CN115689805A

CN115689805A - Energy remote monitoring method and device, electronic equipment and storage medium

Info

Publication number: CN115689805A
Application number: CN202310000467.5A
Authority: CN
Inventors: 蔡志强; 李计伟; 石胜飞
Original assignee: Hebei Huatong Technology Co ltd
Current assignee: Hebei Huatong Technology Co ltd
Priority date: 2023-01-03
Filing date: 2023-01-03
Publication date: 2023-02-03

Abstract

The present disclosure relates to the field of energy monitoring technologies, and in particular, to a method and an apparatus for energy remote monitoring, an electronic device, and a storage medium. The method comprises the following steps: acquiring the number and coordinate information of the energy node to be monitored; acquiring coordinate information and energy information corresponding to the plurality of sensors respectively; for each sensor, calculating a difference value between the coordinate information and the coordinate information corresponding to the sensor to obtain a coordinate difference value; for each sensor, if the coordinate difference value is not greater than a preset coordinate difference value, associating the energy node to be monitored with the sensor according to the number; acquiring current energy information of a sensor associated with an energy node to be monitored; and sending the current energy information, the serial number and the coordinate information to a display platform so that the display platform displays the current energy information according to the serial number, the coordinate information and the current energy information. The application has the following effects: the energy monitoring efficiency is improved.

Description

Energy remote monitoring method and device, electronic equipment and storage medium

Technical Field

The present disclosure relates to the field of energy monitoring technologies, and in particular, to a method and an apparatus for energy remote monitoring, an electronic device, and a storage medium.

Background

When a large-scale factory carries out product production and manufacturing, in order to optimize the energy utilization rate, each factory building can be used as an energy node for energy monitoring, the optimization of the energy utilization rate is carried out according to the monitored energy resource quantity, and the production efficiency is improved.

In the related art, a method for remotely monitoring the energy of each energy node is to directly monitor energy consumption data monitored by energy monitoring sensors with numbers, wherein the numbers of the energy monitoring sensors of different energy nodes are different, but when some of the energy monitoring sensors fail to be replaced, a technician is required to match the replaced sensors with the configuration corresponding to the monitoring nodes, and when the sensors are not configured, the information of the sensors needs to be manually collected and recorded, so that the working efficiency is low.

Therefore, how to improve the energy monitoring efficiency is a technical problem to be solved urgently by those skilled in the art.

Disclosure of Invention

In order to improve energy monitoring efficiency, the application provides an energy remote monitoring method, an energy remote monitoring device, electronic equipment and a storage medium.

In a first aspect, the present application provides a method for remotely monitoring an energy source, which adopts the following technical scheme:

a remote energy monitoring method comprises the following steps:

acquiring the number and coordinate information of the energy node to be monitored;

acquiring coordinate information and energy information corresponding to the sensors respectively, wherein each energy information is an energy resource quantity acquired by each sensor in the sensors;

for each sensor, calculating a difference value between the coordinate information and the coordinate information corresponding to the sensor to obtain a coordinate difference value;

for each sensor, if the coordinate difference value is not larger than a preset coordinate difference value, associating the energy node to be monitored with the sensor according to the number;

acquiring current energy information of a sensor associated with an energy node to be monitored, wherein the sensor associated with the energy node to be monitored is a sensor uniquely corresponding to the energy node to be monitored;

and sending the current energy information, the number and the coordinate information to a display platform so that the display platform displays according to the number, the coordinate information and the current energy information.

By adopting the technical scheme, difference value calculation is carried out according to the obtained coordinate information of the energy node to be monitored and the coordinate information of the sensor to obtain a coordinate difference value, when the coordinate difference value is not greater than the preset coordinate difference value, the energy node to be monitored is associated with the sensor corresponding to the coordinate difference value not greater than the preset coordinate difference value according to the serial number, and the obtained current energy information and the serial number are sent to the display platform to be displayed. When the coordinate difference value is not greater than the preset coordinate difference value, the sensor corresponding to the coordinate difference value is a sensor for monitoring the energy at the node to be monitored, the sensor corresponding to the coordinate difference value is directly associated with the node to be monitored, and the current energy information is obtained, so that the problems that the node to be monitored and the corresponding sensor cannot be automatically associated after some energy monitoring sensors are replaced due to failure, the information of the sensor needs to be manually collected and recorded, and the working efficiency is low are solved, and the efficiency of energy monitoring is improved.

The application may be further configured in a preferred example to: the association of the energy source node to be monitored and the sensor according to the number comprises the following steps:

determining an identifier corresponding to the number of the energy node to be monitored from a corresponding relationship according to the number, wherein the corresponding relationship is the corresponding relationship between different numbers and different identifiers;

and sending the identifier to a sensor corresponding to the coordinate difference value not greater than a preset coordinate difference value, so that the sensor corresponding to the coordinate difference value not greater than the preset coordinate difference value is associated with the energy node to be monitored according to the identifier.

By adopting the technical scheme, the identification corresponding to the energy node to be monitored is determined according to the serial number, the identification is sent to the sensor corresponding to the coordinate difference value not larger than the preset coordinate difference value, the sensor is associated with the serial number of the energy node to be monitored, the identification corresponding to the serial number of the energy node to be monitored is determined from the corresponding relation, the sensor is prevented from being mistakenly associated with the energy node to be monitored, and the accuracy of association between the energy node to be monitored and the sensor is improved.

