CN116643506B

CN116643506B - Energy consumption equipment adjusting method, device, controller and system of intelligent energy system

Info

Publication number: CN116643506B
Application number: CN202310903254.3A
Authority: CN
Inventors: 杨剑斌; 李伟; 吕可当; 高兴旺; 张早军; 郭涛; 杨云峰; 马旭光
Original assignee: Shanxi Zhiheng Huarui Technology Co ltd
Current assignee: Shanxi Zhiheng Huarui Technology Co ltd
Priority date: 2023-07-22
Filing date: 2023-07-22
Publication date: 2023-10-20
Anticipated expiration: 2043-07-22
Also published as: CN116643506A

Abstract

The application relates to the technical field of energy-saving control, in particular to an energy consumption equipment adjusting method, device, controller and system of an intelligent energy system. The method is performed by a controller and includes: receiving a plurality of groups of energy consumption data and a plurality of pieces of current environment information in real time, wherein each group of energy consumption data is transmitted by a corresponding energy consumption data transmitting device, and each piece of current environment information is acquired by controlling a corresponding energy consumption device to start an environment information acquisition module; for each group of energy consumption data, determining whether to adjust the operation mode of the group of energy consumption equipment at the current moment according to the current environment information sent by the group of energy consumption equipment corresponding to the group of energy consumption data; if so, determining the energy consumption equipment to be regulated from the group of energy consumption equipment according to the current environment information and the group of energy consumption data, determining the energy consumption module to be regulated according to the plurality of energy consumption modules of the energy consumption equipment to be regulated, and regulating the operation parameters of the energy consumption module to be regulated. The energy-saving effect is improved.

Description

Energy consumption equipment adjusting method, device, controller and system of intelligent energy system

Technical Field

The application relates to the technical field of energy-saving control, in particular to an energy consumption equipment adjusting method, device, controller and system of an intelligent energy system.

Background

Energy is an important material base and production element for supporting economic growth, and along with the development of social economy, coal, petroleum and other energy sources are gradually deficient, and meanwhile, more and more types of renewable energy sources are utilized. However, renewable energy sources are expensive to develop and utilize, so energy conservation has been the subject of the era, and energy systems for monitoring energy consumption have been developed.

As large as an island, as small as a city, as small as a building, can be associated with an energy system. Current energy systems can predict energy consumption data (energy consumption data) in similar energy consumption scenarios from historical energy consumption data and then provide similar energy conservation schemes. However, the energy consumption scene is changed at any time, and the provided energy saving scheme may not be suitable for the actual energy consumption scene, so that the final energy saving effect is poor.

Disclosure of Invention

The application provides a method, a device, equipment and a medium for adjusting energy consumption equipment of an intelligent energy system, which improve the energy saving effect.

In a first aspect, the present application provides a method for adjusting energy consumption equipment of an intelligent energy system, which is applied to the intelligent energy system; the intelligent energy system comprises a controller, energy consumption data sending equipment and energy consumption equipment, wherein the controller is respectively connected with the plurality of energy consumption data sending equipment, each energy consumption data sending equipment is respectively connected with a group of energy consumption equipment, and the controller is connected with the energy consumption equipment; the energy consumption equipment comprises an environment information acquisition module and a plurality of energy consumption modules; the method is performed by the controller and includes:

receiving a plurality of groups of energy consumption data and a plurality of pieces of current environment information in real time, wherein each group of energy consumption data is transmitted by a corresponding energy consumption data transmitting device, and each piece of current environment information is acquired by controlling a corresponding energy consumption device to start an environment information acquisition module;

for each group of energy consumption data, determining whether to adjust the operation mode of the group of energy consumption equipment at the current moment according to the current environment information sent by the group of energy consumption equipment corresponding to the group of energy consumption data;

if the operation mode of the group of energy consumption equipment is regulated, the energy consumption equipment to be regulated is determined from the group of energy consumption equipment according to the current environment information and the group of energy consumption data, and the energy consumption module to be regulated is determined and the operation parameters of the energy consumption module to be regulated are regulated according to the plurality of energy consumption modules of the energy consumption equipment to be regulated.

By adopting the technical scheme, a plurality of groups of energy consumption data and a plurality of pieces of current environment information can be received in real time. And determining whether to adjust the operation mode of the group of energy consumption devices at the current moment according to the current environment information sent by the group of energy consumption devices corresponding to the group of energy consumption data aiming at each group of energy consumption data. The conclusion of whether to adjust or not can be obtained according to the corresponding analysis of the current energy consumption data and the current environment information, and the method is more in line with the actual environment condition. If the operation mode of the group of energy consumption equipment is regulated, the energy consumption equipment to be regulated can be determined from the group of energy consumption equipment according to the current environment information and the group of energy consumption data, and then the energy consumption module to be regulated is determined and the operation parameters of the energy consumption module to be regulated are regulated. The adjusting process of the energy consumption equipment is real-time and reliable, meanwhile, whether the adjustment is successful or not can be determined according to the analysis of the energy consumption data at the next moment, and the energy saving effect of the energy consumption equipment is improved.

Optionally, for each set of energy consumption data, determining whether to adjust an operation mode of the set of energy consumption devices at the current moment according to the current environmental information sent by the set of energy consumption devices corresponding to the set of energy consumption data includes:

Extracting information characteristics of current environment information sent by a group of energy consumption equipment corresponding to the group of energy consumption data;

comparing the extracted information characteristics with preset information characteristics, and determining whether the current working environment of the group of energy consumption equipment is an abnormal operation environment or not;

if the operation environment is abnormal, adjusting the operation mode of the group of energy consumption equipment at the current moment;

if the environment is a normal running environment, acquiring historical synchronous energy consumption data corresponding to the current moment, analyzing a group of energy consumption data corresponding to the group of energy consumption equipment and the corresponding historical synchronous energy consumption data, and judging whether the group of energy consumption data is abnormal or not;

and if the group of energy consumption data is abnormal, adjusting the running mode of the group of energy consumption equipment at the current moment.

By adopting the technical scheme, the information characteristic extraction is carried out on the current environment information, and whether the current environment information belongs to an abnormal operation environment is determined through the comparison of the information characteristic and the preset information characteristic. If the abnormal operation environment of the operation mode of the group of energy consumption equipment can be directly regulated, if not, further analyzing whether the energy consumption data is abnormal or not, and if so, regulating. The judgment of whether to adjust the running mode of the group of energy consumption equipment is clear and reliable, the actual environment and the historical data are referred, and the result is more reliable.

