CN215672559U - Intelligent monitoring disk system applied to wind power centralized control center - Google Patents

Abstract

The utility model provides a be applied to wind-powered electricity generation centralized control center's intelligent prison dish system, including unit Scada data acquisition device, Scada host computer and display, unit Scada data acquisition device is connected with the Scada host computer, and the Scada host computer is connected with the display, and the system includes: the monitoring device comprises a monitoring camera, an image recognition unit, a signal storage unit, a signal processing unit and an alarm unit; the monitoring disk camera is arranged at an observation point of the display and is connected with the image recognition unit; the image recognition unit is connected with the signal storage unit; the signal processing unit is connected with the signal storage unit; the signal processing unit is connected with the alarm unit. The intelligent monitoring system can reduce the manual monitoring time, so that personnel can put into other more efficient work, and the human resource cost is reduced; on the other hand, the safety risk of equipment caused by human negligence can be reduced, and intelligent alarm of a centralized control center and unattended operation of a wind farm are realized.

Description

Intelligent monitoring disk system applied to wind power centralized control center

Technical Field

The utility model relates to the technical field of wind power centralized control centers, in particular to an intelligent monitoring disk system applied to a wind power centralized control center.

Background

The carbon peak reaching and carbon neutral targets indicate that the optimization and adjustment of the energy structure are accelerated, the construction of the wind power centralized control center is an important means for improving the intensive management of new energy wind power, and all new energy enterprises vigorously promote the construction of the wind power centralized control center. With the continuous access of the wind power plant, the operation duty work of the centralized control center is continuously increased, so that the problem that the abnormal alarm of the equipment is easily found by personnel due to other work is easily caused, and the safety risk of the equipment is increased; now, in order to reduce the routine work of operators, an intelligent system is urgently needed to replace manpower to monitor for 24 hours, and the operators are put into higher-level data analysis.

Therefore, there is a need for an intelligent monitoring system capable of realizing manual and intelligent dual-security of the device, so as to realize intelligent alarm of the centralized control center and unattended operation of the wind farm.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an intelligent monitoring system applied to a wind power centralized control center, which can reduce manual monitoring time, enable personnel to put into other more efficient work and reduce the cost of human resources on one hand; on the other hand, the safety risk of equipment caused by human negligence can be reduced, and intelligent alarm of a centralized control center and unattended operation of a wind farm are realized.

The embodiment of the utility model is realized by the following technical scheme: an intelligent monitoring system applied to a wind power centralized control center comprises a set Scada data acquisition device, a Scada host and a display, wherein the set Scada data acquisition device is connected with the Scada host, the Scada host is connected with the display,

the system comprises: the monitoring device comprises a monitoring camera, an image recognition unit, a signal storage unit, a signal processing unit and an alarm unit;

the monitoring disc camera is arranged at an observation point of the display and is connected with the image recognition unit;

the image recognition unit is connected with the signal storage unit and used for converting interface information into a keyword signal and uploading the keyword signal to the signal storage unit;

the signal processing unit is connected with the signal storage unit and used for judging whether the unit is abnormal or not according to the keyword signal; the signal processing unit is connected with the alarm unit.

According to a preferred embodiment, the monitoring disc cameras are provided with a plurality of monitoring disc cameras, and the monitoring disc cameras are respectively arranged at observation points of the display corresponding to the remote signaling alarm interface, the booster station main wiring diagram and the fan matrix interface.

Further, the signal processing unit comprises a signal presetting module, the signal presetting module is used for presetting a signal abnormity threshold value, and the preset signal abnormity threshold value comprises equipment remote signaling, a fan state and a remote sensing threshold value.

Further, the signal storage unit comprises a signal management module, and the signal management module is used for arranging and storing three types of data of equipment remote signaling, fan state and remote measurement according to time sequence and classifying the data.

Further, the system also comprises an automatic screen switching unit, and the automatic screen switching unit is connected with the Scada host;

the automatic screen switching unit is used for presetting the duration time of the display interface.

Further, the image recognition unit comprises a self-learning module,

the self-learning module is used for comparing and identifying interface information with a stored simulation sample according to the convolution model and outputting a keyword signal, wherein the keyword signal is a text or digital signal.

Furthermore, the system also comprises a mobile terminal connected with the alarm unit, wherein the mobile terminal adopts one or more of a mobile phone, a computer or a Pad which can interact with the alarm unit.

Furthermore, the monitoring camera adopts a camera with functions of automatically adjusting the shooting angle and automatically adjusting the focal length.

