CN115425734B - Operation and maintenance box with automatic energy-saving operation program - Google Patents

Abstract

The application discloses have automatic energy-conserving operation procedure fortune dimension case, this fortune dimension case includes: the system comprises a power monitor, a power supply and a plurality of power utilization units, wherein the power monitor is configured to be used for: acquiring power supply information of a power supply and power utilization information of a plurality of power utilization units; the power supply information includes: the actual power consumption and the current residual capacity within the preset time length include the power consumption information: the required power consumption corresponding to each power consumption unit; determining that the operation and maintenance box needs energy-saving power supply according to the power supply information and the power utilization information; acquiring energy-saving power supply information from a monitoring end of the operation and maintenance box; and determining an energy-saving power supply strategy of the operation and maintenance box according to the energy-saving power supply information, the power supply information and the power utilization information, and executing the energy-saving power supply strategy. This fortune dimension case can realize fortune dimension automation of case and energy-conserving.

Description

Operation and maintenance box with automatic energy-saving operation program

Technical Field

The application relates to the technical field of intelligent operation and maintenance boxes, in particular to an operation and maintenance box with an automatic energy-saving operation program.

Background

The intelligent operation and maintenance box, also called as an intelligent operation and maintenance monitoring box, is widely applied to various application scenes to realize various operation and maintenance services such as fault detection, fault analysis and the like. The intelligence fortune dimension case possesses data acquisition function, remote control function, can accurately distinguish commercial power, network, equipment trouble kind when can carrying out real-time monitoring to the front end equipment, refines and judges the fault phenomenon, supports the detection of tens kinds of fault phenomena such as commercial power anomaly, commercial power excessive pressure, under-voltage, illegal electricity of getting, chamber door accident are opened, has multiple sensor in the box, possess smog, water logging and report to the police. Also has the characteristics of rain resistance, dust resistance, aging resistance and the like. The video failure operation and maintenance efficiency can be effectively improved, and meanwhile, the operation and maintenance cost is greatly reduced.

Based on the wide application of intelligence fortune dimension case, the energy-conserving problem of intelligence fortune dimension case also obtains paying close attention to, among the correlation technique, through improving the hardware aspect of fortune dimension case to realize the energy-conservation of fortune dimension case. For example: electric devices for small power are used as much as possible. The energy-saving mode can not realize automatic energy saving.

Disclosure of Invention

The application aims to provide an operation and maintenance box with an automatic energy-saving operation program, which can realize automatic energy saving of the operation and maintenance box.

To achieve the above object, an embodiment of the present application provides an operation and maintenance box with an automatic energy-saving operation program, including: the electric quantity monitor is connected with the power supply and the monitoring end of the operation and maintenance box, and the power supply is connected with the plurality of power utilization units; wherein the electric quantity monitor is configured to: acquiring power supply information of the power supply and power utilization information of the plurality of power utilization units; the power supply information includes: actual power consumption and current residual capacity within a preset time length, the power consumption information comprises: the required power consumption corresponding to each power consumption unit; determining that the operation and maintenance box needs energy-saving power supply according to the power supply information and the power utilization information; acquiring energy-saving power supply information from the operation and maintenance box monitoring end; the energy-saving power supply information comprises a reference energy-saving power supply strategy used by a reference operation and maintenance box, reference power supply information and reference power utilization information corresponding to the reference operation and maintenance box, the reference power supply information comprises power supply information before energy saving and power supply information after energy saving, and the reference power utilization information comprises power utilization information before energy saving and power utilization information after energy saving; and determining an energy-saving power supply strategy of the operation and maintenance box according to the energy-saving power supply information, the power supply information and the power utilization information, and executing the energy-saving power supply strategy.

In one or more embodiments of the present application, the actual power usage includes: actual electricity consumption corresponding to each electricity consumption unit; the determining that the operation and maintenance box needs energy-saving power supply according to the power supply information and the power utilization information comprises the following steps: determining a first electricity utilization weight of each electricity utilization unit according to the actual electricity utilization amount corresponding to each electricity utilization unit; determining a second electricity weight of each electricity utilization unit according to a difference value between the current residual electricity quantity and the sum of the required electricity utilization quantities corresponding to the electricity utilization units; determining actual required power consumption corresponding to each power consumption unit according to the first power weight of each power consumption unit, the second power weight of each power consumption unit and the required power consumption corresponding to each power consumption unit; and if the sum of the actual required power consumption corresponding to each power consumption unit is greater than the preset required power consumption, determining that the operation and maintenance box needs energy-saving power supply.

In one or more embodiments of the present application, the determining an energy-saving power supply policy of the operation and maintenance box according to the energy-saving power supply information, the power supply information, and the power consumption information includes: determining a first similarity between the power supply information before energy saving and the power supply information; determining a second similarity between the electricity utilization information before energy saving and the electricity utilization information; determining predicted energy-saving power supply information of the operation and maintenance box according to the first similarity and the energy-saving power supply information; determining predicted energy-saving electricity utilization information of the operation and maintenance box according to the second similarity and the energy-saving electricity utilization information; determining the predicted energy-saving electric quantity of the operation and maintenance box according to the power supply information, the power utilization information, the predicted energy-saving power supply information and the predicted energy-saving power utilization information; and determining the energy-saving power supply strategy according to the predicted energy-saving electric quantity, the preset energy-saving electric quantity and the reference energy-saving power supply strategy.

