Power generation monitoring display system and method
A display method and display system technology, applied in information technology support systems, electrical components, circuit devices, etc., can solve problems such as poor interactivity of monitoring pages
Active Publication Date: 2018-07-06
ALTENERGY POWER SYST
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AI-Extracted Technical Summary
Problems solved by technology
[0005] In view of this, the first purpose of the present invention is to provide a method for monitoring and displaying power generation, which can effectively solve the problem of poor interactivity of monitoring pag...
Abstract
The invention discloses a power generation monitoring display method. The power generation monitoring display method comprises the steps of receiving a power generation data reading instruction; and querying a power generation database, if the current day power generation data is queried, transmitting the current day power generation data to a monitoring page, if the current day power generation data is not queried, querying historical power generation data and transmitting the queried historical power generation data to the monitoring page, and if the historical power generation data is not queried, transmitting information which indicates that power generation data is not queried to the monitoring page. According to the power generation monitoring display method, when the current day power generation data is not queried, no-data reply is not sent, instead, historical power generation data is queried; when there is historical data, the historical data is displayed, so that a user canmaster the power generation condition of the power generation centre very conveniently, and interactivity is improved; and therefore, by virtue of an electric power monitoring system, the problem of poor interactivity of the monitoring page of the power generation data system is solved effectively. The invention also discloses a power generation monitoring display system adopting the power generation monitoring display method.
Application Domain
Circuit arrangementsInformation technology support system
Technology Topic
EngineeringData system +2
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Examples
- Experimental program(1)
Example Embodiment
[0023] The embodiment of the present invention discloses a power generation monitoring display method to effectively solve the problem of poor interactivity of monitoring pages in a power generation data system.
[0024] The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work shall fall within the protection scope of the present invention.
[0025] See figure 1 , figure 1 It is a flowchart of a power generation monitoring display method provided by an embodiment of the present invention.
[0026] In a specific embodiment, this embodiment provides a power generation monitoring display method. The specific power monitoring method includes the following steps.
[0027] S100: Accept the power generation data read instruction.
[0028] Accept the power generation data read instruction sent by the user. Specifically, the user can input the instruction remotely, and the specific instruction can be transmitted through the Internet. In order to improve the interactivity, when the user logs in successfully, it is considered that the power generation data read instruction is issued.
[0029] S200: Query the power generation database. If the power generation data of the day is queried, send the power generation data of the day to the monitoring page. If the power generation data of the day is not queried, query the historical power generation data and send the historical power generation data to the monitoring page. The historical power generation data sends the information that the power generation data is not queried to the monitoring page.
[0030] Step 200 should be executed in response to the execution of step 100. Among them, the power generation database should be able to obtain the power generation data of the power generation center in time, where the power generation data is the power generation amount in each time period. When querying power generation data, you should first query the day’s power generation data, and send the queried day’s power generation data back to the monitoring page, which is also convenient for display on the monitoring page, which is convenient for users to query. Specifically, the power generation for each period of the day can be sent to The monitoring page, of course, can also be the power generation in each period. When the power generation data of the day is not queried, it means that the power generation center has not entered any power generation on that day, and then query the historical power generation data, that is, the power generation information before the current day, which can be the power generation on other days of the week or other days of the week. The amount of electricity generated can also be the amount of electricity generated in other months of the year, and of course it can also be the amount of electricity generated in previous years. When the historical power generation data is not queried, the information that the power generation data has not been queried is sent to the monitoring page to facilitate the user to know the current power generation situation in time.
[0031] In this embodiment, when the power generation monitoring display method is applied, when the user sends a power generation data query instruction, the power generation database is queried. When the power generation data of the day is queried, the power generation data of the day is sent to the monitoring page for the user to view. When the power generation data of the day is not queried, the historical power generation data will be sent to the monitoring page, and if the historical data is not queried, the information that the power generation data has not been queried will be sent to the monitoring page to facilitate users to know other time periods in time. Whether power is generated. In the power generation monitoring display method, when the power generation data of the day is not inquired, it will no longer only reply that there is no data, but continue to query the historical power generation data. When there is historical data, the historical power generation data will be displayed. Therefore, it is greatly convenient for users to know the historical power generation situation, which greatly increases the amount of information that users can obtain, facilitates users to control the power generation situation of the power generation center, and improves the interactivity. Therefore, the power monitoring system can effectively solve the problem of poor interactivity of the monitoring page in the power generation data system.
