CN108444056A - Central air-conditioning monitoring system and its monitoring method - Google Patents

Abstract

Present invention is disclosed a kind of central air-conditioning monitoring system and its monitoring methods, system includes detection unit, parameters information for detecting and acquiring building inner air and outer air quality and central air-conditioning operating status, and the parameters information to being acquired carries out preliminary analysis and upload；Cloud platform analyzes O＆M unit, carries out secondary analysis for receiving parameters information, and to the parameters information of reception, issues result after forming final result；Terminal feedback unit, all processes for receiving final result and analysis that analysis calculates, and the operation for analyzing the cloud platform O＆M unit is monitored.Method includes detecting step, cloud platform analysis O＆M step and terminal feedback step.The scope of application of the present invention and the daily air-conditioning use environment matched of resident, can effectively complete the real-time monitoring to relevant parameters such as room inner air and outer air quality, environment temperatures, compared to existing equipment, monitoring effect of the invention is more preferably.

Description

Central air-conditioning monitoring system and its monitoring method

technical field

The invention relates to a monitoring system, in particular to an intelligent central air-conditioning monitoring system based on a cloud platform and a monitoring method thereof, which belong to the field of building intelligent control and cloud computing.

Background technique

In recent years, with the continuous improvement of the living standards of Chinese residents, people's requirements for quality of life and healthy life are also increasing, and people's requirements for indoor air quality and ambient temperature are also increasing.

In order to cope with the above trends, many buildings are currently adopting central air conditioners to adjust the air quality and temperature. However, in the actual use process, people found that many data during the operation of central air conditioners cannot be observed by people in the living room. It is impossible to monitor factors such as air quality and ambient temperature in the building where you are.

Chinese patent CN201610799268.5 discloses a central air-conditioning intelligent control system, including an air-conditioning host, a display, fan blades, a controller, a remote terminal, a signal transmitting module, a signal receiving module, and a network module. Ye, there is a controller on one side of the main unit of the air conditioner, and a signal receiving module is installed inside the controller, the signal receiving module is electrically connected to the central processing module, the central processing module is electrically connected to the data analysis module, and the data analysis module is electrically connected to the storage module , the storage module is electrically connected to the user monitoring module, the user monitoring module is electrically connected to the communication module, and the communication module is electrically connected to the cooling module and the heating module.

Although the central air-conditioning intelligent control system in the above-mentioned patent can realize simple control of the central air-conditioning, it can adjust fewer items. At the same time, the acquisition method of relevant data in the monitoring and adjustment process is inconvenient, it does not support remote data transmission, it is difficult to achieve data sharing, and it is very inconvenient for daily residents to inquire. In addition, the adaptability of the above-mentioned systems is low, and it is difficult to directly promote and use them.

To sum up, people urgently need a cloud platform monitoring system that can meet people's daily needs and can realize remote query, intelligent control, and real-time monitoring. How to provide an intelligent central air-conditioning monitoring and forecasting system and monitoring method suitable for use in buildings has become an urgent problem to be solved by those skilled in the art.

Contents of the invention

In view of the above-mentioned defects in the prior art, the object of the present invention is to propose an intelligent central air-conditioning monitoring system and monitoring method based on a cloud platform.

The purpose of the present invention will be achieved through the following technical solutions,

A central air-conditioning monitoring system, comprising:

The detection unit is used to detect and collect various parameter information of the air quality inside and outside the building and the operation status of the central air conditioner, and conduct preliminary analysis and upload of the collected parameter information;

The cloud platform analysis operation and maintenance unit is used to receive various parameter information, conduct secondary analysis on the received various parameter information, and issue the result after forming the final result;

The terminal feedback unit is used to receive the final result of analysis calculation and the whole process of analysis, and monitor the operation of the cloud platform analysis operation and maintenance unit.

Preferably, the detection unit includes:

The fresh air system detection module is fixedly installed in the fresh air duct and is used to detect the air quality in the fresh air duct;

The indoor circulation system detection module is fixedly installed on components such as filters, air ducts, fans, air outlet grilles and motors, and detects the temperature, humidity and fine particles of these components;

The outdoor circulation system detection module is fixedly installed on the capillary, compressor, fan motor and condenser components to detect the temperature, humidity and fine particles of these components;

The data acquisition module is fixedly arranged in the pipeline of the central air conditioner, and is electrically connected with the fresh air system detection module, the indoor circulation system detection module and the outdoor circulation system detection module, and collects various detection data;

The central processing module is electrically connected with the data acquisition module, and analyzes and uploads various detection data;

The detection module of the fresh air system, the detection module of the indoor circulation system and the detection module of the outdoor circulation system all include a temperature sensor, a humidity sensor and a particle sensor.

