CN116546347A - Hydropower station base station equipment based on data remote communication transmission - Google Patents

Abstract

The invention relates to the technical field of water conservancy and hydropower stations, in particular to hydropower station base station equipment based on data remote communication transmission, which comprises a video monitoring subsystem, a flow detection subsystem, a collecting subsystem, a management subsystem and a unit control subsystem, wherein the video monitoring subsystem and the flow detection subsystem are respectively connected with the collecting subsystem, operation picture data, electric quantity picture data transmission and water consumption data detected by the video monitoring subsystem and the flow detection subsystem are collected through the collecting subsystem and are transmitted to the management subsystem, a user logs in the management subsystem and generates a control instruction based on the operation picture data, the electric quantity picture data transmission and the water consumption data, and then the unit control subsystem controls and manages a unit based on the control instruction, so that a hydropower station stably operates, and the problem that hydropower station cannot normally and stably operate due to the fact that an automatic equipment and a communication network of a hydropower station enterprise are not sound is solved.

Description

Hydropower station base station equipment based on data remote communication transmission

Technical Field

The invention relates to the technical field of water conservancy and hydropower, in particular to hydropower station base station equipment based on data remote communication transmission.

Background

Electricity is an indispensable energy source in the life of people at present, and various existing power generation systems exist, such as hydroelectric power generation, coal-fired power generation and wind power generation.

Hydropower stations are comprehensive engineering facilities for converting water energy into electric energy, and generally comprise reservoirs formed by water retaining and draining buildings, hydropower station diversion systems, power generation plants, electromechanical equipment and the like. The high-water level water of the reservoir flows into a factory building through a water diversion system to push a water-turbine generator set to generate electric energy, and then is input into a power grid through a step-up transformer, a switching station and a power transmission line.

Hydropower stations are usually built in mountain areas with rivers, when the hydropower stations run, the hydropower stations can be affected by compensation adjustment among different rivers, real-time data of the hydropower stations need to be transmitted to a management background for normal running of the hydropower stations, the hydropower stations are adjusted through the management background, but most of small hydropower enterprise automation equipment and communication networks are not very sound, and most of small hydropower enterprise automation equipment and communication networks do not have the condition of communication with an electric power dispatching center, so that the hydropower stations cannot run normally and stably.

Disclosure of Invention

The invention aims to provide hydropower station base station equipment based on data remote communication transmission, and aims to solve the problem that hydropower stations cannot normally and stably operate due to the fact that hydropower enterprise automation equipment and a communication network are not sound.

In order to achieve the above purpose, the invention provides hydropower station base station equipment based on data remote communication transmission, which comprises a video monitoring subsystem, a flow detection subsystem, a collection subsystem, a management subsystem and a unit control subsystem, wherein the video monitoring subsystem and the flow detection subsystem are respectively connected with the collection subsystem, and the collection subsystem and the unit control subsystem are respectively connected with the management subsystem;

the video monitoring subsystem is used for monitoring the hydropower station and sending running picture data and electric quantity picture data to the collecting subsystem;

the flow detection subsystem is used for detecting and managing water consumption data of the hydropower station;

the collecting subsystem is used for collecting the running picture data, the electric quantity picture data transmission and the water consumption data and transmitting the running picture data, the electric quantity picture data transmission and the water consumption data to the management subsystem;

the management subsystem is used for logging in by a user and generating a control instruction based on the running picture data, the electric quantity picture data transmission and the water consumption data;

and the unit control subsystem is used for controlling and managing the unit based on the control instruction.

The video monitoring subsystem comprises an operation picture monitoring module, an electric quantity picture monitoring module and a sending module, wherein the operation picture monitoring module and the electric quantity picture monitoring module are respectively connected with the sending module;

the running picture monitoring module is used for monitoring running pictures of the hydropower station to obtain running picture data;

the electric quantity picture monitoring module is used for monitoring an electric quantity picture in a hydropower station to obtain electric quantity picture data;

and the sending module is used for sending the running picture data and the electric quantity picture data to the collecting subsystem.

