CN115623034B - Enterprise Energy Management System Based on Industrial Internet Platform - Google Patents

Abstract

The invention discloses an enterprise energy management system based on an industrial Internet platform, which belongs to the field of enterprises and is used for solving the problem that the energy use condition of an industrial enterprise park at present cannot be accurately monitored and an adaptive energy management and control method is not adopted.

Description

Enterprise energy management system based on industrial Internet platform

Technical Field

The invention belongs to the field of enterprises, relates to an enterprise energy management technology, and in particular relates to an enterprise energy management system based on an industrial Internet platform.

Background

In the commercial economy category, enterprises are taken as one of various modes of organization units, and according to a certain organization rule, organically formed economic entities generally aim at profit, so that the maximization of benefits of investors, clients, staff and the public is realized, and income is obtained by providing products or services. It is a product of social development and grows up due to the development of social division. Three basic forms of organization exist, namely, a sole enterprise, a partner enterprise and a corporate enterprise, which is the most typical organization among modern enterprises, and is divided into a finite responsibility company and a stock finite company.

When the energy use condition of an industrial enterprise park is met, accurate monitoring and control are difficult to achieve, meanwhile, the energy history use condition of an industrial enterprise is not combined, and a matched energy control method cannot be set for the industrial enterprise, so that an enterprise energy management system based on an industrial Internet platform is provided.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide an enterprise energy management system based on an industrial Internet platform.

The technical problems to be solved by the invention are as follows:

how to set for the management and control dynamics of adaptation for industrial enterprise based on energy history service conditions to carry out accurate management and control to industrial enterprise's energy service conditions under the management and control dynamics of adaptation.

The aim of the invention can be achieved by the following technical scheme:

the enterprise energy management system based on the industrial Internet platform comprises an energy monitoring module, an energy judging module, a data acquisition module, a range demarcation module, a safety monitoring module, a storage module, a management setting module, a display terminal and the industrial Internet platform, wherein the range demarcation module is used for demarcating a district where an enterprise is located, obtaining a plurality of management areas and feeding back to the industrial Internet platform; the safety monitoring module is connected with a storage module, and the storage module is used for storing historical safety data of a plurality of management areas and sending the historical safety data to the safety monitoring module;

the safety monitoring module is used for monitoring the energy safety use condition of the energy management area, monitoring the safety monitoring value of the management area and feeding the safety monitoring value back to the industrial Internet platform, the industrial Internet platform sends the safety monitoring value of the management area to the management setting module, the management setting module is used for setting the energy deviation value interval of the management area according to the safety detection value, the energy deviation value interval of the management area is set and fed back to the industrial Internet platform, and the industrial Internet platform sends the energy deviation value interval of the management area to the energy judgment module;

the data acquisition module is used for acquiring the energy use data and the user energy data in the management area and sending the energy use data and the user energy data to the industrial Internet platform, and the industrial Internet platform sends the energy use data and the user energy data to the energy monitoring module;

the energy monitoring module is used for monitoring the energy use condition in the management area, generating an energy normal signal or obtaining the energy consumption deviation value of the management area and feeding back the energy normal signal or the energy consumption deviation value to the industrial Internet platform, and if the industrial Internet platform receives the energy consumption deviation value of the management area, sending the energy consumption deviation value of the management area to the energy judging module; the energy judging module is used for judging the energy consumption condition, judging and generating an energy normal signal or an energy abnormal signal, feeding the energy normal signal or the energy abnormal signal back to the industrial Internet platform, sending the energy normal signal or the energy abnormal signal to the display terminal by the industrial Internet platform, and displaying the energy normal signal or the energy abnormal signal by the display terminal.

Further, the historical safety data are the illegal use times and the failure times of various enterprise energy sources in the management area;

the enterprise energy sources comprise enterprise electricity consumption, enterprise water consumption, enterprise gas consumption and enterprise coal consumption;

the energy use data is the consumption of various enterprise energy in the management area;

the user energy data is the number of users and the consumption of energy of each enterprise of each user.

