CN114839900A - Energy comprehensive online monitoring and collecting system, method, medium and computer equipment - Google Patents

Abstract

The invention belongs to the technical field of energy management and discloses an energy comprehensive online monitoring and collecting system, method, medium and computer equipment, wherein the energy comprehensive online monitoring and collecting method comprises the following steps: the energy monitoring and acquisition system is combined with the Internet of things sensing equipment, provides modular services and is copied to various different application places; the method comprises the steps that energy consumption data of a user site are collected on line in real time by sensing equipment of the Internet of things; the wireless transmission module sends data to the energy consumption data collection terminal in a 4G/5G or WiFi mode and uploads the data to the background server at the same time; the memory and the background system form various energy consumption analysis reports through processing background data; the energy source database stores related energy data, and the energy consumption analysis and management system analyzes energy consumption through a related algorithm. The invention overcomes the defects of long period, large investment, complex management and poor practicability of building an energy management system in the traditional energy management.

Description

Energy comprehensive online monitoring and collecting system, method, medium and computer equipment

Technical Field

The invention belongs to the technical field of energy management, and particularly relates to an energy comprehensive online monitoring and collecting system, method, medium and computer equipment.

Background

Currently, energy management is a general term for scientific planning, organization, inspection, control and supervision of the whole process of production, distribution, conversion and consumption of energy. The method comprises the steps of establishing correct energy development policies and energy-saving policies, continuously perfecting energy planning, energy laws and regulations, arranging an energy control system, well arranging production and management of industrial energy and domestic energy, strengthening energy equipment management, carrying out technical transformation and updating on boilers, industrial kilns, various electrical appliances and the like in time, improving energy utilization rate, carrying out energy quota management, calculating indexes of effective energy consumption and technological loss, checking various energy consumption quotations layer by layer, putting the energy consumption quotations into workshops, teams and individuals through an economic responsibility system and a reward and punishment system, supervising and urging enterprises to reach advanced energy consumption level, regularly checking enterprises with high energy consumption, key projects and key equipment, continuously carrying out technical analysis on the effective energy utilization degree, establishing a sound energy management system, and forming an energy management network combining professional management and mass management, education workers develop energy-saving consciousness and continuously strengthen measurement supervision, standard supervision and statistical supervision on energy consumption. But the traditional energy management has the defects of long period, large investment, complex management and poor practicability.

Through the above analysis, the problems and defects of the prior art are as follows: the traditional energy management has the disadvantages of long construction energy management system period, large investment, complex management and poor practicability.

The difficulty in solving the above problems and defects is: the traditional energy management has the defects of long period, large investment, complex management and poor practicability in building an energy management system. The method mainly comprises the following aspects: the traditional energy management construction needs to lay a large amount of hardware equipment, and meanwhile, data management and analysis are complex system engineering. The cost is high, the construction and debugging period of the whole system is long, the user experience is poor, and the energy problem cannot be fundamentally solved.

The significance of solving the problems and the defects is as follows:

1) the method has the advantages of generating economic benefits, finding the problems of unreasonable energy utilization, energy waste and the like in the energy use process, excavating energy-saving space, implementing energy-saving and emission-reducing measures and improving the market competitiveness of user benefits.

2) The method is beneficial to the implementation of national energy law, regulation, policy, standard and other requirements, namely that management can be implemented only if data exists.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an energy comprehensive online monitoring and collecting system, method, medium and computer equipment.

The invention is realized in such a way that an energy comprehensive online monitoring and collecting method comprises the following steps:

the method comprises the following steps that firstly, an energy monitoring and collecting system is combined with Internet of things sensing equipment to rapidly solve the problem of energy monitoring and collecting, provide modular service and copy the energy monitoring and collecting system to different application places;

secondly, collecting energy consumption data of a user site on line in real time by the sensing equipment of the Internet of things; the wireless transmission module sends the data to the energy consumption data collection terminal in a 4G/5G or WiFi mode and uploads the data to the background server at the same time;

step three, the memory and the background system form various energy consumption analysis report forms through processing background data, and visually, objectively and visually display data formats to a user in a large screen mode; simultaneously storing the data through a memory;

and fourthly, storing related energy data in an energy source database, analyzing the energy consumption by the energy consumption analysis and management system through a related algorithm, providing big data support for the energy management system, finding out the current energy problem and providing guidance for later energy reformation and management and control.