The flow detection subsystem comprises an administrator module, a monitoring module, a setting module and a data management module, wherein the administrator module is respectively connected with the monitoring module, the setting module and the data management module, and the data management module is connected with the monitoring module;

the manager module is used for managing the monitoring module, the setting module and the data management module by a manager;

the monitoring module is used for detecting the water consumption of the hydropower station to obtain water consumption data;

the setting module is used for setting communication and parameters;

the data management module is used for managing the water consumption data.

The data management module comprises a statistics unit, a summarizing unit, a storage unit and a query unit, wherein the statistics unit, the summarizing unit, the storage unit and the query unit are sequentially connected;

the statistics unit is used for carrying out statistics on the water consumption data to obtain statistics data;

the summarizing unit is used for summarizing the statistical data to obtain summarized data;

the storage unit is used for carrying out marked storage on the assembly data;

the inquiring unit is used for inquiring the target data in the storage unit.

The storage unit comprises an identification subunit, a marking subunit and a storage subunit, wherein the identification subunit, the marking subunit and the storage subunit are sequentially connected;

the identification subunit is used for carrying out identification extraction on the summarized data to obtain characteristic data;

the marking subunit marks the total data based on the characteristic data;

and the storage subunit stores and backs up the marked summarized data.

The unit control subsystem comprises a unit control module, a unit simulation module, a unit detection module and a unit speed regulation monitoring module, wherein the unit control module is respectively connected with the unit simulation module, the unit detection module and the unit speed regulation monitoring module;

the unit control module is used for controlling the unit simulation module, the unit detection module and the unit speed regulation monitoring module based on control instructions;

the unit simulation module is used for simulating the running state of the unit;

the unit detection module is used for detecting the unit in real time and sending out prompts based on unit detection data;

and the unit speed regulation monitoring module is used for carrying out speed regulation monitoring on the unit.

The unit detection module comprises a detection unit and a prompting unit, and the detection unit and the prompting unit are sequentially connected;

the detection unit is used for detecting the unit to obtain unit detection data;

and the prompting unit is used for sending out prompts based on the unit detection data.

The invention discloses hydropower station base station equipment based on data remote communication transmission, which comprises a video monitoring subsystem, a flow detection subsystem, a collection subsystem, a management subsystem and a unit control subsystem, wherein the video monitoring subsystem and the flow detection subsystem are respectively connected with the collection subsystem, and the collection subsystem and the unit control subsystem are respectively connected with the management subsystem; the video monitoring subsystem is used for monitoring the hydropower station and sending running picture data and electric quantity picture data to the collecting subsystem; the flow detection subsystem is used for detecting and managing water consumption data of the hydropower station; the collecting subsystem is used for collecting the running picture data, the electric quantity picture data transmission and the water consumption data, transmitting the running picture data, the electric quantity picture data transmission and the water consumption data to the management subsystem, and the management subsystem is used for logging in by a user and generating a control instruction based on the running picture data, the electric quantity picture data transmission and the water consumption data; the unit control subsystem is used for controlling and managing the unit based on the control instruction, the collecting subsystem is used for collecting the running picture data, the electric quantity picture data and the water consumption data detected by the video monitoring subsystem and the flow detection subsystem and sending the running picture data, the electric quantity picture data and the water consumption data to the management subsystem, a user logs in the management subsystem and generates the control instruction based on the running picture data, the electric quantity picture data and the water consumption data, and then the unit control subsystem is used for controlling and managing the unit based on the control instruction, so that the hydropower station stably operates, and the problem that the hydropower station cannot normally and stably operate due to the fact that hydropower enterprise automation equipment and a communication network are not sound is solved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a hydropower station base station device based on data remote communication transmission.

Fig. 2 is a video surveillance subsystem.

Fig. 3 is a flow detection subsystem.

Fig. 4 is a data management module.

Fig. 5 is a memory cell.

Fig. 6 is a collection subsystem.

Fig. 7 is a management subsystem.

FIG. 8 is a crew control subsystem.

Fig. 9 is a unit detection module.