Preferably, the temperature sensor is a TE-6314P-1 temperature sensor;

Described humidity sensor is RS-WS-N01-SMG-5 type humidity sensor;

The fine particle sensor is a GP2Y1014AU fine particle sensor;

The central processing unit is a DDC controller.

Preferably, the cloud platform analysis operation and maintenance unit includes:

The user management module sets different user access rights, and users can log in to the cloud platform to analyze the operation and maintenance system according to their own accounts to observe the air quality and central air-conditioning conditions in their buildings;

The data analysis and calculation module stores and analyzes the air data collection of the central air-conditioning fresh air system and the environmental parameters of the indoor and outdoor circulation systems, judges the air quality of indoor and outdoor exchanges, and provides references for managers to assist them in decision-making;

The intelligent monitoring operation and maintenance module uses the data after data analysis and calculation to analyze the air quality in different buildings, analyze and predict the future air quality, and provide corresponding solutions.

Preferably, the terminal feedback unit includes an App client and a Web client.

A central air-conditioning monitoring method, comprising the steps of:

S1. Detection steps, detecting and collecting various parameter information of the air quality inside and outside the building and the operating status of the central air conditioner, and performing preliminary analysis and uploading of the collected parameter information;

S2. The cloud platform analyzes the operation and maintenance steps, receives various parameter information, and conducts secondary analysis on the received various parameter information, and sends the result after forming the final result;

S3. The terminal feedback step, receiving the final result of analysis and calculation and the whole process of analysis, and monitoring the operation of the analysis operation and maintenance unit of the cloud platform.

Preferably, the S1 detection step includes:

S11. The detection step of the fresh air system, fixing the fresh air system detection module in the fresh air duct for detecting the air quality in the fresh air duct;

S12, the indoor circulation system detection step, the indoor circulation system detection module is fixedly installed on the components such as filters, air ducts, fans, air outlet grilles and motors, and the temperature, humidity and fine particles of these components are detected;

S13, the outdoor circulation system detection step, the outdoor circulation system detection module is fixedly installed on the capillary, compressor, fan motor and condenser components, and the temperature, humidity and fine particles of these components are detected;

S14, the data collection step, the data collection module is fixedly arranged in the pipeline of the central air conditioner, and is electrically connected with the fresh air system detection module, the indoor circulation system detection module and the outdoor circulation system detection module, and performs various detection data collect;

S15, the central processing step, electrically connecting the central processing module with the data acquisition module, analyzing and uploading various detection data;

The detection step of the fresh air system, the detection step of the indoor circulation system and the detection step of the outdoor circulation system all include setting a temperature sensor, setting a humidity sensor and setting a particle sensor.

Preferably, the temperature sensor is a TE-6314P-1 temperature sensor;

Described humidity sensor is RS-WS-N01-SMG-5 type humidity sensor;

The fine particle sensor is a GP2Y1014AU fine particle sensor;

The central processing unit is a DDC controller.

Preferably, the S2 cloud platform analysis operation and maintenance steps include:

S21, the user management step, setting different user access rights, the user can log in to the cloud platform to analyze the operation and maintenance system according to his own account to observe the air quality and central air conditioner status in the building where he is located;

S22. The data analysis and calculation step is to store and analyze the air data collection of the central air-conditioning fresh air system and the environmental parameters of the indoor and outdoor circulation systems, judge the air quality exchanged indoors and outdoors, and provide references for management personnel to assist management personnel in decision-making;

S23. Intelligent monitoring operation and maintenance steps, using the data after data analysis and calculation to analyze the air quality in different buildings, analyze and predict the future air quality, and provide corresponding solutions.

Preferably, the S3 terminal feedback step includes setting and debugging App client and Web client.

Compared with the prior art, the advantages of the present invention are mainly reflected in the following aspects:

1. The scope of application of the present invention is highly compatible with the daily air-conditioning environment used by residents, and can effectively complete real-time monitoring of relevant parameters such as indoor and outdoor air quality and ambient temperature. Compared with existing equipment, the present invention has a better monitoring effect . 2. With the help of the cloud platform, the present invention can store, analyze, and predict a large amount of real-time data, so as to more scientifically complete the comprehensive monitoring, analysis and calculation of indoor and outdoor air quality, ambient temperature and other related parameters, and intelligently control and forecast.