Optionally, the determining the energy consumption device to be adjusted from the group of energy consumption devices according to the current environmental information and the group of energy consumption data includes:

if the abnormal operation environment is the abnormal operation environment, determining abnormal characteristics according to a comparison result of the extracted information characteristics and preset information characteristics;

acquiring an environment source of the abnormal characteristic, determining corresponding energy consumption equipment according to the environment source, and determining the energy consumption equipment as energy consumption equipment to be regulated;

if the normal operation environment is the normal operation environment but the group of energy consumption data is abnormal, comparing a group of energy consumption data corresponding to the group of energy consumption equipment with corresponding historical synchronous energy consumption data to obtain difference data and energy consumption equipment corresponding to the difference data, and determining the energy consumption equipment with abnormal energy consumption data as equipment to be regulated.

By adopting the technical scheme, the equipment to be regulated is determined by analyzing two conditions of abnormal operation environment, normal operation environment and abnormal energy consumption data. In the case of an abnormal operating environment, abnormal energy consumption equipment can be determined by analyzing the environment source of abnormal characteristics; when the normal operation environment is normal but the energy consumption data is abnormal, abnormal energy consumption equipment can be determined by analyzing the difference data. Different energy consumption equipment analysis modes are used under different energy consumption conditions, so that the determined energy consumption equipment is more accurate and reliable.

Optionally, the determining the energy consumption module to be adjusted according to the plurality of energy consumption modules of the energy consumption device to be adjusted and adjusting the operation parameters of the energy consumption module to be adjusted includes:

if the abnormal operation environment is the abnormal operation environment, analyzing the abnormal characteristics based on the corresponding energy consumption equipment, and determining the corresponding energy consumption mode of the abnormal characteristics;

acquiring an energy consumption module corresponding to the energy consumption mode, and determining the energy consumption module as an energy consumption module to be regulated;

and adjusting the operation parameters of the energy consumption module to be adjusted so as to stop the operation of the energy consumption module to be adjusted.

By adopting the technical scheme, under the abnormal operation environment, the abnormal characteristics are analyzed to determine the corresponding energy consumption mode, and then the energy consumption module with the same energy consumption mode can be used as the energy consumption module to be regulated for regulation. Starting from the energy consumption mode of the energy consumption module, the determined energy consumption module is more accurate.

if the current working environment of the group of energy consumption equipment is a normal operation environment, but the group of energy consumption data is abnormal, the current operation data of the corresponding energy consumption equipment is called;

Analyzing the current operation data, determining an energy consumption module which operates abnormally in the energy consumption equipment, and determining the energy consumption module as an energy consumption module to be regulated;

acquiring the operation attribute of the energy consumption module to be regulated, and determining the associated energy consumption module of the energy consumption module to be regulated according to the operation attribute;

and adjusting the operation parameters of the energy consumption module to be adjusted and the operation parameters of the related energy consumption modules.

By adopting the technical scheme, the energy consumption module to be regulated which operates abnormally is determined by analyzing the current operation data, then the operation parameters of the energy consumption module to be regulated and the operation parameters of the related energy consumption modules are regulated by combining the operation attribute of the energy consumption module to be regulated, the influence of the related energy consumption modules on readjustment after the operation parameters of the energy consumption module to be regulated are prevented from being regulated, and the regulation effect is improved.

Optionally, the energy consumption device comprises a gas stove, and the gas stove comprises a weight sensing module; for each group of energy consumption data, determining whether to adjust the operation mode of the group of energy consumption equipment at the current moment according to the current environment information sent by the group of energy consumption equipment corresponding to the group of energy consumption data comprises the following steps:

Extracting weight data from current environmental information sent by the gas stove, wherein the weight data is generated by sensing by the weight sensing module;

when the weight data is smaller than a preset weight threshold value, adjusting the operation mode of the gas stove at the current moment so as to stop the operation of the gas stove;

when the weight data is greater than or equal to a preset weight threshold value, historical contemporaneous energy consumption data and current operation data corresponding to the current moment are obtained to determine whether the operation mode of the gas stove is adjusted at the current moment.

Through adopting above-mentioned technical scheme, when the energy consumption equipment that appears unusual is the gas-cooker, draw weight data and preset weight threshold value and compare, confirm whether adjust the running mode of gas-cooker according to the comparison result, take the gas-cooker as the example and carry out the analysis for the result of determining whether the gas-cooker is adjusted is more accurate.

Optionally, the method further comprises:

determining energy consumption equipment attributes and application areas of the energy consumption equipment;

and acquiring default environment data of the application area, generating an energy consumption environment acquisition signal corresponding to the energy consumption equipment according to the energy consumption equipment attribute and the default environment data, and sending the energy consumption environment acquisition signal to the corresponding energy consumption equipment so as to control the energy consumption equipment to generate and correspondingly send current environment information.

By adopting the technical scheme, the current environment information of what content the energy consumption equipment needs to acquire is determined through the analysis of the energy consumption equipment attribute and the application area of the energy consumption equipment, so that the analysis result based on the current environment information is more reliable, and the final energy saving effect is further improved.

In a second aspect, the present application provides an energy consumption device adjusting apparatus for an intelligent energy system, which is applied to the intelligent energy system; the intelligent energy system comprises an energy consumption equipment adjusting device, energy consumption data sending equipment and energy consumption equipment of the intelligent energy system, wherein the energy consumption equipment adjusting device of the intelligent energy system is respectively connected with a plurality of energy consumption data sending equipment, each energy consumption data sending equipment is respectively connected with a group of energy consumption equipment, and the energy consumption equipment adjusting device of the intelligent energy system is connected with the energy consumption equipment; the energy consumption equipment comprises an environment information acquisition module and a plurality of energy consumption modules; the energy consumption equipment adjusting method of the intelligent energy system is executed by the energy consumption equipment adjusting device of the intelligent energy system and comprises the following steps:

the energy consumption data and current environment information receiving module is used for receiving a plurality of groups of energy consumption data and a plurality of pieces of current environment information in real time, each group of energy consumption data is sent by a corresponding energy consumption data sending device, and each piece of current environment information is collected by controlling a corresponding energy consumption device to start the environment information collecting module;

The operation mode adjustment determining module is used for determining whether to adjust the operation mode of the group of energy consumption devices at the current moment according to the current environment information sent by the group of energy consumption devices corresponding to the group of energy consumption data aiming at each group of energy consumption data;

and the operation parameter adjusting module is used for determining the energy consumption equipment to be adjusted from the group of energy consumption equipment according to the current environment information and the group of energy consumption data when the operation mode of the group of energy consumption equipment is adjusted, determining the energy consumption module to be adjusted according to the plurality of energy consumption modules of the energy consumption equipment to be adjusted, and adjusting the operation parameters of the energy consumption module to be adjusted.

