remotely transmitting the air purification instruction to the target device based on the data transmission link, and controlling the target device to air purify the target space based on the air purification instruction;

and the data recording module is used for recording the second dynamic environment data of the target space in real time when the target device performs air purification on the target space.

Preferably, an intelligent house air purification system based on thing networking, data record module includes:

the data acquisition unit is used for acquiring optimal dynamic environment data;

a stop instruction generation unit configured to:

comparing the second dynamic environment data with the optimal dynamic environment data in real time, and generating a stop instruction when the second dynamic environment data is equal to the optimal dynamic environment data;

the target device is controlled to stop air purification of the target space based on the stop operation instruction.

Preferably, an intelligent house air purification system based on thing networking, remote display end includes:

a report generation module for:

the method comprises the steps of calling a target report template, dividing the target report template into a first report block and a second report block, and simultaneously obtaining a first data identifier of first dynamic environment data and a second data identifier of second dynamic environment data;

the first data is identified as a first block label of a first report block, and the second data is identified as a second block label of a second report block;

filling first dynamic environment data into a first report block according to the first block label, and filling second dynamic environment data into a second report block according to the second block label;

based on the filling result, a monitoring report is generated.

the report storage module is used for storing the monitoring report to the target database;

and the interaction module is used for generating an interaction instruction based on the target display terminal and invoking a monitoring report in the target database according to the interaction instruction.

Preferably, an intelligent house air purification system based on thing networking still includes:

an evaluation module for:

when the target space is air-purified, calculating time for air-purifying the target space based on the target device, and calculating air-purifying efficiency of the target device based on the time for air-purifying the target space by the target device;

comparing the air purification efficiency of the target device with an air purification efficiency threshold value, and judging whether the target device works properly or not;

when the air purification efficiency of the target device is equal to or greater than the air purification efficiency threshold, judging that the target device works qualified;

otherwise, judging that the target device is unqualified, and optimizing the efficiency of the target device.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

fig. 1 is a block diagram of an intelligent home air purification system based on the internet of things in an embodiment of the invention;

fig. 2 is a block diagram of a monitoring end in an intelligent home air purification system based on the internet of things in an embodiment of the invention;

fig. 3 is a block diagram of a control end in an intelligent home air purification system based on the internet of things in an embodiment of the invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Example 1:

the embodiment provides an intelligent home air purification system based on the internet of things, as shown in fig. 1, including:

In this embodiment, the target space may be an area where air essence is required to be performed by the smart home air purification system, and may specifically be a bedroom or living room.

In this embodiment, the first dynamic environment data may be a gas type contained in the target space and a gas concentration corresponding to a different gas type, for example, a case where the concentration of carbon dioxide is a first value in the morning and a second value in the afternoon may be mentioned.

In this embodiment, the air quality criterion is determined in advance, and is used to characterize the minimum condition that the target space meets the air quality requirement, specifically, the oxygen content of the target space must be above 50mg/m3, etc.

In this embodiment, the air cleaning instruction may be for controlling the target device to perform cleaning processing on the air environment of the target space.

In this embodiment, the target device may be an apparatus capable of purifying air in the target space, and may be an air purifier or the like, for example.

In this embodiment, the second dynamic environment data may be a gas concentration corresponding to a gas type contained in the current target space after the target device purifies the air of the target space.

In this embodiment, the monitoring report may record data such as the first dynamic environment data, the second dynamic environment data, and the purifying effect of the target device on the target space.

In this embodiment, the target display terminal may be a device terminal that displays the generated monitoring report, and specifically may be a device with a display, such as a computer, a mobile phone, or the like.

The beneficial effects of the technical scheme are as follows: the air environment of the target space is monitored, the monitoring result is compared with the air quality standard, and the air purification instruction is timely generated when the air quality standard does not meet the requirement, so that the target device is controlled to purify the air environment of the target space through the air purification instruction, the purified dynamic environment data is generated into a monitoring report and displayed on the display terminal, the target device is accurately and reliably controlled through the Internet of things, and the timeliness and the purification effect of air purification are guaranteed.

