CN112379705A - AI + heat energy management and control algorithm model - Google Patents
AI + heat energy management and control algorithm model Download PDFInfo
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Abstract
The invention relates to the technical field of heat energy, and discloses an AI + heat energy management and control algorithm model which comprises a heat energy acquisition unit, a heat energy analysis unit, a main control module, a data comparison module, an alarm module, a statistical analysis module, an image display module, a heat energy management unit and a database, wherein the output end of the heat energy acquisition module is electrically connected with the input end of the heat energy analysis module. This model combines together with the AI technique, not only can calculate the actual loss condition of heat energy in the transmission course fast, easily follow-up compensation of making, but also can carry out real-time supervision to the state of heat energy, can find out the actual position of heat energy on line, conveniently in time understand each item attribute of heat energy, convenient subsequent processing, can also make urgent early warning after the loss value of heat energy exceeds standard moreover, make things convenient for staff in time to maintain, this model intelligent degree is higher, the response is very fast, certain marketing prospect is possessed.
Description
Technical Field
The invention relates to the technical field of heat energy, in particular to an AI + heat energy management and control algorithm model.
Background
The heat energy is the energy of life, people's daily labour activity, sports, study and do all other activities, and human body maintains normal body temperature, all kinds of physiological activities all need consume the energy, just as steam engine need burn coal, internal-combustion engine need use petrol, the motor needs the power consumption, heat energy is different with the heat, heat energy is the quantity of state, the heat is the process volume, the heat only can appear in the heat transfer, heat energy in the transfer process, need manage and control and calculate it, at this moment just need use the algorithm model.
However, in the existing heat energy transfer process, on one hand, the actual loss condition is difficult to calculate, and the subsequent compensation is difficult to make, and on the other hand, the real-time supervision on the heat energy state is difficult to carry out, so that certain disadvantages exist. Therefore, those skilled in the art provide an AI + thermal energy management and control algorithm model to solve the problems mentioned in the background art.
Disclosure of Invention
The invention aims to provide an AI + heat energy management and control algorithm model to solve the problems in the background art.
In order to achieve the purpose, the invention provides the following technical scheme:
an AI + heat energy management and control algorithm model comprises a heat energy acquisition unit, a heat energy analysis unit, a main control module, a data comparison module, an alarm module, a statistic analysis module, an image display module, a heat energy management unit and a database,
the output end of the heat energy acquisition module is electrically connected with the input end of the heat energy analysis module, and the heat energy acquisition module is used for acquiring heat energy characteristic information and transmitting the characteristic information to the heat energy analysis module;
the heat energy analysis module is used for receiving the heat energy characteristic information collected by the heat energy collection module, and transmitting the heat energy characteristic information to the main control module after analysis;
the input end of the main control module is electrically connected with the output end of the heat energy management unit, and the main control module is used for receiving the heat energy characteristic information analyzed by the heat energy analysis module and the information sent by the heat energy management unit and sending the heat energy characteristic information and the information to the data comparison module and the statistical analysis module;
the data comparison module is used for receiving the heat energy characteristic information sent by the main control module, and sending a comparison result to the alarm module after comparison;
the alarm module is used for receiving the comparison result sent by the data comparison module and triggering an alarm;
the statistical analysis module is used for receiving the heat energy characteristic information sent by the main control module, generating a simulation statistical signal after analysis and sending the simulation statistical signal to the image display module;
the image display module is used for receiving the analog statistical signal sent by the statistical analysis module, converting the analog statistical signal into a digital signal through the AD converter and displaying the digital signal;
the heat energy management unit is used for receiving the heat energy characteristic information acquired by the heat energy acquisition module, and sending the heat energy characteristic information to the main control module after calculation and arrangement;
the database is used for collecting the standard heat energy value and sending the standard heat energy value to the heat energy management unit through wireless transmission.
As a still further scheme of the invention: the heat management unit comprises a heat metering unit, a heat monitoring unit, a heat positioning unit, a heat integration module, a heat conversion module, a storage module and an inquiry module, wherein the heat metering unit is used for metering collected heat and sending the heat to the heat integration module, the heat monitoring unit is used for monitoring the collected heat information in real time and sending the heat information to the heat integration module, the heat positioning unit is used for positioning the collected heat information on line and sending the heat information to the heat integration module, the heat integration module is used for receiving the heat information sent by the heat metering unit, the heat monitoring unit and the heat positioning unit, the heat information is sent to the heat conversion module after integration and analysis, and the heat conversion module is used for receiving the integrated information sent by the heat integration module, and send to storage module, consumer and on the query module in proper order, storage module is used for receiving and storing the heat energy information that heat energy conversion module sent, the query module is used for carrying out online inquiry to the heat energy information state that heat energy conversion module sent.
As a still further scheme of the invention: the output end of the database is electrically connected with the input end of the heat energy metering unit, and the input end of the heat energy metering unit is electrically connected with the output end of the heat energy collecting module.