The system comprises a 1-video monitoring subsystem, a 2-flow detection subsystem, a 3-collecting subsystem, a 4-management subsystem, a 5-unit control subsystem, an 11-running picture monitoring module, a 12-electric quantity picture monitoring module, a 13-sending module, a 21-manager module, a 22-monitoring module, a 23-setting module, a 24-data management module, a 241-statistics unit, a 242-summarizing unit, a 243-storage unit, a 244-query unit, a 2431-identification subunit, a 2432-marking subunit, a 2433-storage subunit, a 31-collecting module, a 32-receiving module, a 33-transmission module, a 41-login module, a 42-processing module, a 43-generating module, a 51-unit control module, a 52-unit simulation module, a 53-unit detection module, a 54-unit speed regulation monitoring module, a 531-detection unit and a 532-prompting unit.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

Referring to fig. 1 to 9, the present invention provides a hydropower station base station device based on data remote communication transmission, which includes a video monitoring subsystem 1, a flow detection subsystem 2, a collection subsystem 3, a management subsystem 4 and a unit control subsystem 5, wherein the video monitoring subsystem 1 and the flow detection subsystem 2 are respectively connected with the collection subsystem 3, and the collection subsystem 3 and the unit control subsystem 5 are respectively connected with the management subsystem 4;

the video monitoring subsystem 1 is used for monitoring a hydropower station and sending running picture data and electric quantity picture data to the collecting subsystem 3;

the flow detection subsystem 2 is used for detecting and managing water consumption data of the hydropower station;

the collecting subsystem 3 is configured to collect the running picture data, the electric quantity picture data, and the water consumption data, and transmit the running picture data, the electric quantity picture data, and the water consumption data to the management subsystem 4;

the management subsystem 4 is used for logging in by a user and generating a control instruction based on the running picture data, the electric quantity picture data transmission and the water consumption data;

the unit control subsystem 5 controls and manages the unit based on the control instruction.

In this embodiment, the video monitoring subsystem 1 monitors the hydropower station and sends operation picture data and electricity picture data to the collecting subsystem 3, the flow detecting subsystem 2 detects and manages hydropower station water consumption data, then the collecting subsystem 3 collects the operation picture data, the electricity picture data and the water consumption data, and transmits the operation picture data, the electricity picture data and the water consumption data to the managing subsystem 4, a user logs in the managing subsystem 4 to generate a control instruction based on the operation picture data, the electricity picture data and the water consumption data, and the unit control subsystem 5 controls and manages a unit based on the control instruction, so that the hydropower station stably operates, and the problem that the hydropower station cannot normally and stably operate due to the fact that automatic hydropower equipment and a communication network of a hydropower enterprise are not sound is solved.

Further, the video monitoring subsystem 1 includes an operation screen monitoring module 11, an electric quantity screen monitoring module 12 and a sending module 13, where the operation screen monitoring module 11 and the electric quantity screen monitoring module 12 are respectively connected with the sending module 13;

the operation picture monitoring module 11 is used for monitoring the operation picture of the hydropower station to obtain operation picture data;

the electric quantity picture monitoring module 12 is used for monitoring an electric quantity picture in a hydropower station to obtain electric quantity picture data;

the sending module 13 is configured to send the running picture data and the power picture data to the collecting subsystem 3.

In this embodiment, the operation screen monitoring module 11 monitors the operation screen of the hydropower station to obtain operation screen data, the electric quantity screen monitoring module 12 monitors the electric quantity screen in the hydropower station to obtain electric quantity screen data, and the transmitting module 13 transmits the operation screen data and the electric quantity screen data to the collecting subsystem 3.

Further, the flow detection subsystem 2 includes an administrator module 21, a monitoring module 22, a setting module 23 and a data management module 24, wherein the administrator module 21 is respectively connected with the monitoring module 22, the setting module 23 and the data management module 24, and the data management module 24 is connected with the monitoring module 22;

the administrator module 21 is configured to administer the monitoring module 22, the setting module 23, and the data management module 24 by an administrator;

the monitoring module 22 is configured to detect water consumption of the hydropower station, and obtain water consumption data;

the setting module 23 is configured to set communication and parameters;

the data management module 24 is configured to manage the water consumption data.

In this embodiment, the administrator module 21 manages the monitoring module 22, the setting module 23, and the data management module 24, the monitoring module 22 detects the water consumption of the hydropower station to obtain water consumption data, the setting module 23 sets communication and parameters, and the data management module 24 manages the water consumption data.