Example 2:

on the basis of embodiment 1, this embodiment provides an intelligent home air purification system based on the internet of things, as shown in fig. 2, a monitoring terminal includes:

In this embodiment, the spatial configuration may be a spatial distribution condition and a spatial size of the target space, and may specifically be a height, a length, a width, and the like of the target space.

In this embodiment, the spatial distribution characteristics may be the number of rooms contained in the space, the position of each room in the target space, and the like.

In this embodiment, the environmental monitoring point may be a location point where sample collection is performed, and by installing an air environmental monitoring device at the environmental monitoring point, collection of environmental data of the target space is achieved.

In this embodiment, the air environment monitoring device is acquired in advance, and is installed at an environment monitoring point, and is used for acquiring environment data of a target space.

In this embodiment, the dynamic environment data may be air environment data of the target space at the current time after the air environment of the target space is monitored by the air environment monitoring device.

The beneficial effects of the technical scheme are as follows: through analyzing the space structure of the target space, the accurate and effective determination of the environmental monitoring points in the target space is realized, and secondly, through setting up environmental monitoring equipment at the environmental monitoring points, the accurate and effective acquisition of the first dynamic environmental data of the target space through the environmental monitoring equipment is realized, convenience and guarantee are provided for realizing accurate and reliable air purification of the target space, and the purification effect is ensured.

Example 3;

on the basis of embodiment 2, this embodiment provides an intelligent house air purification system based on thing networking, and space analysis module includes:

a model reading unit for:

In this embodiment, the three-dimensional space data may be three-dimensional data of the target space obtained after the target space is scanned, and may specifically be parameters such as a length, a width, and a height of the target space.

In this embodiment, the spatial model may be a simulation model that is constructed according to three-dimensional spatial data of the target space and has the same building structure and the same distribution characteristics as the target space.

In this embodiment, the first influencing location point may be a location that has an influence on the air environment data of the target space, for example, may be a corner or the like in the target space.

In this embodiment, the second influencing location point may be a window position or a doorway position in the target space, which has a greater influence on the air environment data value in the target space.

The beneficial effects of the technical scheme are as follows: the space model of the target space is constructed according to the scanning result by scanning the target space, then the space model is analyzed, the first influence position point and the second influence position point in the target space are accurately and effectively confirmed, finally the environment monitoring point which is finally required to be set is accurately and effectively set according to the first influence position point and the second influence position point, so that the rationality of installing the air environment monitoring equipment is ensured, the accuracy of grasping the air instruction of the environment of the target space is improved, and the air purifying effect is ensured.

Example 4:

on the basis of embodiment 1, this embodiment provides an intelligent home air purification system based on the internet of things, as shown in fig. 3, a control end includes:

a data reading module for:

In this embodiment, the environmental dynamic transformation feature may be a specific value condition of representing the concentration of different gases in the first dynamic environmental data at different moments, for example, may be a change trend of changing the oxygen concentration in the target space from 50mg/m3 to 30mg/m3, and so on.

In this embodiment, the first environmental change feature matrix may represent values corresponding to different gas types contained in the target air in a matrix form according to the environmental dynamic change feature of the first dynamic environmental data, so as to facilitate accurate and effective analysis of the first dynamic environmental data.

In this embodiment, the optimal dynamic environment data is set in advance, and is used to characterize the types of gases that need to be reached in the target space and the concentrations corresponding to the types of gases, and can be adjusted according to different environmental conditions.

In this embodiment, the second environmental change feature matrix represents a specific value condition corresponding to the optimal dynamic environmental data in a matrix form.

In this embodiment, the third environmental change feature matrix may be a change feature matrix obtained by overlapping the first environmental change feature matrix and the second environmental change feature matrix, that is, a result obtained by calculating the first environmental change feature matrix and the second environmental change feature matrix through a matrix algorithm, so as to accurately and effectively obtain an air quality standard of the target space according to the third environmental change feature matrix.