As a still further scheme of the invention: the output end of the statistical analysis module is electrically connected with the input end of the storage module, and the storage module is also used for storing the analyzed heat energy characteristic information of the statistical analysis module.
As a still further scheme of the invention: the specific metering steps of the heat energy metering unit are as follows: the heat energy metering unit further comprises a data processing module and a threshold value determining module, wherein the data processing module is used for receiving and processing the consumption value of the heat energy reality, and then sending the consumption value to the threshold value determining module, and the threshold value determining module is used for carrying out threshold value determination on the actual consumption value after processing and judging the actual consumption level.
As a still further scheme of the invention: the threshold determination module comprises a high level, a middle level and a low level, wherein the high level is more than 95 joules, the middle level is 65-95 joules, and the low level is less than 65 joules.
As a still further scheme of the invention: the storage module is a memory, and the image display module is a display screen.
Compared with the prior art, the invention has the beneficial effects that: this model combines together with the AI technique, not only can calculate the actual loss condition of heat energy in the transmission course fast, easily follow-up compensation of making, but also can carry out real-time supervision to the state of heat energy, can find out the actual position of heat energy on line, conveniently in time understand each item attribute of heat energy, convenient subsequent processing, can also make urgent early warning after the loss value of heat energy exceeds standard moreover, make things convenient for staff in time to maintain, this model intelligent degree is higher, the response is very fast, certain marketing prospect is possessed.
Drawings
FIG. 1 is a frame diagram of an AI + thermal management and control algorithm model;
fig. 2 is a schematic diagram of a heat energy metering unit in an AI + heat energy management and control algorithm model.
Detailed Description
Referring to fig. 1-2, in an embodiment of the present invention, an AI + heat energy management and control algorithm model includes a heat energy collecting unit, a heat energy analyzing unit, a main control module, a data comparing module, an alarm module, a statistical analysis module, an image displaying module, a heat energy management unit, and a database,
the output end of the heat energy acquisition module is electrically connected with the input end of the heat energy analysis module, and the heat energy acquisition module is used for acquiring heat energy characteristic information and transmitting the characteristic information to the heat energy analysis module;
the heat energy analysis module is used for receiving the heat energy characteristic information collected by the heat energy collection module, and transmitting the heat energy characteristic information to the main control module after analysis;
the input end of the main control module is electrically connected with the output end of the heat energy management unit, and the main control module is used for receiving the heat energy characteristic information analyzed by the heat energy analysis module and the information sent by the heat energy management unit and sending the heat energy characteristic information and the information to the data comparison module and the statistical analysis module;
the data comparison module is used for receiving the heat energy characteristic information sent by the main control module, and sending a comparison result to the alarm module after comparison;
the alarm module is used for receiving the comparison result sent by the data comparison module and triggering an alarm;
the statistical analysis module is used for receiving the heat energy characteristic information sent by the main control module, generating a simulation statistical signal after analysis and sending the simulation statistical signal to the image display module;
the image display module is used for receiving the analog statistical signal sent by the statistical analysis module, converting the analog statistical signal into a digital signal through the AD converter and displaying the digital signal;
the heat energy management unit is used for receiving the heat energy characteristic information acquired by the heat energy acquisition module, and sending the heat energy characteristic information to the main control module after calculation and arrangement;
the database is used for collecting the standard heat energy value and sending the standard heat energy value to the heat energy management unit through wireless transmission.
Preferably: the heat energy management unit comprises a heat energy metering unit, a heat energy monitoring unit, a heat energy positioning unit, a heat energy integration module, a heat energy conversion module, a storage module and an inquiry module, wherein the heat energy metering unit is used for metering the collected heat energy and sending the heat energy to the heat energy integration module, the heat energy monitoring unit is used for monitoring the collected heat energy information in real time and sending the heat energy information to the heat energy integration module, the heat energy positioning unit is used for positioning the collected heat energy information on line and sending the heat energy information to the heat energy integration module, the heat energy integration module is used for receiving the heat energy information sent by the heat energy metering unit, the heat energy monitoring unit and the heat energy positioning unit, the heat energy information is sent to the heat energy conversion module after being integrated and analyzed, the heat energy conversion module is used for receiving the integration information sent by the heat energy integration module, The storage module is used for receiving and storing the heat energy information sent by the heat energy conversion module, and the query module is used for online querying the state of the heat energy information sent by the heat energy conversion module.
Preferably: the output end of the database is electrically connected with the input end of the heat energy metering unit, and the input end of the heat energy metering unit is electrically connected with the output end of the heat energy collecting module.
Preferably: the output end of the statistical analysis module is electrically connected with the input end of the storage module, and the storage module is also used for storing the analyzed heat energy characteristic information of the statistical analysis module.
Preferably: the specific metering steps of the heat energy metering unit are as follows: the heat energy metering unit further comprises a data processing module and a threshold value determining module, wherein the data processing module is used for receiving and processing the calculated actual heat energy consumption value and then sending the processed actual heat energy consumption value to the threshold value determining module, and the threshold value determining module is used for determining a threshold value of the processed actual heat energy consumption value and judging an actual consumption level.
