CN105717899A - Heat energy monitoring and management platform - Google Patents

The invention relates to a heat energy monitoring and management platform which comprises an indoor wireless data server, a database server, a remote management server, a WEB server and an exchanger, and the indoor wireless data server, the database server, the remote management server and the WEB server conduct interactive transmission of information data through the exchanger.The heat energy monitoring and management platform collects, gathers, sorts, analyzes and compares heating data, building data, heating project data and user indoor data and conducts remote and intelligent control over a heating system and assists an expert in conducting online guidance, and the purposes of improving overall operation efficiency of the heating system, lowering energy consumption and emission of the heating system and saving operation and manpower cost are achieved.

Thermal energy monitoring and management platform

Technical Field

The invention relates to a thermal energy monitoring and management platform, and belongs to the technical field of heat supply monitoring and management.

Background

The existing heat supply platform in the heat supply industry is usually unreasonable and cannot automatically collect and acquire effective heat supply data in real time, the data input in a manual background also lacks an analysis and comparison function, and the platform only has a display function, does not have the functions of instruction issuing and macroscopic regulation and control, and lacks practical application value. Heat sources, accessory equipment, a controller, a platform and a management method in the existing heating industry are all in independent states, the integrated interaction and linkage functions are not achieved, the equipment is not supported by data during operation and is operated by manual experience, the deviation between the operation of each equipment and the optimal working condition is large, and the low operation efficiency of single equipment causes the extremely low efficiency of an integrated heating system.

Conventional heating is not adjusted in real time according to actual building heat load requirements, and a large amount of unnecessary energy consumption is wasted. Meanwhile, monitoring aiming at indoor data of a user is lacked, whether the heating quality reaches the standard cannot be guaranteed, and blind energy conservation is not based and unscientific on the basis. The heat supply data lack heat supply industry experts to carry out targeted summarization, comparison and analysis on the heat supply data, so that the heat supply strategy is not professional, scientific and more targeted; traditional heat supply needs to depend on site furnace operators to operate heat supply equipment and systems, but the professional level of the furnace operators is low, the mobility is high, and the labor cost of heat supply enterprises is high.

Disclosure of Invention

The invention aims to: aiming at the defects of the prior art, the thermal energy monitoring and management platform is provided, and the thermal energy monitoring and management platform collects, summarizes, arranges, analyzes and contrasts the data of the heating system, the building data, the heating project data and the indoor data of the user, and carries out remote intelligent control on the heating system, assists experts in guiding the function on line, and achieves the purposes of improving the overall operating efficiency of the heating system, reducing the energy consumption and emission of the heating system and saving the operation and labor cost.

The technical scheme adopted by the invention is as follows: a heating power energy monitoring and management platform comprises an indoor wireless data server, a database server, a remote management server, a WEB server and a switch; wherein,

the indoor wireless data server automatically collects and arranges data information, and provides accurate and real-time heat supply quality information for the thermal energy monitoring and management platform by collecting user indoor wireless data information such as user indoor temperature, humidity, data uploading time, historical records, equipment numbers, electric quantity and the like;

the database server is used for automatically acquiring, sorting, analyzing and comparing building data, heat supply system data and heat supply project data, and providing comprehensive and accurate heat supply summary information for the thermal energy monitoring and management platform;

the remote management server enables the thermal energy monitoring and management platform to control a project heating system in real time, distinguishes different visitors through means of authority management to carry out safety protection on the operation level of the heating system, and checks/calibrates the accuracy, the scientificity, the specialty and the pertinence of a heating strategy in real time on line through a heating expert; meanwhile, the heat supply strategy response fed back by each heat supply project is collected, sorted, compared and analyzed in real time, so that the heat energy monitoring and management platform really realizes real-time interaction with the heat supply projects;

the WEB server issues the thermal energy monitoring and management platform to the Internet in real time, so that visitors can visit through WEB client sides such as any browser at any time and any place, and managers can perform real-time remote online management control on heat supply projects through the browser at any time and any place;

the exchanger enables efficient and stable information data interactive transmission among all servers of the thermal energy monitoring and management platform.

After the technical scheme is adopted, the invention has the beneficial effects that:

1. the heating power energy monitoring and management platform is added with the indoor wireless data server, so that the indoor temperature of a user can be monitored in real time, the heating quality is ensured, the energy waste caused by the fact that the quality of the heating quality is not known is avoided, and the aims of saving energy, reducing emission and improving the overall operation efficiency of a heating system are fulfilled to the maximum extent by the heating power energy monitoring and management platform on the premise of ensuring the heating quality;

2. the thermal energy monitoring and management platform is provided with a database server, monitors the data of a heating system in real time, automatically and accurately, simultaneously automatically acquires and arranges building data and heating project data, can calculate the real-time required heat load of different buildings of each project through analyzing and arranging the data in the database, and enables the heating strategy to be more scientific, professional and accurate and have higher energy-saving performance according to the similar projects and the horizontal/longitudinal comparison and analysis data of the similar buildings;

3. the heating power energy monitoring and management platform is added with a remote management server, the calibration and modification of heating strategies are carried out on different projects in real time, platform data can be automatically sent to each heating project in real time, and the heating strategies are more fit with the actual real-time heat load requirements of the projects by matching with the expert online function, so that the overall operation efficiency of a heating system is improved to the maximum extent, the heating energy consumption is saved, the operation cost and the labor cost are reduced, meanwhile, the heating projects are managed intelligently and remotely, and the real-time dynamic interaction between the heating power energy monitoring and management platform and each heating project is realized;

4. the heating power energy monitoring and management platform uses the WEB server, so that visitors can use any mobile terminal such as a computer and a mobile phone at any time and any place to access the heating power energy monitoring and management platform through a browser, managers can perform real-time remote online management and control on heating projects at any time and any place through the browser, and the heating project management and operation efficiency is greatly improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, and are not to be considered limiting of the invention, in which:

FIG. 1 is a schematic diagram of the system architecture of the present invention.