[0032] The above-mentioned specific sending information that the power generation data has not been queried to the monitoring page may not return any data, and when the monitoring page does not receive the power generation data, it means that no historical power generation data has been queried. Further, in order to improve the interactivity, it is possible to send information that the power generation data is not queried to the monitoring page, including sending the power generation center communication establishment time corresponding to the power generation data read instruction to the monitoring page and/or the instructions for use of the power monitoring system . In order to facilitate monitoring users to know the establishment time of the power generation center in time, and then determine the operating time of the power generation center. In order to facilitate monitoring users to understand the power generation monitoring display system that masters the power generation monitoring display method in time, it can also send an introduction to the power generation monitoring display system to facilitate the use and understanding of the monitoring user, and at the same time avoid the monitoring user to send wrong instructions, which may cause failure in time Read related information.
[0033] As above, in step 200, when the current generation data is not queried, the historical power generation data is queried, and the queried historical data is sent to the monitoring page. The historical data can specifically include at least one of the following: the last power generation date, current week power generation data, current year power generation data, and previous year power generation data. The last power generation date is all power generation data recorded in the current power generation database. In, the last time the power generation data was obtained. In order to ensure that the monitoring user clearly understands the information, at least three of the data are preferably displayed here.
[0034] In order to obtain better interactivity, querying historical power generation data specifically includes: querying current generation data, if the current generation data is queried, continue to query the last power generation date and current week power generation data, and then query the current year power generation data , And the current week’s power generation data and the last power generation date are sent to the monitoring page; if the current year’s power generation data is not queried, the previous year’s power generation data and the last power generation date will be queried, and the previous year’s power generation data and the last power generation date will be queried The date is sent to the monitoring page; and if the power generation data of previous years is not queried, it is considered that the historical data has not been queried, and subsequent operations are performed. It should be noted that when the monitoring page receives the power generation data, the power generation data will be displayed, and the specific display method can refer to the existing technology. The power generation data for the current week is generally the power generation of each day of the week, and the power generation data of the current year is generally the power generation of each month of the current year, and the power generation data of previous years should be the power generation of each year since the power generation. The display on the monitoring page, specifically, various data can be displayed in one of a ring chart, a bar chart or a line chart.
[0035] Further, after querying the power generation data of the day, you can only send the power generation data of the day to the monitoring page. However, this kind of interactivity is not very good. Based on this, after querying the day’s power generation data, you can not only send the day’s power generation data to the monitoring page, but also query the current week’s power generation data and the current year’s power generation data, and then query the current week’s power generation data. The data and current generation data are sent to the monitoring page. In order to facilitate monitoring users can have a more comprehensive grasp of the current power generation situation of the power generation center.
[0036] See Figure 2-Figure 3 , figure 2 Is a schematic structural diagram of a power generation monitoring display system provided by an embodiment of the present invention; image 3 This is an example diagram of a display of the monitoring page provided by the embodiment of the present invention.
[0037] In another specific implementation, this embodiment provides a power generation monitoring display system. Specifically, the power generation monitoring system includes a power generation center 1, a monitoring page 2, and a monitoring platform 3. The power generation center 1 performs power generation and can collect power generation data, such as power generation and power generation in each time period. The power generation center 1 is provided with a communication unit, and the communication unit is used to send the day's power generation data to the database 4. Among them, the monitoring page 2 is used to display the received power generation data, which can be displayed in different ways according to the quantity and type of the received power generation data, and there can also be multiple display modes. The monitoring platform 3 is used to query the power generation database 4 when receiving the power generation data read instruction. If the power generation data of the day is queried, the power generation data of the day will be sent to the monitoring page 2. If the power generation data of the day is not queried, then query The historical power generation data and the historical power generation data are sent to the monitoring page 2. If the historical power generation data is not queried, the information that the power generation data has not been queried is sent to the monitoring page 2. The power generation data read instruction can be considered to send the power generation data read instruction to the monitoring platform 3 when the entire monitoring system is started, and the send button can also be displayed on the monitoring page 2. When the send button is activated, it will be sent to the monitoring platform 3 Send power generation data read instruction. From the above description, it is known that the power generation monitoring display system adopts the power generation monitoring display method in the above embodiment, so the beneficial effects of the power monitoring system can refer to the above embodiment.