Further, in the first step, the sensing equipment of the internet of things comprises monitoring and collecting equipment of tap water flow and water quality parameters, the water quantity and the water quality parameters in the range of the user jurisdiction are monitored and collected on line in real time, and the water safety and the water quantity are monitored on line;

the water quality parameters comprise pH value, turbidity, residual chlorine/chlorine dioxide, temperature and dissolved oxygen.

Further, in the first step, the sensing equipment of the internet of things further comprises an electric energy parameter acquisition device, a gas parameter acquisition device, a remote monitoring system and a camera, wherein the remote monitoring system and the camera are arranged for some important energy consumption equipment.

Further, the electric energy parameter acquisition device comprises the following relevant electric energy parameters, namely current, voltage, active power, reactive power, apparent power, power factor, frequency and power consumption, and carries out online monitoring and acquisition on the real-time parameters of power consumption;

the gas parameter acquisition device comprises a gas parameter acquisition device and is used for carrying out online monitoring and acquisition on parameters such as gas flow and the like.

Further, in the second step, the energy consumption data includes water, electricity and gas.

Further, in the second step, the wireless transmission module transmits the data acquired by the internet of things sensing equipment to the background system in real time in a wireless connection 4G/5G or WiFi mode so as to ensure the efficiency and accuracy of data transmission;

in the second step, the wireless transmission module comprises a transmitter, a receiver and a controller.

Further, in the fourth step, the specific process of energy consumption analysis is as follows:

firstly, various data reports are formed by summarizing and visually displaying data, multi-dimensional evaluation and benchmarking analysis are carried out on energy consumption, and energy consumption improvement space is excavated; through analyzing big data, comprehensively comparing the economic benefits of various improvement measures, providing an optimal scheme suggestion and the like; meanwhile, through big data online monitoring and statistics, potential energy safety hazards are found in time, faults existing in the faults are accurately positioned, specialized processing suggestions are provided, and energy cost is reduced;

the various data reports comprise single-day energy consumption measurement and statistics, monthly energy consumption data measurement and statistics, quarterly energy consumption data measurement and statistics, annual energy consumption data measurement and statistics and unit production capacity energy consumption data statistics;

and energy source databases are formed by single-day energy consumption metering and statistics, monthly energy consumption data metering and statistics, quarterly energy consumption data metering and statistics, annual energy consumption data metering and statistics, unit production capacity energy consumption data statistics and the like.

Another object of the present invention is to provide an energy integrated online monitoring and collecting system for implementing the energy integrated online monitoring and collecting method, the energy integrated online monitoring and collecting system comprising:

the energy monitoring and collecting system is combined with the Internet of things sensing equipment through an energy comprehensive online monitoring and collecting system, quickly solves the problem of energy monitoring and collecting, provides modular service, is copied to various application places, and is an important component of a smart factory, a smart community and a smart city;

the system comprises an Internet of things sensing device, a data acquisition device and a data processing device, wherein the Internet of things sensing device is used as a tail end collector and is used for collecting water, electricity and gas energy consumption data of a user site in real time on line; the data are sent to an energy consumption data collection terminal in a 4G/5G or WiFi mode and are simultaneously uploaded to a background server;

the memory and the background system form various energy consumption analysis reports through processing background data, and visually, objectively and visually display data formats to a user in a large screen mode; simultaneously, storing the data through a memory;

the energy source database is used for storing related energy data, wherein the energy data comprises common industrial data, commercial data, water data, electric data and gas data of civil users;

the energy consumption analysis and management system analyzes the energy consumption through a related algorithm, provides big data support for an energy management system, finds out the current energy problems and provides guidance for later energy reformation and management and control.

Another object of the present invention is to provide a program storage medium for receiving a user input, the stored computer program causing an electronic device to execute the energy integrated online monitoring and collecting method, comprising the steps of:

the method comprises the following steps that firstly, an energy monitoring and collecting system is combined with Internet of things sensing equipment to rapidly solve the problem of energy monitoring and collecting, provide modular service and copy the energy monitoring and collecting system to different application places;

secondly, collecting energy consumption data of a user site on line in real time by the sensing equipment of the Internet of things; the wireless transmission module sends data to the energy consumption data collection terminal in a 4G/5G or WiFi mode and uploads the data to the background server at the same time;

step three, the memory and the background system form various energy consumption analysis reports through processing background data, and visually, objectively and visually display data formats to a user in a large screen mode; simultaneously, storing the data through a memory;

and fourthly, storing related energy data in an energy source database, analyzing the energy consumption by the energy consumption analysis and management system through a related algorithm, providing big data support for the energy management system, finding out the current energy problem and providing guidance for later energy reformation and management and control.

Another object of the present invention is to provide a computer device, which includes a memory and a processor, wherein the memory stores a computer program, and the computer program, when executed by the processor, causes the processor to execute the method for integrated online monitoring and collection of energy resources.

By combining all the technical schemes, the invention has the advantages and positive effects that: the invention overcomes the defects of long period, large investment, complex management and poor practicability of building an energy management system in the traditional energy management. The intelligent energy monitoring and collecting system is combined with the Internet of things sensing equipment through an energy comprehensive online monitoring and collecting system, can quickly solve the problem of energy monitoring and collecting, provides modular services, is copied to various application places, and is an important component of intelligent factories, intelligent communities and intelligent cities.

Meanwhile, the invention also has the following advantages: 1) the remote monitoring can be carried out on important energy consumption equipment, and the problem can be found and intervened in time; 2) the user energy consumption monitoring realizes intelligent operation and maintenance and management, visual real-time parameters can be provided, the correctness and the reliability of data are ensured, and the workload generated by on-site data copying is reduced; 3) the digital operation and maintenance of factory, community and city energy management can be realized; 4) aiming at the current situation of energy use, an energy improvement space can be excavated through data processing and analysis, and guidance and reference are provided for energy management and control and energy-saving modification measures. The application embodiment of the invention comprises the following steps: the method comprises the steps of building an energy management system of an office building of a certain college, collecting and managing the whole energy system in the office building, and carrying out key monitoring on important energy consumption equipment such as an air conditioning unit and the like; other embodiments include the construction of an energy management system of a five-star hotel, and the energy management system of the colleges and universities can be copied to be applied to other office places and public buildings.

Drawings

FIG. 1 is a schematic structural diagram of an energy comprehensive online monitoring and collecting system provided by an embodiment of the invention;

in fig. 1: 1. an energy monitoring and collection system; 2. sensing equipment of the Internet of things; 3. a memory and a background system; 4. an energy source database; 5. energy consumption analysis and management system.

Fig. 2 is a flow chart of an energy comprehensive online monitoring and collecting method provided by the embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In view of the problems in the prior art, the present invention provides an energy integrated on-line monitoring and collecting system, method, medium and computer device, which will be described in detail with reference to the accompanying drawings.

Those skilled in the art of the integrated online energy monitoring and collecting system of the present invention can also use other steps to implement the integrated online energy monitoring and collecting system of fig. 1, which is only one specific embodiment.

As shown in fig. 1, the energy comprehensive online monitoring and collecting system provided by the embodiment of the present invention includes:

the energy monitoring and collecting system 1 is an important component of a smart factory, a smart community and a smart city, rapidly solves the problem of energy monitoring and collecting by combining an energy comprehensive online monitoring and collecting system and an Internet of things sensing device, provides modular service, and copies the service to various application places, and monitors the change state of energy data in real time by the energy monitoring and collecting system through the Internet of things sensing device;

the sensing equipment of the internet of things 2 is used as a tail end collector and collects energy consumption data of water, electricity, gas and the like of a user site on line in real time; the method comprises the steps that data are sent to an energy consumption data collection terminal in a 4G/5G or WiFi mode and are uploaded to a background server at the same time, the sensing equipment of the Internet of things searches for needed data through a search engine, firstly, the sensing equipment of the Internet of things sends search request information to a switch, the switch sends the search request information to a router, the router sends the search request information to a DNS server, the DNS calls a vertical search engine to establish the search engine in the Internet, energy data information needing to be collected is found through a network radar and an automatic indexing technology, and then information tracking and automatic sorting technologies are called to classify the information;

the memory and background system 3 forms various energy consumption analysis reports by processing background data, and visually and objectively displays the data format to the user in a large screen or other forms; simultaneously, storing the data through a memory; the background converts data to be displayed into an electric signal through the D/A converter, transmits the electric signal to the display through the transmission line, and displays the electric signal through the DVI interface; the memory is composed of a DDR memory control and an A/D converter, the A/D converter converts the received electric signals into digital signals, and the digital signals are stored in a DDR memory space to realize real-time storage of data;

the energy source database 4 is used for storing related energy data, wherein the energy data comprises common industrial data, commercial data, water data, electric data and gas data of civil users; the storage of the energy source database uses SQL service, the local computer is configured with SQL service before use, the SQL server automatically generates SQL sentences of stored data, and the related data is stored in the SQL database in the form of digital signals.

The energy consumption analysis and management system 5 analyzes energy consumption through a related algorithm, provides big data support for an energy management system, finds out the current energy problem, provides guidance for later energy reformation and management control, packages the related algorithm in a corresponding energy consumption analysis program, essentially packages the deep convolutional neural network trained by the related algorithm, inputs the energy consumption data into the energy consumption analysis program in the form of digital signals, and outputs the analysis result in the form of digital signals after analyzing the data by the energy consumption analysis program for workers to check.

As shown in fig. 2, the energy comprehensive online monitoring and collecting method provided by the embodiment of the present invention includes:

s101: the energy monitoring and collecting system is combined with the sensing equipment of the Internet of things so as to rapidly solve the problem of energy monitoring and collecting, provide modular service and copy the energy monitoring and collecting system to various different application places;

s102: the method comprises the steps that energy consumption data of a user site are collected on line in real time by sensing equipment of the Internet of things; the wireless transmission module sends data to the energy consumption data collection terminal in a 4G/5G or WiFi mode and uploads the data to the background server at the same time;

s103: the memory and the background system form various energy consumption analysis reports through processing background data, and visually, objectively and visually display data formats for users in a large screen mode and the like; simultaneously, storing the data through a memory;

s104: the energy source database stores related energy data, and the energy consumption analysis and management system analyzes energy consumption through related algorithms, provides big data support for the energy management system, finds out the current energy problems and provides guidance for later energy reformation and management and control.

In S101 provided by the embodiment of the present invention, the sensing device of the internet of things includes a monitoring and collecting device for tap water flow and water quality parameters, and is configured to monitor and collect water quantity and water quality parameters within a user jurisdiction in real time on-line, and perform on-line monitoring on water safety and water quantity.

The water quality parameters comprise PH value, turbidity, residual chlorine/chlorine dioxide, temperature and dissolved oxygen.

In S101 provided by the embodiment of the invention, the sensing device of the internet of things further includes an electric energy parameter acquisition device, a gas parameter acquisition device, and a remote monitoring system, a camera and the like arranged for some important energy consumption devices.

The electric energy parameter acquisition device comprises the following related electric energy parameters, such as current, voltage, active power, reactive power, apparent power, power factor, frequency, power consumption and the like, and can be used for monitoring and acquiring the real-time electric parameters on line.

The gas parameter acquisition device comprises a gas parameter acquisition device and is used for carrying out online monitoring and acquisition on parameters such as gas flow and the like.

In S102 provided by the embodiment of the present invention, the energy consumption data includes water, electricity, gas, and the like.

In S102 provided by the embodiment of the present invention, the wireless transmission module transmits data acquired by the internet of things sensing device to the background system in real time in a wireless connection 4G/5G or WiFi manner, so as to ensure efficiency and accuracy of data transmission.

In S102 provided by the embodiment of the present invention, the wireless transmission module includes a transmitter, a receiver, and a controller.

In S104 provided by the embodiment of the present invention, the specific process of energy consumption analysis is as follows:

firstly, various data reports are formed by summarizing and visually displaying data, multi-dimensional evaluation and benchmarking analysis are carried out on energy consumption, and energy consumption improvement space is excavated; through analyzing big data, comprehensively comparing the economic benefits of various improvement measures, providing an optimal scheme suggestion and the like; meanwhile, through big data online monitoring and statistics, the potential safety hazard of energy sources is found in time, and faults existing in accurate positioning are found, so that specialized processing suggestions are provided, and the energy cost is reduced.

