CN112488881A - Intelligent old-age building energy efficiency supervision method and system - Google Patents

Abstract

The method comprises the steps of acquiring energy consumption data of electricity and water in the endowment building in real time, wherein the energy consumption data comprise classified detailed energy consumption data of a lighting system, an elevator system, a power transformation and distribution system, integral fire-fighting water and sanitary clean water; counting the energy consumption of each classified item according to the monthly degrees, and summing the energy consumption according to the categories of electricity and water to obtain monthly energy consumption data of the electricity and the water in the endowment building; and automatically charging the electricity fee and the water fee of the endowment building according to the pre-stored electricity fee charging standard and the water fee charging standard and by combining the acquired monthly energy consumption data of electricity and water. The problem of current intelligent endowment building energy efficiency supervision's energy consumption data incomplete, unable complete description building with energy characteristics is unfavorable for endowment building energy efficiency supervision is solved, this application has the effect that improves the energy consumption data comprehensiveness of intelligent endowment building energy efficiency supervision.

Description

Intelligent old-age building energy efficiency supervision method and system

Technical Field

The application relates to the technical field of building operation and maintenance, in particular to an intelligent old-age building energy efficiency supervision method and system.

Background

The building energy efficiency management is a complex system project, relates to various links such as planning, designing, constructing, debugging, operating and maintaining of a building, and relates to various building materials, parts, products and equipment in each implementation link. The energy-saving monitoring system has the advantages that the energy efficiency of the building is improved, the energy saving of the building is realized, the energy-saving supervision of the whole process of links such as planning, design, construction, completion and use of the building is enhanced, and therefore a series of energy-saving materials, products and equipment meeting the quality requirements are optimally integrated and combined. Building energy efficiency is the result of the combined energy-saving effect of the building envelope and the energy-saving effect of the equipment system.

At present, building energy efficiency supervision applied to an old age care home is in a primary stage, energy consumption data are generally counted by manually auditing energy cost documents such as electricity and water, real-time dynamic energy consumption information is lacked, the total amount can only be counted, classification details are lacked, the use of the classification details cannot be known, and therefore energy consumption data are incomplete, the use characteristics of the building cannot be completely described, and energy efficiency supervision of the old age care building is not facilitated.

For the related technologies, the applicant considers that the defects that the energy consumption data of the existing intelligent old-age maintaining building energy efficiency supervision is not comprehensive, the energy consumption characteristics of the building cannot be completely described, and the existing intelligent old-age maintaining building energy efficiency supervision is not beneficial to the old-age maintaining building energy efficiency supervision exist.

Disclosure of Invention

In order to improve comprehensiveness of energy consumption data for energy efficiency supervision of the intelligent old-age maintaining building, the application provides an energy efficiency supervision method and system of the intelligent old-age maintaining building.

The intelligent old-age building energy efficiency supervision method has the advantage of improving comprehensiveness of energy consumption data of intelligent old-age building energy efficiency supervision.

The above object of the present application is achieved by the following technical solutions:

an intelligent energy efficiency supervision method for an aged building comprises the following steps,

acquiring energy consumption data of electricity and water in the old-age building in real time, wherein the energy consumption data comprises classified detailed energy consumption data of a lighting system, an elevator system, a power transformation and distribution system, the whole fire-fighting water and sanitary clean water;

counting the energy consumption of each classified item according to the monthly degrees, and summing the energy consumption according to the categories of electricity and water to obtain monthly energy consumption data of the electricity and the water in the endowment building;

and automatically charging the electricity fee and the water fee of the endowment building according to the pre-stored electricity fee charging standard and the water fee charging standard and by combining the acquired monthly energy consumption data of electricity and water.

By adopting the technical scheme, the energy consumption data of electricity and water in the old-age maintaining building is obtained in real time, and the energy consumption data is subdivided into the classification items so as to obtain the energy consumption of each classification item in real time and comprehensively obtain the dynamic energy consumption information in the old-age maintaining building; and the obtained energy consumption data is counted and summed to obtain monthly energy consumption data of electricity and water in the endowment building, and the electricity fee and the water fee of the endowment building are automatically calculated by combining with a pre-stored electricity fee pricing standard and water fee pricing standard so as to comprehensively reflect the energy utilization characteristics of the building by means of the energy consumption data, the electricity fee and the water fee, so that the comprehensiveness of energy consumption data supervision of the energy efficiency of the intelligent endowment building is improved, and the energy efficiency supervision of the endowment building is facilitated.

