CN115759702A - Comprehensive energy operation and maintenance management method and system - Google Patents

Abstract

The invention discloses a comprehensive energy operation and maintenance management method and a system, the comprehensive energy operation and maintenance management method provided by the invention can effectively share information data of each energy type in a park, and further realize interconnection and intercommunication and unified management of each energy object in the park; specifically, water use data, electricity use data and gas use data of a user are obtained through the comprehensive energy controller; the data are packaged and sent to a server for storage, then managers can input a first query instruction through a management terminal to query the electric energy, gas and water energy use conditions of any user, and different types of energy use conditions do not need to be queried by using independent energy management systems; namely, the method establishes a unified energy management system, can greatly improve the energy management efficiency of the park and simultaneously reduces the operation complexity of users.

Description

Comprehensive energy operation and maintenance management method and system

Technical Field

The invention relates to the technical field of energy management, in particular to a comprehensive energy operation and maintenance management method and system.

Background

With the progress of industrialization and informatization, intelligent means are continuously updated in parks (industrial parks or commercial parks), and intelligent upgrading is realized. Because wisdom garden is more and more complicated, the garden energy covers multiple energy such as cold and hot, electricity, gas, multiple state and a plurality of user in the garden, energy consumption is big, the control management degree of difficulty increases.

At present, an energy management system of a park is generally independently constructed by subsystems, namely different management monitoring systems are respectively constructed for water, electricity and gas; the information data of each energy type in the park can not be effectively shared, and the interconnection and the unified management of each energy object in the park range can not be realized, so that the energy management efficiency is low, and the complex operation degree of a user is increased.

Disclosure of Invention

The invention mainly aims to provide a comprehensive energy operation and maintenance management method and system, and aims to solve the problems that the management efficiency is low and the operation complexity of a user is increased due to the fact that an energy management system of a park is generally independently constructed by subsystems.

The technical scheme provided by the invention is as follows:

a comprehensive energy operation and maintenance management method is applied to a comprehensive energy operation and maintenance management system; the system comprises a server, a management terminal and a user terminal; the user terminals are respectively arranged at each user; the user terminal comprises a comprehensive energy controller, and an intelligent electric meter, an intelligent water meter and an intelligent gas meter which are all in communication connection with the comprehensive energy controller; the comprehensive energy controller and the management terminal are in communication connection with the server; each user is correspondingly provided with a unique user number; the method comprises the following steps:

the comprehensive energy controller acquires power consumption data of a user in real time through the intelligent electric meter, acquires water consumption data of the user in real time through the intelligent water meter, and acquires gas consumption data of the user in real time through the intelligent gas meter, wherein the power consumption data comprise real-time power, real-time current and real-time voltage, the water consumption data comprise real-time water flow, and the gas consumption data comprise real-time gas flow;

the comprehensive energy controller packs and sends the electricity utilization data, the water utilization data and the gas utilization data of the user and the user number of the user to the server;

the server acquires a first query instruction input through a management terminal, wherein the first query instruction comprises a first query number;

and the server sends the electricity utilization data, the gas utilization data and the gas utilization data of the user corresponding to the first inquiry number to the management terminal for displaying based on the first inquiry instruction.

Preferably, the method further comprises the following steps:

the server acquires a safety power threshold corresponding to a user;

the server acquires a time length corresponding to the fact that the real-time power exceeds a safe power threshold value within a first preset time length in the past, and marks the time length as an overrun time length;

the server judges whether the time-out-of-limit time is longer than a second preset time, wherein the second preset time is shorter than the first preset time;

if yes, the server generates first alarm information and sends the first alarm information to the management terminal for displaying, wherein the first alarm information comprises a user number of a user with the time exceeding the limit time length being larger than the second preset time length.