Optionally, the operation mode adjustment determining module is specifically configured to:

Optionally, the operation parameter adjustment module is specifically configured to:

Optionally, the energy consumption device comprises a gas stove, and the gas stove comprises a weight sensing module; the operation mode adjustment determining module is specifically configured to:

Optionally, the energy consumption equipment adjusting device of the intelligent energy system further comprises an energy consumption environment acquisition signal generating module, which is used for:

In a third aspect, the present application provides a controller comprising: a memory and a processor, the memory having stored thereon a computer program capable of being loaded by the processor and performing the method of the first aspect.

In a fourth aspect, the present application provides an intelligent energy system, where the intelligent energy system includes a controller, energy consumption data transmission devices and energy consumption devices, the controller is connected with a plurality of energy consumption data transmission devices, each energy consumption data transmission device is connected with a group of energy consumption devices, and the controller is connected with the energy consumption devices; the energy consumption equipment comprises an environment information acquisition module and a plurality of energy consumption modules; the energy consumption equipment adjusting method of the intelligent energy system is executed by the controller and comprises the following steps:

Receiving a plurality of groups of energy consumption data correspondingly transmitted by a plurality of energy consumption data transmitting devices and a plurality of pieces of current environment information correspondingly transmitted by a plurality of energy consumption devices in real time, wherein the current environment information is acquired by controlling the energy consumption devices to start the environment information acquisition module;

In a fifth aspect, the present application provides a computer readable storage medium storing a computer program capable of being loaded by a processor and performing the method of the first aspect.

In a sixth aspect, the application provides a computer program product comprising: a computer program; the computer program implementing the method according to any of the first aspects when executed by a processor.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions of the prior art, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it will be obvious that the drawings in the following description are some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

Fig. 1 is a schematic view of an application scenario provided in an embodiment of the present application;

FIG. 2 is a flowchart of a method for adjusting energy consumption equipment of an intelligent energy system according to an embodiment of the present application;

FIG. 3 is a schematic diagram of an energy consumption device adjusting apparatus of an intelligent energy system according to an embodiment of the present application;

FIG. 4 is a schematic diagram of an intelligent energy system according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of a controller according to an embodiment of the application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. It will be apparent that the described embodiments are some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In addition, the term "and/or" herein is merely an association relationship describing an association object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist together, and B exists alone. In this context, unless otherwise specified, the term "/" generally indicates that the associated object is an "or" relationship.

Embodiments of the application are described in further detail below with reference to the drawings.

Whether an island or a city or a district or a building, energy is consumed in order to enable residents to live normally. In order to monitor the energy consumption of the above-mentioned place, an energy system may be associated with the above-mentioned place to acquire and count the energy consumption data of the above-mentioned place. And then, predicting the energy consumption data in the similar energy consumption scene according to the historical energy consumption data, and providing a historical energy saving scheme in the similar scene, so that the related responsible personnel realizes the energy saving scheme. However, the energy consumption scene is changed at any time, even similar energy consumption scenes, the energy saving scheme may not work on the actual energy consumption scene, and when the energy system tracks the landing condition of the energy saving scheme, the implementation condition of the energy saving scheme mainly depends on landing information and data uploaded by related responsible personnel, and can be displayed when the energy is used next time, if the implementation condition is unsuccessful, the implementation condition is difficult to process in time, and the final energy saving effect is poor.

Based on the above, the application provides a method, a device, a controller and a system for adjusting energy consumption equipment of an intelligent energy system. And receiving a plurality of groups of energy consumption data and a plurality of pieces of current environment information in real time, and determining whether to adjust the operation mode of the group of energy consumption equipment at the current moment according to the current environment information sent by the group of energy consumption equipment corresponding to the group of energy consumption data aiming at each group of energy consumption data. If the operation mode of the group of energy consumption equipment is regulated, the energy consumption equipment to be regulated is determined from the group of energy consumption equipment according to the current environment information and the group of energy consumption data, then the energy consumption module to be regulated is determined according to a plurality of energy consumption modules of the energy consumption equipment to be regulated, the operation parameters of the energy consumption module to be regulated are regulated, and whether the regulation is successful or not can be followed by analysis of the energy consumption data at the next moment, so that the energy saving effect is improved.

Fig. 1 is a schematic view of an application scenario provided by the present application. An intelligent energy system is installed in an energy island, and residents in the energy island may need to use energy such as electricity, water and natural gas, so that various types of energy consumption equipment may exist in the houses of each resident. The energy consumption data of the same type of energy consumption device can be summarized by the corresponding energy consumption data transmission devices, and some energy consumption devices can consume more than one energy source, so that one energy consumption device can correspond to a plurality of energy consumption data transmission devices. The controller can then receive several groups of energy consumption data and several pieces of current environmental information sent by the energy consumption devices, and determine, by analysis, whether to adjust the operation mode of the energy consumption devices, and how to adjust the operation parameters of the energy consumption modules to be adjusted in the energy consumption devices when the adjustment is required.

Reference may be made to the following examples for specific implementation.

Fig. 2 is a flowchart of a method for adjusting energy consumption equipment of an intelligent energy system according to an embodiment of the present application, where the method of the embodiment can be applied to the intelligent energy system in the above scenario. As shown in fig. 2, the method is performed by a controller, comprising:

s201, receiving a plurality of groups of energy consumption data and a plurality of pieces of current environment information in real time, wherein each group of energy consumption data is transmitted by a corresponding energy consumption data transmitting device, and each piece of current environment information is acquired by controlling a corresponding energy consumption device to start an environment information acquisition module.

The energy consumption data may be energy consumption data, which may be used to represent a value of energy consumption. The energy consumption data transmitting device may be a device that transmits by summarizing energy consumption data. Because of the variety of energy sources, such as electric energy, water energy, natural gas and the like, the energy consumption data can be provided with a plurality of groups, and the energy consumption data can be summarized by the corresponding energy consumption data transmitting equipment. The energy consumption data transmitting device can be provided with independent numbers, the respective numbers can be added at the tail part when the energy consumption data is transmitted, and the controller can determine the source of the energy consumption data according to the number carried by the received energy consumption data.

The energy consuming device may be an energy consuming device, such as an electric lamp consuming electric energy, a wash basin consuming water energy, etc., and may include an environmental information collection module. The current environmental information may be information of the installation or working environment of the energy consumption device acquired by the energy consumption device opening environmental information acquisition module, and may include information of weight, temperature, humidity and the like. The energy consumption equipment can also be provided with independent numbers, and the controller can determine the source of the current environmental information according to the carried numbers when receiving the current environmental information sent by the energy consumption equipment. Correspondingly, when the energy consumption data sending device gathers the energy consumption data of the energy consumption devices, the numbers of the energy consumption devices can be placed in the corresponding energy consumption data for gathering.

Specifically, the controller may receive, in real time, a set of energy consumption data sent by each energy consumption data sending device correspondingly and a piece of current environmental information collected by each energy consumption device starting environmental information collection module correspondingly.

S202, determining whether to adjust the operation mode of a group of energy consumption devices at the current moment according to the current environment information sent by the group of energy consumption devices corresponding to the group of energy consumption data according to each group of energy consumption data.

The operation mode can be a working mode of each energy consumption module in the energy consumption equipment, and the energy consumption equipment can realize energy consumption based on the working mode of each energy consumption module, so that the functions of lighting, hot water spraying and the like are provided for a user. The smart energy system may include a cloud for storing environmental information and conditioning of the energy consumption device during historical operation.

Specifically, for each energy consumption data, the historical environment information and the historical adjustment condition of a group of energy consumption devices corresponding to the group of energy consumption data can be searched in the cloud, the historical environment information consistent with the current environment information is matched, and if the consistent historical environment information is adjusted, the operation mode of the group of energy consumption devices can be adjusted at the current moment.

S203, if the operation mode of the group of energy consumption equipment is adjusted, determining the energy consumption equipment to be adjusted from the group of energy consumption equipment according to the current environment information and the group of energy consumption data, determining the energy consumption module to be adjusted according to a plurality of energy consumption modules of the energy consumption equipment to be adjusted, and adjusting the operation parameters of the energy consumption module to be adjusted.

The energy consumption equipment to be adjusted can be energy consumption equipment which can be adjusted for reducing energy consumption, the energy consumption module to be adjusted can be adjusted under the environment corresponding to the current environment information, and the energy saving effect of other energy consumption modules can be not obvious. The operating parameters may include voltage current magnitude, module on or off status, etc.

A parameter adjustment data generation model to be trained can be built in advance. The operation can store a plurality of groups of historical energy consumption data in the last two years, the data which are not in the preset normal numerical range in the historical energy consumption data can be cleaned, then the cleaned historical energy consumption data are input into a low-consumption operation mode generation model to be trained, the data characteristics of each group of the cleaned historical energy consumption data are extracted, the environment information of each group of the energy consumption data, the energy consumption equipment corresponding to each group of the energy consumption data, a plurality of energy consumption modules corresponding to the energy consumption equipment, the operation parameters of different energy consumption modules and corresponding parameter adjustment data can be included, and a training set is constructed for the cleaned historical energy consumption data by adding labels. And then, training samples consisting of the environment information of each group of energy consumption data, the energy consumption equipment corresponding to each group of energy consumption data, a plurality of energy consumption modules corresponding to the energy consumption equipment and the operation parameters of different energy consumption modules can be obtained from the training set, and the training samples are input into the parameter adjustment data generation model to be trained, so that an output result, namely the parameter adjustment data obtained through training, is obtained. According to the parameter adjustment data obtained through training and the parameter adjustment data actually corresponding to the training set, a loss function is calculated, the parameter adjustment data to be trained is adjusted by using a gradient descent method to generate model parameters of the model, so that the loss function is reduced, training is stopped until the loss function is not reduced, and the parameter adjustment data generation model is obtained.

Specifically, current environmental information, the group of energy consumption data, the group of energy consumption devices and a plurality of energy consumption modules corresponding to the group of energy consumption devices can be input into the parameter adjustment data generation model, and the parameter adjustment data of the energy consumption devices are output. The energy consumption device to be adjusted can comprise energy consumption modules to be adjusted in the energy consumption device to be adjusted, and how to adjust the operation parameters of the energy consumption modules to be adjusted.

The embodiment can receive a plurality of groups of energy consumption data and a plurality of pieces of current environment information in real time. And determining whether to adjust the operation mode of the group of energy consumption devices at the current moment according to the current environment information sent by the group of energy consumption devices corresponding to the group of energy consumption data aiming at each group of energy consumption data. The conclusion of whether to adjust or not can be obtained according to the corresponding analysis of the current energy consumption data and the current environment information, and the method is more in line with the actual environment condition. If the operation mode of the group of energy consumption equipment is regulated, the energy consumption equipment to be regulated can be determined from the group of energy consumption equipment according to the current environment information and the group of energy consumption data, and then the energy consumption module to be regulated is determined and the operation parameters of the energy consumption module to be regulated are regulated. The adjusting process of the energy consumption equipment is real-time and reliable, meanwhile, whether the adjustment is successful or not can be determined according to the analysis of the energy consumption data at the next moment, and the energy saving effect of the energy consumption equipment is improved.

In some embodiments, whether to adjust the operating mode of the group of energy consuming devices at the current time may be determined by determining whether the operating environment of the energy consuming device is abnormal, whether the energy consumption data is abnormal. Specific: extracting information characteristics of current environment information sent by a group of energy consumption equipment corresponding to the group of energy consumption data; comparing the extracted information characteristics with preset information characteristics, and determining whether the current working environment of the group of energy consumption equipment is an abnormal operation environment or not; if the operation environment is abnormal, adjusting the operation mode of the group of energy consumption equipment at the current moment; if the environment is a normal running environment, acquiring historical synchronous energy consumption data corresponding to the current moment, analyzing a group of energy consumption data corresponding to the group of energy consumption equipment and the corresponding historical synchronous energy consumption data, and judging whether the group of energy consumption data is abnormal or not; and if the group of energy consumption data is abnormal, adjusting the running mode of the group of energy consumption equipment at the current moment.

The information features may include weight features, picture features, temperature features, etc., with different types of information features corresponding to different preset information features. The information characteristics are affected by the energy consumption mode of the energy consumption device. For example, when the energy consuming device is a toilet, the energy consumption of the toilet may be a continuous flush, and the extracted information feature may include a water out time period. When the extracted water outlet time length is longer than the preset water outlet time length, the current working environment of the closestool can be determined to be an abnormal operation environment, and the current operation mode of the closestool can be adjusted. The historical contemporaneous energy consumption data may be energy consumption data at a historical time of the same time corresponding to the current time. For example, the current time is 3 months 10 days 8:30, then the historical synchronization may be 3 months 9 days 8:30, 3 months 8 days 8:30, 3 months 7 days 8:30, and so on. When the difference between a group of energy consumption data and the corresponding historical contemporaneous energy consumption data is larger than a preset difference, the abnormality can be considered. Historical contemporaneous energy consumption data may be stored in the cloud.

Specifically, extracting information features corresponding to a group of energy consumption devices from current environmental information sent by the group of energy consumption devices corresponding to the group of energy consumption data. And comparing the extracted information characteristics with preset information characteristics, and determining that the current working environment of the group of energy consumption equipment is an abnormal operation environment when the information characteristics are inconsistent with the preset information characteristics, wherein the operation mode of the group of energy consumption equipment at the current moment can be adjusted through the steps in the embodiment. If the information characteristics are consistent with the preset information characteristics, the historical contemporaneous energy consumption data corresponding to the current moment can be searched in the cloud, a group of energy consumption data corresponding to the group of energy consumption equipment and the corresponding historical contemporaneous energy consumption data can be differenced, if the difference is larger than the preset difference, the group of energy consumption data is abnormal, and at the moment, the running mode of the group of energy consumption equipment at the current moment can be adjusted according to the steps in the embodiment.

In the embodiment, information features of the current environment information are extracted, and whether the current environment information belongs to an abnormal operation environment is determined through comparison of the information features and preset information features. If the abnormal operation environment of the operation mode of the group of energy consumption equipment can be directly regulated, if not, further analyzing whether the energy consumption data is abnormal or not, and if so, regulating. The judgment of whether to adjust the running mode of the group of energy consumption equipment is clear and reliable, the actual environment and the historical data are referred, and the result is more reliable.

In some embodiments, the device to be regulated in the case of an abnormal environment and the device to be regulated in the normal operating environment but under the abnormal set of energy consumption data may be determined separately. Specifically, if the abnormal operation environment is the abnormal operation environment, determining abnormal characteristics according to a comparison result of the extracted information characteristics and the preset information characteristics; acquiring an environment source of the abnormal characteristic, determining corresponding energy consumption equipment according to the environment source, and determining the energy consumption equipment as energy consumption equipment to be regulated; if the normal operation environment is the normal operation environment but the group of energy consumption data is abnormal, comparing a group of energy consumption data corresponding to the group of energy consumption equipment with the corresponding historical synchronous energy consumption data to obtain difference data and energy consumption equipment corresponding to the difference data, and determining the energy consumption equipment with abnormal energy consumption data as equipment to be regulated.

The abnormal feature may be a feature of an abnormality in the information feature, and may include a weight feature of a weight value exceeding a preset weight, a picture feature of dangerous goods appearing in a picture, and the like. The environmental source may indicate under what circumstances the abnormal characteristics are abnormal, for example, the abnormal characteristics of the water outlet may occur under the circumstances of a toilet, a sink, etc., and the abnormal fire may occur under the circumstances of a kitchen gas range, etc. The correspondence between different abnormal characteristics and environmental sources can be stored in the cloud, and meanwhile, in what environment different energy consumption devices are installed in can also be stored in the cloud, namely, the correspondence between the environmental sources and the energy consumption devices.

Specifically, if the abnormal operation environment of the operation mode of the group of energy consumption equipment is regulated, according to the comparison result of the information characteristics and the preset information characteristics, what characteristics are the abnormal characteristics can be determined, then the corresponding environment sources are matched for the abnormal characteristics, and further the energy consumption equipment is correspondingly matched, and can be used as the energy consumption equipment to be regulated. If the normal operation environment of the operation mode of the group of energy consumption equipment is regulated but the group of energy consumption data is abnormal, a group of energy consumption data corresponding to the group of energy consumption equipment and a corresponding historical synchronous energy consumption data can be compared to obtain difference data. And then analyzing the corresponding energy consumption equipment by analyzing the independent numbers carried on the difference data, and taking the corresponding energy consumption equipment as equipment to be regulated.

The embodiment analyzes and determines the equipment to be regulated under two conditions of abnormal operation environment, normal operation environment and abnormal energy consumption data. In the case of an abnormal operating environment, abnormal energy consumption equipment can be determined by analyzing the environment source of abnormal characteristics; when the normal operation environment is normal but the energy consumption data is abnormal, abnormal energy consumption equipment can be determined by analyzing the difference data. Different energy consumption equipment analysis modes are used under different energy consumption conditions, so that the determined energy consumption equipment is more accurate and reliable.

In some embodiments, the energy consumption module to be adjusted in the case of an abnormal environment can be determined by analyzing the energy consumption mode of the abnormal feature, and the operation parameters are adjusted. Specifically, if the environment is an abnormal operation environment, based on corresponding energy consumption equipment, analyzing abnormal characteristics and determining a corresponding energy consumption mode of the abnormal characteristics; the energy consumption module corresponding to the energy consumption mode is obtained, and the energy consumption module is determined to be the energy consumption module to be regulated; and adjusting the operation parameters of the energy consumption module to be adjusted so as to stop the operation of the energy consumption module to be adjusted.

The energy consumption mode can indicate the mode of consuming energy by which the abnormal characteristics consume energy, and the energy consumption module corresponding to the energy consumption mode can be used for indicating the mode of consuming energy by which the energy consumption module works to generate energy. For example, the gas stove is not provided with equipment such as a pan, but is also opened, and at the moment, the gas stove is provided with abnormal characteristics when the corresponding equipment is not provided with, so that the current module for controlling the opening and closing of the gas stove can be known as an action module. The roles of the various energy consuming modules in the different energy consuming devices may be pre-stored in the cloud.

Specifically, if the abnormal operation environment of the operation mode of the group of energy consumption devices is adjusted, the abnormal characteristics can be analyzed based on the corresponding energy consumption devices, and the mode of consuming energy by the abnormal characteristics on the energy consumption devices can be determined. And then searching the cloud end for which energy consumption modules consume energy in the energy consumption mode to be used as the energy consumption modules to be regulated. And then the operation parameters of the energy consumption module to be adjusted can be adjusted to stop the operation of the energy consumption module to be adjusted.

In the abnormal operation environment, the method analyzes the abnormal characteristics to determine the corresponding energy consumption mode, and then the energy consumption module with the same energy consumption mode can be used as the energy consumption module to be adjusted to carry out adjustment. Starting from the energy consumption mode of the energy consumption module, the determined energy consumption module is more accurate.

In some embodiments, when the current working environment is a normal operation environment but the set of energy consumption data is abnormal, the current operation data of the energy consumption device is called to analyze, and the energy consumption speed of the energy consumption module to be regulated is regulated by combining the operation attribute of the energy consumption module to be regulated. Specifically, if the current working environment of the group of energy consumption devices is a normal operation environment, but the group of energy consumption data is abnormal, the current operation data of the corresponding energy consumption devices is called; analyzing the current operation data, determining an energy consumption module which operates abnormally in the energy consumption equipment, and determining the energy consumption module as an energy consumption module to be regulated; acquiring the operation attribute of the energy consumption module to be regulated, and determining the associated energy consumption module of the energy consumption module to be regulated according to the operation attribute; and adjusting the operation parameters of the energy consumption module to be adjusted and the operation parameters of the related energy consumption modules.

The current operation data may include operation data of each energy consumption module when the energy consumption device is operated, and the current operation data and default operation data of each energy consumption module in each energy consumption device may be stored in the cloud. The operation attribute may indicate which energy consumption modules may be affected by when the energy consumption module operates to cause excessive energy consumption, which energy consumption modules may be affected, and the operation attribute of different energy consumption devices may be stored in the cloud in advance. The associated energy consuming module may be a module that may affect the aforementioned energy consuming module causing it to consume excessive energy.

Specifically, if the current working environment of the group of energy consumption devices is a normal operation environment, but the group of energy consumption data is abnormal, the current operation data of the abnormal energy consumption devices is called in the cloud, compared with default operation data, and the energy consumption module with the abnormal current operation data is determined according to the comparison result and is used as the energy consumption module to be regulated. And then, the operation attribute of the energy consumption module to be adjusted can be obtained in the cloud, and the associated energy consumption module affecting the energy consumption module to be adjusted is further searched according to the operation attribute. And then, adjusting the operation parameters of the energy consumption module to be adjusted and the related energy consumption modules.

According to the method, the device and the system, the energy consumption module to be regulated which is operated abnormally is determined by analyzing the current operation data, then the operation parameters of the energy consumption module to be regulated and the operation parameters of the related energy consumption modules are regulated by combining the operation attribute of the energy consumption module to be regulated, the phenomenon that the operation parameters of the energy consumption module to be regulated are influenced by the related energy consumption modules and regulated is avoided, and the regulation effect is improved.

In some embodiments, the energy consuming device may include a gas range, which may include a weight sensing module; when the energy consumption device is a gas cooker, whether to adjust the operation mode can be determined through comparison of the extracted weight data and a preset weight threshold value. Specifically, weight data is extracted from current environmental information sent by the gas stove, and the weight data is induced by a weight induction module; when the weight data is smaller than a preset weight threshold value, the current running mode of the gas stove is regulated so as to stop the gas stove; when the weight data is greater than or equal to a preset weight threshold value, the historical contemporaneous energy consumption data and the current operation data corresponding to the current moment are taken to determine whether the operation mode of the gas stove is regulated at the current moment.

The gas stove can be provided with a weight sensing module which can be used for sensing weight data of equipment placed on the gas stove. The preset weight threshold may be determined based on information about equipment that may be placed on the gas range to operate in a user's premises to which the gas range belongs. Devices in the user's premises that can be prevented from operating on the gas cooker can be obtained from devices that have been used during the user's history.

Specifically, weight data is extracted from current environmental information transmitted from the gas range. The weight data from the extraction is then compared to a preset weight threshold. And when the weight data is smaller than the preset weight threshold value, adjusting the current running mode of the gas stove so as to stop the gas stove. When the weight data is greater than or equal to the preset weight threshold, historical contemporaneous energy consumption data and current operation data corresponding to the current moment are obtained, and whether the operation mode of the gas stove is adjusted at the current moment is determined by referring to the steps in the embodiment.

When the abnormal energy consumption equipment is a gas stove, the weight data is extracted and compared with the preset weight threshold, whether the operation mode of the gas stove is regulated or not is determined according to the comparison result, and the gas stove is taken as an example for analysis, so that the determination result of whether the gas stove is regulated or not is more accurate.

In some embodiments, the transmitting various energy consuming environment acquisition signals may be determined by energy consuming device attributes and application areas of the energy consuming devices to receive corresponding current environment information. Specifically, determining energy consumption equipment attributes and application areas of energy consumption equipment; and acquiring default environment data of the application area, generating an energy consumption environment acquisition signal corresponding to the energy consumption equipment according to the energy consumption equipment attribute and the default environment data, and sending the energy consumption environment acquisition signal to the corresponding energy consumption equipment so as to control the energy consumption equipment to generate and correspondingly send current environment information.

The energy consumption device attribute may include inflammability, easy damage, etc. under what circumstances, may represent a safe use scenario of the energy consumption device, may be affected by what environment to cause the energy consumption device to be damaged, etc., and all the above circumstances may cause abnormal operation of the energy consumption device. The application area may be a use area of energy consuming devices, such as a gas cooker typically installed in a kitchen, a toilet typically installed in a bathroom, etc. The default environmental data may be a situation that may occur in the aforementioned application area, for example, in a kitchen, a gas stove may be installed on a gas table, some sundries for cooking may be placed on the gas table, a pot may be placed on the gas stove, etc., which may be the default environmental data in the kitchen.

Specifically, the energy consumption device attribute and the application area of the energy consumption device can be searched in the cloud, and then corresponding default environment data can be matched in the cloud based on the application area. From the energy consuming device attributes, it is known under what conditions the energy consuming device may be abnormal. And then screening the energy consumption equipment attribute of the energy consumption equipment by combining with default environment data to obtain the situation that the operation abnormality possibly occurs in the current application area, generating an energy consumption environment acquisition signal based on the position where the abnormality possibly occurs and sending the energy consumption environment acquisition signal to the corresponding energy consumption equipment so as to control the energy consumption equipment to generate current environment information and correspondingly send the current environment information, and receiving by a controller.

According to the method and the device, through analysis of the energy consumption equipment attribute and the application area of the energy consumption equipment, the current environment information of what content the energy consumption equipment needs to acquire is determined, so that an analysis result based on the current environment information is more reliable, and the final energy saving effect is improved.

In other embodiments, the data verification may be performed on the corresponding energy consumption data according to the data transmission mode of each energy consumption data transmission device. Specifically, a data transmission mode of each energy consumption data transmission device is obtained; and carrying out data verification on the corresponding energy consumption data based on the data transmission modes corresponding to the groups of energy consumption data transmission equipment respectively to obtain a plurality of groups of verification energy consumption data.

The data transmission mode may be used to represent a processing mode before transmission of the energy consumption data, such as data scrambling, rearrangement, encryption, etc., by the energy consumption data transmission device in order to ensure the safety of the energy consumption data. The data verification may refer to a processing manner of performing reverse decryption processing on the processed energy consumption data according to a data transmission manner to obtain the energy consumption data before processing. Each energy consumption data transmission device can be provided with a special data transmission mode, a plurality of data transmission modes can be preset, one data transmission mode is randomly distributed to the energy consumption data transmission device every day or every hour, and meanwhile, the intelligent energy system can reversely generate a corresponding data verification mode according to each data transmission mode in advance. The data transmission manner of each energy consumption data transmission apparatus may be recorded.

Specifically, a data transmission mode can be randomly allocated to different energy consumption data transmission devices. According to the current time, the current corresponding data transmission modes of the energy consumption data transmission devices can be searched and obtained in the record. And then carrying out data verification on the corresponding energy consumption data based on the data transmission mode matching corresponding data verification mode to obtain a plurality of groups of verification energy consumption data.

In this embodiment, different energy consumption data transmitting devices may have different data transmitting modes, and perform data verification on corresponding energy consumption data based on different data transmitting modes, so as to improve the safety of the energy consumption data in the process of transmitting the energy consumption data to the intelligent energy system.

Fig. 3 is a schematic structural diagram of an energy consumption device adjusting apparatus for an intelligent energy system according to an embodiment of the present application, as shown in fig. 3, the energy consumption device adjusting apparatus 300 for an intelligent energy system according to the embodiment includes: the system comprises an energy consumption data and current environment information receiving module 301, an operation mode adjustment determining module 302 and an operation parameter adjusting module 303.

The energy consumption data and current environment information receiving module 301 is configured to receive, in real time, a plurality of sets of energy consumption data and a plurality of pieces of current environment information, where each set of energy consumption data is sent by a corresponding energy consumption data sending device, and each piece of current environment information is collected by controlling a corresponding energy consumption device to start an environment information collecting module;

the operation mode adjustment determining module 302 is configured to determine, for each set of energy consumption data, whether to adjust an operation mode of a set of energy consumption devices at a current moment according to current environmental information sent by the set of energy consumption devices corresponding to the set of energy consumption data;

And the operation parameter adjusting module 303 is configured to determine, when the operation mode of the group of energy consumption devices is adjusted, an energy consumption device to be adjusted from the group of energy consumption devices according to the current environmental information and the group of energy consumption data, determine, according to a plurality of energy consumption modules of the energy consumption device to be adjusted, the energy consumption module to be adjusted, and adjust an operation parameter of the energy consumption module to be adjusted.

Optionally, the operation mode adjustment determining module 302 is specifically configured to:

Optionally, the operation parameter adjustment module 303 is specifically configured to:

if the normal operation environment is the normal operation environment but the group of energy consumption data is abnormal, comparing a group of energy consumption data corresponding to the group of energy consumption equipment with the corresponding historical synchronous energy consumption data to obtain difference data and energy consumption equipment corresponding to the difference data, and determining the energy consumption equipment with abnormal energy consumption data as equipment to be regulated.

the energy consumption module corresponding to the energy consumption mode is obtained, and the energy consumption module is determined to be the energy consumption module to be regulated;

Optionally, the energy consumption device comprises a gas stove, and the gas stove comprises a weight sensing module; the operation mode adjustment determination module 302 is specifically configured to:

weight data are extracted from current environmental information sent by the gas stove, and the weight data are generated by sensing by a weight sensing module;

when the weight data is smaller than a preset weight threshold value, the current running mode of the gas stove is regulated so as to stop the gas stove;

Optionally, the energy consumption device adjusting apparatus 300 of the intelligent energy system further includes an energy consumption environment acquisition signal generating module 304, configured to:

determining energy consumption equipment attributes and application areas of energy consumption equipment;

The apparatus of this embodiment may be used to perform the method of any of the foregoing embodiments, and its implementation principle and technical effects are similar, and will not be described herein again.

Fig. 4 is a schematic structural diagram of an intelligent energy system according to an embodiment of the present application, as shown in fig. 4, the intelligent energy system 400 of the present embodiment includes a controller 401, an energy consumption data transmitting device 402 and an energy consumption device 403; the controller 401 is respectively connected with a plurality of energy consumption data transmitting devices 402, each energy consumption data transmitting device 402 is respectively connected with a group of energy consumption devices 403, and the controller 401 is connected with the energy consumption devices 403; the energy consumption device 403 comprises an environmental information acquisition module 4031 and a plurality of energy consumption modules 4032; the energy consumption device adjusting method of the intelligent energy system is executed by the controller 401 and includes:

receiving a plurality of groups of energy consumption data correspondingly transmitted by a plurality of energy consumption data transmitting devices and a plurality of pieces of current environment information correspondingly transmitted by a plurality of energy consumption devices in real time, wherein the current environment information is acquired by controlling the energy consumption devices to start an environment information acquisition module;

if the operation mode of the group of energy consumption equipment is regulated, the energy consumption equipment to be regulated is determined from the group of energy consumption equipment according to the current environment information and the group of energy consumption data, and the energy consumption module to be regulated is determined and the operation parameters of the energy consumption module to be regulated are regulated according to a plurality of energy consumption modules of the energy consumption equipment to be regulated.

The system of this embodiment has similar implementation principles and technical effects to those of the above-described method embodiment, and will not be described herein.

Fig. 5 is a schematic structural diagram of a controller according to an embodiment of the present application, as shown in fig. 5, a controller 500 according to the present embodiment may include: a memory 501 and a processor 502.

The memory 501 has stored thereon a computer program that can be loaded by the processor 502 and that performs the methods of the embodiments described above.

Wherein the processor 502 is coupled to the memory 501, such as via a bus.

Optionally, the controller 500 may also include a transceiver. It should be noted that, in practical applications, the transceiver is not limited to one, and the structure of the controller 500 is not limited to the embodiment of the present application.

The processor 502 may be a CPU (Central Processing Unit ), general purpose processor, DSP (Digital Signal Processor, data signal processor), ASIC (Application Specific Integrated Circuit ), FPGA (Field Programmable Gate Array, field programmable gate array) or other programmable logic device, transistor logic device, hardware components, or any combination thereof. Which may implement or perform the various exemplary logic blocks, modules and circuits described in connection with this disclosure. The processor 502 may also be a combination of computing functions, e.g., comprising one or more microprocessor combinations, a combination of a DSP and a microprocessor, etc.

A bus may include a path that communicates information between the components. The bus may be a PCI (Peripheral Component Interconnect, peripheral component interconnect standard) bus or an EISA (Extended Industry Standard Architecture ) bus, or the like. The buses may be divided into address buses, data buses, control buses, etc. For ease of illustration, the figures are shown with only one bold line, but not with only one bus or one type of bus.

The Memory 501 may be, but is not limited to, ROM (Read Only Memory) or other type of static storage device that can store static information and instructions, RAM (Random Access Memory ) or other type of dynamic storage device that can store information and instructions, EEPROM (Electrically Erasable Programmable Read Only Memory ), CD-ROM (Compact Disc Read Only Memory, compact disc Read Only Memory) or other optical disk storage, optical disk storage (including compact disc, laser disc, optical disc, digital versatile disc, blu-ray disc, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer.

The memory 501 is used to store application code for performing the implementation of the present application and is controlled by the processor 502. The processor 502 is configured to execute the application code stored in the memory 501 to implement what is shown in the foregoing method embodiments.

Among them, electronic devices include, but are not limited to: mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., in-vehicle navigation terminals), and the like, and stationary terminals such as digital TVs, desktop computers, and the like. But may also be a server or the like. The electronic device shown in fig. 5 is only an example and should not be construed as limiting the functionality and scope of use of the embodiments of the present application.

The controller of this embodiment may be used to execute the method of any of the foregoing embodiments, and its implementation principle and technical effects are similar, and will not be described herein.

The present application also provides a computer-readable storage medium storing a computer program capable of being loaded by a processor and executing the method in the above embodiments.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the method embodiments described above may be performed by hardware associated with program instructions. The foregoing program may be stored in a computer readable storage medium. The program, when executed, performs steps including the method embodiments described above; and the aforementioned storage medium includes: various media that can store program code, such as ROM, RAM, magnetic or optical disks.

Claims

1. The energy consumption equipment adjusting method of the intelligent energy system is characterized by being applied to the intelligent energy system; the intelligent energy system comprises a controller, energy consumption data sending equipment and energy consumption equipment, wherein the controller is respectively connected with the plurality of energy consumption data sending equipment, each energy consumption data sending equipment is respectively connected with a group of energy consumption equipment, and the controller is connected with the energy consumption equipment; the energy consumption equipment comprises an environment information acquisition module and a plurality of energy consumption modules; the method is performed by the controller and includes:

if the operation mode of the group of energy consumption equipment is regulated, determining the energy consumption equipment to be regulated from the group of energy consumption equipment according to the current environment information and the group of energy consumption data, determining the energy consumption module to be regulated according to the plurality of energy consumption modules of the energy consumption equipment to be regulated, and regulating the operation parameters of the energy consumption module to be regulated;

for each group of energy consumption data, determining whether to adjust the operation mode of the group of energy consumption equipment at the current moment according to the current environment information sent by the group of energy consumption equipment corresponding to the group of energy consumption data comprises the following steps:

2. The method for regulating energy consumption devices of an intelligent energy system according to claim 1, wherein said determining the energy consumption device to be regulated from the group of energy consumption devices according to the current environmental information and the group of energy consumption data comprises:

3. The method for adjusting energy consumption equipment of the intelligent energy system according to claim 2, wherein the determining the energy consumption module to be adjusted and adjusting the operation parameters of the energy consumption module to be adjusted according to the plurality of energy consumption modules of the energy consumption equipment to be adjusted comprises:

4. The method for adjusting energy consumption equipment of an intelligent energy system according to claim 1 or 2, wherein the determining the energy consumption module to be adjusted and adjusting the operation parameters of the energy consumption module to be adjusted according to the plurality of energy consumption modules of the energy consumption equipment to be adjusted comprises:

5. The energy consumption device adjustment method of the intelligent energy system according to claim 1, wherein the energy consumption device comprises a gas stove, and the gas stove comprises a weight sensing module; for each group of energy consumption data, determining whether to adjust the operation mode of the group of energy consumption equipment at the current moment according to the current environment information sent by the group of energy consumption equipment corresponding to the group of energy consumption data comprises the following steps:

6. The energy consumption device regulation method of an intelligent energy system of claim 1, further comprising;

7. The energy consumption equipment adjusting device of the intelligent energy system is characterized by being applied to the intelligent energy system; the intelligent energy system comprises an energy consumption equipment adjusting device, energy consumption data sending equipment and energy consumption equipment of the intelligent energy system, wherein the energy consumption equipment adjusting device of the intelligent energy system is respectively connected with a plurality of energy consumption data sending equipment, each energy consumption data sending equipment is respectively connected with a group of energy consumption equipment, and the energy consumption equipment adjusting device of the intelligent energy system is connected with the energy consumption equipment; the energy consumption equipment comprises an environment information acquisition module and a plurality of energy consumption modules; the energy consumption equipment adjusting device of the intelligent energy system comprises:

the operation parameter adjusting module is used for determining the energy consumption equipment to be adjusted from the group of energy consumption equipment according to the current environment information and the group of energy consumption data when the operation mode of the group of energy consumption equipment is adjusted, determining the energy consumption module to be adjusted according to the plurality of energy consumption modules of the energy consumption equipment to be adjusted, and adjusting the operation parameters of the energy consumption module to be adjusted;

the operation mode adjustment determining module is specifically configured to: extracting information characteristics of current environment information sent by a group of energy consumption equipment corresponding to the group of energy consumption data; comparing the extracted information characteristics with preset information characteristics, and determining whether the current working environment of the group of energy consumption equipment is an abnormal operation environment or not; if the operation environment is abnormal, adjusting the operation mode of the group of energy consumption equipment at the current moment; if the environment is a normal running environment, acquiring historical synchronous energy consumption data corresponding to the current moment, analyzing a group of energy consumption data corresponding to the group of energy consumption equipment and the corresponding historical synchronous energy consumption data, and judging whether the group of energy consumption data is abnormal or not; and if the group of energy consumption data is abnormal, adjusting the running mode of the group of energy consumption equipment at the current moment.

8. A controller, comprising: a memory and a processor;

the memory is used for storing program instructions;

the processor is configured to call and execute program instructions in the memory to perform the energy consumption device regulation method of the intelligent energy system according to any one of claims 1-6.

9. The intelligent energy system is characterized by comprising a controller, energy consumption data transmission equipment and energy consumption equipment, wherein the controller is respectively connected with the plurality of energy consumption data transmission equipment, each energy consumption data transmission equipment is respectively connected with a group of energy consumption equipment, and the controller is connected with the energy consumption equipment; the energy consumption equipment comprises an environment information acquisition module and a plurality of energy consumption modules;

the controller is used for receiving a plurality of groups of energy consumption data correspondingly transmitted by a plurality of energy consumption data transmitting devices and a plurality of pieces of current environment information correspondingly transmitted by a plurality of energy consumption devices in real time, wherein the current environment information is acquired by controlling the energy consumption devices to start the environment information acquisition module;

the controller is specifically configured to, when determining, for each set of energy consumption data, whether to adjust an operation mode of a set of energy consumption devices at a current moment according to current environmental information sent by a set of energy consumption devices corresponding to the set of energy consumption data: extracting information characteristics of current environment information sent by a group of energy consumption equipment corresponding to the group of energy consumption data; comparing the extracted information characteristics with preset information characteristics, and determining whether the current working environment of the group of energy consumption equipment is an abnormal operation environment or not; if the operation environment is abnormal, adjusting the operation mode of the group of energy consumption equipment at the current moment; if the environment is a normal running environment, acquiring historical synchronous energy consumption data corresponding to the current moment, analyzing a group of energy consumption data corresponding to the group of energy consumption equipment and the corresponding historical synchronous energy consumption data, and judging whether the group of energy consumption data is abnormal or not; and if the group of energy consumption data is abnormal, adjusting the running mode of the group of energy consumption equipment at the current moment.