3. The present invention can send monitoring data, analysis results, control process and other information to the smart terminal, which not only facilitates the real-time observation of managers and maintenance personnel, but also enables ordinary residents to fully understand the indoor and outdoor air quality, ambient temperature and other related information. parameter.

In the following, the specific implementation manners of the present invention will be further described in detail in conjunction with the accompanying drawings of the embodiments, so as to make the technical solution of the present invention easier to understand and grasp.

Description of drawings

Fig. 1 is a structural block diagram of the present invention.

Detailed ways

As shown in the figure, the present invention discloses an intelligent central air-conditioning monitoring system and monitoring method based on a cloud platform.

Specifically, a central air-conditioning monitoring system includes:

The detection unit is used to detect and collect various parameter information of the air quality inside and outside the building and the operation status of the central air conditioner, and conduct preliminary analysis and upload of the collected parameter information.

The cloud platform analysis operation and maintenance unit is used to receive various parameter information, conduct secondary analysis on the received various parameter information, and issue the result after forming the final result.

The terminal feedback unit is used to receive the final result of analysis calculation and the whole process of analysis, and monitor the operation of the cloud platform analysis operation and maintenance unit.

The detection unit includes:

The fresh air system detection module is fixedly installed in the fresh air duct and is used to detect the air quality in the fresh air duct.

The indoor circulation system detection module is fixedly installed on components such as filters, air ducts, fans, air outlet grilles and motors, and detects the temperature, humidity and fine particles of these components.

The outdoor circulation system detection module is fixedly installed on the capillary, compressor, fan motor and condenser components to detect the temperature, humidity and fine particles of these components.

The data acquisition module is fixedly installed in the pipeline of the central air conditioner, and is electrically connected with the fresh air system detection module, the indoor circulation system detection module and the outdoor circulation system detection module, and collects various detection data.

The central processing module is electrically connected with the data acquisition module, and analyzes and uploads various detection data.

It should be noted here that the signal connection between the central processing module and the data acquisition module is completed by means of a bus, and the data connection between the central processing module and the analysis operation and maintenance unit of the cloud platform is realized by means of Ethernet. The cloud platform analysis operation and maintenance unit analyzes and predicts the data, and makes statistics, so that the air quality in different areas and buildings can be analyzed, and the personnel in the building can log in to the cloud platform to observe the data according to their own accounts, and can also be used as a management system. Personnel provide a program of adjustments.

The detection module of the fresh air system, the detection module of the indoor circulation system and the detection module of the outdoor circulation system all include a temperature sensor, a humidity sensor and a particle sensor.

The temperature sensor is a TE-6314P-1 temperature sensor, which includes a temperature sensor and can accurately detect the temperature of each part of the central air conditioner.

The humidity sensor is an RS-WS-N01-SMG-5 type humidity sensor, which includes a humidity sensor and can accurately detect the humidity of each part of the central air conditioner.

The fine particle sensor is a GP2Y1014AU fine particle sensor, which includes a fine particle sensor and can accurately detect fine particles in various parts of the central air conditioner.

The central processing unit is a DDC controller, and the DDC controller has more IO ports to connect each module and collect data.

The cloud platform analysis operation and maintenance unit includes:

The user management module sets different user access rights. Users can log in to the cloud platform to analyze the operation and maintenance system according to their own accounts to observe the air quality and central air-conditioning conditions in their buildings.

The data analysis and calculation module stores and analyzes the air data collection of the central air-conditioning fresh air system and the environmental parameters of the indoor and outdoor circulation systems, judges the air quality exchanged indoors and outdoors, and provides references for managers to assist them in decision-making.

The intelligent monitoring operation and maintenance module uses the data after data analysis and calculation to analyze the air quality in different buildings, analyze and predict the future air quality, and provide corresponding solutions.

The terminal feedback unit includes an App client and a Web client.

A central air-conditioning monitoring method, comprising the steps of:

S1. The detection step is to detect and collect various parameter information of the air quality inside and outside the building and the operation status of the central air conditioner, and conduct preliminary analysis and upload of the collected parameter information.

S2. The cloud platform analyzes the operation and maintenance steps, receives various parameter information, and conducts secondary analysis on the received various parameter information, and sends the result after forming the final result.

S3. The terminal feedback step, receiving the final result of analysis and calculation and the whole process of analysis, and monitoring the operation of the analysis operation and maintenance unit of the cloud platform.

The S1 detection step comprises:

S11. The detection step of the fresh air system. The fresh air system detection module is fixedly installed in the fresh air duct for detecting the air quality in the fresh air duct.

S12. Indoor circulatory system detection step, the indoor circulatory system detection module is fixedly installed on components such as filters, air ducts, fans, air outlet grilles and motors, and the temperature, humidity and fine particles of these components are detected.