The present application may be further configured in a preferred example to: after the obtaining of the current energy information of the sensor associated with the energy node to be monitored, the method further comprises:

recording the current energy information, and acquiring recording time;

determining a first time according to the recording time and a preset first time period;

acquiring current time;

if the current time reaches a first time, acquiring first energy information of the energy node to be monitored, wherein the first energy information is the energy resource amount of the energy node to be monitored when the current time reaches the first time;

judging whether the energy consumption of the energy node to be monitored is abnormal or not according to the first energy information and the current energy information;

and if the node is abnormal, generating alarm information according to the number of the energy node to be monitored and giving an alarm.

By adopting the technical scheme, the first time is determined according to the acquired recording time and the preset first time period, when the current time reaches the first time, whether the energy consumption of the energy node to be monitored is abnormal or not is judged according to the acquired first energy information of the energy node to be monitored at the first time and the current energy information, and if the energy consumption is abnormal, alarm information is generated according to the serial number of the energy node to be monitored and an alarm is given; whether the energy consumption of the energy nodes to be monitored is abnormal or not is judged according to the first energy information of the energy nodes to be monitored at the first time and the current energy information, and the accuracy of monitoring the energy consumption is improved.

The application may be further configured in a preferred example to: the judging whether the energy consumption of the energy node to be monitored is abnormal according to the first energy information and the current energy information comprises the following steps:

acquiring the production capacity of the product in a preset second time period, wherein the production capacity of the product is the total production quantity of finished products in the product in the preset second time period;

determining energy consumption per product according to the product production capacity, the first energy information and the current energy information;

judging whether the energy consumption of the unit product is greater than a preset threshold value of the unit energy consumption;

and if so, determining that the energy consumption of the energy node to be monitored is abnormal.

By adopting the technical scheme, the preset unit energy consumption of the produced product is practical and standard, so that the unit energy consumption of the product can be calculated according to the obtained product production amount, the first energy information and the current energy information in the preset second time period, when the unit energy consumption of the product is greater than the preset unit energy consumption threshold value, the abnormal energy consumption of the energy node to be monitored is determined, the judgment is carried out by utilizing the relation between the unit energy consumption of the product and the preset unit energy consumption, and the accuracy of judging whether the energy consumption of the energy node to be monitored is abnormal or not is improved.

The present application may be further configured in a preferred example to: after judging whether the energy consumption of the unit product is larger than a preset threshold value of the unit energy consumption, the method further comprises the following steps:

if not, acquiring the quantity of the product orders;

obtaining initial energy forecast usage according to the product order quantity and the unit product energy consumption;

determining the energy source predicted usage amount according to the energy source initial predicted usage amount and a preset energy source consumption coefficient;

and performing energy transmission planning on the energy nodes to be monitored according to the energy forecast usage.

By adopting the technical scheme, the energy consumption is predicted according to the obtained quantity of the product orders, the energy consumption of the unit product and the preset energy consumption coefficient to obtain the energy prediction consumption, the energy transmission planning is carried out on the energy node to be monitored according to the energy prediction consumption, and the energy consumption is predicted according to the quantity of the product orders, so that the accuracy of the energy prediction consumption is improved.

The present application may be further configured in a preferred example to: a method of recording energy information, comprising:

and writing the energy information into a data table by using openpyxl technology.

By adopting the technical scheme, the energy information is written into the data table for recording by utilizing the openpyxl technology, so that the monitoring and the management of the energy information of the energy node to be monitored are facilitated.

The present application may be further configured in a preferred example to: after the energy source transportation planning is performed on the energy source node to be monitored according to the energy source predicted usage amount, the method further comprises the following steps:

acquiring second energy information and order time of a preset time point, wherein the second energy information is an energy resource amount corresponding to the preset time point, and the order time is time required for completing an order;

calculating to obtain daily average predicted usage according to the order time and the energy predicted usage;

judging whether the daily average predicted usage is larger than the second energy information;

and if so, generating energy demand reminding information according to the serial number, the second energy information and the daily average predicted consumption and reminding.

By adopting the technical scheme, the daily average predicted consumption is calculated according to the acquired order time and the energy prediction, when the daily average predicted consumption is larger than the acquired second energy information of the preset time point, the fact that the second energy information cannot meet the energy required by the production of the product on the day is determined, the energy demand reminding information is generated according to the serial number, the second energy information and the daily average predicted consumption for reminding, whether the second energy information can meet the production demand on the day is determined by judging the relation between the daily average predicted consumption and the acquired second energy information of the preset time point, the situation that the production of the product cannot be carried out due to insufficient energy resource quantity is avoided, and the production efficiency of the product is improved.

In a second aspect, the present application provides an energy remote monitoring device, which adopts the following technical scheme:

an energy remote monitoring device comprises a remote monitoring device,

a first obtaining module: the system comprises a monitoring server and a monitoring server, wherein the monitoring server is used for acquiring the serial number and the coordinate information of an energy node to be monitored;

a second obtaining module: the energy management system is used for acquiring coordinate information and energy information corresponding to the sensors respectively, wherein each energy information is the energy resource quantity acquired by each sensor in the sensors;

a calculation module: the coordinate difference calculation module is used for calculating the difference between the coordinate information and the coordinate information corresponding to the sensor aiming at each sensor to obtain a coordinate difference;

a correlation module: the energy source node to be monitored is associated with each sensor according to the number if the coordinate difference value is not larger than a preset coordinate difference value;

a third obtaining module: the method comprises the steps of obtaining current energy information of a sensor associated with an energy node to be monitored, wherein the sensor associated with the energy node to be monitored is a sensor uniquely corresponding to the energy node to be monitored;

a display module: and the energy source management module is used for sending the current energy source information, the serial number and the coordinate information to a display platform so as to enable the display platform to display according to the serial number, the coordinate information and the current energy source information.

By adopting the technical scheme, difference value calculation is carried out according to the obtained coordinate information of the energy node to be monitored and the coordinate information of the sensor to obtain a coordinate difference value, when the coordinate difference value is not larger than the preset coordinate difference value, the energy node to be monitored is associated with the sensor corresponding to the coordinate difference value not larger than the preset coordinate difference value according to the number, and the obtained current energy information and the number are sent to the display platform to be displayed. When the coordinate difference value is not greater than the preset coordinate difference value, the sensor corresponding to the coordinate difference value is a sensor for monitoring the energy at the node to be monitored, the sensor corresponding to the coordinate difference value is directly associated with the node to be monitored, and the current energy information is obtained, so that the problems that the node to be monitored and the corresponding sensor cannot be automatically associated after some energy monitoring sensors are replaced due to failure, the information of the sensor needs to be manually collected and recorded, and the working efficiency is low are solved, and the efficiency of energy monitoring is improved.

In a third aspect, the present application provides an electronic device, which adopts the following technical solutions:

at least one processor;

a memory;

at least one application, wherein the at least one application is stored in the memory and configured to be executed by the at least one processor, the at least one application configured to: and executing the energy source remote monitoring method.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer-readable storage medium having stored thereon a computer program which, when executed in a computer, causes the computer to execute the remote energy source monitoring method described above.

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

and performing difference value calculation according to the obtained coordinate information of the energy node to be monitored and the coordinate information of the sensor to obtain a coordinate difference value, associating the energy node to be monitored and the sensor corresponding to the coordinate difference value not larger than the preset coordinate difference value according to the number when the coordinate difference value is not larger than the preset coordinate difference value, and sending the obtained current energy information and the number to a display platform for displaying. When the coordinate difference value is not greater than the preset coordinate difference value, the sensor corresponding to the coordinate difference value is a sensor for monitoring the energy at the node to be monitored, the sensor corresponding to the coordinate difference value is directly associated with the node to be monitored, and the current energy information is obtained, so that the problems that the node to be monitored and the corresponding sensor cannot be automatically associated after some energy monitoring sensors are replaced due to failure, the information of the sensor needs to be manually collected and recorded, and the working efficiency is low are solved, and the efficiency of energy monitoring is improved.

Drawings

Fig. 1 is a schematic flow chart of a remote energy monitoring method according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of an energy remote monitoring apparatus according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to fig. 1 to 3.

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

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

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

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

When large-scale mill carries out the production manufacturing, in order to optimize the energy utilization rate, can regard as an energy monitoring node to carry out the energy control with each factory building, and, each factory building generally is provided with a sensor, because the factory building is great, generally gets the factory building central point and is regarded as the coordinate information of energy node, and the sensor then generally sets up the central point that is connected with electronic equipment at the factory building. The sensor corresponds to the type of energy used for product manufacturing, and the type of sensor may include: the system comprises an electric energy sensor, a hydraulic sensor, a gas/steam sensor, a coal sensor and an oil sensor, wherein when a product uses electric energy for production, the sensor is an electric energy sensor; when the product is produced using petroleum, the sensor is a petroleum sensor.

In the related art, a method for remotely monitoring energy of energy nodes is to directly monitor energy consumption data monitored by energy monitoring sensors with numbers, wherein the numbers of the energy monitoring sensors of different energy nodes are different, but when some energy monitoring sensors are failed and replaced, technicians are required to match the replaced sensors with configurations corresponding to the monitoring nodes, and when the sensors are not configured, information of the sensors needs to be manually collected and recorded, so that the working efficiency is low.

In order to solve the technical problem, the application provides an energy remote monitoring method, an energy remote monitoring device, an electronic device and a storage medium. And performing difference value calculation according to the obtained coordinate information of the energy node to be monitored and the coordinate information of the sensor to obtain a coordinate difference value, associating the energy node to be monitored and the sensor corresponding to the coordinate difference value not larger than the preset coordinate difference value according to the number when the coordinate difference value is not larger than the preset coordinate difference value, and sending the obtained current energy information and the number to a display platform for displaying. When the coordinate difference value is not larger than the preset coordinate difference value, the sensor corresponding to the coordinate difference value is a sensor for monitoring the energy of the node to be monitored, the sensor corresponding to the coordinate difference value is directly associated with the node to be monitored, and the current energy information is obtained, so that the problems that the node to be monitored and the corresponding sensor cannot be automatically associated after some energy monitoring sensors are failed to be replaced, the information of the sensor needs to be manually collected and recorded, and the working efficiency is low are solved, and the energy monitoring efficiency is improved.

The embodiment of the application provides an energy remote monitoring method, which is executed by electronic equipment, wherein the electronic equipment can be a server or terminal equipment, the server can be an independent physical server, a server cluster or a distributed system formed by a plurality of physical servers, and a cloud server for providing cloud computing service. The terminal device may be a smart phone, a tablet computer, a notebook computer, a desktop computer, and the like, but is not limited thereto, and the terminal device and the server may be directly or indirectly connected through wired or wireless communication, and the embodiment of the present application is not limited thereto.

With reference to fig. 1, fig. 1 is a schematic flowchart of a remote energy monitoring method according to an embodiment of the present disclosure. As shown in fig. 1, the method includes step S101, step S102, step S103, step S104, step S105, and step S106, wherein:

step S101: and acquiring the serial number and the coordinate information of the energy node to be monitored.

Wherein, the energy is the resource which can be converted into energy, and generally refers to electricity, water, gas/steam, coal, oil and the like. The energy nodes to be monitored are plants which can be monitored in a plurality of plants of a factory. The electronic equipment prestores the number and the coordinate information corresponding to the energy node to be monitored, and after the energy node to be monitored is determined, the number and the coordinate information of the energy node to be monitored are obtained from the electronic equipment.

Step S102: the method comprises the steps of obtaining coordinate information corresponding to a plurality of sensors and energy information corresponding to the sensors, wherein each energy information is the energy resource quantity collected by each sensor in the plurality of sensors.

Wherein the energy information is the energy resource amount recorded by the sensor. The electronic equipment is connected with a plurality of sensors in advance, wherein each sensor stores corresponding coordinate information, and after the number of the energy node to be monitored is obtained, the electronic equipment automatically obtains the corresponding coordinate information of all the sensors connected with the electronic equipment and the energy resource amount currently recorded by each sensor. In the embodiment of the present application, the type of the sensor is not limited, and generally, when the type of the sensor is an electric energy sensor, the energy information is the total amount of currently available electric energy collected by the sensor, and when the type of the sensor is a petroleum sensor, the energy information is the total amount of currently available petroleum collected by the sensor.

Step S103: and for each sensor, calculating the difference between the coordinate information and the coordinate information corresponding to the sensor to obtain a coordinate difference.

In order to determine whether the sensor is a sensor of the energy node to be monitored, difference calculation may be performed on coordinate information of the energy node to be monitored and coordinate information of the sensor, and the obtained coordinate difference may be determined. In the embodiment of the present application, a method for obtaining a coordinate difference by performing difference calculation on coordinate information and coordinate information of an energy node to be monitored is not limited, and may be performed by performing calculation according to an abscissa of the coordinate information and an abscissa of a coordinate of the energy node to be monitored to obtain an abscissa difference, performing calculation X according to an ordinate of the coordinate information and an ordinate of the energy node to be monitored to obtain an ordinate difference Y, and inputting the abscissa difference and the ordinate difference into a formula C =

Wherein C is a distance difference, X is an abscissa difference, and Y is an ordinate difference.

Step S104: and for each sensor, if the coordinate difference value is not greater than the preset coordinate difference value, associating the energy node to be monitored with the sensor according to the number.

When the coordinate difference value is not larger than the preset coordinate difference value, the sensor corresponding to the coordinate difference value is a sensor for monitoring the energy at the node to be monitored, so that the sensor corresponding to the coordinate difference value is directly associated with the energy node to be monitored; when the coordinate difference is larger than the preset coordinate difference, it is indicated that the sensor corresponding to the coordinate difference is not a sensor for monitoring the energy at the node to be monitored, so that management is not needed. When the coordinate difference value is not larger than the preset coordinate difference value, determining that the sensor corresponding to the coordinate difference value is the sensor corresponding to the energy node to be monitored, and associating the sensor corresponding to the energy node to be monitored with the energy node to be monitored. The preset coordinate difference value is not limited in the embodiment of the application, and a user can set the preset coordinate difference value in a user-defined manner according to actual conditions, preferably, the preset coordinate difference value can be 5. In this embodiment of the present application, the method for associating the energy node to be monitored with the sensor according to the number may be: a matching instruction is generated according to the serial number, and the matching instruction and the identifier corresponding to the serial number are sent to the sensor for association.

Step S105: the method comprises the steps of obtaining current energy information of a sensor associated with an energy node to be monitored, wherein the sensor associated with the energy node to be monitored is a sensor uniquely corresponding to the energy node to be monitored.

The current energy information is the energy resource amount of the sensor associated with the energy node to be monitored at the current moment. And connecting the energy node to be monitored with at most one sensor, and determining that the energy node to be monitored does not have a sensor when all the coordinate difference values are not greater than the preset coordinate difference value.

Step S106: and sending the current energy information, the serial number and the coordinate information to a display platform so that the display platform displays according to the serial number, the coordinate information and the current energy information.

The current energy information is the current energy resource amount recorded by the sensor associated with the energy node to be monitored, and after the current energy information is acquired, the current energy information of the energy node to be monitored can be visually seen by a user conveniently, so that the current energy information, the serial number and the coordinate information can be sent to the display platform.

The display platform is used for displaying energy monitoring information of each factory building of a factory, is connected with the electronic equipment, and can send current energy, serial numbers and coordinate information to the display platform to be displayed when the electronic equipment receives a display instruction. The display method is not limited in the embodiment of the application, data can be directly displayed, and bar graphs, bar charts, sector graphs and the like can be generated according to the number, the coordinate information and the current energy information and displayed.

In the embodiment of the application, difference calculation is carried out according to the obtained coordinate information of the energy node to be monitored and the coordinate information of the sensor to obtain a coordinate difference value, when the coordinate difference value is not larger than a preset coordinate difference value, the energy node to be monitored is associated with the sensor corresponding to the coordinate difference value not larger than the preset coordinate difference value according to the serial number, and the obtained current energy information and the serial number are sent to a display platform to be displayed. When the coordinate difference value is not greater than the preset coordinate difference value, the sensor corresponding to the coordinate difference value is a sensor for monitoring the energy at the node to be monitored, the sensor corresponding to the coordinate difference value is directly associated with the node to be monitored, and the current energy information is obtained, so that the problems that the node to be monitored and the corresponding sensor cannot be automatically associated after some energy monitoring sensors are replaced due to failure, the information of the sensor needs to be manually collected and recorded, and the working efficiency is low are solved, and the efficiency of energy monitoring is improved.

A possible implementation manner of the embodiment of the application, associating the energy node to be monitored with the sensor according to the number, includes:

and sending the identifier to a sensor corresponding to the coordinate difference value not greater than the preset coordinate difference value, so that the sensor corresponding to the coordinate difference value not greater than the preset coordinate difference value is associated with the energy node to be monitored according to the identifier.

Because a plurality of energy nodes and a plurality of sensors exist in the electronic equipment, the sensors corresponding to the coordinate difference values not larger than the preset coordinate difference value can be associated with the energy nodes, and the current energy information of the energy nodes can be directly obtained according to the associated sensors when the electronic equipment is used subsequently.

The sensor number is used for counting the number of the sensors and performing subsequent maintenance, so that when the coordinate difference is determined to be not greater than the preset coordinate difference, the identifier corresponding to the number of the energy node to be monitored can be sent to the sensor with the distance difference not greater than the preset coordinate difference, and the sensor is associated with the energy node to be monitored. The electronic equipment is pre-stored with corresponding relations between different numbers and different identifications, when a sensor corresponding to a coordinate difference value not greater than a preset coordinate difference value is associated with the energy node to be monitored, the identification corresponding to the number can be determined according to the number, and the identification is sent to the sensor corresponding to the coordinate difference value not greater than the preset coordinate difference value, so that the sensor is associated with the energy node to be monitored.

In the embodiment of the application, the identification corresponding to the energy node to be monitored is determined according to the number, the identification is sent to the sensor corresponding to the coordinate difference value not larger than the preset coordinate difference value, the sensor is associated with the number of the energy node to be monitored, the identification corresponding to the number of the energy node to be monitored is determined from the corresponding relation, the sensor is prevented from being wrongly associated with the energy node to be monitored, and the accuracy of association between the energy node to be monitored and the sensor is improved.

In a possible implementation manner of the embodiment of the present application, after obtaining current energy information of a sensor associated with an energy node to be monitored, the method further includes:

recording the current energy information and acquiring recording time;

acquiring current time;

if the current time reaches the first time, acquiring first energy information of the energy node to be monitored, wherein the first energy information is the energy resource amount of the energy node to be monitored when the current time reaches the first time;

The first energy information is the energy resource quantity recorded by the sensor associated with the energy node to be monitored when the current time reaches the first time. The preset first time period is not limited in the embodiment of the application, and preferably, the preset first time period may be two hours.

When treating control energy node energy consumption unusual, can be according to the serial number of treating control energy node and predetermine alarm template and generate alarm information and report to the police, wherein, preserve in advance among the electronic equipment and predetermine alarm template, this application embodiment does not prescribe a limit to preset alarm template, can be: "number xxx, coordinate xxx, energy consumption exception, please handle in time! ! | A ".

In an embodiment of the present application, an achievable method for determining whether energy consumption of an energy node to be monitored is abnormal according to first energy information and current energy information may be: and inputting the first energy information, the current energy information and a preset first time period into a first formula for calculation to obtain the resource consumption in unit time, and determining that the energy consumption of the energy node to be monitored is abnormal if the resource consumption in unit time is greater than a preset resource consumption threshold in unit time. Wherein the first formula is: DH = (h 1-h 2)/t, where DH is a resource consumption amount in a unit time, h1 is current energy information, h2 is first energy information, and t is a preset first time period.

Another method for judging whether the energy consumption of the energy node to be monitored is abnormal according to the first energy information and the current energy information may be as follows: acquiring the production capacity of a product in a preset first time period; determining the energy consumption of the unit product according to the production capacity of the product, the first energy information and the current energy information; judging whether the energy consumption of the unit product is greater than a preset threshold value of the unit energy consumption; and if so, determining that the energy consumption of the energy node to be monitored is abnormal.

In the embodiment of the application, a first time is determined according to the acquired recording time and a preset first time period, when the current time reaches the first time, whether the energy consumption of the energy node to be monitored is abnormal or not is judged according to the acquired first energy information of the energy node to be monitored at the first time and the current energy information, and if the energy consumption is abnormal, alarm information is generated according to the number of the energy node to be monitored and an alarm is given; whether the energy consumption of the energy node to be monitored is abnormal or not is judged according to the first energy information of the energy node to be monitored at the first time and the current energy information, and the accuracy of monitoring the energy consumption is improved.

A possible implementation manner of the embodiment of the application, determining whether energy consumption of the energy node to be monitored is abnormal according to the first energy information and the current energy information, includes:

determining the energy consumption of the unit product according to the production capacity, the first energy information and the current energy information;

The preset second time period is not limited in the embodiment of the application, and may be one hour, two hours, three hours, and the like. The energy consumption per unit product is the average actual energy consumption per qualified product, for example: the production of a pen requires the consumption of electricity

J, the energy consumption of the unit product of the pen is

J. The preset threshold value of the unit energy consumption is not limited, and a user can set the threshold value in a user-defined mode according to the product type and the actual situation.

In an embodiment of the present application, the method for determining energy consumption per unit product according to the production amount, the first energy information, and the current energy information may be: and inputting the product production, the first energy information and the current energy information into a second formula for calculation to obtain the energy consumption of the unit product, wherein the second formula is as follows: DC = (h 1-h 2)/cs, where DC is energy consumption per product, h1 is current energy information, h2 is first energy information, and cs is product production.

In the embodiment of the application, since the preset unit energy consumption of the produced product is practical and standard, the unit product energy consumption can be calculated according to the product production amount, the first energy information and the current energy information in the obtained preset second time period, when the unit product energy consumption is greater than the preset unit energy consumption threshold, it is determined that the energy consumption of the energy node to be monitored is abnormal, and the judgment is performed by using the relation between the unit product energy consumption and the preset unit energy consumption, so that the accuracy of judging whether the energy consumption of the energy node to be monitored is abnormal is improved.

A possible implementation manner of the embodiment of the application, after determining whether the energy consumption of the unit product is greater than the preset threshold of the unit energy consumption, further includes:

if not, acquiring the quantity of the product order;

obtaining initial energy forecast usage according to the quantity of product orders and the energy consumption of unit products;

determining the energy source predicted consumption according to the energy source initial predicted consumption and a preset energy source consumption coefficient;

In the embodiment of the present application, the product order quantity is a total quantity of product orders within a certain time, where the certain time may be one month, one season, half a year, and one year, and this is not limited in the embodiment of the present application. The initial predicted energy consumption is the energy consumption required for producing the product with the product order number in an ideal state, and the preset energy consumption coefficient is not limited in the embodiment of the present application, and is preferably 0.025.

The energy source is inevitably consumed during transportation or use, so that after the initial predicted energy source usage is determined, the predicted energy source usage is determined according to the initial predicted energy source usage and a preset energy source consumption coefficient, and an energy source transportation plan is performed on the energy source nodes to be monitored according to the predicted energy source usage. The method for determining the energy source predicted consumption according to the energy source initial predicted consumption and the preset energy source consumption coefficient comprises the following steps: using energy sources initiallyAnd inputting the energy consumption and the preset energy consumption coefficient into a third formula for calculation to obtain the predicted energy consumption, wherein the third formula is as follows:

wherein DY is energy source predicted consumption, DYS is energy source initial predicted consumption, and UTC is energy source consumption coefficient.

The energy delivery plan can be that before the product begins to be produced and the product order is finished, the daily average energy consumption is calculated according to the energy forecast consumption and the product order time, and energy is delivered to the energy node to be monitored according to the daily average consumption so as to meet the normal production requirement; the energy of the energy forecast usage can be stored in advance in the energy node to be monitored before the order is started.

In the embodiment of the application, the energy consumption is predicted according to the obtained quantity of the product orders, the energy consumption of the unit product and the preset energy consumption coefficient to obtain the energy prediction consumption, the energy transmission planning is carried out on the energy node to be monitored according to the energy prediction consumption, and the accuracy of the energy prediction consumption is improved by predicting the energy consumption according to the quantity of the product orders.

A possible implementation manner of the embodiment of the application, a method for recording energy information, includes:

and writing the energy information into the data table by using openpyxl technology.

Wherein, for the convenience of staff's statistics and analysis, can record and save energy information.

A method for recording and storing energy information is realized by writing energy information and a number into a worksheet by using an openpyxl technology, preferably, the worksheet is an excel sheet, and specifically, an excel file is created; and acquiring an excel worksheet, and writing the energy information and the serial number into the excel worksheet according to a preset rule, wherein the preset rule comprises writing according to rows or columns.

In the embodiment of the application, the energy information is written into the data table for recording by using the openpyxl technology, so that the monitoring and the management of the energy information of the energy node to be monitored are facilitated.

A possible implementation manner of the embodiment of the present application, after performing energy transportation planning on the energy node to be monitored according to the predicted energy usage amount, further includes:

acquiring second energy information and order time at a preset time point, wherein the second energy information is an energy resource amount corresponding to the preset time point, and the order time is time required for completing an order;

calculating to obtain the daily average predicted consumption according to the order time and the energy predicted consumption;

judging whether the average daily predicted usage is larger than the second energy information;

and if the number is larger than the preset number, generating energy demand reminding information according to the number, the second energy information and the daily average predicted usage, and reminding.

The preset time point is a time point after the energy delivery is finished on the day, and the preset time point can be preset in the electronic device, and the preset time point is not limited in the embodiment of the application, preferably, the preset time point can be 00:

wherein RDY is daily average predicted usage, DY is energy predicted usage, T is order time, and generally, the time unit of the order time is day.

And if the daily average predicted consumption is larger than the second energy information, determining that the second energy information cannot meet the daily average production demand, determining the energy demand according to the second energy information and the daily average predicted consumption, and generating energy demand reminding information according to the number of the energy node to be monitored, the energy demand and a preset template.

Wherein the default template may be "number XXX, current energy shortage, energy demand XXX, please handle in time! "of course, other preset templates may also be used, and the embodiments of the present application are not limited thereto as long as the purpose of the embodiments of the present application can be achieved.

In the embodiment of the application, the average daily predicted usage is calculated according to the acquired order time and the energy prediction, when the average daily predicted usage is larger than the acquired second energy information at the preset time point, it is determined that the second energy information cannot meet energy required by product production on the current day, energy demand reminding information is generated according to the serial number, the second energy information and the average daily predicted usage for reminding, whether the second energy information can meet the production demand on the current day is determined by judging the relation between the average daily predicted usage and the acquired second energy information at the preset time point, the situation that the product production cannot be carried out due to insufficient energy resource is avoided, and the efficiency of product production is improved.

The above embodiments describe a method for remote energy monitoring from the perspective of a method flow, and the following embodiments describe an apparatus for remote energy monitoring from the perspective of a virtual module or a virtual unit, which are described in detail in the following embodiments.

An energy remote monitoring apparatus 200 is provided in the embodiment of the present application, as shown in fig. 2, fig. 2 is a schematic structural diagram of the energy remote monitoring apparatus provided in the embodiment of the present application. The energy remote monitoring apparatus 200 may specifically include:

the first obtaining module 201: the system comprises a monitoring server, a monitoring server and a monitoring server, wherein the monitoring server is used for acquiring the serial number and coordinate information of an energy node to be monitored;

the second obtaining module 202: the energy management system is used for acquiring coordinate information and energy information corresponding to the sensors respectively, wherein each energy information is the energy resource quantity acquired by each sensor in the sensors;

the calculation module 203: the system comprises a sensor, a data processing unit and a data processing unit, wherein the sensor is used for acquiring coordinate information of each sensor;

the association module 204: the energy source monitoring system is used for associating the energy source node to be monitored with the sensor according to the number if the coordinate difference value is not greater than the preset coordinate difference value aiming at each sensor;

the third obtaining module 205: the method comprises the steps of obtaining current energy information of a sensor associated with an energy node to be monitored, wherein the sensor associated with the energy node to be monitored is a sensor uniquely corresponding to the energy node to be monitored;

the display module 206: and the energy source information sending module is used for sending the current energy source information, the serial number and the coordinate information to the display platform so that the display platform displays the serial number, the coordinate information and the current energy source information.

For the embodiment of the application, difference value calculation is carried out according to the obtained coordinate information of the energy node to be monitored and the coordinate information of the sensor to obtain a coordinate difference value, when the coordinate difference value is not larger than the preset coordinate difference value, the energy node to be monitored and the sensor corresponding to the coordinate difference value not larger than the preset coordinate difference value are associated according to the number, and the obtained current energy information and the number are sent to the display platform to be displayed. When the coordinate difference value is not greater than the preset coordinate difference value, the sensor corresponding to the coordinate difference value is a sensor for monitoring the energy at the node to be monitored, the sensor corresponding to the coordinate difference value is directly associated with the node to be monitored, and the current energy information is obtained, so that the problems that the node to be monitored and the corresponding sensor cannot be automatically associated after some energy monitoring sensors are replaced due to failure, the information of the sensor needs to be manually collected and recorded, and the working efficiency is low are solved, and the efficiency of energy monitoring is improved.

In a possible implementation manner of the embodiment of the present application, when the associating module 204 associates the energy node to be monitored with the sensor according to the number, the associating module is specifically configured to:

determining an identifier corresponding to the number of the energy node to be monitored from the corresponding relation according to the number;

and sending the identifier to a sensor corresponding to the coordinate difference value not greater than the preset coordinate difference value.

In a possible implementation manner of the embodiment of the present application, the energy remote monitoring apparatus 200 further includes:

the abnormity judgment module is used for recording the energy information and acquiring recording time;

determining a first time according to the recording time and a preset time threshold;

acquiring current time;

if the current time reaches the first time, acquiring first energy information of the energy node to be monitored;

and if the node is abnormal, generating alarm information according to the number of the energy node to be monitored and alarming.

In a possible implementation manner of the embodiment of the application, the abnormality determining module is specifically configured to, when the execution determines whether the energy consumption of the energy node to be monitored is abnormal according to the first energy information and the current energy information:

obtaining the product production amount within a preset time threshold;

a prediction module: if the quantity is not larger than the preset quantity, acquiring the quantity of the product order;

and performing energy delivery planning on the energy nodes to be monitored according to the energy forecast usage.

In a possible implementation manner of the embodiment of the application, the energy information is written into the data table by using openpyxl technology.

a judging module: the system comprises a first energy source information acquisition module, a second energy source information acquisition module, a first energy source information acquisition module and a second energy source information acquisition module, wherein the first energy source information acquisition module is used for acquiring first energy source information and order time at a preset time point, the second energy source information is energy source quantity corresponding to the preset time point, and the order time is time required for order completion;

calculating according to the order time and the energy forecast consumption to obtain daily average forecast consumption;

It can be clearly understood by those skilled in the art that, for convenience and simplicity of description, reference may be made to the corresponding process in the foregoing method embodiment for the specific working process of the energy remote monitoring apparatus 200 described above, and details are not repeated herein.

In an embodiment of the present application, an electronic device is provided, as shown in fig. 3, and fig. 3 is a schematic structural diagram of the electronic device provided in the embodiment of the present application. The electronic device 300 shown in fig. 3 includes: a processor 301 and a memory 303. Wherein processor 301 is coupled to memory 303, such as via bus 302. Optionally, the electronic device 300 may also include a transceiver 304. It should be noted that the transceiver 304 is not limited to one in practical applications, and the structure of the electronic device 300 is not limited to the embodiment of the present application.

The Processor 301 may be a CPU (Central Processing Unit), a general-purpose Processor, a DSP (Digital Signal Processor), an ASIC (Application Specific Integrated Circuit), an FPGA (Field Programmable Gate Array) or other Programmable logic device, a transistor logic device, a hardware component, or any combination thereof. Which may implement or perform the various illustrative logical blocks, modules, and circuits described in connection with the disclosure. The processor 301 may also be a combination of computing functions, e.g., comprising one or more microprocessors, a combination of a DSP and a microprocessor, or the like.

Bus 302 may include a path that transfers information between the above components. The bus 302 may be a PCI (Peripheral Component Interconnect) bus, an EISA (Extended Industry Standard Architecture) bus, or the like. The bus 302 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown in fig. 3, but this does not represent only one bus or one type of bus.

The Memory 303 may be a ROM (Read Only Memory) or other type of static storage device that can store static information and instructions, a RAM (Random Access Memory) or other type of dynamic storage device that can store information and instructions, an EEPROM (Electrically Erasable Programmable Read Only Memory), a CD-ROM (Compact Disc Read Only Memory) or other optical Disc storage, optical Disc storage (including Compact Disc, laser Disc, optical Disc, digital versatile Disc, blu-ray Disc, etc.), a magnetic disk storage medium or other magnetic storage device, 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, but is not limited to these.

The memory 303 is used for storing application program codes for executing the scheme of the application, and the processor 301 controls the execution. The processor 301 is configured to execute application program code stored in the memory 303 to implement the aspects illustrated 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., car navigation terminals), and the like, and fixed terminals such as digital TVs, desktop computers, and the like. But also a server, etc. The electronic device shown in fig. 3 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiments of the present application.

The embodiment of the present application provides a computer readable storage medium, on which a computer program is stored, and when the computer program runs on a computer, the computer is enabled to execute the corresponding content in the foregoing method embodiment. Compared with the prior art, the method and the device have the advantages that the difference value calculation is carried out according to the obtained coordinate information of the energy node to be monitored and the coordinate information of the sensor to obtain the coordinate difference value, when the coordinate difference value is not larger than the preset coordinate difference value, the energy node to be monitored is associated with the sensor corresponding to the coordinate difference value not larger than the preset coordinate difference value according to the serial number, and the obtained current energy information and the serial number are sent to the display platform to be displayed. When the coordinate difference value is not greater than the preset coordinate difference value, the sensor corresponding to the coordinate difference value is a sensor for monitoring the energy at the node to be monitored, the sensor corresponding to the coordinate difference value is directly associated with the node to be monitored, and the current energy information is obtained, so that the problems that the node to be monitored and the corresponding sensor cannot be automatically associated after some energy monitoring sensors are replaced due to failure, the information of the sensor needs to be manually collected and recorded, and the working efficiency is low are solved, and the efficiency of energy monitoring is improved.

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and may be performed in other orders unless otherwise indicated herein. Moreover, at least a portion of the steps in the flow chart of the figure may include multiple sub-steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of execution is not necessarily sequential, but may be performed alternately or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

The foregoing is only a partial embodiment of the present application, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present application, and these modifications and decorations should also be regarded as the protection scope of the present application.

Claims

1. A method for remotely monitoring an energy source, comprising:

acquiring the serial number and coordinate information of the energy node to be monitored;

acquiring coordinate information and energy information corresponding to the plurality of sensors respectively, wherein each energy information is the energy resource quantity acquired by each sensor in the plurality of sensors;

and sending the current energy information, the serial number and the coordinate information to a display platform so that the display platform displays according to the serial number, the coordinate information and the current energy information.

2. The energy remote monitoring method according to claim 1, wherein the associating the energy node to be monitored with the sensor according to the number comprises:

3. The energy remote monitoring method according to claim 1, further comprising, after the obtaining current energy information of a sensor associated with an energy node to be monitored:

recording the current energy information, and acquiring recording time;

acquiring current time;

4. The method according to claim 3, wherein the determining whether the energy consumption of the energy node to be monitored is abnormal according to the first energy information and the current energy information comprises:

determining a unit product energy consumption amount according to the product production amount, the first energy information and the current energy information;

judging whether the energy consumption of the unit product is larger than a preset threshold value of the unit energy consumption;

5. The remote energy monitoring method according to claim 4, further comprising, after determining whether the energy consumption per product is greater than a preset energy consumption per unit threshold:

if not, acquiring the quantity of the product order;

determining the energy source predicted usage according to the energy source initial predicted usage and a preset energy source consumption coefficient;

6. The remote monitoring method for energy according to claim 3, wherein the method for recording energy information comprises:

7. The remote energy monitoring method according to claim 5, further comprising, after the planning energy delivery of the energy node to be monitored according to the predicted energy usage amount, the following steps:

8. An energy remote monitoring device is characterized by comprising,

a first obtaining module: the system comprises a monitoring server, a monitoring server and a monitoring server, wherein the monitoring server is used for acquiring the serial number and coordinate information of an energy node to be monitored;

a third obtaining module: the system comprises a sensor, a monitoring unit and a monitoring unit, wherein the sensor is used for acquiring current energy information of a sensor associated with an energy node to be monitored, and the sensor associated with the energy node to be monitored is a sensor uniquely corresponding to the energy node to be monitored;

9. An electronic device, comprising:

at least one processor;

a memory;

at least one application, wherein the at least one application is stored in the memory and configured to be executed by the at least one processor, the at least one application configured to: the method of remote monitoring of energy according to any one of claims 1 to 7 is performed.

10. A computer-readable storage medium, having stored thereon a computer program which, when executed in a computer, causes the computer to execute the energy remote monitoring method according to any one of claims 1 to 7.