Further, the data management module 24 includes a statistics unit 241, a summary unit 242, a storage unit 243, and a query unit 244, where the statistics unit 241, the summary unit 242, the storage unit 243, and the query unit 244 are sequentially connected;

the statistics unit 241 is configured to perform statistics on the water consumption data to obtain statistics data;

the summarizing unit 242 is configured to summarize the statistical data to obtain summarized data;

the storage unit 243 is configured to store the assembly data in a marked manner;

the querying unit 244 is configured to query the storage unit 243 for target data.

In this embodiment, the statistics unit 241 performs statistics on the water consumption data to obtain statistics data, the summarizing unit 242 summarizes the statistics data to obtain summary data, the storage unit 243 marks and stores the summary data, and the query unit 244 queries the storage unit 243 for target data.

Further, the storage unit 243 includes an identification sub-unit 2431, a marking sub-unit 2432, and a storage sub-unit 2433, where the identification sub-unit 2431, the marking sub-unit 2432, and the storage sub-unit 2433 are sequentially connected;

the identifying subunit 2431 is configured to identify and extract the summarized data to obtain feature data;

the tagging subunit 2432 tags the total data based on the feature data;

the storage subunit 2433 performs storage backup on the marked summary data.

In this embodiment, the identifying subunit 2431 identifies and extracts the summary data to obtain feature data, the marking subunit 2432 marks the summary data based on the feature data, and the storing subunit 2433 stores and backs up the marked summary data.

Further, the unit control subsystem 5 includes a unit control module 51, a unit simulation module 52, a unit detection module 53 and a unit speed regulation monitoring module 54, wherein the unit control module 51 is respectively connected with the unit simulation module 52, the unit detection module 53 and the unit speed regulation monitoring module 54;

the unit control module 51 controls the unit simulation module 52, the unit detection module 53 and the unit speed regulation monitoring module 54 based on control instructions;

the unit simulation module 52 is used for simulating the running state of the unit;

the unit detection module 53 is configured to detect a unit in real time, and send a prompt based on unit detection data;

the unit speed regulation monitoring module 54 is used for speed regulation monitoring of the unit.

In this embodiment, the unit simulation module 52 is configured to simulate a running state of a unit, the unit detection module 53 detects the unit in real time, and sends a prompt based on unit detection data, and the unit speed regulation monitoring module 54 monitors speed regulation of the unit.

Further, the unit detection module 53 includes a detection unit 531 and a prompt unit 532, where the detection unit 531 and the prompt unit 532 are sequentially connected;

the detecting unit 531 is configured to detect a unit, so as to obtain unit detection data;

the prompting unit 532 issues a prompt based on the unit detection data.

In this embodiment, the detecting unit 531 detects a unit to obtain unit detection data, and the prompting unit 532 sends a prompt based on the unit detection data.

Further, the collecting subsystem 3 includes a collecting module 31, a receiving module 32 and a transmitting module 33, where the collecting module 31, the receiving module 32 and the transmitting module 33 are sequentially connected;

the collection module 31 is configured to collect water consumption data;

the receiving module 32 is configured to receive the running picture data and the power picture data;

the transmission module 33 is configured to transmit the running picture data, the power picture data, and the water consumption data to the management subsystem 4.

In this embodiment, the collecting module 31 collects water consumption data, the receiving module 32 receives the operation screen data and the power screen data, and the transmitting module 33 transmits the operation screen data, the power screen data, and the water consumption data to the management subsystem 4.

Further, the management subsystem 4 includes a login module 41, a processing module 42, and a generating module 43, where the login module 41, the processing module 42, and the generating module 43 are sequentially connected;

the login module 41 is used for user authentication login.

The processing module 42 is configured to process the running picture data, the electric quantity picture data, and the water consumption data to obtain processing data;

the generating module 43 is configured to generate a control instruction based on the processing data by a user.

In this embodiment, the login module 41 includes an input unit and an authentication unit, where the data unit is connected to the authentication unit, the input unit is used for inputting a login account by a user, the authentication unit is used for authenticating the login account, if the login account is correct, the login module enters the management subsystem 4, and if the login account is incorrect, a prompt is sent; the processing module 42 processes the running picture data, the electric quantity picture data transmission and the water consumption data to obtain processing data, and a user generates a control instruction through the generating module 43 based on the processing data.

The foregoing disclosure is merely illustrative of a preferred embodiment of a hydropower station base station apparatus based on data remote communication transmission, and it should be understood that the scope of the invention is not limited thereto, and those skilled in the art will understand that all or part of the procedures for implementing the embodiments described above are equivalent and still fall within the scope of the invention.