S13. The step of detecting the outdoor circulation system, fixing the detection module of the outdoor circulation system on the components of the capillary, the compressor, the fan motor and the condenser, and detecting the temperature, humidity and fine particles of these components.

S14, the data collection step, the data collection module is fixedly arranged in the pipeline of the central air conditioner, and is electrically connected with the fresh air system detection module, the indoor circulation system detection module and the outdoor circulation system detection module, and performs various detection data collect.

S15, a central processing step, electrically connecting the central processing module with the data acquisition module, analyzing and uploading various detection data.

The detection step of the fresh air system, the detection step of the indoor circulation system and the detection step of the outdoor circulation system all include setting a temperature sensor, setting a humidity sensor and setting a particle sensor.

The temperature sensor is a TE-6314P-1 temperature sensor.

The humidity sensor is RS-WS-N01-SMG-5 type humidity sensor.

The fine particle sensor is a GP2Y1014AU fine particle sensor.

The central processing unit is a DDC controller.

The S2 cloud platform analysis operation and maintenance steps include:

S21. The user management step is to set different user access rights. Users can log in to the cloud platform to analyze the operation and maintenance system according to their own accounts to observe the air quality and central air-conditioning conditions in their own buildings.

S22. The data analysis and calculation step is to store and analyze the air data collection of the central air-conditioning fresh air system and the environmental parameters of the indoor and outdoor circulation systems, judge the air quality exchanged indoors and outdoors, and provide references for management personnel to assist management personnel in decision-making.

S23. Intelligent monitoring operation and maintenance steps, using the data after data analysis and calculation to analyze the air quality in different buildings, analyze and predict the future air quality, and provide corresponding solutions.

The S3 terminal feedback step includes setting and debugging the App client and the Web client.

Compared with the prior art, the advantages of the present invention are mainly reflected in the following aspects:

1. The scope of application of the present invention is highly compatible with the daily air-conditioning environment used by residents, and can effectively complete real-time monitoring of relevant parameters such as indoor and outdoor air quality and ambient temperature. Compared with existing equipment, the present invention has a better monitoring effect . 2. With the help of the cloud platform, the present invention can store, analyze, and predict a large amount of real-time data, so as to more scientifically complete the comprehensive monitoring, analysis and calculation of indoor and outdoor air quality, ambient temperature and other related parameters, and intelligently control and forecast.

3. The present invention can send monitoring data, analysis results, control process and other information to the smart terminal, which not only facilitates the real-time observation of managers and maintenance personnel, but also enables ordinary residents to fully understand the indoor and outdoor air quality, ambient temperature and other related information. parameter.

It will be obvious to those skilled in the art that the present invention is not limited to the details of the exemplary embodiments described above, but that it can be embodied in other specific forms without departing from the spirit and essential characteristics of the invention. Accordingly, the embodiments should be regarded in all points of view as exemplary and not restrictive, the scope of the invention being defined by the appended claims rather than the foregoing description, and it is therefore intended that the scope of the invention be defined by the appended claims rather than by the foregoing description. All changes within the meaning and range of equivalents of the elements are embraced in the invention, and any reference sign in a claim shall not be construed as limiting the claim concerned.

In addition, it should be understood that although this specification is described according to implementation modes, not each implementation mode only contains an independent technical solution, and this description in the specification is only for clarity, and those skilled in the art should take the specification as a whole , the technical solutions in the various embodiments can also be properly combined to form other implementations that can be understood by those skilled in the art.

Claims (10)