Further, the monitoring process of the safety monitoring module is specifically as follows:

obtaining the illegal use times of the enterprise energy sources in the management area, and adding and summing the illegal use times of the enterprise energy sources to obtain the illegal use times of the enterprise energy sources in the management area;

obtaining the failure times of each enterprise energy source in the management area, and adding and summing the failure times of each enterprise energy source to obtain the failure times of each enterprise energy source in the management area;

and respectively distributing corresponding weight coefficients for the illegal use times and the fault times, and then calculating the safety monitoring value of the management area.

Further, the setting process of the management setting module is specifically as follows:

acquiring safety monitoring value intervals stored in an industrial Internet platform, wherein different safety monitoring value intervals correspond to different energy deviation value intervals;

and obtaining a corresponding safety detection value interval according to the safety detection value, and obtaining a corresponding energy deviation value interval according to the safety detection value interval.

Further, the safety monitoring value interval comprises a first safety monitoring value interval, a second safety monitoring value interval and a third safety monitoring value interval, and the energy deviation value interval comprises a first energy deviation value interval, a second energy deviation value interval and a third energy deviation value interval;

the first safety monitoring value interval corresponds to the first energy deviation value interval, the second safety monitoring value interval corresponds to the second energy deviation value interval, and the third safety monitoring value interval corresponds to the third energy deviation value interval.

Further, the lower limit value of the first safety monitoring value interval is larger than the upper limit value of the second safety monitoring value interval, and the lower limit value of the second safety monitoring value interval is larger than the upper limit value of the third safety monitoring value interval;

the upper limit value of the first energy deviation value interval is smaller than the lower limit value of the second energy deviation value interval, and the upper limit value of the second energy deviation value interval is smaller than the lower limit value of the third energy deviation value interval.

Further, the monitoring process of the energy monitoring module is specifically as follows:

acquiring consumption of each enterprise energy in a management area, and adding and summing the consumption of each enterprise energy to obtain the total regional energy consumption of the enterprise energy in the management area;

then, the number of users in the management area and the consumption of each enterprise energy of each user are obtained, the consumption of each enterprise energy is added and summed to obtain the energy consumption of the user, and the energy consumption of all the users is added and summed to obtain the total energy consumption of the user of the enterprise energy in the management area;

if the total regional energy consumption is equal to the total user energy consumption in value, generating an energy normal signal;

if the total area energy consumption and the total user energy consumption are not equal in value, calculating the difference value between the total area consumption and the total user energy consumption and taking the absolute value to obtain the energy consumption deviation value of the management area.

Further, the judging process of the energy judging module is specifically as follows:

acquiring an energy consumption deviation amount and an energy deviation value interval of a management area;

if the energy consumption deviation value is in the energy deviation value interval, generating an energy normal signal;

if the energy consumption deviation is not in the energy deviation value interval, generating an energy abnormality signal.

Further, the display process of the display terminal specifically includes:

when the energy normal signal is received, a normal font is adopted, and the color of the font is green, so that the energy normal signal is displayed;

when the energy abnormal signal is received, the energy abnormal signal is displayed by adopting a thickened font with red font color.

Compared with the prior art, the invention has the beneficial effects that:

the invention demarcates the district where the enterprise is located through a range demarcation module, firstly monitors the energy safety use condition of an energy management area by utilizing a safety monitoring module, obtains the safety monitoring value of the management area according to parameters such as the illegal use times, the failure times and the like of the enterprise energy in the management area, sends the safety monitoring value to a management setting module, and sets the energy deviation value interval of the management area according to the safety detection value to obtain the energy deviation value interval of the management area and sends the energy deviation value interval to an energy judgment module; when the actual energy is managed, an energy monitoring module is utilized to monitor the energy use condition in a management area, the total regional energy consumption amount of enterprise energy and the total user energy consumption amount in the management area are combined, an energy normal signal is generated or the energy consumption deviation amount of the management area is obtained, if the energy consumption deviation amount is obtained, the energy consumption is judged by an energy judging module, and according to the fact that whether the energy consumption deviation amount is matched with an energy deviation value interval or not, an energy normal signal or an energy abnormal signal is finally generated and displayed through a display terminal.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