Detailed Description

The present invention will now be described in detail with reference to the drawings and specific embodiments, wherein the exemplary embodiments and descriptions are provided only for the purpose of illustrating the present invention and are not to be construed as limiting the present invention.

As shown in fig. 1, the thermal energy monitoring and management platform includes an indoor wireless data server, a database server, a remote management server, a WEB server and a switch, where the indoor wireless data server, the database server, the remote management server and the WEB server all perform interactive transmission of information data through the switch; wherein

The indoor wireless data server automatically collects and arranges data information, user indoor temperature, humidity, data uploading time, historical records, equipment numbers, electric quantity and other user indoor wireless data information, provides accurate and real-time heat supply quality information for the thermal energy monitoring and management platform, enables the thermal energy monitoring and management platform to be more accurate and more specific when automatically and intelligently calculating a heat supply strategy, and really improves the overall operation efficiency of a heat supply system on the premise of ensuring heat supply quality, reduces the energy consumption emission of the heat supply system, and saves the operation and labor cost;

the database server is used for automatically acquiring, arranging, analyzing and comparing building data (including building function types, building heights, building structure forms, building exterior window materials, building heat preservation forms, building heat transfer coefficients, building heat supply areas, building heating forms and building geographical positions), heat supply system data (including real-time supply/return water temperatures of a heat supply system, real-time supply/return water pressures of the heat supply system, start/stop states of boiler/water pump equipment of the heat supply system, fault alarms of the boiler/water pump equipment of the heat supply system, opening of valves of the heat supply system, liquid level heights of an expansion water tank/a water supply tank of the heat supply system, outdoor temperatures, humidity, wind speeds, sunlight intensities, climate compensation data of the heat supply system, time-interval control data of the heat supply system, historical records of the heat supply system data, historical records of the time interval control data of the heat, Heating system water/electricity/gas/heat flow meter parameters), heating project data (including: the type of the heating project, the geographical position of the heating project, the serial number of the heating project, the starting/starting heating date of the heating project, the expected energy consumption emission of the heating project, the operation cost of the heating project, the charging of the heating project and the detail of equipment of the heating project) and provides comprehensive and accurate heating summary information for the thermal energy monitoring and management platform, so that the thermal energy monitoring and management platform is more accurate and more specific when a heating strategy is automatically and intelligently calculated. The real-time heat load demand of a building, the real-time heat supply quality of a heat supply system, the individual characteristics of heat supply projects and other comprehensive data are really combined, so that the whole operation of the heat supply system is more consistent with the actual heat load demand curve of the project heat supply, the heat energy monitoring and management platform is more scientific, professional and specific when a heat supply strategy is formulated, the cross/longitudinal comparison and analysis among projects are carried out on the heat energy monitoring and management platform in the future, the energy saving of the projects is mined, and the data guarantee is provided for improving the whole operation efficiency of the project heat supply system;

the remote management server enables the thermal energy monitoring and management platform to control a project heating system in real time (real-time issuing of a heating strategy and real-time video monitoring of a heating project), distinguish different visitors to the operation level of the heating system through a means of authority management, perform safety protection through a special encryption protocol, and check/calibrate the accuracy, the scientificity, the specialty and the pertinence of the heating strategy in real time on line through a heating expert. Meanwhile, the heat supply strategy response fed back by each heat supply project is collected, sorted, compared and analyzed in real time. The thermal energy monitoring and management platform really realizes real-time interaction with the heating project. On the premise of ensuring data safety, the overall operation efficiency of the heat supply system is greatly improved, and the heat supply operation cost and the labor cost are saved;

the WEB server issues the thermal energy monitoring and management platform to the Internet in real time, so that visitors can visit the WEB client side through any browser and the like at any time and any place, and managers can perform real-time remote online management and control on heat supply projects through the browser at any time and any place;

the exchanger enables efficient and stable information data interactive transmission among all servers of the thermal energy monitoring and management platform.

The above description is only a preferred embodiment of the present invention, and all equivalent changes or modifications of the structure, characteristics and principles described in the present invention are included in the scope of the present invention.

1. The utility model provides a thermal energy control management platform which characterized in that: the system comprises an indoor wireless data server, a database server, a remote management server, a WEB server and a switch; wherein,

the indoor wireless data server automatically collects and arranges data information by collecting user indoor wireless data information such as user indoor temperature, humidity, data uploading time, historical records, equipment numbers, electric quantity and the like, and provides accurate and real-time heat supply quality information for a thermal energy monitoring and management platform;

the database server is used for automatically acquiring, sorting, analyzing and comparing building data, heat supply system data and heat supply project data, and providing comprehensive and accurate heat supply summary information for the thermal energy monitoring and management platform;

the remote management server enables the thermal energy monitoring and management platform to control a project heating system in real time, distinguishes different visitors through means of authority management to carry out safety protection on the operation level of the heating system, and checks/calibrates the accuracy, the scientificity, the specialty and the pertinence of a heating strategy in real time on line through a heating expert; meanwhile, the heat supply strategy response fed back by each heat supply project is collected, sorted, compared and analyzed in real time, so that the heat energy monitoring and management platform really realizes real-time interaction with the heat supply projects;

the WEB server issues the thermal energy monitoring and management platform to the Internet in real time, so that visitors can visit through WEB client sides such as any browser at any time and any place, and managers can perform real-time remote online management control on heat supply projects through the browser at any time and any place;

the exchanger enables efficient and stable information data interactive transmission among all servers of the thermal energy monitoring and management platform.