1. A central air-conditioning monitoring system, characterized in that, comprising: The detection unit is used to detect and collect various parameter information of the air quality inside and outside the building and the operation status of the central air conditioner, and conduct preliminary analysis and upload of the collected parameter information; The cloud platform analysis operation and maintenance unit is used to receive various parameter information, conduct secondary analysis on the received various parameter information, and issue the result after forming the final result; The terminal feedback unit is used to receive the final result of analysis calculation and the whole process of analysis, and monitor the operation of the cloud platform analysis operation and maintenance unit. 2. The central air-conditioning monitoring system according to claim 1, wherein the detection unit comprises: The fresh air system detection module is fixedly installed in the fresh air duct and is used to detect the air quality in the fresh air duct; The indoor circulation system detection module is fixedly installed on components such as filters, air ducts, fans, air outlet grilles and motors, and detects the temperature, humidity and fine particles of these components; The outdoor circulation system detection module is fixedly installed on the capillary, compressor, fan motor and condenser components to detect the temperature, humidity and fine particles of these components; The data acquisition module is fixedly arranged in the pipeline of the central air conditioner, and is electrically connected with the fresh air system detection module, the indoor circulation system detection module and the outdoor circulation system detection module, and collects various detection data; The central processing module is electrically connected with the data acquisition module, and analyzes and uploads various detection data; The detection module of the fresh air system, the detection module of the indoor circulation system and the detection module of the outdoor circulation system all include a temperature sensor, a humidity sensor and a particle sensor. 3. The central air-conditioning monitoring system according to claim 2, characterized in that: Described temperature sensor is TE-6314P-1 type temperature sensor; Described humidity sensor is RS-WS-N01-SMG-5 type humidity sensor; The fine particle sensor is a GP2Y1014AU fine particle sensor; The central processing unit is a DDC controller. 4. central air-conditioning monitoring system according to claim 1, is characterized in that, described cloud platform analysis operation and maintenance unit comprises: The user management module sets different user access rights, and users can log in to the cloud platform to analyze the operation and maintenance system according to their own accounts to observe the air quality and central air-conditioning conditions in their buildings; The data analysis and calculation module stores and analyzes the air data collection of the central air-conditioning fresh air system and the environmental parameters of the indoor and outdoor circulation systems, judges the air quality of indoor and outdoor exchanges, and provides references for managers to assist them in decision-making; The intelligent monitoring operation and maintenance module uses the data after data analysis and calculation to analyze the air quality in different buildings, analyze and predict the future air quality, and provide corresponding solutions. 5. The central air-conditioning monitoring system according to claim 1, wherein the terminal feedback unit includes an App client and a Web client. 6. a central air-conditioning monitoring method, is characterized in that, comprises the steps: S1. Detection steps, detecting and collecting various parameter information of the air quality inside and outside the building and the operating status of the central air conditioner, and performing preliminary analysis and uploading of the collected parameter information; S2. The cloud platform analyzes the operation and maintenance steps, receives various parameter information, and conducts secondary analysis on the received various parameter information, and sends the result after forming the final result; S3. The terminal feedback step, receiving the final result of analysis and calculation and the whole process of analysis, and monitoring the operation of the analysis operation and maintenance unit of the cloud platform. 7. The central air-conditioning monitoring method according to claim 6, wherein the S1 detection step comprises: S11. The detection step of the fresh air system, fixing the fresh air system detection module in the fresh air duct for detecting the air quality in the fresh air duct; S12, the indoor circulation system detection step, the indoor circulation system detection module is fixedly installed on the components such as filters, air ducts, fans, air outlet grilles and motors, and the temperature, humidity and fine particles of these components are detected; S13, the outdoor circulation system detection step, the outdoor circulation system detection module is fixedly installed on the capillary, compressor, fan motor and condenser components, and the temperature, humidity and fine particles of these components are detected; S14, the data collection step, the data collection module is fixedly arranged in the pipeline of the central air conditioner, and is electrically connected with the fresh air system detection module, the indoor circulation system detection module and the outdoor circulation system detection module, and performs various detection data collect; S15, the central processing step, electrically connecting the central processing module with the data acquisition module, analyzing and uploading various detection data; The detection step of the fresh air system, the detection step of the indoor circulation system and the detection step of the outdoor circulation system all include setting a temperature sensor, setting a humidity sensor and setting a particle sensor. 8. The central air-conditioning monitoring method according to claim 7, characterized in that: Described temperature sensor is TE-6314P-1 type temperature sensor; Described humidity sensor is RS-WS-N01-SMG-5 type humidity sensor; The fine particle sensor is a GP2Y1014AU fine particle sensor; The central processing unit is a DDC controller. 9. The central air-conditioning monitoring method according to claim 6, wherein said S2 cloud platform analysis operation and maintenance step comprises: S21, the user management step, setting different user access rights, the user can log in to the cloud platform to analyze the operation and maintenance system according to his own account to observe the air quality and central air conditioner status in the building where he is located; S22. The data analysis and calculation step is to store and analyze the air data collection of the central air-conditioning fresh air system and the environmental parameters of the indoor and outdoor circulation systems, judge the air quality exchanged indoors and outdoors, and provide references for management personnel to assist management personnel in decision-making; S23. Intelligent monitoring operation and maintenance steps, using the data after data analysis and calculation to analyze the air quality in different buildings, analyze and predict the future air quality, and provide corresponding solutions. 10. The central air-conditioning monitoring method according to claim 6, wherein the S3 terminal feedback step comprises setting and debugging an App client and a Web client.