Fig. 1 is an overall system block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In one embodiment, referring to fig. 1, an enterprise energy management system based on an industrial internet platform includes an energy monitoring module, an energy judging module, a data acquisition module, a range defining module, a safety monitoring module, a storage module, a management setting module, a display terminal and an industrial internet platform;

the range demarcation module is used for demarcating the district where the enterprise is located, obtaining a plurality of management areas and feeding back to the industrial Internet platform;

in the embodiment of the invention, the safety monitoring module is connected with a storage module, and the storage module is used for storing historical safety data of a plurality of management areas and sending the historical safety data to the safety monitoring module;

the specific explanation is that the historical safety data is the illegal use times, the failure times and the like of various enterprise energy sources in the management area; the enterprise energy sources comprise enterprise electricity consumption, enterprise water consumption, enterprise gas consumption, enterprise coal consumption and the like;

the safety monitoring module is used for monitoring the energy safety service condition of the energy management area, and the monitoring process is specifically as follows:

marking the management area as u, u=1, 2, … …, z, z being a positive integer;

obtaining the number of times of illegal use of each enterprise energy source in the management area, and adding and summing the number of times of illegal use of each enterprise energy source to obtain the number of times of illegal use WCu of the enterprise energy source in the management area;

obtaining the failure times of each enterprise energy source in the management area, and adding and summing the failure times of each enterprise energy source to obtain the failure times GCu of each enterprise energy source in the management area;

corresponding weight coefficients are respectively distributed for the illegal use times WCu and the fault times GCu, and a safety monitoring value AJu of the management area is calculated by using a formula AJu =WCu×a1+GCu×a2; wherein a1 and a2 are weight coefficients with fixed values, and the values of a1 and a2 are larger than zero;

the safety monitoring module feeds the safety monitoring value AJu of the management area back to the industrial Internet platform, the industrial Internet platform sends the safety monitoring value AJu of the management area to the management setting module, and the management setting module is used for setting an energy deviation value interval of the management area according to the safety monitoring value, and the setting process is specifically as follows:

acquiring safety monitoring value intervals stored in an industrial Internet platform, wherein different safety monitoring value intervals correspond to different energy deviation value intervals;

obtaining a corresponding safety detection value interval according to the safety detection value, and obtaining a corresponding energy deviation value interval according to the safety detection value interval;

the safety monitoring value interval comprises a first safety monitoring value interval, a second safety monitoring value interval and a third safety monitoring value interval, the energy deviation value interval comprises a first energy deviation value interval, a second energy deviation value interval and a third energy deviation value interval, the first safety monitoring value interval corresponds to the first energy deviation value interval, the second safety monitoring value interval corresponds to the second energy deviation value interval, and the third safety monitoring value interval corresponds to the third energy deviation value interval; the lower limit value of the first safety monitoring value interval is larger than the upper limit value of the second safety monitoring value interval, and the lower limit value of the second safety monitoring value interval is larger than the upper limit value of the third safety monitoring value interval; the upper limit value of the first energy deviation value interval is smaller than the lower limit value of the second energy deviation value interval, and the upper limit value of the second energy deviation value interval is smaller than the lower limit value of the third energy deviation value interval;

for example: the first safety monitoring value interval is (20, ++ing), the second safety monitoring value interval is (10, 20) and the third safety monitoring value interval is (0, 10), the first energy deviation value interval is (0, 10), the second energy deviation value interval is (10, 20), and the third energy deviation value interval is (20, ++ing);

the management setting module feeds back the energy deviation value interval of the management area to the industrial Internet platform, and the industrial Internet platform sends the energy deviation value interval of the management area to the energy judging module;

in this embodiment, the data acquisition module is configured to acquire energy usage data and user energy data in the management area, and send the energy usage data and the user energy data to the industrial internet platform, where the industrial internet platform sends the energy usage data and the user energy data to the energy monitoring module;

the specific explanation is that the energy use data is the consumption of various enterprise energy in the management area, namely the electricity consumption, water consumption, gas consumption, coal consumption and the like in the management area; the user energy data is the number of users and the consumption of each enterprise energy of each user, namely the electricity consumption, the water consumption, the gas consumption, the coal consumption and the like of each user in a management area, wherein the user is each enterprise energy consumed by a family;

the energy monitoring module is used for monitoring the energy use condition in the management area, and the monitoring process is specifically as follows:

acquiring consumption of each enterprise energy in a management area, and adding and summing the consumption of each enterprise energy to obtain the total regional energy consumption of the enterprise energy in the management area;

then, the number of users in the management area and the consumption of each enterprise energy of each user are obtained, the consumption of each enterprise energy is added and summed to obtain the energy consumption of the user, and the energy consumption of all the users is added and summed to obtain the total energy consumption of the user of the enterprise energy in the management area;

if the total regional energy consumption is equal to the total user energy consumption in value, generating an energy normal signal;

if the total area energy consumption and the total user energy consumption are not equal in value, calculating the difference value between the total area consumption and the total user energy consumption and taking an absolute value to obtain the energy consumption deviation value of the management area;

the energy monitoring module feeds back an energy normal signal or an energy consumption deviation value of the management area to the industrial Internet platform;

if the industrial internet platform receives the energy source normal signal, the energy source normal signal is sent to the display terminal;

if the industrial Internet platform receives the energy consumption deviation amount of the management area, the energy consumption deviation amount of the management area is sent to an energy judgment module;

the energy judgment module is used for judging the energy consumption condition, and the judgment process is specifically as follows:

acquiring the energy consumption deviation value and the energy deviation value interval of the calculated management area;

if the energy consumption deviation value is in the energy deviation value interval, generating an energy normal signal;

if the energy consumption deviation value is not in the energy deviation value interval, generating an energy abnormality signal;

the energy judging module feeds back an energy normal signal or an energy abnormal signal to the industrial Internet platform, the industrial Internet platform sends the energy normal signal or the energy abnormal signal to the display terminal, and the display terminal is used for displaying the energy normal signal or the energy abnormal signal, specifically:

when the energy normal signal is received, a normal font is adopted, and the color of the font is green, so that the energy normal signal is displayed;

when the energy abnormal signal is received, the energy abnormal signal is displayed by adopting a thickened font with red font color.

In another embodiment, a working method of an enterprise energy management system based on an industrial internet platform is provided, and the working method specifically comprises the following steps:

step S101, a range demarcation module demarcates the jurisdiction where the enterprise is located, obtains a plurality of management areas and feeds back the management areas to an industrial Internet platform, and a storage module is used for storing historical safety data of the management areas and sending the historical safety data to a safety monitoring module;

step S102, monitoring the energy safety use condition of an energy management area through a safety monitoring module, obtaining the illegal use times of each enterprise energy in the management area, adding and summing the illegal use times of each enterprise energy to obtain the illegal use times WCu of each enterprise energy in the management area, obtaining the failure times of each enterprise energy in the management area, adding and summing the failure times of each enterprise energy to obtain the failure times GCu of each enterprise energy in the management area, respectively distributing corresponding weight coefficients for the illegal use times WCu and the failure times GCu, calculating to obtain a safety monitoring value AJu of the management area through a formula AJu =WCu×a1+GCu×a2, feeding the safety monitoring value AJu of the management area back to an industrial Internet platform, and transmitting the safety monitoring value AJu of the management area to a management setting module through the industrial Internet platform;

step S103, the management setting module sets an energy deviation value interval of the management area according to the safety detection value, acquires the safety detection value interval stored in the industrial Internet platform, and the different safety detection value intervals correspond to the different energy deviation value intervals, acquires the corresponding safety detection value interval according to the safety detection value, acquires the corresponding energy deviation value interval according to the safety detection value interval, and feeds the energy deviation value interval of the management area back to the industrial Internet platform, and the industrial Internet platform sends the energy deviation value interval of the management area to the energy judgment module;

step S104, the data acquisition module is utilized to acquire the energy use data and the user energy data in the management area, the energy use data and the user energy data are sent to the industrial Internet platform, the industrial Internet platform sends the energy use data and the user energy data to the energy monitoring module, the energy monitoring module monitors the energy use condition in the management area to acquire the consumption of each enterprise energy in the management area, the consumption of each enterprise energy is summed to acquire the total regional energy consumption of the enterprise energy in the management area, then the number of users in the management area and the consumption of each enterprise energy of each user are acquired, the summation of the consumption of each enterprise energy is acquired to acquire the energy consumption of the user, adding and summing the energy consumption amounts of all users to obtain the user energy consumption total amount of enterprise energy in the management area, generating an energy normal signal if the area energy consumption total amount is equal to the value of the user energy consumption total amount, calculating the difference value between the area energy consumption total amount and the user energy consumption total amount and taking an absolute value if the area energy consumption total amount is not equal to the value of the user energy consumption total amount to obtain the energy consumption deviation amount of the management area, feeding back the energy normal signal or the energy consumption deviation amount of the management area to an industrial Internet platform by an energy monitoring module, transmitting the energy normal signal to a display terminal if the industrial Internet platform receives the energy normal signal, and transmitting the energy consumption deviation amount of the management area to an energy judging module if the industrial Internet platform receives the energy consumption deviation amount of the management area;

step S105, the energy consumption condition is judged by utilizing the energy judging module, the energy consumption deviation amount and the energy deviation value interval of the management area are obtained, if the energy consumption deviation amount is in the energy deviation value interval, an energy normal signal is generated, if the energy consumption deviation amount is not in the energy deviation value interval, an energy abnormal signal is generated, the energy judging module feeds back the energy normal signal or the energy abnormal signal to the industrial Internet platform, the industrial Internet platform sends the energy normal signal or the energy abnormal signal to the display terminal, the display terminal displays the energy normal signal or the energy abnormal signal, when the energy normal signal is received, a normal font is adopted, the font color is green, when the energy abnormal signal is received, the energy normal signal is displayed by thickening, and the font color is red.

The above formulas are all formulas for removing dimensions and taking numerical calculation, the formulas are formulas for obtaining the latest real situation by acquiring a large amount of data and performing software simulation, preset parameters in the formulas are set by a person skilled in the art according to the actual situation, the sizes of the weight coefficient and the scale coefficient are specific numerical values obtained by quantizing each parameter, the subsequent comparison is convenient, and the proportional relation between the weight coefficient and the scale coefficient is not influenced as long as the proportional relation between the parameter and the quantized numerical values is not influenced.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (7)

1. The enterprise energy management system based on the industrial Internet platform is characterized by comprising an energy monitoring module, an energy judging module, a data acquisition module, a range demarcation module, a safety monitoring module, a storage module, a management setting module, a display terminal and the industrial Internet platform, wherein the range demarcation module is used for demarcating an area where an enterprise is located, obtaining a plurality of management areas and feeding back the management areas to the industrial Internet platform; the safety monitoring module is connected with a storage module, and the storage module is used for storing historical safety data of a plurality of management areas and sending the historical safety data to the safety monitoring module;

the safety monitoring module is used for monitoring the energy safety service condition of the energy management area, the safety monitoring value of the management area obtained by monitoring is fed back to the industrial Internet platform, the industrial Internet platform sends the safety monitoring value of the management area to the management setting module, and the management setting module is used for setting the energy deviation value interval of the management area according to the safety monitoring value, and the setting process is specifically as follows:

acquiring safety monitoring value intervals stored in an industrial Internet platform, wherein different safety monitoring value intervals correspond to different energy deviation value intervals;

obtaining a corresponding safety detection value interval according to the safety detection value, and obtaining a corresponding energy deviation value interval according to the safety detection value interval;

the management setting module feeds back the energy deviation value interval of the management area to the industrial Internet platform, and the industrial Internet platform sends the energy deviation value interval of the management area to the energy judging module;

the data acquisition module is used for acquiring the energy use data and the user energy data in the management area and sending the energy use data and the user energy data to the industrial Internet platform, and the industrial Internet platform sends the energy use data and the user energy data to the energy monitoring module;