[0038] The historical data may specifically include at least one of the following: the last power generation date, current week power generation data, current year power generation data, and previous years power generation data, where the last power generation date is all power generation recorded in the current power generation database 4 In the data, the time when the power generation data was last obtained. In order to ensure that the monitoring user clearly understands the information, at least three of the data are preferably displayed here. In order to obtain better interactivity, querying historical power generation data by the monitoring platform 3 specifically includes: querying the current generation data, if the current generation data is queried, continue to query the last power generation date and current week power generation data, and query the current year The power generation data, the current week’s power generation data and the last power generation date are all sent to the monitoring page 2; if the current year’s power generation data is not queried, the previous year’s power generation data and the last power generation date will be queried, and the queried previous year’s power generation data and The date of the last power generation is sent to the monitoring page 2; and if the power generation data of previous years is not queried, it is considered that the historical data is not queried, and subsequent operations are performed. It should be noted that when the power generation data is received on the monitoring page 2, the power generation data will be displayed, and the specific display method can refer to the prior art. The power generation data for the current week is generally the power generation of each day of the week, and the power generation data of the current year is generally the power generation of each month of the current year, and the power generation data of previous years should be the power generation of each year since the power generation. Specifically, the display of various data on the monitoring page 2 can be displayed in one of a ring chart, a bar chart, or a line chart.
[0039] Further, in order to facilitate the monitoring user to have more choices, the monitoring page 2 can be provided with a button 21 for acquiring data of electricity generation of the day, a button for acquiring electricity of current week 22, a button of acquiring electricity of current year=23, and a button of acquiring electricity generating data of previous year 24 on the monitoring page 2. The specific functions of each of the above get buttons are as follows. When the power generation data acquisition button 21 responds, the power generation data reading instruction can be sent to the monitoring platform 3 to enable the monitoring platform 3 to complete the above-mentioned follow-up functions. At this time, the monitoring platform 3 may return three types of data, one is the current day The display form of power generation data, historical power generation data, or no power generation data and no power generation data can be represented by displaying the communication establishment time of the power generation center 1. When the weekly power generation data acquisition button 22 responds, it can send the current weekly power generation data read instruction to the monitoring platform 3, and the monitoring platform 3 can read the current power generation data from the power generation database after receiving the current week power generation data read instruction. The power generation data of the current week queried in 4 is sent to the monitoring page 2, and the monitoring platform 3 does not query the power generation data of the current week, it can send the power generation data of the current year or there is no data; the power generation data acquisition button 23 of the current year can be sent to The monitoring platform 3 sends the current-year power generation data reading instruction, and the monitoring platform 3 can send the current-year power generation data queried from the power generation database 4 to the monitoring page after receiving the current-year power generation data reading instruction 2. Where the monitoring platform 3 has not inquired about the current year’s power generation data, it can send the previous year’s power generation data or there is no data; the previous year’s power generation data acquisition button 24 can send the previous year’s power generation data read instruction to the monitoring platform 3 when responding, the monitoring After the platform 3 receives the previous year's power generation data read instruction, it can send the previous year's power generation data queried from the power generation database 4 to the monitoring page 2, and the monitoring platform 3 can send the previous year's power generation data without querying it Power generation center 1 establishment time or no data.
[0040] The various embodiments in this specification are described in a progressive manner. Each embodiment focuses on the differences from other embodiments, and the same or similar parts between the various embodiments can be referred to each other.
[0041] The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention. Various modifications to these embodiments will be obvious to those skilled in the art, and the general principles defined in this document can be implemented in other embodiments without departing from the spirit or scope of the present invention. Therefore, the present invention will not be limited to the embodiments shown in this document, but should conform to the widest scope consistent with the principles and novel features disclosed in this document.
PUM


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