The beneficial effects of the technical scheme are as follows: the first dynamic environment data of the target space are converted into the corresponding first environment change feature matrix according to the corresponding environment dynamic change features of the first dynamic environment data, and the optimal dynamic environment data of the target space are converted into the second environment change feature matrix, so that whether the air instruction of the target space meets the expected standard or not is accurately and reliably judged by the first environment change feature matrix and the second environment change feature matrix, corresponding air purification operation is conveniently carried out in time according to the judgment result, and timeliness and purification efficiency of air purification are guaranteed.

Example 5:

on the basis of embodiment 4, this embodiment provides an intelligent house air purification system based on thing networking, judges the module, includes:

In this embodiment, the difference interval may be a data difference condition between the characterization pair second environment variation feature matrix and the third environment variation feature matrix, and so on.

In this embodiment, the set threshold interval is set in advance, and is used to characterize the maximum difference between the allowable second environment change feature matrix and the third environment change feature matrix.

The beneficial effects of the technical scheme are as follows: by determining the difference interval of the third environment change feature matrix and the second environment change feature matrix and comparing the difference interval with the set threshold interval, the air quality of the target space is accurately and reliably judged whether to accord with the air quality standard, so that corresponding purification operation is conveniently and timely carried out according to analysis results, and the timeliness and the purification effect of air purification are guaranteed.

Example 6:

on the basis of embodiment 1, this embodiment provides an intelligent house air purification system based on thing networking, and the control end includes:

The beneficial effects of the technical scheme are as follows: when the judgment result represents that the target space does not accord with the air quality standard, corresponding air purification instructions are timely generated, and the air purification instructions are transmitted to corresponding target devices through the internet of things technology to perform air purification operation, so that the accuracy of control of the target devices is guaranteed, the efficiency and the reliability of air purification of the target space are improved, and the purification effect is guaranteed.

Example 7:

on the basis of embodiment 6, this embodiment provides an intelligent home air purification system based on thing networking, and data record module includes:

a stop instruction generation unit configured to:

In this embodiment, the stop instruction may be an instruction for controlling the target device to switch from the work load to the sleep state.

The beneficial effects of the technical scheme are as follows: by comparing the acquired second dynamic environment data with the optimal dynamic environment data, a corresponding stop instruction is timely generated after the current dynamic environment data of the target space meets the optimal dynamic environment data, the working state of the target device is timely and effectively switched, and the purifying effect and the purifying accuracy rate of the air environment of the target space are ensured.

Example 8:

on the basis of embodiment 1, this embodiment provides an intelligent house air purification system based on thing networking, and the remote display end includes:

a report generation module for:

based on the filling result, a monitoring report is generated.

In this embodiment, the target report template is set in advance, and is used to record the spatial environment data of the monitored target space, and generate the final monitoring report.

In this embodiment, the first reporting block and the second reporting block may be recording areas obtained by dividing the target reporting template into two areas.

In this embodiment, the first data identification may be a data tag for tagging the first dynamic environment data.

In this embodiment, the second data identification may be a data tag for tagging the second dynamic environment data.

In this embodiment, the first tile tag may be a marker symbol that identifies the first data as interfacing with the first reporting tile.

In this embodiment, the second tile tag may be a marker symbol that identifies the second data as interfacing with the second reporting tile.

The beneficial effects of the technical scheme are as follows: the target report template is obtained, the target report target is divided into the first report block and the second report block, and meanwhile, the first data identification of the first dynamic environment data and the second data identification of the second dynamic environment data are respectively determined, so that the first dynamic environment data and the first report block as well as the second dynamic environment data and the second report block are accurately and reliably butted, the normative of a finally obtained monitoring report is ensured, the purifying effect on the air environment of the target space is optimized, the air environment can be circulated, and meanwhile, the purification operation of the target device is convenient to adjust in time according to the monitoring report.

Example 9:

In this embodiment, the target database is set in advance for storing the acquired monitoring report.