Preferably, the user terminal further comprises a circuit breaker electrically connected with the comprehensive energy controller; the circuit breaker is arranged on a user cable to be connected to the user cable to control the connection and disconnection of the user cable to be connected to the user cable; the server generates first alarm information and sends the first alarm information to the management terminal for display, and then the method further comprises the following steps:

the server judges whether the time-out-of-limit time is equal to the first preset time;

if so, the server marks the user with the time length exceeding the limit time length equal to a first preset time length as a first target user;

the server generates temporary trip information and a trip instruction, sends the trip instruction to the comprehensive energy controller corresponding to the first target user and sends the trip information to the management terminal;

the comprehensive energy controller controls the breaker to be disconnected based on the tripping instruction;

and the management terminal displays the trip information, wherein the trip information comprises a user number corresponding to a first target user.

Preferably, the method further comprises the following steps:

the server obtains the power consumption of the user in each third preset time in the past based on the power consumption data, and marks the power consumption as the power consumption to be analyzed;

the server judges whether the ratio of the 2 adjacent electricity consumptions to be analyzed falls into a normal ratio interval or not;

if not, the server marks the adjacent 2 users, of which the power consumption ratio to be analyzed does not fall into a normal ratio interval, as second target users;

and the server generates electricity utilization abnormal information and sends the electricity utilization abnormal information to the management terminal, wherein the electricity utilization abnormal information comprises a user number corresponding to a second target user.

Preferably, the user terminal further comprises an air pressure sensor arranged on the gas pipeline; the air pressure sensor is in communication connection with the comprehensive energy controller; the gas consumption data also comprises a real-time gas pressure value; the method further comprises the following steps:

the server acquires a safe air pressure interval corresponding to a user;

the server judges whether the real-time air pressure value falls into the corresponding safe air pressure interval or not;

if not, the server marks the user of which the real-time air pressure value does not fall into the corresponding safe air pressure interval as a third target user;

and the server generates air pressure abnormal information and sends the air pressure abnormal information to the management terminal, wherein the air pressure abnormal information comprises a user number corresponding to a third target user.

Preferably, the method further comprises the following steps:

the server judges whether the real-time water flow is greater than 0 within the fourth preset time in the past;

if yes, the server marks the users with the real-time water flow larger than 0 in the fourth preset time period in the past as fourth target users;

and the server generates second alarm information and sends the second alarm information to the management terminal for displaying, wherein the second alarm information comprises a user number corresponding to the fourth target user.

Preferably, the system also comprises an electromagnetic valve arranged at the user water inlet pipe; the comprehensive energy controller is used for controlling the on-off of the electromagnetic valve; the server generates second alarm information and sends the second alarm information to the management terminal for display, and then the method further comprises the following steps:

the server generates a temporary water cut-off instruction and sends the temporary water cut-off instruction to the comprehensive energy controller corresponding to the fourth target user;

and the comprehensive energy controller controls the electromagnetic valve to be closed based on the temporary water cut-off instruction.

Preferably, the system further comprises a monitoring terminal in wireless communication connection with the server; the server stores a query password corresponding to the user; the method further comprises the following steps:

the server acquires a second query instruction input through the monitoring terminal, wherein the second query instruction comprises a second query number and an input password;

the server judges whether the inquiry password corresponding to the user corresponding to the second inquiry number is consistent with the input password;

and if so, the server sends the electricity utilization data, the gas utilization data and the gas utilization data of the user corresponding to the second inquiry number to the monitoring terminal for displaying based on the second inquiry instruction.

Preferably, the system further comprises a service terminal in wireless communication connection with the server; the method further comprises the following steps:

the server acquires maintenance work order information input through the monitoring terminal, wherein the maintenance work order information comprises a user number, a maintenance type and a problem brief description, and the maintenance type comprises any one of power utilization maintenance, gas utilization maintenance or water utilization maintenance;

the server distributes the maintenance work order information to the service terminal;

when the service terminal acquires the input work order progress information, the work order progress information is sent to the server;

and the server sends the work order progress information to the user terminal.

The invention also provides an integrated energy operation and maintenance management system which is applied to the integrated energy operation and maintenance management method; the system comprises a server, a management terminal and a user terminal; the user terminals are respectively arranged at each user; the user terminal comprises a comprehensive energy controller, and an intelligent electric meter, an intelligent water meter and an intelligent gas meter which are in communication connection with the comprehensive energy controller; the comprehensive energy controller and the management terminal are in communication connection with the server; each user is correspondingly provided with a unique user number.

Through above-mentioned technical scheme, can realize following beneficial effect:

the comprehensive energy operation and maintenance management method provided by the invention can effectively share the information data of each energy type in the park, thereby realizing interconnection and intercommunication and unified management of each energy object in the park; specifically, water use data, electricity use data and gas use data of a user are obtained through the comprehensive energy controller; the data are packaged and sent to a server for storage, then managers can input a first query instruction through a management terminal to query the electric energy, gas and water energy use conditions of any user, and the energy use conditions of different types do not need to be queried by using respective independent energy management systems; namely, the method establishes a unified energy management system, can greatly improve the energy management efficiency of the park and simultaneously reduces the operation complexity of users.

Drawings

In order to more clearly illustrate the embodiments or technical solutions of the present invention, the drawings used in the embodiments or technical solutions of the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a flowchart illustrating a first embodiment of an integrated energy operation and maintenance management method according to the present invention.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention provides a comprehensive energy operation and maintenance management method and system.

As shown in fig. 1, in an embodiment of the integrated energy operation and maintenance management method provided by the present invention, the integrated energy operation and maintenance management method is applied to an integrated energy operation and maintenance management system; the system comprises a server, a management terminal (the management terminal is arranged in a management department of a park) and a user terminal; the user terminals are respectively arranged at each user; the user terminal comprises a comprehensive energy controller, and an intelligent electric meter, an intelligent water meter and an intelligent gas meter which are in communication connection with the comprehensive energy controller; the comprehensive energy controller and the management terminal are in communication connection with the server; each user is correspondingly provided with a unique user number; the embodiment comprises the following steps:

step S110: the comprehensive energy controller is through smart electric meter acquires user's power consumption data in real time, and passes through smart water gauge acquires user's water consumption data in real time, and passes through smart gas meter acquires user's gas consumption data in real time, wherein, the power consumption data includes real-time power, real-time current and real-time voltage, the water consumption data includes real-time discharge, the gas consumption data includes real-time gas flow.

Step S120: and the comprehensive energy controller packs and sends the power consumption data, the water consumption data, the gas consumption data and the user number of the user to the server.

Step S130: the server acquires a first query instruction input through a management terminal, wherein the first query instruction comprises a first query number.

Specifically, the administrator may input a first query instruction through the management terminal to query the energy usage of any user, where the first query number is the user number of the user who wants to query.

Step S140: and the server sends the electricity utilization data, the gas utilization data and the gas utilization data of the user corresponding to the first query number to the management terminal for displaying based on the first query instruction.

The comprehensive energy operation and maintenance management method provided by the invention can effectively share the information data of each energy type in the park, thereby realizing interconnection and intercommunication and unified management of each energy object in the park; specifically, water use data, electricity use data and gas use data of a user are obtained through the comprehensive energy controller; the data are packaged and sent to a server for storage, then managers can input a first query instruction through a management terminal to query the electric energy, gas and water energy use conditions of any user, and different types of energy use conditions do not need to be queried by using independent energy management systems; namely, the method establishes a unified energy management system, can greatly improve the energy management efficiency of the park and simultaneously reduces the operation complexity of users.

In a second embodiment of the comprehensive energy operation and maintenance management method provided by the present invention, based on the first embodiment, the present embodiment further includes the following steps:

step S210: the server obtains a safety power threshold (e.g. 10 kW) corresponding to the user.

Specifically, different users have different safety power thresholds due to different scales and industry types, and the safety power thresholds can be set by the users and stored in the server.

Step S220: the server acquires the time length corresponding to the fact that the real-time power exceeds the safe power threshold value within the first preset time length (1 hour) in the past, and marks the time length as the time length exceeding the limit.

Specifically, the duration that the power of the user exceeds the safety power threshold within the last 1 hour is obtained.

Step S230: the server judges whether the time-out-of-limit is greater than a second preset time (0.5 hour), wherein the second preset time is less than the first preset time.

Specifically, if yes, it indicates that the time length of the user exceeding the limit is greater than 0.5 hour in the past 1 hour, which indicates that the user has an abnormal exceeding of the power consumption, and may be a short circuit caused by a leakage point of the electrical appliance.

If yes, go to step S240: the server generates first alarm information and sends the first alarm information to the management terminal for displaying, wherein the first alarm information comprises a user number of a user with the time exceeding the limit time length being greater than the second preset time length.

Specifically, if yes, first alarm information is generated, and then a manager is reminded that the power utilization abnormity and the overrun of the user occur.

In a third embodiment of the method for managing operation and maintenance of integrated energy provided by the present invention, based on the second embodiment, the user terminal further includes a circuit breaker electrically connected to the integrated energy controller; the circuit breaker is arranged on a user cable to control the on-off of the user cable to the home; step S240, the following steps are also included thereafter:

step S310: and the server judges whether the time-out limit is equal to the first preset time.

If yes, go to step S320: and the server marks the user with the time exceeding the limit time length equal to a first preset time length as a first target user.

Step S330: and the server generates temporary trip information and a trip instruction, sends the trip instruction to the comprehensive energy controller corresponding to the first target user and sends the trip information to the management terminal.

Step S340: and the comprehensive energy controller controls the breaker to be opened based on the tripping instruction.

Step S350: and the management terminal displays the trip information, wherein the trip information comprises a user number corresponding to a first target user.

Specifically, if the time length of the overrun time length is equal to the first preset time length, it is indicated that the power consumption power of the user is abnormal and the overrun phenomenon is still continuous, namely, the electric leakage short circuit phenomenon is still in the middle of the process, in order to ensure the power consumption safety of the user, the power supply of the user needs to be cut off in time, and the power supply is performed after the leakage point short circuit phenomenon is checked and solved.

In a fourth embodiment of the integrated energy operation and maintenance management method provided by the present invention, based on the first embodiment, the present embodiment further includes the following steps:

step S410: and the server obtains the electricity consumption of the user in each third preset time (for example, 1 week) in the past based on the electricity consumption data, and marks the electricity consumption as the electricity consumption to be analyzed.

Step S420: the server judges whether the ratio of the adjacent 2 power consumption amounts to be analyzed falls into a normal ratio interval (for example, 0.7-1.3).

If not, go to step S430: and the server marks 2 adjacent users, of which the ratio of the power consumption to be analyzed does not fall into a normal ratio interval, as second target users.

Specifically, if the ratio of 2 adjacent electricity consumptions to be analyzed does not fall into the normal ratio interval, it indicates that the electricity consumption of the user suddenly rises or falls, which is an abnormal electricity consumption condition, and a manager needs to be reminded in time.

Step S440: and the server generates electricity utilization abnormal information and sends the electricity utilization abnormal information to the management terminal, wherein the electricity utilization abnormal information comprises a user number corresponding to a second target user.

In a fifth embodiment of the comprehensive energy operation and maintenance management method provided by the invention, based on the first embodiment, the user terminal further comprises an air pressure sensor arranged on the gas pipeline; the air pressure sensor is in communication connection with the comprehensive energy controller; the gas consumption data also comprises a real-time gas pressure value; the embodiment further comprises the following steps:

step S510: and the server acquires a safe air pressure interval corresponding to the user.

Specifically, the safe air pressure interval is an air pressure fluctuation range interval in the gas pipeline when the user normally uses the gas.

Step S520: and the server judges whether the real-time air pressure value falls into the corresponding safe air pressure interval or not.

If not, go to step S530: and the server marks the user of which the real-time air pressure value does not fall into the corresponding safe air pressure interval as a third target user.

Step S540: and the server generates air pressure abnormal information and sends the air pressure abnormal information to the management terminal, wherein the air pressure abnormal information comprises a user number corresponding to a third target user.

Specifically, if the real-time air pressure value does not fall into the corresponding safe air pressure interval, it is indicated that the gas pipeline of the user may leak, so that abnormal air pressure information needs to be generated and sent to the management terminal for displaying, and a manager is reminded of maintenance and troubleshooting.

In a sixth embodiment of the integrated energy operation and maintenance management method provided by the present invention, based on the first embodiment, the present embodiment further includes the following steps:

step S610: and the server judges whether the real-time water flow is greater than 0 in the fourth preset time (24 hours) in the past.

If yes, go to step S620: and the server marks the users with the real-time water flow larger than 0 in the fourth preset time period in the past as fourth target users.

Specifically, in the normal water using process, the user does not start the faucet for 24 hours continuously, that is, the user should have a time when the real-time water flow is equal to 0 within the last 24 hours, and if the real-time water flow of the user is greater than 0 within the fourth preset time period, it indicates that the user has an abnormal water leakage condition, and needs to give an alarm and perform troubleshooting and maintenance.

Step S630: and the server generates second alarm information and sends the second alarm information to the management terminal for displaying, wherein the second alarm information comprises a user number corresponding to the fourth target user.

In a seventh embodiment of the comprehensive energy operation and maintenance management method provided by the invention, based on the sixth embodiment, the system further comprises an electromagnetic valve arranged at a user water inlet pipe; the comprehensive energy controller is used for controlling the on-off of the electromagnetic valve; step S630, the following steps are also included thereafter:

step S710: and the server generates a temporary water cut-off instruction and sends the temporary water cut-off instruction to the comprehensive energy controller corresponding to the fourth target user.

Step S720: and the comprehensive energy controller controls the electromagnetic valve to be closed based on the temporary water cut-off instruction.

Specifically, if the real-time water flow of the user is greater than 0 within the fourth preset time period in the past, it is indicated that the user has an abnormal water leakage condition, and in order to reduce the waste of water resources, the electromagnetic valve needs to be controlled to be closed to temporarily stop water until the maintenance is completed.

In an eighth embodiment of the integrated energy operation and maintenance management method provided by the present invention, based on the first embodiment, the system further includes a monitoring terminal in wireless communication connection with the server (where the monitoring terminal is carried by a proprietor at any time, for example, a smart phone downloading monitoring software); the server stores a query password corresponding to the user (the query password is notified to the owner by a manager); this embodiment further comprises the steps of:

step S810: the server acquires a second query instruction input through the monitoring terminal, wherein the second query instruction comprises a second query number and an input password.

Step S820: and the server judges whether the inquiry password corresponding to the user corresponding to the second inquiry number is consistent with the input password.

Specifically, only when the input password input by the user is consistent with the query password corresponding to the user, the second query instruction of the user can be responded, so that the data security is protected.

If yes, go to step S830: and the server sends the electricity utilization data, the gas utilization data and the gas utilization data of the user corresponding to the second inquiry number to the monitoring terminal for displaying based on the second inquiry instruction.

In a ninth embodiment of the comprehensive energy operation and maintenance management method provided by the present invention, based on the eighth embodiment, the system further includes a service terminal in wireless communication connection with the server (where the service terminal is carried by a maintenance worker at any time); the embodiment further comprises the following steps:

step S910: the server acquires maintenance work order information input through the monitoring terminal, wherein the maintenance work order information comprises a user number, a maintenance type and a problem brief description, and the maintenance type comprises any one of power utilization maintenance, gas utilization maintenance or water utilization maintenance.

Step S920: and the server distributes the repair work order information to the service terminal.

Step S930: and when the service terminal acquires the input work order progress information, sending the work order progress information to the server.

Step S940: and the server sends the work order progress information to the user terminal.

The embodiment provides that the user sends maintenance work order information through monitor terminal, and the server distributes maintenance work order information to the service terminal automatically, dispatches to maintenance personal promptly to promote maintenance efficiency.

In a tenth embodiment of the comprehensive energy operation and maintenance management method provided by the present invention, based on the ninth embodiment, the number of the service terminals is multiple; step S920 includes the following steps:

step S1010: and the server marks the maintenance work order information received by the service terminal as the in-progress work order information.

Step S1020: and the server marks the maintenance work order information which is not allocated to the service terminal as the work order information to be allocated.

Step S1030: and the server acquires the maintenance type in the work order information to be distributed and marks the maintenance type as the type to be distributed.

Step S1040: and the server marks the service terminal corresponding to the on-going work order information which does not contain the type to be distributed as a target terminal.

Step 1050: and the server sends the work order information to be distributed to the target terminal.

Specifically, for example, when the type to be allocated is power consumption maintenance, the server marks the service terminal corresponding to the ongoing work order information which does not contain power consumption maintenance as a target terminal, and sends the work order information to be allocated to the target terminal, so that the work order information to be allocated can be preferentially allocated to maintenance personnel who do not contain maintenance tasks of the same maintenance type, and maintenance efficiency is improved.

The invention also provides an integrated energy operation and maintenance management system which is applied to the integrated energy operation and maintenance management method; the system comprises a server, a management terminal and a user terminal; the user terminals are respectively arranged at all users; the user terminal comprises a comprehensive energy controller, and an intelligent electric meter, an intelligent water meter and an intelligent gas meter which are in communication connection with the comprehensive energy controller; the comprehensive energy controller and the management terminal are in communication connection with the server; each user is correspondingly provided with a unique user number.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the description of the foregoing embodiments, it is clear to those skilled in the art that the method of the foregoing embodiments may be implemented by software plus a necessary general hardware platform, and certainly may also be implemented by hardware, but in many cases, the former is a better implementation. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, wherein the software product is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk), and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

While the present invention has been described with reference to the particular illustrative embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but is intended to cover various modifications, equivalent arrangements, and equivalents thereof, which may be made by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A comprehensive energy operation and maintenance management method is characterized by being applied to a comprehensive energy operation and maintenance management system; the system comprises a server, a management terminal and a user terminal; the user terminals are respectively arranged at each user; the user terminal comprises a comprehensive energy controller, and an intelligent electric meter, an intelligent water meter and an intelligent gas meter which are in communication connection with the comprehensive energy controller; the comprehensive energy controller and the management terminal are in communication connection with the server; each user is correspondingly provided with a unique user number; the method comprises the following steps:

the comprehensive energy controller acquires power consumption data of a user in real time through the intelligent electric meter, acquires water consumption data of the user in real time through the intelligent water meter, and acquires gas consumption data of the user in real time through the intelligent gas meter, wherein the power consumption data comprise real-time power, real-time current and real-time voltage, the water consumption data comprise real-time water flow, and the gas consumption data comprise real-time gas flow;

the comprehensive energy controller packs and sends the electricity utilization data, the water utilization data and the gas utilization data of the user and the user number of the user to the server;

the server acquires a first query instruction input through a management terminal, wherein the first query instruction comprises a first query number;

and the server sends the electricity utilization data, the gas utilization data and the gas utilization data of the user corresponding to the first inquiry number to the management terminal for displaying based on the first inquiry instruction.

2. The integrated energy operation and maintenance management method according to claim 1, further comprising:

the server acquires a safety power threshold corresponding to a user;

the server acquires a time length corresponding to the fact that the real-time power exceeds a safe power threshold value within a first preset time length in the past, and marks the time length as an overrun time length;

the server judges whether the time-out-of-limit time is longer than a second preset time, wherein the second preset time is shorter than the first preset time;

if yes, the server generates first alarm information and sends the first alarm information to the management terminal to be displayed, wherein the first alarm information comprises a user number of a user with the time exceeding the time limit and the time length being larger than the second preset time length.

3. The integrated energy operation and maintenance management method according to claim 2, wherein the user terminal further comprises a circuit breaker electrically connected to the integrated energy controller; the circuit breaker is arranged on a user cable to be connected to the user cable to control the connection and disconnection of the user cable to be connected to the user cable; the server generates first alarm information and sends the first alarm information to the management terminal for display, and then the method further comprises the following steps:

the server judges whether the time-out-of-limit time is equal to the first preset time;

if so, the server marks the user with the time length exceeding the limit time length equal to a first preset time length as a first target user;

the server generates temporary trip information and a trip instruction, sends the trip instruction to the comprehensive energy controller corresponding to the first target user and sends the trip information to the management terminal;

the comprehensive energy controller controls the breaker to be disconnected based on the tripping instruction;

and the management terminal displays the trip information, wherein the trip information comprises a user number corresponding to a first target user.

4. The integrated energy operation and maintenance management method according to claim 1, further comprising:

the server obtains the electricity consumption of the user in each third preset time in the past based on the electricity consumption data, and marks the electricity consumption as electricity consumption to be analyzed;

the server judges whether the ratio of the 2 adjacent electricity consumptions to be analyzed falls into a normal ratio interval or not;

if not, the server marks the adjacent 2 users, of which the power consumption ratio to be analyzed does not fall into a normal ratio interval, as second target users;

and the server generates electricity utilization abnormal information and sends the electricity utilization abnormal information to the management terminal, wherein the electricity utilization abnormal information comprises a user number corresponding to a second target user.

5. The integrated energy operation and maintenance management method according to claim 1, wherein the user terminal further comprises an air pressure sensor arranged in a gas pipeline; the air pressure sensor is in communication connection with the comprehensive energy controller; the gas consumption data also comprises a real-time gas pressure value; the method further comprises the following steps:

the server acquires a safe air pressure interval corresponding to a user;

the server judges whether the real-time air pressure value falls into the corresponding safe air pressure interval or not;

if not, the server marks the user of which the real-time air pressure value does not fall into the corresponding safe air pressure interval as a third target user;

and the server generates air pressure abnormal information and sends the air pressure abnormal information to the management terminal, wherein the air pressure abnormal information comprises a user number corresponding to a third target user.

6. The integrated energy operation and maintenance management method according to claim 1, further comprising:

the server judges whether the real-time water flow is greater than 0 in a fourth past preset time;

if yes, the server marks the users with the real-time water flow greater than 0 in the fourth preset time period in the past as fourth target users;

and the server generates second alarm information and sends the second alarm information to the management terminal for displaying, wherein the second alarm information comprises a user number corresponding to the fourth target user.

7. The integrated energy operation and maintenance management method according to claim 6, wherein the system further comprises an electromagnetic valve disposed at a water pipe for users to enter the house; the comprehensive energy controller is used for controlling the on-off of the electromagnetic valve; the server generates second alarm information and sends the second alarm information to the management terminal for displaying, and then the method further comprises the following steps:

the server generates a temporary water cut-off instruction and sends the temporary water cut-off instruction to the comprehensive energy controller corresponding to the fourth target user;

and the comprehensive energy controller controls the electromagnetic valve to be closed based on the temporary water stopping instruction.

8. The integrated energy operation and maintenance management method according to claim 1, wherein the system further comprises a monitoring terminal in wireless communication connection with the server; the server stores a query password corresponding to the user; the method further comprises the following steps:

the server acquires a second query instruction input through the monitoring terminal, wherein the second query instruction comprises a second query number and an input password;

the server judges whether the inquiry password corresponding to the user corresponding to the second inquiry number is consistent with the input password;

and if so, the server sends the electricity utilization data, the gas utilization data and the gas utilization data of the user corresponding to the second inquiry number to the monitoring terminal for displaying based on the second inquiry instruction.

9. The integrated energy operation and maintenance management method according to claim 8, wherein the system further comprises a service terminal connected with the server in wireless communication; the method further comprises the following steps:

the server acquires maintenance work order information input through the monitoring terminal, wherein the maintenance work order information comprises a user number, a maintenance type and a problem brief description, and the maintenance type comprises any one of power utilization maintenance, gas utilization maintenance or water utilization maintenance;

the server distributes the maintenance work order information to the service terminal;

when the service terminal acquires the input work order progress information, the work order progress information is sent to the server;

and the server sends the work order progress information to the user terminal.

10. An integrated energy operation and maintenance management system, which is applied to the integrated energy operation and maintenance management method according to any one of claims 1-9; the system comprises a server, a management terminal and a user terminal; the user terminals are respectively arranged at each user; the user terminal comprises a comprehensive energy controller, and an intelligent electric meter, an intelligent water meter and an intelligent gas meter which are all in communication connection with the comprehensive energy controller; the comprehensive energy controller and the management terminal are in communication connection with the server; each user is correspondingly provided with a unique user number.

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