In one or more embodiments of the present application, the pre-energy-saving power supply information includes: referring to an actual power consumption amount and a reference remaining power amount; the determining a first similarity between the power supply information before energy saving and the power supply information includes: determining a first difference between the reference actual power usage and the actual power usage; determining a second difference between the reference remaining capacity and the current remaining capacity; and determining the first similarity according to the first difference, the second difference and a preset corresponding relation between the difference and the similarity.

In one or more embodiments of the present application, the electricity usage information before energy saving includes: a plurality of reference demand power consumptions; the determining a second similarity between the electricity consumption information before energy saving and the electricity consumption information includes: determining an average difference value between the required power consumption corresponding to each power consumption unit and the plurality of reference required power consumption; and determining the second similarity according to the average difference and a preset corresponding relation between the difference and the similarity.

In one or more embodiments of the present application, the determining the predicted energy-saving electric quantity of the operation and maintenance box according to the power supply information, the power consumption information, the predicted energy-saving power supply information, and the predicted energy-saving power consumption information includes: acquiring a preset energy-saving prediction model; and inputting the power supply information, the power utilization information, the power supply information after energy conservation prediction and the power utilization information after energy conservation prediction into the energy conservation prediction model to obtain the predicted energy conservation electric quantity output by the energy conservation prediction model.

In one or more embodiments of the present application, the determining the energy-saving power supply policy according to the predicted energy-saving power amount, a preset energy-saving power amount, and the reference energy-saving power supply policy includes: if the predicted energy-saving electric quantity is greater than or equal to the preset energy-saving electric quantity, determining the reference energy-saving power supply strategy as the energy-saving power supply strategy; if the predicted energy-saving electric quantity is smaller than a preset energy-saving electric quantity, adjusting the reference energy-saving power supply strategy according to an energy-saving electric quantity difference absolute value between the predicted energy-saving electric quantity and the preset energy-saving electric quantity, and determining the adjusted reference energy-saving power supply strategy as an energy-saving power supply strategy; or determining an energy-saving power supply strategy according to the power supply information and the power utilization information.

In one or more embodiments of the present application, the reference energy-saving power supply strategy includes amounts to be supplied by a plurality of power utilization units and power supply time periods of the amounts to be supplied; the adjusting the reference energy-saving power supply strategy according to the energy-saving electric quantity difference absolute value between the predicted energy-saving electric quantity and the preset energy-saving electric quantity comprises: if the absolute value of the energy-saving electric quantity difference is larger than a preset absolute value of the difference, reducing the power supply quantity to be supplied and the power supply time; and if the absolute value of the energy-saving electric quantity difference is smaller than a preset absolute value of the difference, reducing the power supply quantity to be supplied or increasing the power supply time.

In one or more embodiments of the present application, the power monitor is further configured to, by a preset automated energy saving operating program: acquiring power supply information and power utilization information after the energy-saving power supply strategy is executed; generating energy-saving power supply information of the operation and maintenance box according to the power supply information, the power utilization information, the power supply information and the power utilization information after the energy-saving power supply strategy is executed and the energy-saving power supply strategy; and sending the energy-saving power supply information of the operation and maintenance box to the monitoring end of the operation and maintenance box.

In one or more embodiments of the present application, the power monitor is further configured to, by a preset automatic energy-saving operation program: determining that the operation and maintenance box does not need energy-saving power supply according to power supply information and the power utilization information; detecting whether the running states of the plurality of power utilization units are normal or not; and if the abnormal operation state of the target power utilization unit is detected, generating alarm information and sending the alarm information to the operation and maintenance box monitoring end.

Compared with the prior art, according to the operation and maintenance box with the automatic energy-saving operation program, the electric quantity monitor is configured for the operation and maintenance box, the electric quantity monitor is not only used for monitoring the power utilization condition and the power supply condition of the whole operation and maintenance box, but also realizes automatic energy saving of the operation and maintenance box through the preset automatic energy-saving operation program. In the automatic energy-saving scheme, the energy-saving power supply is determined according to the power supply information and the power utilization information, and then the energy-saving power supply information acquired at the monitoring end of the operation and maintenance box is utilized to determine the energy-saving power supply strategy by combining the power supply information and the power utilization information of the operation and maintenance box. In the energy-saving power supply information, some reference information of the reference operation and maintenance box is included, and by utilizing the reference information, the quick and effective determination of the energy-saving power supply strategy can be realized. Therefore, the operation and maintenance box can achieve the effects of automation, rapidness and effective energy-saving power supply.

Drawings

FIG. 1 is an exemplary diagram of an operation and maintenance box network according to an embodiment of the present application;

FIG. 2 is a diagram illustrating an example of a structure of an operation and maintenance box according to an embodiment of the present application;

FIG. 3 is a flow chart of an energy saving scheme of an operation and maintenance box according to an embodiment of the application;

FIG. 4 is a schematic diagram of a charge monitor according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The following detailed description of embodiments of the present application is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present application is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

The operation and maintenance box with the automatic energy-saving operation program provided by the embodiment of the application can be applied to various application scenes related to the operation and maintenance box, such as: traffic application scenarios, power transportation application scenarios, and the like.

In these application scenarios, a plurality of operation and maintenance boxes are usually configured, and the plurality of operation and maintenance boxes are installed at different positions to implement operation and maintenance in different ranges or different areas.

Referring to fig. 1, an exemplary diagram of an operation and maintenance box network provided in an embodiment of the present application is shown, where the operation and maintenance box network 100 includes: the operation and maintenance boxes 101 can be in communication connection or not in communication connection with each other; and an operation and maintenance box monitoring end 102, wherein the operation and maintenance box monitoring end 102 is in communication connection with the operation and maintenance boxes 101 respectively. The operation and maintenance box monitoring end 102 can be understood as an intelligent operation and maintenance box cloud management platform, which can adopt a hardware representation form of a server.

In the operation and maintenance box network 100, a plurality of operation and maintenance boxes 101 operate respectively, and meanwhile, cloud management of the plurality of operation and maintenance boxes 101 is realized through an operation and maintenance box monitoring end 102.

Referring to fig. 2, an exemplary illustration of an operation and maintenance box 200 according to an embodiment of the present application is provided, where the operation and maintenance box 200 includes: the electric quantity monitor 201, the power supply 202 and a plurality of power consumption units 203. The electric quantity monitor 201 is connected with the power supply 202 and the monitoring end 204 of the operation and maintenance box respectively, and the power supply 202 is connected with the plurality of power utilization units 203. The connection among the power source 202, the power consumption unit 203 and the power consumption monitor 201 can be understood as an electrical connection, and the connection between the power consumption monitor 201 and the monitoring end 204 of the operation and maintenance box can be understood as a communication connection. The plurality of power utilization units 203 include, for example: sensors, electricity meters, etc. And the power supply 202 is used for realizing the power supply of the plurality of power utilization units 203. In some embodiments, the power source 202 directly powers the power-using unit 203. In other embodiments, the power supply 202 supplies power to a power module of the power consuming unit 203.

Furthermore, the fortune dimension case that this application embodiment provided includes: electric quantity monitor, power and a plurality of power consumption unit, the electric quantity monitor is connected with power and fortune dimension case monitoring end, and the power is connected with a plurality of power consumption units. In the electric quantity monitor, an automatic energy-saving operation program is configured in advance, and after the operation and maintenance box is started, the electric quantity monitor can automatically operate the automatic energy-saving operation program, so that automatic energy saving is realized.

In some embodiments, the automated energy efficient operation program is updatable, alterable, or downloadable.

Referring to fig. 3, which is a flowchart corresponding to an automatic energy saving running program provided in an embodiment of the present application, by running the automatic energy saving running program, an electric quantity monitor is configured to execute the following steps:

step 301, obtaining power supply information of a power supply and power utilization information of a plurality of power utilization units.

Wherein, the power supply information includes: and presetting the actual power consumption and the current residual power in the time length. The electricity consumption information includes: and the required electricity consumption corresponding to each electricity consumption unit. A preset time period, for example: within an hour, within a day, etc. The actual electricity consumption, the current residual electricity quantity and the required electricity consumption adopt the same electricity unit.

In some embodiments, the power monitor is used as a monitoring end of the power supply, and can directly monitor the power supply information. In other embodiments, the power monitor may obtain power information from a status monitor of the power source, such as: and acquiring power supply information from the electric meter.

In some embodiments, the required power consumption corresponding to each power consumption unit may be requested from the power consumption unit to the power supply, so that the power consumption monitor may obtain the power consumption information from the power supply.

And step 302, determining that the operation and maintenance box needs energy-saving power supply according to the power supply information and the power utilization information.

In some embodiments, if the power supply can meet the power demand of the plurality of power consumption units, energy-saving power supply is not needed; if the power supply cannot meet the power consumption requirements of the plurality of power consumption units or cannot fully meet the power consumption requirements of the plurality of power consumption units, energy-saving power supply is required. Therefore, whether the operation and maintenance box needs energy-saving power supply can be judged according to the power supply information and the power utilization information.

As an alternative embodiment, the actual power consumption includes: step 302 includes the actual power consumption corresponding to each power consumption unit: determining a first electricity utilization weight of each electricity utilization unit according to the actual electricity utilization amount corresponding to each electricity utilization unit; determining a second electricity weight of each electricity utilization unit according to a difference value between the current residual electricity and the sum of the required electricity utilization amount corresponding to each electricity utilization unit; determining actual required power consumption corresponding to each power utilization unit according to the first power consumption weight of each power utilization unit, the second power consumption weight of each power utilization unit and the required power consumption corresponding to each power utilization unit; and if the sum of the actual required power consumption corresponding to each power consumption unit is greater than the preset required power consumption, determining that the operation and maintenance box needs energy-saving power supply.

In this embodiment, the power consumption weight of each power consumption unit is determined in consideration of the importance degree of different power consumption units to the operation of the operation and maintenance box, and whether the operation and maintenance box needs energy-saving power supply or not is evaluated through the power consumption weight.

In some embodiments, the larger the actual power consumption corresponding to each power consumption unit, the larger the corresponding first power consumption weight. Therefore, when determining the first electricity weight, the proportion of the actual electricity consumption amount corresponding to each electricity consumption unit in the total actual electricity consumption amount (i.e., the sum of the actual electricity consumption amounts corresponding to each electricity consumption unit) may be determined, and then the proportion may be quantized to the first electricity weight.

In some embodiments, the larger the difference between the current remaining amount of electricity and the sum of the required electricity usage amounts corresponding to the respective electricity usage units, the smaller the second electricity weight. If the difference between the current remaining power and the sum of the required power consumptions corresponding to the power consumption units is negative, the second electricity weight may be greater than or equal to 1.

In some embodiments, the first electricity weight of each electricity consumption unit, the second electricity weight of each electricity consumption unit and the corresponding required electricity consumption of each electricity consumption unit are multiplied to obtain the actual required electricity consumption of each electricity consumption unit.

Further, summing the actual required power consumption of each power consumption unit, and determining that the operation and maintenance box needs energy-saving power supply if the sum is greater than the preset required power consumption; and if the sum is less than or equal to the preset required power consumption, determining that the operation and maintenance box does not need energy-saving power supply.

In some embodiments, the preset demand may be preset in combination with the historical power utilization conditions of each power utilization unit of the operation and maintenance box, and the specific value is not limited herein.

And 303, acquiring energy-saving power supply information from a monitoring end of the operation and maintenance box.

The energy-saving power supply information comprises a reference energy-saving power supply strategy used by a reference operation and maintenance box, reference power supply information and reference power utilization information corresponding to the reference operation and maintenance box, the reference power supply information comprises power supply information before energy saving and power supply information after energy saving, and the reference power utilization information comprises power utilization information before energy saving and power utilization information after energy saving.

In some embodiments, the reference operation and maintenance box is the same or the same type of operation and maintenance box as the current operation and maintenance box, that is, the electricity consumption unit included in the reference operation and maintenance box is the same as the current operation and maintenance box, and the function of the reference operation and maintenance box is the same as that of the current operation and maintenance box.

The energy-saving power supply strategy can be understood as an energy-saving power supply strategy adopted by the reference operation and maintenance box. The reference power supply information includes both power supply information before energy saving and power supply information after energy saving. The reference electricity consumption information includes both electricity consumption information before energy saving and electricity consumption information after energy saving. The meaning of the power supply information and the power utilization information can be referred to the description of the foregoing embodiments.

And step 304, determining an energy-saving power supply strategy of the operation and maintenance box according to the energy-saving power supply information, the power supply information and the power utilization information, and executing the energy-saving power supply strategy.

As an optional implementation manner, determining an energy-saving power supply policy of the operation and maintenance box according to the energy-saving power supply information, the power supply information, and the power consumption information includes: determining a first similarity between power supply information before energy saving and power supply information; determining a second similarity between the electricity utilization information before energy saving and the electricity utilization information; determining predicted energy-saving power supply information of the operation and maintenance box according to the first similarity and the energy-saving power supply information; determining the predicted energy-saving electricity utilization information of the operation and maintenance box according to the second similarity and the energy-saving electricity utilization information; determining the predicted energy-saving electric quantity of the operation and maintenance box according to the power supply information, the power utilization information, the predicted energy-saving power supply information and the predicted energy-saving power utilization information; and determining an energy-saving power supply strategy according to the predicted energy-saving electric quantity, the preset energy-saving electric quantity and the reference energy-saving power supply strategy.

In some embodiments, the pre-power-saving power supply information comprises: referring to an actual power consumption amount and a reference remaining power amount; determining a first similarity between power supply information and power supply information before energy saving, including: determining a first difference between the reference actual power consumption and the actual power consumption; determining a second difference between the reference remaining capacity and the current remaining capacity; and determining the first similarity according to the first difference, the second difference and the corresponding relation between the preset difference and the similarity.

In some embodiments, the first difference and the second difference are averaged, for example: and (4) performing weighted average, number average and the like to obtain a processed difference value. And then according to the corresponding relation between the difference and the similarity, determining the similarity corresponding to the processed difference, and realizing the determination of the first similarity. The correspondence between the difference and the similarity may be preconfigured, for example: the larger the difference is, the smaller the similarity is; the smaller the difference, the greater the similarity, etc.

In some embodiments, the power usage information before power saving includes: a plurality of reference demand power consumptions; determining a second similarity between the electricity consumption information before energy saving and the electricity consumption information, comprising: determining an average difference value between the required power consumption corresponding to each power consumption unit and a plurality of reference required power consumption; and determining a second similarity according to the average difference and the corresponding relation between the preset difference and the similarity.

In some embodiments, the difference between the required power usage is determined for the same power usage units; the plurality of difference values are then integrated to determine an average difference value. For example: each power utilization unit comprises a power utilization unit A-a power utilization unit C, and the reference operation and maintenance box also comprises the power utilization unit A-the power utilization unit C. Then, firstly, determining a difference value between the required power consumption of the power consumption unit A and the reference required power consumption to obtain a difference value A; and obtaining a difference value B and a difference value C by the electricity utilization unit B and the electricity utilization unit C in the same way. And finally, averaging the difference A, the difference B and the difference C to obtain an average difference.

The correspondence between the difference and the similarity may be preconfigured, for example: the larger the average difference is, the smaller the similarity is; the smaller the average difference, the higher the similarity.

Further, after determining the first similarity, the predicted post-energy-saving power supply information of the operation and maintenance box may be determined by combining the first similarity and the post-energy-saving power supply information, for example: and multiplying the first similarity with the corresponding energy-saving power supply information to obtain the predicted energy-saving power supply information.

After determining the second similarity, the predicted energy-saving electricity utilization information of the operation and maintenance box can be determined by combining the second similarity and the energy-saving electricity utilization information, for example: and multiplying the second similarity with the corresponding energy-saving electricity utilization information to obtain the predicted energy-saving electricity utilization information.

And further, the predicted energy-saving electric quantity of the operation and maintenance box is determined by combining the power supply information, the power utilization information, the power supply information after energy conservation prediction and the power utilization information after energy conservation prediction.

As an optional implementation manner, determining the predicted energy-saving electric quantity of the operation and maintenance box according to the power supply information, the power consumption information, the predicted power supply information after energy saving, and the predicted power consumption information after energy saving includes: acquiring a preset energy-saving prediction model; and inputting the power supply information, the power consumption information, the power supply information after energy conservation prediction and the power consumption information after energy conservation prediction into an energy conservation prediction model to obtain the predicted energy conservation power output by the energy conservation prediction model.

In this embodiment, the energy saving prediction model may be an algorithm model, and an algorithm in the algorithm model is an algorithm for calculating the predicted energy saving electric quantity based on the power supply information, the power consumption information, the predicted power supply information after energy saving, and the predicted power consumption information after energy saving; by the algorithm model, the rapid calculation of the predicted energy-saving electric quantity can be realized.

In other embodiments, the energy-saving prediction model may also be a machine learning model, the machine learning model is trained in advance through a large number of training data sets, and the trained model has a function of predicting energy-saving electric quantity based on the power supply information, the power consumption information, the power supply information after energy saving prediction, and the power consumption information after energy saving prediction.

Alternatively, the energy-saving prediction model may also adopt other embodiments, which are not limited herein.

Further, after the predicted energy-saving electric quantity is determined, an energy-saving power supply strategy is determined by combining the preset energy-saving electric quantity and the reference energy-saving power supply strategy.

As an optional implementation manner, determining the energy-saving power supply policy according to the predicted energy-saving power amount, the preset energy-saving power amount, and the reference energy-saving power supply policy includes: if the predicted energy-saving electric quantity is larger than or equal to the preset energy-saving electric quantity, determining the reference energy-saving power supply strategy as an energy-saving power supply strategy; if the predicted energy-saving electric quantity is smaller than the preset energy-saving electric quantity, adjusting a reference energy-saving power supply strategy according to an energy-saving electric quantity difference absolute value between the predicted energy-saving electric quantity and the preset energy-saving electric quantity, and determining the adjusted reference energy-saving power supply strategy as an energy-saving power supply strategy; or determining an energy-saving power supply strategy according to the power supply information and the power utilization information.

The preset energy-saving electric quantity can be configured according to different operation and maintenance box conditions or different application scenes.

In some embodiments, the reference energy-saving power supply strategy includes the amount of power to be supplied and the power supply time period of the amount of power to be supplied of the plurality of power utilization units. Adjusting a reference energy-saving power supply strategy according to an energy-saving electric quantity difference absolute value between the predicted energy-saving electric quantity and the preset energy-saving electric quantity, wherein the method comprises the following steps: if the absolute value of the energy-saving electric quantity difference is larger than the preset absolute value of the difference, the power supply waiting amount and the power supply time are reduced; and if the absolute value of the energy-saving electric quantity difference is smaller than the preset absolute value of the difference, reducing the power supply waiting amount or increasing the power supply time.

In this embodiment, the preset absolute difference value may be configured according to different operation and maintenance box situations or different application scenarios.

In other application scenarios, if the energy-saving power supply strategy is determined according to the power supply information and the power utilization information, the power supply amount and the power supply duration of each power utilization unit can be reasonably distributed according to the current remaining power and the power required by each power utilization unit according to a preset energy-saving standard.

Further, after the energy-saving power supply strategy is determined, the energy-saving power supply strategy is executed, and the operation and maintenance box starts energy-saving power supply.

In some embodiments, the charge monitor is further configured, via a preset automated energy saving operating program, to: acquiring power supply information and power utilization information after an energy-saving power supply strategy is executed; generating energy-saving power supply information of the operation and maintenance box according to the power supply information, the power utilization information, the power supply information and the power utilization information after the energy-saving power supply strategy is executed and the energy-saving power supply strategy; and transmitting the energy-saving power supply information of the operation and maintenance box to the monitoring end of the operation and maintenance box.

In the embodiment, the operation and maintenance box generates corresponding energy-saving power supply information based on the energy-saving operation condition of the operation and maintenance box, and sends the energy-saving power supply information to the monitoring end of the operation and maintenance box, so that other operation and maintenance boxes can make an energy-saving power supply strategy by using the energy-saving power supply information of the operation and maintenance box.

In some embodiments, the charge monitor is further configured, via a preset automated energy saving operating program, to: determining that the operation and maintenance box does not need energy-saving power supply according to the power supply information and the power utilization information; detecting whether the running states of the plurality of power utilization units are normal or not; and if the abnormal operation state of the target power utilization unit is detected, generating alarm information and sending the alarm information to the monitoring end of the operation and maintenance box.

In the embodiment, under the condition that the operation and maintenance box does not need energy-saving power supply according to the power supply information and the power utilization information, the situation that the power utilization units have operation problems is described, at the moment, whether the operation states of the plurality of power utilization units are normal or not can be detected, if yes, further processing is not needed, and monitoring whether energy-saving power supply is needed or not is continuously carried out; if not, generating alarm information and sending the alarm information to the monitoring end of the operation and maintenance box.

Therefore, the monitoring end of the operation and maintenance box can check whether the power utilization unit of the operation and maintenance box has operation problems according to the alarm information so as to prevent the operation and maintenance box from breaking down in advance.

Wherein, whether the running state that detects the power consumption unit is normal, the main control unit of accessible fortune dimension case realizes detecting, and main control unit is used for guaranteeing the steady operation of whole fortune dimension case.

Compared with the prior art, according to the operation and maintenance box with the automatic energy-saving operation program, the electric quantity monitor is configured for the operation and maintenance box, the electric quantity monitor is not only used for monitoring the power utilization condition and the power supply condition of the whole operation and maintenance box, but also realizes automatic energy saving of the operation and maintenance box through the preset automatic energy-saving operation program. In the automatic energy-saving scheme, the energy-saving power supply is determined according to the power supply information and the power utilization information, and then the energy-saving power supply information acquired at the monitoring end of the operation and maintenance box is utilized to determine the energy-saving power supply strategy by combining the power supply information and the power utilization information of the operation and maintenance box. In the energy-saving power supply information, some reference information of the reference operation and maintenance box is included, and by utilizing the reference information, the quick and effective determination of the energy-saving power supply strategy can be realized. Therefore, the operation and maintenance box can achieve the effects of automation, rapidness and effective energy-saving power supply.

Referring to fig. 4, an exemplary diagram of a power monitor provided in an embodiment of the present application is shown, where the power monitor includes:

an obtaining module 401, configured to obtain power supply information of the power supply and power consumption information of the multiple power consumption units; the power supply information includes: the method comprises the following steps of presetting actual electricity consumption and current residual electricity in a time length, wherein the electricity consumption information comprises: the required electricity consumption corresponding to each electricity consumption unit,

A processing module 402 for: determining that the operation and maintenance box needs energy-saving power supply according to the power supply information and the power utilization information; acquiring energy-saving power supply information from the operation and maintenance box monitoring end; the energy-saving power supply information comprises a reference energy-saving power supply strategy used by a reference operation and maintenance box, reference power supply information and reference power utilization information corresponding to the reference operation and maintenance box, the reference power supply information comprises power supply information before energy saving and power supply information after energy saving, and the reference power utilization information comprises power utilization information before energy saving and power utilization information after energy saving; and determining an energy-saving power supply strategy of the operation and maintenance box according to the energy-saving power supply information, the power supply information and the power utilization information, and executing the energy-saving power supply strategy.

In one or more embodiments of the present application, the actual power usage includes: actual electricity consumption corresponding to each electricity consumption unit; the processing module 402 is further configured to: determining a first electricity utilization weight of each electricity utilization unit according to the actual electricity utilization amount corresponding to each electricity utilization unit; determining a second electricity weight of each electricity utilization unit according to a difference value between the current residual electricity quantity and the sum of the required electricity utilization quantities corresponding to the electricity utilization units; determining actual required power consumption corresponding to each power consumption unit according to the first power weight of each power consumption unit, the second power weight of each power consumption unit and the required power consumption corresponding to each power consumption unit; and if the sum of the actual required power consumption corresponding to each power consumption unit is greater than the preset required power consumption, determining that the operation and maintenance box needs energy-saving power supply.

In one or more embodiments of the present application, the processing module 402 is further configured to: determining a first similarity between the power supply information before energy saving and the power supply information; determining a second similarity between the electricity utilization information before energy saving and the electricity utilization information; determining predicted energy-saving power supply information of the operation and maintenance box according to the first similarity and the energy-saving power supply information; determining predicted energy-saving electricity utilization information of the operation and maintenance box according to the second similarity and the energy-saving electricity utilization information; determining the predicted energy-saving electric quantity of the operation and maintenance box according to the power supply information, the power utilization information, the predicted energy-saving power supply information and the predicted energy-saving power utilization information; and determining the energy-saving power supply strategy according to the predicted energy-saving electric quantity, the preset energy-saving electric quantity and the reference energy-saving power supply strategy.

In one or more embodiments of the present application, the power supply information before energy saving includes: referring to an actual power consumption amount and a reference remaining power amount; the processing module 402 is further configured to: determining a first difference between the reference actual power usage and the actual power usage; determining a second difference between the reference remaining capacity and the current remaining capacity; and determining the first similarity according to the first difference, the second difference and a preset corresponding relation between the difference and the similarity.

In one or more embodiments of the present application, the electricity usage information before energy saving includes: a plurality of reference demand power consumptions; the processing module 402 is further configured to: determining an average difference value between the required power consumption corresponding to each power consumption unit and the plurality of reference required power consumption; and determining the second similarity according to the average difference and a preset corresponding relation between the difference and the similarity.

In one or more embodiments of the present application, the processing module 402 is further configured to: acquiring a preset energy-saving prediction model; and inputting the power supply information, the power utilization information, the power supply information after energy conservation prediction and the power utilization information after energy conservation prediction into the energy conservation prediction model to obtain the predicted energy conservation electric quantity output by the energy conservation prediction model.

In one or more embodiments of the present application, the processing module 402 is further configured to: if the predicted energy-saving electric quantity is greater than or equal to the preset energy-saving electric quantity, determining the reference energy-saving power supply strategy as the energy-saving power supply strategy; if the predicted energy-saving electric quantity is smaller than a preset energy-saving electric quantity, adjusting the reference energy-saving power supply strategy according to an energy-saving electric quantity difference absolute value between the predicted energy-saving electric quantity and the preset energy-saving electric quantity, and determining the adjusted reference energy-saving power supply strategy as an energy-saving power supply strategy; or determining an energy-saving power supply strategy according to the power supply information and the power utilization information.

In one or more embodiments of the present application, the reference energy-saving power supply strategy includes amounts to be supplied by a plurality of power utilization units and power supply time periods of the amounts to be supplied; the processing module 402 is further configured to: if the absolute value of the energy-saving electric quantity difference is larger than a preset absolute value of the difference, reducing the power supply quantity to be supplied and the power supply time; and if the absolute value of the energy-saving electric quantity difference is smaller than a preset absolute value of the difference, reducing the power supply quantity to be supplied or increasing the power supply time.

In one or more embodiments of the present application, the obtaining module 401 is further configured to: acquiring power supply information and power utilization information after the energy-saving power supply strategy is executed; the processing module 402 is further configured to: generating energy-saving power supply information of the operation and maintenance box according to the power supply information, the power utilization information, the power supply information and the power utilization information after the energy-saving power supply strategy is executed and the energy-saving power supply strategy; and sending the energy-saving power supply information of the operation and maintenance box to the monitoring end of the operation and maintenance box.

In one or more embodiments of the present application, the processing module 402 is further configured to: determining that the operation and maintenance box does not need energy-saving power supply according to power supply information and the power utilization information; detecting whether the running states of the plurality of power utilization units are normal or not; and if the abnormal operation state of the target power utilization unit is detected, generating alarm information and sending the alarm information to the operation and maintenance box monitoring end.

The power monitor corresponds to the method steps executed in the power monitor, and each function module corresponds to each step of the method, so that the implementation of each function module refers to the implementation of each step of the method, and is not repeated here.

Referring to fig. 5, an embodiment of the present application further provides an electronic device 500, including: processor 510 and memory 520, processor 510 and memory 520 are communicatively coupled. The electronic device 500 may be used as an execution subject of the energy saving scheme corresponding to the aforementioned automatic energy saving operation program.

The memory 520 stores instructions executable by the processor 510, and the instructions are executed by the processor 510 to enable the processor 510 to execute the energy saving scheme corresponding to the automatic energy saving operation program described in the foregoing embodiment.

In some embodiments, the processor 510 and the memory 520 are communicatively coupled via a communication bus.

It is understood that the electronic device 500 may further include more required general modules, which are not described in the embodiments of the present application.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing descriptions of specific exemplary embodiments of the present application have been presented for purposes of illustration and description. It is not intended to limit the application to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the present application and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the present application and various alternatives and modifications thereof. It is intended that the scope of the application be defined by the claims and their equivalents.

Claims (9)

1. An operation and maintenance box with an automatic energy-saving operation program is characterized by comprising: the electric quantity monitor is connected with the power supply and the monitoring end of the operation and maintenance box, and the power supply is connected with the plurality of power utilization units; wherein the electric quantity monitor is configured to:

acquiring power supply information of the power supply and power utilization information of the plurality of power utilization units; the power supply information includes: the method comprises the following steps of presetting actual electricity consumption and current residual electricity in a time length, wherein the electricity consumption information comprises: the required power consumption corresponding to each power consumption unit;

determining that the operation and maintenance box needs energy-saving power supply according to the power supply information and the power utilization information;

acquiring energy-saving power supply information from the operation and maintenance box monitoring end; the energy-saving power supply information comprises a reference energy-saving power supply strategy used by a reference operation and maintenance box, reference power supply information and reference power utilization information corresponding to the reference operation and maintenance box, the reference power supply information comprises power supply information before energy saving and power supply information after energy saving, and the reference power utilization information comprises power utilization information before energy saving and power utilization information after energy saving;

determining an energy-saving power supply strategy of the operation and maintenance box according to the energy-saving power supply information, the power supply information and the power utilization information, and executing the energy-saving power supply strategy;

the actual power consumption includes: actual electricity consumption corresponding to each electricity consumption unit; the determining that the operation and maintenance box needs energy-saving power supply according to the power supply information and the power utilization information comprises the following steps:

determining a first electricity utilization weight of each electricity utilization unit according to the actual electricity utilization amount corresponding to each electricity utilization unit;

determining a second electricity weight of each electricity utilization unit according to a difference value between the current residual electricity quantity and the sum of the required electricity utilization quantities corresponding to the electricity utilization units;

determining actual required power consumption corresponding to each power consumption unit according to the first power weight of each power consumption unit, the second power weight of each power consumption unit and the required power consumption corresponding to each power consumption unit;

and if the sum of the actual required power consumption corresponding to each power consumption unit is greater than the preset required power consumption, determining that the operation and maintenance box needs energy-saving power supply.

2. The operation and maintenance box with the automatic energy-saving operation program according to claim 1, wherein the determining the energy-saving power supply strategy of the operation and maintenance box according to the energy-saving power supply information, the power supply information and the power utilization information comprises:

determining a first similarity between the power supply information before energy saving and the power supply information;

determining a second similarity between the electricity utilization information before energy saving and the electricity utilization information;

determining predicted energy-saving power supply information of the operation and maintenance box according to the first similarity and the energy-saving power supply information;

determining predicted energy-saving electricity utilization information of the operation and maintenance box according to the second similarity and the energy-saving electricity utilization information;

determining the predicted energy-saving electric quantity of the operation and maintenance box according to the power supply information, the power utilization information, the predicted energy-saving power supply information and the predicted energy-saving power utilization information;

and determining the energy-saving power supply strategy according to the predicted energy-saving electric quantity, the preset energy-saving electric quantity and the reference energy-saving power supply strategy.

3. The operation and maintenance box with the automatic energy-saving operation program according to claim 2, wherein the power supply information before energy saving comprises: referring to an actual power consumption amount and a reference remaining power amount; the determining a first similarity between the power supply information before energy saving and the power supply information includes:

determining a first difference between the reference actual power usage and the actual power usage;

determining a second difference between the reference remaining capacity and the current remaining capacity;

and determining the first similarity according to the first difference, the second difference and a preset corresponding relation between the difference and the similarity.

4. The operation and maintenance box with the automatic energy-saving operation program according to claim 2, wherein the electricity utilization information before energy saving comprises: a plurality of reference demand power consumptions; the determining a second similarity between the electricity consumption information before energy saving and the electricity consumption information includes:

determining an average difference value between the required power consumption corresponding to each power consumption unit and the plurality of reference required power consumption;

and determining the second similarity according to the average difference and a preset corresponding relation between the difference and the similarity.

5. The operation and maintenance box with the automatic energy-saving operation program according to claim 2, wherein the determining the predicted energy-saving electric quantity of the operation and maintenance box according to the power supply information, the power utilization information, the predicted energy-saving power supply information and the predicted energy-saving power utilization information comprises:

acquiring a preset energy-saving prediction model;

and inputting the power supply information, the power utilization information, the predicted energy-saving power supply information and the predicted energy-saving power utilization information into the energy-saving prediction model to obtain the predicted energy-saving electric quantity output by the energy-saving prediction model.

6. The operation and maintenance box with the automatic energy-saving operation program according to claim 2, wherein the determining the energy-saving power supply strategy according to the predicted energy-saving power amount, a preset energy-saving power amount and the reference energy-saving power supply strategy comprises:

if the predicted energy-saving electric quantity is greater than or equal to the preset energy-saving electric quantity, determining the reference energy-saving power supply strategy as the energy-saving power supply strategy;

if the predicted energy-saving electric quantity is smaller than a preset energy-saving electric quantity, adjusting the reference energy-saving power supply strategy according to an energy-saving electric quantity difference absolute value between the predicted energy-saving electric quantity and the preset energy-saving electric quantity, and determining the adjusted reference energy-saving power supply strategy as an energy-saving power supply strategy; or,

and determining an energy-saving power supply strategy according to the power supply information and the power utilization information.

7. The operation and maintenance box with the automatic energy-saving operation program according to claim 6, wherein the reference energy-saving power supply strategy comprises power supply amounts to be supplied of a plurality of power utilization units and power supply time periods of the power supply amounts to be supplied; the adjusting the reference energy-saving power supply strategy according to the energy-saving electric quantity difference absolute value between the predicted energy-saving electric quantity and the preset energy-saving electric quantity comprises:

if the absolute value of the energy-saving electric quantity difference is larger than a preset absolute value of the difference, reducing the power supply quantity to be supplied and the power supply time;

and if the absolute value of the energy-saving electric quantity difference is smaller than a preset absolute value of the difference, reducing the power supply quantity to be supplied or increasing the power supply time.

8. The operation and maintenance box with the automatic energy-saving running program according to claim 1, wherein the electric quantity monitor is further configured to:

acquiring power supply information and power utilization information after the energy-saving power supply strategy is executed;

generating energy-saving power supply information of the operation and maintenance box according to the power supply information, the power utilization information, the power supply information and the power utilization information after the energy-saving power supply strategy is executed and the energy-saving power supply strategy;

and sending the energy-saving power supply information of the operation and maintenance box to the monitoring end of the operation and maintenance box.

9. The operation and maintenance box with the automatic energy-saving running program according to claim 1, wherein the electric quantity monitor is further configured to:

determining that the operation and maintenance box does not need energy-saving power supply according to power supply information and the power utilization information;

detecting whether the running states of the plurality of power utilization units are normal or not;

and if the abnormal operation state of the target power utilization unit is detected, generating alarm information and sending the alarm information to the operation and maintenance box monitoring end.

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