The present application may be further configured in a preferred example to: after energy consumption data of electricity and water in the endowment building are obtained in real time, an adaptive energy consumption rule is obtained according to an energy consumption rule list of the endowment building;

and comparing the obtained energy consumption rule with a pre-stored energy-saving scheme matched with the energy consumption rule to obtain a corresponding energy-saving scheme, and controlling the operation of the electric equipment and the water equipment in the endowment building.

By adopting the technical scheme, the energy consumption data of electricity and water in the old-age building is matched with the energy consumption rule list so as to obtain the energy consumption rule; and then, the energy-saving scheme corresponding to the law matching is used to control the operation of the electric equipment and the water equipment in the old-age maintaining building, so that the energy consumption in the old-age maintaining building is more energy-saving and environment-friendly.

The present application may be further configured in a preferred example to: the energy consumption rule list of the endowment building is obtained by automatically learning energy consumption data in the endowment building and summarizing the energy consumption rule of the endowment building.

Through adopting above-mentioned technical scheme, the energy consumption data in the building of automatic learning endowment sums up the energy consumption law of endowment building to obtain the energy consumption law list of endowment building, simple operation, intelligent degree height.

The present application may be further configured in a preferred example to: classifying and inputting energy consumption data of electricity and water in the old-age building and a corresponding energy-saving scheme to form basic learning data;

training and learning the basic learning data, summarizing and summarizing the basic learning data, and learning the electricity and water energy consumption rule and the corresponding energy-saving scheme in the endowment building to form an energy consumption rule list of the endowment building.

By adopting the technical scheme, data materials are classified and recorded and stored by virtue of manpower, and basic learning materials for automatic learning are formed; training and learning are carried out based on the basic learning data, the basic learning data are summarized and summarized, the energy consumption rule list of the endowment building is learned, and the purpose of intelligent learning is achieved.

The present application may be further configured in a preferred example to: the method also comprises the steps of detecting the quality and the upper limit value of the electric energy in the old-age building in real time;

and when the quality of the electric energy does not meet the requirement or the energy consumption exceeds the upper limit value of the electric energy, alarming and reminding are carried out.

By adopting the technical scheme, the condition that the electric energy quality is not satisfactory or the energy consumption exceeds the electric energy upper limit value is alarmed and reminded, the condition that the electric equipment in the old-age building possibly has faults is mastered in time, and corresponding measures are taken in time for overhauling and maintaining.

The present application may be further configured in a preferred example to: the method also comprises the steps of detecting the water quality and the water upper limit value in the old-age building in real time;

and when the water quality does not meet the requirement or the energy consumption exceeds the water use upper limit value, alarming and reminding are carried out.

By adopting the technical scheme, the condition that the water quality is not in accordance with the requirement or the energy consumption exceeds the water use upper limit value is alarmed and reminded, the condition that the water use equipment in the old-age maintaining building possibly has faults is mastered in time, and corresponding measures are taken in time for overhauling and maintaining.

The present application may be further configured in a preferred example to: after energy consumption data, electric energy quality, an electric energy upper limit value, water use quality and a water use upper limit value of electricity and water in the old-age building are obtained, position information corresponding to each electric device and each water device one to one is also obtained;

when alarming reminding is carried out, the position information of the electric equipment or the water equipment triggering alarming is marked.

By adopting the technical scheme, the position information of the electric equipment or the water equipment triggering the alarm is recorded, so that a manager can conveniently acquire the position information of the electric equipment or the water equipment with faults in time, and the maintenance is facilitated.

The present application may be further configured in a preferred example to: and sequencing the electric equipment or the water equipment marked with the position information in a list form according to the alarm time, wherein the items of the list comprise the alarm time, the equipment name, the energy consumption data, the alarm reason and the position information.