In this embodiment, the generation of the interaction instruction based on the target display terminal may be that, when the user needs to invoke the monitoring report, the interaction instruction is obtained after submitting the invocation request at the target display terminal, so as to invoke the corresponding monitoring report from the target database.

In this embodiment, retrieving the monitoring report in the target database according to the interaction instruction may be retrieving the monitoring report in the target database according to the interaction instruction, and finally finding the monitoring report matched with the interaction instruction.

The beneficial effects of the technical scheme are as follows: the obtained monitoring report is stored in the target database, and meanwhile, after the storage is finished, an interactive instruction is generated through the target display terminal, so that the corresponding monitoring report is called according to the query requirement of the user, and the accurate and reliable query of the monitoring report is ensured.

Example 10:

on the basis of the embodiment 1, the method further comprises the following steps:

an evaluation module for calculating a time for air-purifying a target space based on a target device and calculating an air-purifying efficiency of the target device based on the time for air-purifying the target space by the target device when air-purifying the target space, specifically comprising:

a parameter confirmation unit for acquiring the air content of the target space;

a first calculation unit for calculating a time for the target device to air-purify the target space based on an air content of the target space;

wherein T represents the time for the target device to air-purify the target space; v represents the rate at which the target device is operating; f represents the driving force of the target device; s represents the air content of the target space; u represents the operating voltage of the target device; i represents the operating current of the target device; cos φ represents the power factor, and φ represents the phase difference of the operating voltage and operating current of the target device; μ represents an aging factor, and the value range is (0.01,0.02); t is t ₀ Indicating a start-up time of the target device;

a second calculation unit for calculating an air purification efficiency of the target device based on a time at which the target device air-purifies the target space;

where η represents the air purification efficiency of the target device; τ ₁ An air flow rate representing the target space; τ ₂ Represents the leakage rate of air when purifying the air in the target air, and τ ₁ ≤τ ₂ The method comprises the steps of carrying out a first treatment on the surface of the Psi represents a constant, typically having a value of 2;

the value range is (0.1, 0.2) and the influence factor is represented; v (V) _best Indicating an optimal purge rate;

the qualification evaluation unit is used for comparing the air purification efficiency of the target device with an air purification efficiency threshold value and judging whether the target device works qualified or not;

In this embodiment, the best netThe speed of the device can be set in advance, and is the speed when the target device has the best purifying efficiency on the target space, and S/T is less than or equal to V _best 。

In this embodiment, the air purification efficiency threshold may be a pre-set criterion for qualifying the operation of the target device.

The beneficial effects of the technical scheme are as follows: when the target device is used for purifying air in the target space, the time for purifying air in the target space based on the target device is calculated, so that the air purifying efficiency of the target device is accurately calculated, whether the target device works qualified or not is effectively measured, and the intelligence of air purification and the effectiveness of air purification on the target space are greatly improved.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims

1. Intelligent house air purification system based on thing networking, its characterized in that includes:

2. The intelligent home air purification system based on the internet of things of claim 1, wherein the monitoring terminal comprises:

3. The intelligent home air purification system based on the internet of things of claim 2, wherein the spatial analysis module comprises:

a model reading unit for:

4. The intelligent home air purification system based on the internet of things of claim 1, wherein the control end comprises:

a data reading module for:

5. The intelligent home air purification system based on the internet of things of claim 4, wherein the judging module comprises:

6. The intelligent home air purification system based on the internet of things of claim 1, wherein the control end comprises:

7. The intelligent home air purification system based on the internet of things of claim 6, wherein the data recording module comprises:

a stop instruction generation unit configured to:

8. The intelligent home air purification system based on the internet of things of claim 1, wherein the remote display terminal comprises:

a report generation module for:

based on the filling result, a monitoring report is generated.

9. The intelligent home air purification system based on the internet of things of claim 1, wherein the remote display terminal comprises:

10. The intelligent home air purification system based on the internet of things of claim 1, further comprising:

an evaluation module for: