CN115062914A - Intelligent comprehensive energy-saving service platform and energy-saving service method - Google Patents
Intelligent comprehensive energy-saving service platform and energy-saving service method Download PDFInfo
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Abstract
The invention provides an intelligent comprehensive energy-saving service platform and an energy-saving service method, and relates to the technical field of management systems. The intelligent comprehensive energy-saving service platform comprises an energy real-time monitoring module, an energy detailed analysis module, an energy management prediction module, an operation and maintenance overhaul guarantee module, a transaction settlement monitoring module, an information maintenance analysis module, a total energy supply end and a demand individual end. Through the energy consumption analysis unit that each individual end of demand corresponds by the contrast analysis unit of data, efficiency analysis unit and benefit analysis unit numerical value, thereby the excessive source that consumes of the decision-making that can be quick, and make the early warning, promote service ability and efficiency, the equipment management unit is to all supply equipment of overall energy supply end, pipeline and output pipe network management detection, real-time to the energy in service behavior, influence the energy factor and acquire the statistics, be convenient for energy supply point and energy demand point.
Description
Technical Field
The invention relates to the technical field of management systems, in particular to an intelligent comprehensive energy-saving service platform and an energy-saving service method.
Background
Energy source means a resource capable of providing energy. The energy refers to heat energy, electric energy, light energy, mechanical energy, chemical energy and the like, and can provide kinetic energy, mechanical energy and energy for human beings.
At present, energy-saving service levels are uneven, energy-saving information and resource information island effect lead to industrial resource dispersion, information dispersion and incomplete information acquisition, cooperation among energy companies, energy-saving service companies, energy clients, government institutions and third-party certification institutions is hindered, large-scale popularization and application of energy-saving projects are not facilitated, meanwhile, the loss of an all-round resource integration management service platform and the lack of scientific and effective business requirement docking tools are prevented, and the promotion of high-quality and high-efficiency service capability provided by national energy companies for users is further hindered.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides an intelligent comprehensive energy-saving service platform and an energy-saving service method, and solves the problems that the prior energy-saving information and resource information are low in linkage efficiency and lack of an effective energy-saving service direction.
In order to achieve the purpose, the invention is realized by the following technical scheme: the intelligent comprehensive energy-saving service platform comprises an energy real-time monitoring module, an energy detailed analysis module, an energy management prediction module, an operation and maintenance support module, a transaction settlement monitoring module, an information maintenance analysis module, a total energy supply end and a demand individual end, wherein the energy real-time monitoring module, the energy detailed analysis module, the energy management prediction module, the operation and maintenance support module, the transaction settlement monitoring module and the information maintenance analysis module are respectively connected with a plurality of demand individual ends, and the output end of the total energy supply end is connected with the plurality of demand individual ends;
the energy real-time monitoring module comprises an energy supply monitoring unit, an energy demand detection unit, an energy pipe network monitoring unit, an energy data statistical unit and a monitoring data storage unit, wherein the energy supply monitoring unit, the energy demand detection unit and the energy pipe network monitoring unit are respectively connected with the energy data statistical unit through network signals, and the energy data statistical unit is connected with the monitoring data storage unit through HDR signals.
Preferably, the energy detailed analysis module includes an energy consumption analysis unit, an energy efficiency analysis unit, a benefit analysis unit and a data comparison analysis unit, the energy consumption analysis unit, the energy efficiency analysis unit and the benefit analysis unit are respectively connected to the monitoring data storage unit through HDR signals, and the energy consumption analysis unit, the energy efficiency analysis unit and the benefit analysis unit are connected to the monitoring data storage unit through HDR signals.
Preferably, the energy management prediction module comprises an energy supply prediction unit, an energy consumption prediction unit, an energy supply optimization unit and a multi-energy coordination unit, wherein the input end of the energy supply prediction unit is connected with the monitoring data storage unit through an HDR signal, the input end of the energy consumption prediction unit is connected with the monitoring data storage unit through an HDR signal, the input end of the energy supply optimization unit is connected with the monitoring data storage unit through an HDR signal, and the input end of the multi-energy coordination unit is connected with the monitoring data storage unit through an HDR signal.
Preferably, the operation and maintenance support module comprises an equipment management unit, a fault diagnosis unit, an overhaul and repair unit and an equipment evaluation unit, wherein the equipment management unit is connected with a plurality of groups of required individual end bodies through a WLAN signal, the input end of the fault diagnosis unit is connected with the equipment management unit through an HDR signal, the output end of the overhaul and repair unit is connected with the fault diagnosis unit through the HDR signal, and the output end of the equipment evaluation unit is connected with an overall energy supply end through the WLAN signal.
Preferably, the transaction settlement monitoring module comprises an energy metering and counting unit, an energy charging and counting unit, an energy transaction counting unit and an energy settlement counting unit, wherein the energy metering and counting unit is connected with a plurality of groups of required individual terminals through HDR signals, the energy charging and counting unit is connected with the energy metering and counting unit through an LTE network, the energy transaction counting unit is connected with the plurality of groups of required individual terminals through WLAN signals, and the energy settlement counting unit is connected with the energy transaction counting unit through the HDR signals.
Preferably, the information maintenance analysis module comprises an energy consumption diagnosis unit, an energy consumption optimization unit, an energy-saving early warning unit and an information disclosure unit, the energy consumption diagnosis unit is connected with the energy real-time monitoring module through an HDR signal, the energy consumption optimization unit is connected with the energy consumption diagnosis unit through an HDR signal, the energy-saving early warning unit is connected with a plurality of groups of required individual terminals through a WLAN signal, and the energy-saving early warning unit is connected with the energy consumption diagnosis unit, the energy consumption optimization unit, the energy real-time monitoring module, the energy detailed analysis module, the energy management prediction module and the operation maintenance support module through the HDR signal.
Preferably, the energy supply monitoring unit, the energy demand detection unit and the input end of the energy pipe network monitoring unit are connected with a plurality of groups of demand individual ends.
Preferably, the energy-saving service method of the intelligent comprehensive energy-saving service platform comprises the following steps:
s1, firstly, when the independent general energy supply end supplies energy to a plurality of individual demand ends, the energy real-time monitoring module, the energy detailed analysis module, the energy management prediction module, the operation and maintenance support module, the transaction settlement monitoring module and the information maintenance analysis module comprehensively manage the energy supply method;
s2, an energy real-time monitoring module of a service platform monitors output energy of a total energy supply end in real time, an energy supply monitoring unit monitors energy quantity of the total energy supply end supplied to individual bodies requiring energy in real time, an energy demand detection unit monitors energy demand of each individual body requiring energy in real time, an energy pipe network monitoring unit monitors energy supply pipeline states of the total energy supply end in real time, and an energy data statistics unit directly counts statistics values of the energy supply monitoring unit, the energy demand detection unit and the energy pipe network monitoring unit and stores the statistics values into the service platform through a monitoring data storage unit;
s3, an energy detailed analysis module analyzes monitoring data of an energy supply monitoring unit, an energy demand detection unit and an energy pipe network monitoring unit which are included by the energy real-time monitoring module in real time, an energy consumption analysis unit analyzes the energy consumption condition of each individual demand body according to the energy supply monitoring unit, an energy efficiency analysis unit analyzes the energy use efficiency condition according to the energy use condition of each individual demand body, a benefit analysis unit directly analyzes energy sum use benefit data of the individual demand bodies, and finally a data comparison analysis unit compares the energy consumption analysis unit, the energy efficiency analysis unit and the benefit analysis unit corresponding to each individual demand body;
s4, the energy management prediction module performs energy supply management according to the analysis value of the energy detailed analysis module, the energy supply prediction unit performs energy supply prediction preparation aiming at the comparison data of the data comparison analysis unit and the data of the energy supply monitoring unit, the energy demand detection unit and the energy pipe network monitoring unit corresponding to each individual demand body, performs energy supply optimization of each individual demand body through the energy supply optimization unit, and the multi-energy cooperation unit conducts optimization of the energy supply optimization unit to different energy sources required by each transaction settlement monitoring module;
s5, the operation maintenance and overhaul guarantee module guarantees that the energy supply equipment of the overall energy supply end runs stably, the equipment management unit manages and detects all supply equipment, pipelines and output pipe networks of the overall energy supply end to obtain the service condition of the equipment in real time, the fault diagnosis unit diagnoses and searches fault reasons according to the fault condition of the supply equipment of the overall energy supply end, maintenance guarantee is carried out through quick response of the overhaul and repair unit, the equipment evaluation unit evaluates the energy supply equipment, judges the supply efficiency and guarantees that the equipment is in the best supply state;
s6, the transaction settlement monitoring module calculates and monitors the transaction value of the energy used by each individual demand end, the energy metering statistical unit calculates the energy quantity supplied by the energy supply monitoring unit to each individual demand end, the energy charging statistical unit calculates the use fees of different energy sources according to the calculation value of the energy metering statistical unit, the energy transaction statistical unit calculates the transaction quantity supplied by the total energy supply end, the energy settlement statistical unit calculates and counts the settlement value of each individual demand end according to the transaction value of the energy transaction statistical unit, and the energy consumption condition of each individual demand end is judged according to the energy use transaction value monitored by the transaction settlement monitoring module;
s7, the information maintenance analysis module optimizes and feeds back the output and input energy of the individual demand end and the overall energy supply end, the energy consumption diagnosis unit diagnoses the reason of energy consumption according to the working numerical values of the energy settlement statistic unit, the energy metering statistic unit, the fault diagnosis unit, the energy consumption analysis unit, the energy efficiency analysis unit, the benefit analysis unit, the energy supply monitoring unit, the energy demand detection unit and the energy pipe network monitoring unit, when the energy consumption is too much, the energy saving early warning unit can carry out energy abnormal consumption energy saving early warning on the overall energy supply end and each individual demand end through the information disclosure unit, and the information disclosure unit can also directly display the data of the energy real-time monitoring module, the energy detailed analysis module, the energy management prediction module, the operation maintenance support module and the transaction settlement monitoring module.
The invention provides an intelligent comprehensive energy-saving service platform and an energy-saving service method. The method has the following beneficial effects:
1. the energy supply monitoring unit monitors the energy quantity supplied to a required individual body by the overall energy supply end in real time, the energy demand detection unit monitors the energy demand of each required individual body in real time, the energy pipe network monitoring unit monitors the energy supply pipeline state of the overall energy supply end in real time, the energy consumption analysis unit analyzes the energy consumption condition of each required individual body according to the energy supply monitoring unit, the energy efficiency analysis unit analyzes the energy use efficiency condition according to the energy use condition of each required individual body, the benefit analysis unit directly analyzes the energy sum use benefit data of the required individual body, the equipment management unit manages and detects all supply equipment, pipelines and output pipe networks of the overall energy supply end, and the energy use condition, real-time energy supply condition, maintenance and repair guarantee module are added, Influence energy factor and acquire statistics, the energy supply point of being convenient for and energy demand point.
2. The invention adopts the added energy management prediction module, the transaction settlement monitoring module and the information maintenance analysis module, the energy consumption diagnosis unit diagnoses the reason of energy consumption according to the working numerical values of the energy settlement statistic unit, the energy metering statistic unit, the fault diagnosis unit, the energy consumption analysis unit, the energy efficiency analysis unit, the benefit analysis unit, the energy supply monitoring unit, the energy demand detection unit and the energy pipe network monitoring unit, when the energy consumption is excessive, the energy saving early warning unit can carry out energy saving early warning of abnormal energy consumption on the overall energy supply end and each required individual end through the information disclosure unit, the energy consumption condition of the required individual end is judged according to the energy consumption transaction numerical value monitored by the transaction settlement monitoring module, and the data comparison analysis unit compares the energy consumption analysis unit, the energy efficiency analysis unit and the benefit analysis unit corresponding to each required individual end, therefore, the source of the energy excessive consumption can be quickly determined, early warning is given, and the service capacity and the efficiency are improved.
Drawings
FIG. 1 is a schematic diagram of an architecture of an integrated energy-saving service platform according to the present invention;
FIG. 2 is a system architecture diagram of the present invention;
FIG. 3 is a schematic diagram of an energy real-time monitoring module according to the present invention;
FIG. 4 is a schematic diagram of an energy detail analysis module according to the present invention;
FIG. 5 is a schematic diagram of an energy management prediction module according to the present invention;
FIG. 6 is a schematic diagram of an operation, maintenance, repair and guarantee module architecture according to the present invention;
FIG. 7 is a schematic diagram of the transaction settlement monitoring module architecture of the present invention;
FIG. 8 is a diagram of an information maintenance analysis module according to the present invention.
The system comprises an energy real-time monitoring module, a power supply module and a power supply module, wherein the energy real-time monitoring module is used for monitoring energy; 2. an energy detailed analysis module; 3. an energy management prediction module; 4. an operation maintenance support module; 5. a transaction settlement monitoring module; 6. an information maintenance analysis module; 7. an overall energy supply end; 8. requiring an individual terminal; 101. an energy supply monitoring unit; 102. an energy demand detection unit; 103. an energy pipe network monitoring unit; 104. an energy data statistics unit; 105. a monitoring data storage unit; 201. an energy consumption analysis unit; 202. an energy efficiency analysis unit; 203. a benefit analysis unit; 204. a data comparison and analysis unit; 301. an energy supply prediction unit; 302. an energy use prediction unit; 303. an energy supply optimization unit; 304. a multi-energy source coordination unit; 401. a device management unit; 402. a fault diagnosis unit; 403. overhauling and repairing the unit; 404. a device evaluation unit; 501. an energy metering and counting unit; 502. an energy charging statistical unit; 503. an energy transaction statistical unit; 504. an energy settlement statistic unit; 601. an energy consumption diagnosis unit; 602. an energy consumption optimizing unit; 603. an energy-saving early warning unit; 604. an information disclosure unit.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The embodiment is as follows:
as shown in fig. 1-8, an embodiment of the present invention provides an intelligent comprehensive energy-saving service platform, which includes an energy real-time monitoring module 1, an energy detailed analysis module 2, an energy management prediction module 3, an operation and maintenance support module 4, a transaction settlement monitoring module 5, an information maintenance analysis module 6, a total energy supply terminal 7 and a demand individual terminal 8, wherein the energy real-time monitoring module 1, the energy detailed analysis module 2, the energy management prediction module 3, the operation and maintenance support module 4, the transaction settlement monitoring module 5 and the information maintenance analysis module 6 are respectively connected to a plurality of sets of demand individual terminals 8, and an output terminal of the total energy supply terminal 7 is connected to a plurality of sets of demand individual terminals 8;
the energy real-time monitoring module 1 comprises an energy supply monitoring unit 101, an energy demand detection unit 102, an energy pipe network monitoring unit 103, an energy data statistical unit 104 and a monitoring data storage unit 105, wherein the energy supply monitoring unit 101, the energy demand detection unit 102 and the energy pipe network monitoring unit 103 are respectively connected with the energy data statistical unit 104 through network signals, the energy data statistical unit 104 is connected with the monitoring data storage unit 105 through an HDR signal, the energy real-time monitoring module 1 of a service platform monitors the output energy of a total energy supply end 7 in real time, the energy supply monitoring unit 101 monitors the energy amount supplied to the total energy supply end 7 by the total energy supply end 8 in real time, the energy demand detection unit 102 monitors the energy demand of each required individual end 8 in real time, and the energy pipe network monitoring unit 103 monitors the energy supply pipeline state of the total energy supply end 7 in real time, the energy data statistics unit 104 directly counts statistics of the energy supply monitoring unit 101, the energy demand detection unit 102, and the energy pipe network monitoring unit 103, and stores the statistics in the service platform through the monitoring data storage unit 105.
The energy detailed analysis module 2 comprises an energy consumption analysis unit 201, an energy efficiency analysis unit 202, a benefit analysis unit 203 and a data comparison analysis unit 204, the energy consumption analysis unit 201, the energy efficiency analysis unit 202 and the benefit analysis unit 203 are respectively connected with the monitoring data storage unit 105 through HDR signals, the energy consumption analysis unit 201, the energy efficiency analysis unit 202 and the benefit analysis unit 203 are connected with the monitoring data storage unit 105 through HDR signals, the energy detailed analysis module 2 analyzes the monitoring data of the energy supply monitoring unit 101, the energy demand detection unit 102 and the energy pipe network monitoring unit 103 which are included in the energy real-time monitoring module 1 in real time, the energy consumption analysis unit 201 analyzes the energy consumption condition of each required individual body end 8 according to the energy supply monitoring unit 101, and the energy efficiency analysis unit 202 analyzes the energy use efficiency condition according to the energy use condition of each required individual body end 8, the benefit analysis unit 203 directly analyzes the energy total usage benefit data of the required individual terminals 8, and finally the data comparison and analysis unit 204 compares the values of the energy consumption analysis unit 201, the energy efficiency analysis unit 202 and the benefit analysis unit 203 corresponding to each required individual terminal 8.
The energy management prediction module 3 comprises an energy supply prediction unit 301, an energy consumption prediction unit 302, an energy supply optimization unit 303 and a multi-energy coordination unit 304, wherein the input end of the energy supply prediction unit 301 is connected with the monitoring data storage unit 105 through an HDR signal, the input end of the energy consumption prediction unit 302 is connected with the monitoring data storage unit 105 through an HDR signal, the input end of the energy supply optimization unit 303 is connected with the monitoring data storage unit 105 through an HDR signal, the input end of the multi-energy coordination unit 304 is connected with the monitoring data storage unit 105 through an HDR signal, the energy management prediction module 3 performs energy supply management according to the analysis value of the energy detailed analysis module 2, the energy supply prediction unit 301 performs energy supply prediction preparation according to the comparison data of the data comparison analysis unit 204 and the corresponding energy supply monitoring unit 101, energy demand detection unit 102 and energy pipe network monitoring unit 103 data of each demand individual body end 8, and the energy supply optimization unit 303 optimizes the energy supply of each individual demand side 8, and the multi-energy cooperation unit 304 transmits the optimization of the energy supply optimization unit 303 to different energy sources required by each transaction settlement monitoring module 5.
The operation maintenance and repair guarantee module 4 comprises an equipment management unit 401, a fault diagnosis unit 402, a maintenance and repair unit 403 and an equipment evaluation unit 404, the equipment management unit 401 is connected with a plurality of sets of required individual terminals 8 through WLAN signals, the input end of the fault diagnosis unit 402 is connected with the equipment management unit 401 through HDR signals, the output end of the maintenance and repair unit 403 is connected with the fault diagnosis unit 402 through HDR signals, the output end of the equipment evaluation unit 404 is connected with a total energy supply terminal 7 through WLAN signals, the operation maintenance and repair guarantee module 4 guarantees that the energy supply equipment of the total energy supply terminal 7 operates stably, the equipment management unit 401 manages and detects all supply equipment, pipelines and output pipe networks of the total energy supply terminal 7 to know the service conditions of the equipment in real time, the fault diagnosis unit 402 diagnoses and finds fault causes according to the fault conditions of the supply equipment of the total energy supply terminal 7, and the maintenance is ensured by the quick response of the overhaul and emergency repair unit 403, and the equipment evaluation unit 404 evaluates the energy supply equipment, judges the supply efficiency and ensures that the equipment is in the optimal supply state.
The transaction settlement monitoring module 5 comprises an energy metering and counting unit 501, an energy charging and counting unit 502, an energy transaction counting unit 503 and an energy settlement counting unit 504, the energy metering and counting unit 501 is connected with a plurality of groups of required individual terminals 8 through HDR signals, the energy charging and counting unit 502 is connected with the energy metering and counting unit 501 through an LTE network, the energy transaction counting unit 503 is connected with a plurality of groups of required individual terminals 8 through WLAN signals, the energy settlement counting unit 504 is connected with the energy transaction counting unit 503 through HDR signals, the transaction settlement monitoring module 5 calculates and monitors transaction values of energy used by each required individual terminal 8, the energy metering and counting unit 501 calculates the energy quantity supplied to each required individual terminal 8 by the energy supply monitoring unit 101, the energy charging and counting unit 502 counts the use fees of different energy sources according to the calculation values of the energy metering and counting unit 501, the energy transaction statistical unit 503 counts the transaction amount of energy supply performed by the total energy supply terminal 7, the energy settlement statistical unit 504 counts and counts the settlement value of each required individual terminal 8 according to the transaction value of the energy transaction statistical unit 503, and determines the energy consumption condition of the required individual terminal 8 according to the energy usage transaction value monitored by the transaction settlement monitoring module 5.
The information maintenance analysis module 6 comprises an energy consumption diagnosis unit 601, an energy consumption optimization unit 602, an energy-saving early warning unit 603 and an information disclosure unit 604, wherein the energy consumption diagnosis unit 601 is connected with the energy real-time monitoring module 1 through an HDR signal, the energy consumption optimization unit 602 is connected with the energy consumption diagnosis unit 601 through an HDR signal, the energy-saving early warning unit 603 is connected with a plurality of groups of required individual terminals 8 through a WLAN signal, the energy-saving early warning unit 603 is connected with the energy consumption diagnosis unit 601, the energy consumption optimization unit 602, the energy real-time monitoring module 1, the energy detailed analysis module 2, the energy management prediction module 3 and the operation and maintenance support module 4 through the HDR signal, the information maintenance analysis module 6 optimizes and feeds back the output and input energy of the required individual terminals 8 and the overall energy supply terminal 7, and the energy consumption diagnosis unit 601 settles accounts according to the energy consumption statistics unit 504, the energy metering statistics unit 501, the fault diagnosis unit 402, the energy consumption settlement unit, The energy consumption analysis unit 201, the energy efficiency analysis unit 202, the benefit analysis unit 203, the energy supply monitoring unit 101, the energy demand detection unit 102 and the energy pipe network monitoring unit 103 diagnose the reason of energy consumption, when excessive energy consumption occurs, the energy saving early warning unit 603 can perform energy saving early warning of abnormal energy consumption on the general energy supply terminal 7 and each demand individual terminal 8 through the information disclosure unit 604, and the information disclosure unit 604 can also directly display the data of the energy real-time monitoring module 1, the energy detailed analysis module 2, the energy management prediction module 3, the operation and maintenance support module 4 and the transaction settlement monitoring module 5.
As shown in fig. 1 to 8, an energy saving service method for an intelligent integrated energy saving service platform according to an embodiment of the present invention includes the following steps:
s1, firstly, when an independent overall energy supply end 7 supplies energy to a plurality of individual end 8, the energy real-time monitoring module 1, the energy detailed analysis module 2, the energy management prediction module 3, the operation and maintenance support module 4, the transaction settlement monitoring module 5 and the information maintenance analysis module 6 comprehensively manage the energy supply method;
s2, an energy real-time monitoring module 1 of a service platform monitors output energy of a total energy supply end 7 in real time, an energy supply monitoring unit 101 monitors energy amount supplied by the total energy supply end 7 to individual demand ends 8 in real time, an energy demand detection unit 102 monitors energy demand amount of each individual demand end 8 in real time, an energy pipe network monitoring unit 103 monitors energy supply pipeline state of the total energy supply end 7 in real time, and an energy data statistics unit 104 directly counts statistics values of the energy supply monitoring unit 101, the energy demand detection unit 102 and the energy pipe network monitoring unit 103 and stores the statistics values into the service platform through a monitoring data storage unit 105;
s3, the energy detailed analysis module 2 analyzes the monitoring data of the energy supply monitoring unit 101, the energy demand detection unit 102, and the energy pipe network monitoring unit 103 included in the energy real-time monitoring module 1 in real time, the energy consumption analysis unit 201 analyzes the energy consumption of each demanded individual end 8 according to the energy supply monitoring unit 101, the energy efficiency analysis unit 202 analyzes the energy usage efficiency according to the energy usage of each demanded individual end 8, the benefit analysis unit 203 directly analyzes the energy total usage benefit data of the demanded individual ends 8, and finally the data comparison and analysis unit 204 compares the values of the energy consumption analysis unit 201, the energy efficiency analysis unit 202, and the benefit analysis unit 203 corresponding to each demanded individual end 8;
s4, the energy management prediction module 3 performs energy supply management according to the analysis value of the energy detailed analysis module 2, the energy supply prediction unit 301 performs energy supply prediction preparation for the comparison data of the data comparison analysis unit 204 and the data of the energy supply monitoring unit 101, the energy demand detection unit 102 and the energy pipe network monitoring unit 103 corresponding to each individual demand side 8, performs energy supply optimization for each individual demand side 8 through the energy supply optimization unit 303, and the multi-energy coordination unit 304 conducts optimization of the energy supply optimization unit 303 to different energy sources required by each transaction settlement monitoring module 5;
s5, the operation maintenance and repair guarantee module 4 guarantees that the energy supply equipment of the overall energy supply end 7 operates stably, the equipment management unit 401 manages and detects all supply equipment, pipelines and output pipe networks of the overall energy supply end 7, the service condition of the equipment is known in real time, the fault diagnosis unit 402 diagnoses and searches for a fault reason according to the fault condition of the supply equipment of the overall energy supply end 7, maintenance and repair are carried out through quick response of the maintenance and repair unit 403, the equipment evaluation unit 404 evaluates the energy supply equipment, judges the supply efficiency and guarantees that the equipment is in the best supply state;
s6, the transaction settlement monitoring module 5 calculates and monitors the transaction value of the energy used by each required individual body 8, the energy metering statistical unit 501 calculates the amount of the energy supplied to each required individual body 8 by the energy supply monitoring unit 101, the energy billing statistical unit 502 counts the use fees of different energy sources according to the calculated value of the energy metering statistical unit 501, the energy transaction statistical unit 503 counts the transaction amount of the energy supply performed by the total energy supply end 7, the energy settlement statistical unit 504 counts and counts the settlement value of each required individual body 8 according to the transaction value of the energy transaction statistical unit 503, and the energy consumption condition of each required individual body 8 is judged according to the energy use transaction value monitored by the transaction settlement monitoring module 5;
s7, the information maintenance analysis module 6 optimizes and feeds back the output and input energy of the individual end 8 and the overall energy supply end 7, the energy consumption diagnosis unit 601 diagnoses the reason of energy consumption according to the working values of the energy settlement statistic unit 504, the energy metering statistic unit 501, the fault diagnosis unit 402, the energy consumption analysis unit 201, the energy efficiency analysis unit 202, the benefit analysis unit 203, the energy supply monitoring unit 101, the energy demand detection unit 102 and the energy pipe network monitoring unit 103, when the energy consumption is too much, the energy-saving early warning unit 603 performs energy-saving early warning on abnormal energy consumption of the total energy supply terminal 7 and each individual demand terminal 8 through the information disclosure unit 604, and the information disclosure unit 604 can also directly display data of the energy real-time monitoring module 1, the energy detailed analysis module 2, the energy management prediction module 3, the operation and maintenance support module 4 and the transaction settlement monitoring module 5.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (8)
1. Energy-conserving service platform is synthesized to wisdom, including energy real time monitoring module (1), the detailed analysis module of energy (2), energy management prediction module (3), operation and maintenance guarantee module (4), transaction settlement monitoring module (5), information maintenance analysis module (6), total energy supply end (7) and individual end of the demand (8), its characterized in that: the energy real-time monitoring module (1), the energy detailed analysis module (2), the energy management prediction module (3), the operation and maintenance support module (4), the transaction settlement monitoring module (5) and the information maintenance analysis module (6) are respectively connected with a plurality of groups of individual demand terminals (8), and the output end of the overall energy supply terminal (7) is connected with a plurality of groups of individual demand terminals (8);
the energy real-time monitoring module (1) comprises an energy supply monitoring unit (101), an energy demand detection unit (102), an energy pipe network monitoring unit (103), an energy data statistics unit (104) and a monitoring data storage unit (105), wherein the energy supply monitoring unit (101), the energy demand detection unit (102) and the energy pipe network monitoring unit (103) are respectively connected with the energy data statistics unit (104) through network signals, and the energy data statistics unit (104) is connected with the monitoring data storage unit (105) through HDR signals.
2. The intelligent integrated energy-saving service platform according to claim 1, wherein: the energy detailed analysis module (2) comprises an energy consumption analysis unit (201), an energy efficiency analysis unit (202), a benefit analysis unit (203) and a data comparison analysis unit (204), wherein the energy consumption analysis unit (201), the energy efficiency analysis unit (202) and the benefit analysis unit (203) are respectively connected with a monitoring data storage unit (105) through HDR signals, and the energy consumption analysis unit (201), the energy efficiency analysis unit (202) and the benefit analysis unit (203) are connected with the monitoring data storage unit (105) through the HDR signals.
3. The intelligent integrated energy-saving service platform according to claim 1, wherein: the energy management prediction module (3) comprises an energy supply prediction unit (301), an energy consumption prediction unit (302), an energy supply optimization unit (303) and a multi-energy coordination unit (304), wherein the input end of the energy supply prediction unit (301) is connected with a monitoring data storage unit (105) through an HDR signal, the input end of the energy consumption prediction unit (302) is connected with the monitoring data storage unit (105) through an HDR signal, the input end of the energy supply optimization unit (303) is connected with the monitoring data storage unit (105) through an HDR signal, and the input end of the multi-energy coordination unit (304) is connected with the monitoring data storage unit (105) through an HDR signal.
4. The intelligent integrated energy-saving service platform according to claim 1, wherein: fortune maintenance overhauls guarantee module (4) includes equipment management unit (401), failure diagnosis unit (402), overhauls and salvages unit (403) and equipment evaluation unit (404), equipment management unit (401) are through individual end (8) of WLAN signal connection multiunit demand, HDR signal connection equipment management unit (401) are passed through to the input of failure diagnosis unit (402), HDR signal connection failure diagnosis unit (402) are passed through to the output of overhauing and salvageing unit (403), WLAN signal connection general energy supply end (7) are passed through to the output of equipment evaluation unit (404).
5. The intelligent integrated energy-saving service platform according to claim 1, wherein: the transaction settlement monitoring module (5) comprises an energy metering and counting unit (501), an energy charging and counting unit (502), an energy transaction counting unit (503) and an energy settlement counting unit (504), wherein the energy metering and counting unit (501) is connected with a plurality of groups of demand individual terminals (8) through HDR signals, the energy charging and counting unit (502) is connected with the energy metering and counting unit (501) through an LTE network, the energy transaction counting unit (503) is connected with the plurality of groups of demand individual terminals (8) through WLAN signals, and the energy settlement counting unit (504) is connected with the energy transaction counting unit (503) through the HDR signals.
6. The intelligent integrated energy-saving service platform according to claim 1, wherein: the information maintenance analysis module (6) comprises an energy consumption diagnosis unit (601), an energy consumption optimization unit (602), an energy-saving early warning unit (603) and an information disclosure unit (604), wherein the energy consumption diagnosis unit (601) is connected with the energy real-time monitoring module (1) through an HDR signal, the energy consumption optimization unit (602) is connected with the energy consumption diagnosis unit (601) through an HDR signal, the energy-saving early warning unit (603) is connected with a plurality of groups of demand individual terminals (8) through a WLAN signal, and the energy-saving early warning unit (603) is connected with the energy consumption diagnosis unit (601), the energy consumption optimization unit (602), the energy real-time monitoring module (1), the energy detailed analysis module (2), the energy management prediction module (3) and the operation maintenance guarantee module (4) through the HDR signal.
7. The intelligent integrated energy-saving service platform according to claim 1, wherein: the input ends of the energy supply monitoring unit (101), the energy demand detection unit (102) and the energy pipe network monitoring unit (103) are connected with a plurality of groups of individual demand terminals (8).