Claims (7)

1. A hydropower station base station device based on data remote communication transmission is characterized in that,

the system comprises a video monitoring subsystem, a flow detection subsystem, a collecting subsystem, a management subsystem and a unit control subsystem, wherein the video monitoring subsystem and the flow detection subsystem are respectively connected with the collecting subsystem, and the collecting subsystem and the unit control subsystem are respectively connected with the management subsystem;

the video monitoring subsystem is used for monitoring the hydropower station and sending running picture data and electric quantity picture data to the collecting subsystem;

the flow detection subsystem is used for detecting and managing water consumption data of the hydropower station;

the collecting subsystem is used for collecting the running picture data, the electric quantity picture data transmission and the water consumption data and transmitting the running picture data, the electric quantity picture data transmission and the water consumption data to the management subsystem;

the management subsystem is used for logging in by a user and generating a control instruction based on the running picture data, the electric quantity picture data transmission and the water consumption data;

and the unit control subsystem is used for controlling and managing the unit based on the control instruction.

2. A hydropower station base station device based on data telecommunication transmission according to claim 1, wherein,

the video monitoring subsystem comprises an operation picture monitoring module, an electric quantity picture monitoring module and a sending module, wherein the operation picture monitoring module and the electric quantity picture monitoring module are respectively connected with the sending module;

the running picture monitoring module is used for monitoring running pictures of the hydropower station to obtain running picture data;

the electric quantity picture monitoring module is used for monitoring an electric quantity picture in a hydropower station to obtain electric quantity picture data;

and the sending module is used for sending the running picture data and the electric quantity picture data to the collecting subsystem.

3. A hydropower station base station device based on data telecommunication transmission according to claim 2, wherein,

the flow detection subsystem comprises an administrator module, a monitoring module, a setting module and a data management module, wherein the administrator module is respectively connected with the monitoring module, the setting module and the data management module, and the data management module is connected with the monitoring module;

the manager module is used for managing the monitoring module, the setting module and the data management module by a manager;

the monitoring module is used for detecting the water consumption of the hydropower station to obtain water consumption data;

the setting module is used for setting communication and parameters;

the data management module is used for managing the water consumption data.

4. A hydropower station base station device based on data telecommunication transmission according to claim 3, wherein,

the data management module comprises a statistics unit, a summarizing unit, a storage unit and a query unit, wherein the statistics unit, the summarizing unit, the storage unit and the query unit are sequentially connected;

the statistics unit is used for carrying out statistics on the water consumption data to obtain statistics data;

the summarizing unit is used for summarizing the statistical data to obtain summarized data;

the storage unit is used for carrying out marked storage on the assembly data;

the inquiring unit is used for inquiring the target data in the storage unit.

5. A hydropower station base station device based on data remote communication transmission according to claim 4, wherein,

the storage unit comprises an identification subunit, a marking subunit and a storage subunit, and the identification subunit, the marking subunit and the storage subunit are sequentially connected;

the identification subunit is used for carrying out identification extraction on the summarized data to obtain characteristic data;

the marking subunit marks the total data based on the characteristic data;

and the storage subunit stores and backs up the marked summarized data.

6. A hydropower station base station device based on data remote communication transmission according to claim 5, wherein,

the unit control subsystem comprises a unit control module, a unit simulation module, a unit detection module and a unit speed regulation monitoring module, wherein the unit control module is respectively connected with the unit simulation module, the unit detection module and the unit speed regulation monitoring module;

the unit control module is used for controlling the unit simulation module, the unit detection module and the unit speed regulation monitoring module based on control instructions;

the unit simulation module is used for simulating the running state of the unit;

the unit detection module is used for detecting the unit in real time and sending out prompts based on unit detection data;

and the unit speed regulation monitoring module is used for carrying out speed regulation monitoring on the unit.

7. A hydropower station base station device based on data remote communication transmission according to claim 6, wherein,

the unit detection module comprises a detection unit and a prompting unit, and the detection unit and the prompting unit are sequentially connected;

the detection unit is used for detecting the unit to obtain unit detection data;

and the prompting unit is used for sending out prompts based on the unit detection data.