The various data reports comprise single-day energy consumption measurement and statistics, monthly energy consumption data measurement and statistics, quarterly energy consumption data measurement and statistics, annual energy consumption data measurement and statistics and unit production capacity energy consumption data statistics;

and the energy source database is formed by single-day energy consumption metering and statistics, monthly energy consumption data metering and statistics, quarterly energy consumption data metering and statistics, annual energy consumption data metering and statistics, unit production capacity energy consumption data statistics and the like.

The working principle is as follows: firstly, energy consumption data of water, electricity, gas and the like of a user site are collected on line in real time by the sensing equipment 2 of the internet of things, the data are transmitted to the energy monitoring and collecting system 1 to carry out real-time monitoring on the energy data, the collected energy data are stored by using the energy source database 4, the relevant data are displayed by using the storage and the background system 3 and the displayed data are stored, and finally, the energy consumption data are analyzed by the energy consumption analyzing and managing system 5 to obtain an analysis result.

It should be noted that the embodiments of the present invention can be realized by hardware, software, or a combination of software and hardware. The hardware portion may be implemented using dedicated logic; the software portions may be stored in a memory and executed by a suitable instruction execution system, such as a microprocessor or specially designed hardware. Those skilled in the art will appreciate that the apparatus and methods described above may be implemented using computer executable instructions and/or embodied in processor control code, such code being provided on a carrier medium such as a disk, CD-or DVD-ROM, programmable memory such as read only memory (firmware), or a data carrier such as an optical or electronic signal carrier, for example. The apparatus and its modules of the present invention may be implemented by hardware circuits such as very large scale integrated circuits or gate arrays, semiconductors such as logic chips, transistors, or programmable hardware devices such as field programmable gate arrays, programmable logic devices, etc., or by software executed by various types of processors, or by a combination of hardware circuits and software, e.g., firmware.

The above description is only for the purpose of illustrating the present invention and the appended claims are not to be construed as limiting the scope of the invention, which is intended to cover all modifications, equivalents and improvements that are within the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An energy comprehensive online monitoring and collecting method is characterized by comprising the following steps:

the method comprises the following steps that firstly, an energy monitoring and collecting system is combined with Internet of things sensing equipment to rapidly solve the problem of energy monitoring and collecting, provide modular service and copy the energy monitoring and collecting system to different application places;

secondly, collecting energy consumption data of a user site on line in real time by the sensing equipment of the Internet of things; the wireless transmission module sends data to the energy consumption data collection terminal in a 4G/5G or WiFi mode and uploads the data to the background server at the same time;

step three, the memory and the background system form various energy consumption analysis reports through processing background data, and visually, objectively and visually display data formats to a user in a large screen mode; simultaneously storing the data through a memory;

and fourthly, storing related energy data in an energy source database, analyzing the energy consumption by the energy consumption analysis and management system through a related algorithm, providing big data support for the energy management system, finding out the current energy problem and providing guidance for later energy reformation and management and control.

2. The method for comprehensively monitoring and acquiring energy resources on line according to claim 1, wherein in the first step, the sensing equipment of the internet of things comprises monitoring and acquiring equipment for tap water flow and water quality parameters, the water quantity and the water quality parameters in the range of the user jurisdiction are monitored and acquired on line in real time, and the water safety and the water quantity are monitored on line;

the water quality parameters comprise pH value, turbidity, residual chlorine/chlorine dioxide, temperature and dissolved oxygen.

3. The method for comprehensively monitoring and acquiring energy resources on line as claimed in claim 1, wherein the sensing equipment of the internet of things in the first step further comprises an electric energy parameter acquisition device, a gas parameter acquisition device, a remote monitoring system and a camera.

4. The integrated on-line energy monitoring and collecting method according to claim 3, wherein the electric energy parameter collecting device comprises related electric energy parameters such as current, voltage, active power, reactive power, apparent power, power factor, frequency, power consumption, and carries out on-line monitoring and collection on real-time power consumption parameters;

the gas parameter acquisition device comprises a gas parameter acquisition device and is used for carrying out online monitoring and acquisition on gas flow parameters.

5. The integrated online energy monitoring and collection method of claim 1, wherein the energy consumption data in step two includes water, electricity, and gas.

6. The energy comprehensive online monitoring and collecting method according to claim 1, wherein in the second step, the wireless transmission module transmits the data collected by the internet of things sensing equipment to the background system in real time in a wireless connection 4G/5G or WiFi mode;

and the wireless transmission module in the second step comprises a transmitter, a receiver and a controller.

7. The method for comprehensively monitoring and acquiring the energy resources on line according to claim 1, wherein the specific process of analyzing the energy consumption in the fourth step is as follows:

firstly, various data reports are formed by summarizing and visually displaying data, multi-dimensional evaluation and benchmarking analysis are carried out on energy consumption, and energy consumption improvement space is excavated; through analyzing big data, comprehensively comparing the economic benefits of various improvement measures, providing an optimal scheme suggestion and the like; meanwhile, through big data online monitoring and statistics, potential energy safety hazards are found in time, faults existing in the faults are accurately positioned, specialized processing suggestions are provided, and energy cost is reduced;

the various data reports comprise single-day energy consumption measurement and statistics, monthly energy consumption data measurement and statistics, quarterly energy consumption data measurement and statistics, annual energy consumption data measurement and statistics and unit production capacity energy consumption data statistics;

and energy source databases are formed by single-day energy consumption metering and statistics, monthly energy consumption data metering and statistics, quarterly energy consumption data metering and statistics, annual energy consumption data metering and statistics, unit production capacity energy consumption data statistics and the like.

8. An energy comprehensive online monitoring and collecting system for implementing the energy comprehensive online monitoring and collecting method according to any one of claims 1 to 7, wherein the energy comprehensive online monitoring and collecting system comprises:

the energy monitoring and collecting system is combined with the Internet of things sensing equipment through an energy comprehensive online monitoring and collecting system, quickly solves the problem of energy monitoring and collecting, provides modular service, is copied to various application places, and is an important component of a smart factory, a smart community and a smart city;

the system comprises an Internet of things sensing device, a data acquisition device and a data processing device, wherein the Internet of things sensing device is used as a tail end collector and is used for collecting water, electricity and gas energy consumption data of a user site in real time on line; the data are sent to an energy consumption data collection terminal in a 4G/5G or WiFi mode and are simultaneously uploaded to a background server;

the memory and the background system form various energy consumption analysis reports through processing background data, and visually, objectively and visually display data formats to a user in a large screen mode; simultaneously, storing the data through a memory;

the energy source database is used for storing related energy data, wherein the energy data comprises common industrial data, commercial data, water data, electric data and gas data of civil users;

the energy consumption analysis and management system analyzes the energy consumption through a related algorithm, provides big data support for an energy management system, finds out the current energy problems and provides guidance for later energy reformation and management and control.

9. A program storage medium for receiving user input, the stored computer program enabling an electronic device to execute the method for integrated online monitoring and collection of energy resources according to any one of claims 1 to 7, comprising the steps of:

the method comprises the following steps that firstly, an energy monitoring and collecting system is combined with Internet of things sensing equipment to rapidly solve the problem of energy monitoring and collecting, provide modular service and copy the energy monitoring and collecting system to different application places;

secondly, collecting energy consumption data of a user site on line in real time by the sensing equipment of the Internet of things; the wireless transmission module sends data to the energy consumption data collection terminal in a 4G/5G or WiFi mode and uploads the data to the background server at the same time;

step three, the memory and the background system form various energy consumption analysis reports through processing background data, and visually, objectively and visually display data formats to a user in a large screen mode; simultaneously, storing the data through a memory;

and fourthly, storing related energy data in an energy source database, analyzing the energy consumption by the energy consumption analysis and management system through a related algorithm, providing big data support for the energy management system, finding out the current energy problem and providing guidance for later energy reformation and management and control.

10. A computer device, characterized in that the computer device comprises a memory and a processor, the memory stores a computer program, and the computer program is executed by the processor, so that the processor executes the method for integrated online monitoring and collection of energy resources according to any one of claims 1 to 7.

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