By adopting the technical scheme, the electric equipment or the water equipment marked with the position information is sorted in a list form according to the alarm time so as to visually display the information of the electric equipment or the water equipment with possible faults, and related personnel can conveniently know the conditions in time and take corresponding measures to overhaul.

The present application may be further configured in a preferred example to: when the equipment names of the lighting system, the elevator system or the whole fire-fighting water appear in the list, the equipment names are placed in top sorting.

By adopting the technical scheme, the lighting system, the elevator system or the whole fire-fighting water belongs to important components in the endowment building, is closely related to the use safety of the endowment building, is placed in a column with the equipment names of the lighting system, the elevator system or the whole fire-fighting water in a top list, plays a role of remarkably reminding related personnel, and is beneficial to the maintenance and recovery of the lighting system, the elevator system or the whole fire-fighting water equipment with faults as soon as possible.

The second purpose of the application is to provide an intelligent endowment building energy efficiency supervision system which has the characteristic of improving the comprehensiveness of energy consumption data of intelligent endowment building energy efficiency supervision.

The second application object of the present application is achieved by the following technical scheme:

the intelligent old-age building energy efficiency supervision system based on the intelligent old-age building energy efficiency supervision method comprises the following steps,

the data acquisition module is used for acquiring energy consumption data, electric energy quality, electric energy upper limit value, water use quality, water use upper limit value and position information of each electric device and each water device in the old-age building in real time;

the data processing module is connected with the data acquisition module and used for counting the energy consumption of each classified item according to the monthly degrees and summing the energy consumption according to the types of electricity and water to obtain monthly-degree energy consumption data of the electricity and the water in the old-aged building;

the pricing module is connected with the data processing module and used for charging the electricity fee and the water fee of the endowment building;

the energy-saving control module is connected with the data processing module and used for matching an energy-saving scheme and controlling the operation of electric equipment and water-using equipment;

the alarm module is connected with the data processing module and used for carrying out alarm reminding and marking the position information of the electric equipment or the water equipment when the electric energy quality and the water quality do not meet the requirements or the energy consumption exceeds the electric energy upper limit value and the water utilization upper limit value;

and the fault list module is connected with the data processing module and used for sorting the electric equipment or the water equipment marked with the position information in a list form according to the alarm time and putting a column containing the names of the equipment of the lighting system, the elevator system or the whole fire-fighting water on top for sorting.

By adopting the technical scheme, the data acquisition module, the data processing module, the pricing module, the energy-saving control module, the alarm module and the fault list module achieve the purpose of comprehensively acquiring dynamic energy consumption information in the endowment building, the energy consumption characteristics of the building are comprehensively reflected by means of energy consumption data, electricity charges and water charges, the comprehensiveness of energy consumption data for energy efficiency supervision of the intelligent endowment building is improved, and the energy efficiency supervision of the endowment building is facilitated; meanwhile, the energy consumption in the old-age building is more energy-saving and environment-friendly; and the condition that water equipment in the old-age building possibly has faults can be mastered in time so as to carry out overhaul and maintenance.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the energy utilization characteristics of the building are comprehensively reflected by means of the classified detailed energy consumption data, the electricity charges and the water charges, the comprehensiveness of the energy efficiency supervision energy consumption data of the intelligent endowment building is improved, and the energy efficiency supervision of the endowment building is facilitated;

2. according to the learned energy consumption law of the endowment building, the corresponding energy-saving scheme is matched to control the operation of electric equipment and water equipment in the endowment building, so that the energy consumption in the endowment building is more energy-saving and environment-friendly;

3. the method comprises the steps of alarming and reminding the situations that the quality of electric energy and the quality of water use are not in accordance with requirements or the energy consumption exceeds the upper limit value of the electric energy and the upper limit value of the water use, recording position information of electric equipment or water use equipment, intelligently sequencing the electric equipment or the water use equipment in a list form, timely mastering the situations of the electric equipment or the water use equipment with possible faults, and carrying out overhauling and maintenance.

Drawings

Fig. 1 is a flow chart of an energy efficiency supervision method for an intelligent endowment building according to an embodiment of the present application.

FIG. 2 is a flow chart illustrating an embodiment of the present application for automatically learning a list of energy usage rules for an endowment building.