the energy monitoring module is used for monitoring the energy use condition in the management area, generating an energy normal signal or obtaining the energy consumption deviation value of the management area and feeding back the energy normal signal or the energy consumption deviation value to the industrial Internet platform, and if the industrial Internet platform receives the energy consumption deviation value of the management area, sending the energy consumption deviation value of the management area to the energy judging module; the energy judgment module is used for judging the energy consumption condition, and the judgment process is specifically as follows:

acquiring an energy consumption deviation amount and an energy deviation value interval of a management area;

if the energy consumption deviation value is in the energy deviation value interval, generating an energy normal signal;

if the energy consumption deviation value is not in the energy deviation value interval, generating an energy abnormality signal;

the energy judging module feeds back an energy normal signal or an energy abnormal signal to the industrial Internet platform, the industrial Internet platform sends the energy normal signal or the energy abnormal signal to the display terminal, and the display terminal is used for displaying the energy normal signal or the energy abnormal signal.

2. The enterprise energy management system based on the industrial internet platform of claim 1, wherein the historical security data is the number of offending uses and failures of each enterprise energy in the management area;

the enterprise energy sources comprise enterprise electricity consumption, enterprise water consumption, enterprise gas consumption and enterprise coal consumption;

the energy use data is the consumption of various enterprise energy in the management area;

the user energy data is the number of users and the consumption of energy of each enterprise of each user.

3. The enterprise energy management system of claim 1, wherein the monitoring process of the safety monitoring module is as follows:

obtaining the illegal use times of the enterprise energy sources in the management area, and adding and summing the illegal use times of the enterprise energy sources to obtain the illegal use times of the enterprise energy sources in the management area;

obtaining the failure times of each enterprise energy source in the management area, and adding and summing the failure times of each enterprise energy source to obtain the failure times of each enterprise energy source in the management area;

and respectively distributing corresponding weight coefficients for the illegal use times and the fault times, and then calculating the safety monitoring value of the management area.

4. The industrial internet platform-based enterprise energy management system of claim 1, wherein the safety monitoring value intervals comprise a first safety monitoring value interval, a second safety monitoring value interval, and a third safety monitoring value interval, and the energy deviation value intervals comprise a first energy deviation value interval, a second energy deviation value interval, and a third energy deviation value interval;

the first safety monitoring value interval corresponds to the first energy deviation value interval, the second safety monitoring value interval corresponds to the second energy deviation value interval, and the third safety monitoring value interval corresponds to the third energy deviation value interval.

5. The enterprise energy management system of claim 4, wherein the lower limit of the first safety monitoring value interval is greater than the upper limit of the second safety monitoring value interval, and the lower limit of the second safety monitoring value interval is greater than the upper limit of the third safety monitoring value interval;

the upper limit value of the first energy deviation value interval is smaller than the lower limit value of the second energy deviation value interval, and the upper limit value of the second energy deviation value interval is smaller than the lower limit value of the third energy deviation value interval.

6. The enterprise energy management system of claim 1, wherein the energy monitoring module monitors the following steps:

acquiring consumption of each enterprise energy in a management area, and adding and summing the consumption of each enterprise energy to obtain the total regional energy consumption of the enterprise energy in the management area;

then, the number of users in the management area and the consumption of each enterprise energy of each user are obtained, the consumption of each enterprise energy is added and summed to obtain the energy consumption of the user, and the energy consumption of all the users is added and summed to obtain the total energy consumption of the user of the enterprise energy in the management area;

if the total regional energy consumption is equal to the total user energy consumption in value, generating an energy normal signal;

if the total area energy consumption and the total user energy consumption are not equal in value, calculating the difference value between the total area consumption and the total user energy consumption and taking the absolute value to obtain the energy consumption deviation value of the management area.

7. The enterprise energy management system based on the industrial internet platform according to claim 1, wherein the display process of the display terminal specifically comprises:

when the energy normal signal is received, a normal font is adopted, and the color of the font is green, so that the energy normal signal is displayed;

when the energy abnormal signal is received, the energy abnormal signal is displayed by adopting a thickened font with red font color.