Preferably: the threshold determination module comprises a high level, a middle level and a low level, wherein the high level is more than 95 joules, the middle level is 65-95 joules, and the low level is less than 65 joules.
Preferably: the storage module is a memory, and the image display module is a display screen.
This model combines together with the AI technique, not only can calculate the actual loss condition of heat energy in the transmission course fast, easily follow-up compensation of making, but also can carry out real-time supervision to the state of heat energy, can find out the actual position of heat energy on line, conveniently in time understand each item attribute of heat energy, convenient subsequent processing, can also make urgent early warning after the loss value of heat energy exceeds standard moreover, make things convenient for staff in time to maintain, this model intelligent degree is higher, the response is very fast, certain marketing prospect is possessed.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.
Claims (7)
1. An AI + heat energy management and control algorithm model is characterized by comprising a heat energy acquisition unit, a heat energy analysis unit, a main control module, a data comparison module, an alarm module, a statistical analysis module, an image display module, a heat energy management unit and a database,
the output end of the heat energy acquisition module is electrically connected with the input end of the heat energy analysis module, and the heat energy acquisition module is used for acquiring heat energy characteristic information and transmitting the characteristic information to the heat energy analysis module;
the heat energy analysis module is used for receiving the heat energy characteristic information collected by the heat energy collection module, and transmitting the heat energy characteristic information to the main control module after analysis;
the input end of the main control module is electrically connected with the output end of the heat energy management unit, and the main control module is used for receiving the heat energy characteristic information analyzed by the heat energy analysis module and the information sent by the heat energy management unit and sending the heat energy characteristic information and the information to the data comparison module and the statistical analysis module;
the data comparison module is used for receiving the heat energy characteristic information sent by the main control module, and sending a comparison result to the alarm module after comparison;
the alarm module is used for receiving the comparison result sent by the data comparison module and triggering an alarm;
the statistical analysis module is used for receiving the heat energy characteristic information sent by the main control module, generating a simulation statistical signal after analysis and sending the simulation statistical signal to the image display module;
the image display module is used for receiving the analog statistical signal sent by the statistical analysis module, converting the analog statistical signal into a digital signal through the AD converter and displaying the digital signal;
the heat energy management unit is used for receiving the heat energy characteristic information acquired by the heat energy acquisition module, and sending the heat energy characteristic information to the main control module after calculation and arrangement;
the database is used for collecting the standard heat energy value and sending the standard heat energy value to the heat energy management unit through wireless transmission.
2. The AI + heat energy management and control algorithm model of claim 1, wherein the heat energy management unit comprises a heat energy metering unit, a heat energy monitoring unit, a heat energy positioning unit, a heat energy integration module, a heat energy conversion module, a storage module and an inquiry module, the heat energy metering unit is used for metering the collected heat energy and sending the heat energy to the heat energy integration module, the heat energy monitoring unit is used for monitoring the collected heat energy information in real time and sending the heat energy information to the heat energy integration module, the heat energy positioning unit is used for positioning the collected heat energy information on line and sending the heat energy information to the heat energy integration module, the heat energy integration module is used for receiving the heat energy information sent by the heat energy metering unit, the heat energy monitoring unit and the heat energy positioning unit, and sending the heat energy information to the heat energy conversion module after integration and analysis, the heat energy conversion module is used for receiving the integration information sent by the heat energy integration module and sequentially sending the integration information to the storage module, the electric equipment and the query module, the storage module is used for receiving and storing the heat energy information sent by the heat energy conversion module, and the query module is used for online query of the heat energy information state sent by the heat energy conversion module.
3. The AI + heat energy management and control algorithm model of claim 2, wherein the output of the database is electrically connected to the input of the heat energy metering unit, and the input of the heat energy metering unit is electrically connected to the output of the heat energy collection module.
4. The AI + heat energy management and control algorithm model of claim 2, wherein the output of the statistical analysis module is further electrically connected to the input of the storage module, and the storage module is further configured to store the analyzed heat energy characteristic information of the statistical analysis module.
5. The AI + heat energy management and control algorithm model of claim 2, wherein the specific metering steps of the heat energy metering unit are as follows: the heat energy metering unit further comprises a data processing module and a threshold value determining module, wherein the data processing module is used for receiving and processing the consumption value of the heat energy reality, and then sending the consumption value to the threshold value determining module, and the threshold value determining module is used for carrying out threshold value determination on the actual consumption value after processing and judging the actual consumption level.
6. The AI + heat management algorithm model of claim 5, wherein the threshold determination module comprises a high level, a medium level and a low level, wherein the high level is greater than 95J, the medium level is 65-95J, and the low level is less than 65J.
7. The AI + heat management and control algorithm model of claim 2, wherein the storage module is a memory and the image display module is a display screen.
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CN203606043U (en) * | 2013-11-05 | 2014-05-21 | 北京市计量检测科学研究院 | Calorimeter standard device |
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