Fig. 3 is a block diagram of an embodiment of the energy efficiency monitoring system for an intelligent endowment building.

Detailed Description

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all 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 application.

In addition, the term "and/or" herein is only one kind of association relationship describing an associated object, and means that there may be three kinds of relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship, unless otherwise specified.

The embodiments of the present application will be described in further detail with reference to the drawings attached hereto.

Referring to fig. 1, the embodiment of the application provides an intelligent old-age building energy efficiency supervision method, and the main steps of the method are described as follows.

The energy consumption data of electricity and water in the old-age maintaining building are obtained in real time, wherein the energy consumption data comprise classified detailed items of an illumination system, an elevator system, a power transformation and distribution system, the whole fire-fighting water and sanitary clean water, so that the energy consumption of each classified detailed item is obtained in real time, and the dynamic energy consumption information in the old-age maintaining building is comprehensively obtained.

And (4) counting the energy consumption of each classified item according to the monthly degree, wherein the energy consumption comprises the electric energy of a lighting system, the electric energy of an elevator system, the electric energy of a power transformation and distribution system, the whole fire-fighting water consumption and the sanitary water consumption, and summing the electric energy and the water according to the category of the electric energy and the water to obtain monthly degree energy consumption data of the electric energy and the water in the old-aged buildings so as to serve as a pricing data base.

According to the pre-stored electricity fee pricing standard and water fee pricing standard, the acquired monthly energy consumption data of electricity and water are combined, the electricity fee and the water fee of the endowment building are automatically charged, so that the energy consumption characteristics of the endowment building are comprehensively reflected by means of the energy consumption data, the electricity fee and the water fee, the comprehensiveness of the energy consumption data for the energy efficiency supervision of the intelligent endowment building is improved, and the energy efficiency supervision of the endowment building is facilitated.

Specifically, the electricity charge pricing standard = a first gear electricity charge + a second gear electricity charge + a third gear electricity charge;

wherein, the first gear electricity charge = electricity quantity within the first gear standard and the first gear electricity price;

second gear electricity rate = amount of electricity exceeding and within the first gear criterion (first gear electricity rate +0.05 yuan/degree);

third gear electricity rate = amount of electricity exceeding second gear standard (first gear electricity rate +0.3 yuan/degree).

The specific electric quantity grade range and the first grade electricity price are executed according to the electricity price execution standard of the residents of the local city.

The water fee pricing criterion = first stage water price × first stage water quantity base + second stage water price × second stage water quantity base + third stage water price × third stage water quantity base.

The specific water quantity base number range and the first-stage water price are executed according to the water price execution standard of the user residents in the local city.

Furthermore, after energy consumption data of electricity and water in the endowment building are obtained in real time, corresponding energy consumption rules are automatically summarized according to the energy consumption rule list of the endowment building and by combining the monthly energy consumption data of the electricity and water and the energy consumption of each classified item in the endowment building. And then comparing the obtained energy consumption law with an energy-saving scheme matched with the energy consumption law prestored in the energy consumption law list of the endowment building to obtain a corresponding energy-saving scheme matched with the energy consumption law, and controlling the operation of electric equipment and water equipment in the endowment building, so that the energy consumption in the endowment building is more energy-saving and green and environment-friendly.

The energy consumption rule list of the endowment building is obtained by summarizing and summarizing the energy consumption rule of the endowment building through automatically learning energy consumption data in the endowment building.

Specifically, referring to fig. 2, the energy consumption data of electricity and water in the endowment building and the energy-saving scheme corresponding to the energy consumption data are manually classified and input by virtue of manpower, and basic learning data are formed.

For example, the classification details related to the energy consumption in the old-aged buildings, such as the elevator system electric energy and the line graph formed according to the monitored real-time energy consumption data, the lighting system electric energy and the line graph formed according to the monitored real-time energy consumption data, the air conditioner energy consumption and the line graph formed according to the monitored real-time energy consumption data, the ventilation system energy consumption and the line graph formed according to the monitored real-time energy consumption data, the transformation and distribution system electric energy and the line graph formed according to the monitored real-time energy consumption data, the elevator system electric energy and the line graph formed according to the monitored real-time energy consumption data, the overall fire fighting water consumption and the line graph formed according to the monitored real-time energy consumption data, the sanitation water consumption and the line graph formed according to the monitored real-time energy consumption data, and the corresponding energy saving schemes are recorded and.

Training and learning the basic learning data, summarizing and summarizing the basic learning data, and learning the electricity and water energy consumption rule and the corresponding energy-saving scheme in the endowment building to form an energy consumption rule list of the endowment building.

The energy law list of the endowment building comprises the following contents:

the method comprises the steps of obtaining an electricity utilization rule of electricity and water in the old-aged building and a corresponding energy-saving scheme thereof by multiplying various classified items such as an electricity preset range value of an elevator system, an electricity preset range value of a lighting system, an energy consumption preset range value of an air conditioner, an energy consumption preset range value of a ventilation system, an electricity preset range value of a power transformation and distribution system, an electricity preset range value of the elevator system, a preset range value of the whole fire-fighting water consumption, a preset range value of the sanitation and cleaning water consumption and the like by respective corresponding relevant scale factors, and combining the floor area of the building and the corresponding energy-saving scheme.

The energy consumption value and the water consumption value in the endowment building are obtained in real time and are compared with the energy consumption rule list of the endowment building, a corresponding energy-saving scheme is obtained, and the electric equipment and the water equipment in the endowment building are controlled to operate according to preset conditions.

The basic learning data are updated manually and periodically, the data information of the basic learning data is added, training and learning are carried out according to the updated basic learning data, the content of the energy consumption rule list of the endowment building is updated, the energy consumption rules obtained through automatic induction are more accurate, and the actual energy consumption condition is met.

Referring to fig. 1, the intelligent old-age building energy efficiency monitoring method further includes detecting the power quality, the water consumption quality, the power upper limit value and the water consumption upper limit value in the old-age building in real time. The quality of the electric energy comprises the power factor, the harmonic phenomenon and the three unbalance phenomena, the water consumption quality meets the international water reference standard, and the upper limit value of the electric energy and the upper limit value of the water consumption are set by combining the actual daily energy consumption condition of the endowment building.

When the power quality of the electric equipment or the water quality of the water using equipment does not meet the requirement, or the energy consumption of the electric equipment exceeds the upper limit value of the power or the energy consumption of the water using equipment exceeds the upper limit value of the water using equipment, the alarm is automatically given out for reminding, and the sound-light reminding is given out, so that related personnel can be informed to check and take corresponding measures in time.

Furthermore, the electric equipment and the water equipment in the old-age building have a positioning function. The method comprises the steps of acquiring energy consumption data of electricity and water, electric energy quality, an electric energy upper limit value, water use quality and a water use upper limit value in the old-age building, and simultaneously acquiring position information corresponding to each electric device and each water device one to one. When alarming reminding is carried out, the position information of the electric equipment or the water equipment triggering alarming is marked so as to be conveniently checked by related personnel, and the warning is visual and vivid.

The electric equipment or the water equipment marked with the position information is sorted in a list form according to the alarm time, and the items of the list comprise the alarm time, the equipment name, the energy consumption data, the alarm reason and the position information, so that related personnel can conveniently and visually check the content of the list, timely master the conditions of the electric equipment or the water equipment with possible faults, carry out overhaul and maintenance and reduce the workload of the related personnel.

When the names of the lighting systems, the elevator systems or the whole fire-fighting water equipment appear in the list, one column containing the lighting systems, the elevator systems or the whole fire-fighting water equipment is placed on the top and sorted, so that related personnel are reminded as soon as possible, the related personnel are informed to overhaul and maintain the equipment with the top possible fault, and loss is reduced.

Referring to fig. 3, an embodiment of the present application further provides an intelligent endowment building energy efficiency supervision system, which includes a data acquisition module, a data processing module, a pricing module, an energy-saving control module, an alarm module, and a fault list module, where the data processing module is connected to an output end of the data acquisition module, and the pricing module, the energy-saving control module, the alarm module, and the fault list module are connected to an output end of the data processing module.

And the data acquisition module is used for acquiring energy consumption data of electricity and water, the quality of the electricity, the upper limit value of the electricity, the quality of the water consumption, the upper limit value of the water consumption and the position information of each electric device and each water consumption device in the old-age building in real time. In this embodiment, the data acquisition module includes an electric meter with a wireless communication function, an intelligent electric quantity testing module, an electric energy quality analyzer PW3198, a water quality multi-parameter online monitor, a water meter with a wireless communication function, and a positioning module disposed in each electric device or water-using device.

And the data processing module is used for counting the energy consumption of each classified item according to the monthly degrees, summing the energy consumption according to the types of electricity and water, and acquiring monthly energy consumption data of the electricity and the water in the endowment building. In this embodiment, the data processing module may be a database established based on the data acquired by the data acquisition module.

And the pricing module is used for charging the electricity fee and the water fee of the endowment building. In this embodiment, the pricing module may be a program running in a computer for charging electricity and water charges of the endowment building.

And the energy-saving control module is used for matching an energy-saving scheme and controlling the operation of the electric equipment and the water-using equipment. In this embodiment, the energy-saving control module may be model data that is created according to the energy consumption law of the endowment building and runs in a computer, and the model data includes an energy consumption law list of the endowment building. And inputting energy consumption data of electricity and water in the endowment building, which is acquired in real time, into the model data, outputting a corresponding energy-saving scheme by the model data, and controlling the operation of electric equipment and water equipment in the endowment building according to control information of the energy-saving scheme.

Along with the regular updating of the basic learning data, the model data is updated, so that the corresponding energy-saving scheme output by the model data is more consistent with the actual working condition.

And the alarm module is used for carrying out sound-light alarm reminding when the electric energy quality and the water consumption quality are not in accordance with the requirements or the energy consumption exceeds the electric energy upper limit value and the water consumption upper limit value, and marking and displaying the position information of the electric equipment or the water consumption equipment triggering the alarm. In this embodiment, the alarm module may be an audible and visual alarm.

And the fault list module is used for sorting the electric equipment or the water using equipment marked with the position information in a list form according to the alarm time, and arranging and sorting a column containing the names of the equipment of the lighting system, the elevator system or the whole fire-fighting water. The fault list module may be a widget running in a computer. When an alarm condition exists, the fault list module pops up and displays on a screen of the computer in a pop-up window mode.

The implementation principle of the embodiment is as follows: and acquiring energy consumption data of each classified item in the endowment building in real time, classifying, and counting monthly electricity charges and monthly water charges in the building, so that the energy consumption characteristics of the endowment building are comprehensively reflected.

According to the energy consumption data in the endowment building that obtains, automatic study sums up and summarizes the energy consumption law list that obtains endowment building, according to the endowment building energy consumption law of acquireing, matches the energy-conserving scheme that corresponds to power consumption equipment and water consumption equipment's operation in the control endowment building, make the energy consumption in the endowment building more energy-conserving, green.

The method comprises the steps of alarming and reminding the conditions that the quality of electric energy and the quality of water use are not in accordance with requirements or the energy consumption exceeds the upper limit value of the electric energy and the upper limit value of the water use, recording position information of electric equipment or water use equipment, and sequencing the electric equipment or the water use equipment in a list mode in an alarming time mode or a top-mounted sequencing mode, so that related personnel can master the conditions of the electric equipment or the water use equipment with possible faults in time and overhaul and maintain the electric equipment or the water.

And the intelligent old-age building energy efficiency supervision method and system improve the comprehensiveness of energy consumption data of intelligent old-age building energy efficiency supervision, and are favorable for energy efficiency supervision of the old-age building.

Claims (10)

1. The intelligent energy efficiency supervision method for the endowment building is characterized by comprising the following steps,

acquiring energy consumption data of electricity and water in the old-age building in real time, wherein the energy consumption data comprises classified detailed energy consumption data of a lighting system, an elevator system, a power transformation and distribution system, the whole fire-fighting water and sanitary clean water;

counting the energy consumption of each classified item according to the monthly degrees, and summing the energy consumption according to the categories of electricity and water to obtain monthly energy consumption data of the electricity and the water in the endowment building;

and automatically charging the electricity fee and the water fee of the endowment building according to the pre-stored electricity fee charging standard and the water fee charging standard and by combining the acquired monthly energy consumption data of electricity and water.

2. The energy efficiency supervision method for intelligent endowment buildings according to claim 1,

after energy consumption data of electricity and water in the endowment building are obtained in real time, an adaptive energy consumption rule is obtained according to an energy consumption rule list of the endowment building;

and comparing the obtained energy consumption rule with a pre-stored energy-saving scheme matched with the energy consumption rule to obtain a corresponding energy-saving scheme, and controlling the operation of the electric equipment and the water equipment in the endowment building.

3. The intelligent endowment building energy efficiency supervision method according to claim 2, characterized in that the energy utilization rule list of the endowment building is obtained by summarizing and summarizing the energy utilization rules of the endowment building through automatically learning energy consumption data in the endowment building.

4. The intelligent endowment building energy efficiency supervision method according to claim 3, characterized in that energy consumption data of electricity and water in the endowment building and energy saving schemes corresponding to the energy consumption data are classified and input to form basic learning materials;

training and learning the basic learning data, summarizing and summarizing the basic learning data, and learning the electricity and water energy consumption rule and the corresponding energy-saving scheme in the endowment building to form an energy consumption rule list of the endowment building.

5. The energy efficiency supervision method for intelligent endowment buildings according to claim 1,

the method also comprises the steps of detecting the quality and the upper limit value of the electric energy in the old-age building in real time;

and when the quality of the electric energy does not meet the requirement or the energy consumption exceeds the upper limit value of the electric energy, alarming and reminding are carried out.

6. The energy efficiency supervision method for intelligent endowment buildings according to claim 5,

the method also comprises the steps of detecting the water quality and the water upper limit value in the old-age building in real time;

and when the water quality does not meet the requirement or the energy consumption exceeds the water use upper limit value, alarming and reminding are carried out.

7. The energy efficiency supervision method for intelligent endowment buildings according to claim 6,

after energy consumption data, electric energy quality, an electric energy upper limit value, water use quality and a water use upper limit value of electricity and water in the old-age building are obtained, position information corresponding to each electric device and each water device one to one is also obtained;

when alarming reminding is carried out, the position information of the electric equipment or the water equipment triggering alarming is marked.

8. The intelligent energy efficiency monitoring method for the endowment buildings according to claim 7, wherein the electric equipment or the water equipment marked with the position information is sorted in a list form according to the alarm time, and the items of the list comprise the alarm time, the equipment name, the energy consumption data, the alarm reason and the position information.

9. The intelligent aging building energy efficiency supervision method according to claim 8, characterized in that when the equipment names of lighting systems, elevator systems or whole fire-fighting water appear in the list, the top ranking is performed.

10. The intelligent old-age building energy efficiency supervision system is based on the intelligent old-age building energy efficiency supervision method of any one of claims 1 to 9 and is characterized by comprising,

the data acquisition module is used for acquiring energy consumption data, electric energy quality, electric energy upper limit value, water use quality, water use upper limit value and position information of each electric device and each water device in the old-age building in real time;

the data processing module is connected with the data acquisition module and used for counting the energy consumption of each classified item according to the monthly degrees and summing the energy consumption according to the types of electricity and water to obtain monthly-degree energy consumption data of the electricity and the water in the old-aged building;

the pricing module is connected with the data processing module and used for charging the electricity fee and the water fee of the endowment building;

the energy-saving control module is connected with the data processing module and used for matching an energy-saving scheme and controlling the operation of electric equipment and water-using equipment;

the alarm module is connected with the data processing module and used for carrying out alarm reminding and marking the position information of the electric equipment or the water equipment when the electric energy quality and the water quality do not meet the requirements or the energy consumption exceeds the electric energy upper limit value and the water utilization upper limit value;

and the fault list module is connected with the data processing module and used for sorting the electric equipment or the water equipment marked with the position information in a list form according to the alarm time and putting a column containing the names of the equipment of the lighting system, the elevator system or the whole fire-fighting water on top for sorting.

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