8. The energy-saving service method of the intelligent integrated energy-saving service platform according to any one of claims 1 to 7, wherein: the method comprises the following steps:
s1, firstly, when an independent overall energy supply end (7) supplies energy to a plurality of individual demand ends (8), the energy real-time monitoring module (1), the energy detailed analysis module (2), the energy management prediction module (3), the operation and maintenance support module (4), the transaction settlement monitoring module (5) and the information maintenance analysis module (6) comprehensively manage the energy supply method;
s2, an energy real-time monitoring module (1) of a service platform monitors output energy of a total energy supply end (7) in real time, an energy supply monitoring unit (101) monitors energy quantity supplied by the total energy supply end (7) to a required individual body end (8) in real time, an energy demand detection unit (102) monitors energy demand of each required individual body end (8) in real time, an energy pipe network monitoring unit (103) monitors the state of an energy supply pipeline of the total energy supply end (7) in real time, and an energy data statistical unit (104) directly counts statistical values of the energy supply monitoring unit (101), the energy demand detection unit (102) and the energy pipe network monitoring unit (103) and stores the statistical values into the service platform through a monitoring data storage unit (105);
s3, an energy detailed analysis module (2) analyzes the monitoring data of an energy supply monitoring unit (101), an energy demand detection unit (102) and an energy pipe network monitoring unit (103) which are included in an energy real-time monitoring module (1), an energy consumption analysis unit (201) analyzes the energy consumption condition of each demand individual terminal (8) according to the energy supply monitoring unit (101), an energy efficiency analysis unit (202) analyzes the energy use efficiency condition according to the energy use condition of each demand individual terminal (8), a benefit analysis unit (203) directly analyzes the energy sum use benefit data of the demand individual terminals (8), and finally a data comparison analysis unit (204) compares the values of the energy consumption analysis unit (201), the energy efficiency analysis unit (202) and the benefit analysis unit (203) which correspond to each demand individual terminal (8);
s4, the energy management prediction module (3) performs energy supply management according to the analysis value of the energy detailed analysis module (2), the energy supply prediction unit (301) performs energy supply prediction preparation according to the comparison data of the data comparison analysis unit (204) and the corresponding energy supply monitoring unit (101), energy demand detection unit (102) and energy pipe network monitoring unit (103) data of each demand individual body end (8), performs energy supply optimization of each demand individual body end (8) through the energy supply optimization unit (303), and the multi-energy coordination unit (304) conducts optimization of the energy supply optimization unit (303) to different energy sources required by each transaction settlement monitoring module (5);
s5, the operation maintenance and overhaul guarantee module (4) guarantees that the energy supply equipment of the overall energy supply end (7) operates stably, the equipment management unit (401) manages and detects all supply equipment, pipelines and output pipe networks of the overall energy supply end (7) to obtain the service condition of the equipment in real time, the fault diagnosis unit (402) diagnoses and searches fault reasons according to the fault condition of the supply equipment of the overall energy supply end (7), carries out maintenance guarantee through quick response of the overhaul and repair unit (403), carries out evaluation on the energy supply equipment by the equipment evaluation unit (404), judges the supply efficiency and guarantees that the equipment is in the best supply state;
s6, the transaction settlement monitoring module (5) calculates and monitors the transaction numerical value of the energy used by each required individual body (8), the energy metering and counting unit (501) calculates the energy quantity supplied to each required individual body (8) by the energy supply monitoring unit (101), the energy charging and counting unit (502) counts the use fees of different energy sources according to the calculation numerical value of the energy metering and counting unit (501), the energy transaction counting unit (503) counts the transaction quantity of energy supply performed by the total energy supply end (7), the energy settlement counting unit (504) counts and counts the settlement numerical value of each required individual body (8) according to the transaction numerical value of the energy transaction counting unit (503), and the energy consumption condition of each required individual body (8) is judged according to the energy use transaction numerical value monitored by the transaction settlement monitoring module (5);
s7, an information maintenance analysis module (6) optimizes and feeds back output and input energy of a required individual end (8) and a total energy supply end (7), an energy consumption diagnosis unit (601) diagnoses the reason of energy consumption according to working values of an energy settlement statistic unit (504), an energy metering statistic unit (501), a fault diagnosis unit (402), an energy consumption analysis unit (201), an energy efficiency analysis unit (202), a benefit analysis unit (203), an energy supply monitoring unit (101), an energy demand detection unit (102) and an energy pipe network monitoring unit (103), when excessive energy consumption occurs, an energy saving early warning unit (603) can carry out energy saving early warning of energy abnormal consumption on the total energy supply end (7) and each required individual end (8) through an information disclosure unit (604), and the information disclosure unit (604) can also directly display an energy real-time monitoring module (1), The energy management and maintenance system comprises an energy detailed analysis module (2), an energy management prediction module (3), an operation and maintenance support module (4) and a transaction settlement monitoring module (5).
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