The technical scheme of the embodiment of the utility model at least has the following advantages and beneficial effects: on one hand, the intelligent monitoring system provided by the utility model can reduce the manual monitoring time, so that personnel can be put into other more efficient work, and the human resource cost is reduced; on the other hand, the safety risk of equipment caused by human negligence can be reduced, and intelligent alarm of a centralized control center and unattended operation of a wind farm are realized.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent disk monitoring system provided in embodiment 1 of the present invention;

fig. 2 is a schematic block diagram of an intelligent disk monitoring system provided in embodiment 1 of the present invention;

icon: 100-monitoring camera, 200-image recognition unit, 210-self-learning module, 300-signal storage unit, 310-signal management module, 400-signal processing unit, 410-signal presetting module, 500-alarm unit, 600-mobile terminal, 700-unit Scada data acquisition device, 800-Scada host and 900-display.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Example 1

Referring to fig. 1 and fig. 2, fig. 1 is a schematic structural diagram of an intelligent monitoring system provided in embodiment 1 of the present invention; fig. 2 is a schematic block diagram of an intelligent disk monitoring system provided in embodiment 1 of the present invention.

It should be noted that, with continuous access of a wind farm, the centralized control center is continuously increasing in operation work on duty, so that the problem that personnel do not find abnormal alarm of equipment in time due to other work and the safety risk of the equipment is increased is easy to occur. Therefore, the embodiment of the utility model provides an intelligent monitoring system applied to a wind power centralized control center. The specific contents are as follows:

an intelligent monitoring system applied to a wind power centralized control center comprises a set Scada data acquisition device 700, a Scada host 800 and a display 900, wherein the set Scada data acquisition device 700 is connected with the Scada host 800 and is used for acquiring state data of a wind power set such as a booster station, a fan and the like and uploading the state data to the Scada host 800; the Scada host 800 is connected to the display 900, so that the state information of the wind turbine is displayed.

Specifically, the system comprises: the monitoring camera 100, the image recognition unit 200, the signal storage unit 300, the signal processing unit 400 and the alarm unit 500;

in this embodiment, the monitoring camera 100 is disposed at an observation point of the display 900, and is used to collect interface information of the display 900, so as to replace manual monitoring; optionally, a plurality of monitoring cameras 100 are respectively arranged at observation points where the display 900 corresponds to the remote signaling alarm interface, the booster station main wiring diagram and the fan matrix interface; respectively used for collecting interface information of different interfaces.

The monitoring camera 100 is connected with the image recognition unit 200, and is used for sending the acquired interface information to the image recognition unit 200, and recognizing the interface information through the image recognition unit 200; the image recognition unit 200 is connected to the signal storage unit 300, and is configured to convert the interface information into a keyword signal and upload the keyword signal to the signal storage unit 300.

Specifically, the image recognition unit 200 of the present embodiment includes a self-learning module 210, where the self-learning module 210 is configured to compare the interface information with the stored analog sample according to the convolution model, recognize and output a keyword signal, where the keyword signal is a text or a digital signal; with the above structure of the present embodiment, on one hand, the memory pressure of the signal storage unit 300 can be relieved by converting the interface information into text or digital signals; on the other hand, the efficiency of analyzing the keyword signals subsequently can be improved by restoring basic character and digital information of remote signaling, fan state and remote measurement.

Further, the signal storage unit 300 includes a signal management module 310, and the signal management module 310 is configured to arrange and store the three types of data, i.e., the equipment telecommand, the fan status, and the telemetry, in chronological order. It should be noted that the device remote signaling of the embodiment includes a switch SOE signal, a communication device alarm, a channel alarm, a dc power supply alarm, and the like, and the device remote signaling identifies a text; the fan state comprises off-line, fault, maintenance, operation and standby, and the fan state identifies the color; the telemetry threshold identifies a number.

The signal processing unit 400 is connected to the signal storage unit 300, and is configured to determine whether the unit is abnormal according to the keyword signal; specifically, the signal processing unit 400 includes a signal presetting module 410, where the signal presetting module 410 is configured to preset a signal abnormal threshold, and the preset signal abnormal threshold includes an equipment remote signaling, a fan state, and a remote sensing threshold. It should be noted that, after the keyword signal is uploaded to the signal storage unit 300, the signal storage unit 300 performs classified storage processing on three types of data, namely, the device remote signaling data, the fan status data and the remote sensing data, and sequentially outputs signals to the signal processor according to the uploading time.

Further, the signal processing unit 400 is connected with an alarm unit 500; in particular, the method comprises the following steps of,

the signal processing module compares and analyzes the remote signaling abnormal signal, the fan state and the remote sensing threshold value preset by the signal presetting module 410 with the keyword signal input by the signal storage unit 300, and sends an alarm prompt to the alarm unit 500 to alarm for an abnormality when the abnormality is found.

In the embodiment, the alarm unit 500 is connected to the mobile terminal 600, wherein the mobile terminal 600 employs one or more of a mobile phone, a computer or a Pad capable of interacting with the alarm unit 500. When the analysis result of the keyword signal shows abnormality, for example, the states of the booster station and the fan are abnormal, the alarm unit 500 automatically sends alarm information to the mobile terminal 600 to notify the attendant.

Further, the system of this embodiment further includes an automatic screen switching unit, where the automatic screen switching unit is connected to the Scada host 800, and the automatic screen switching unit is used to preset the duration time of the interface of the display 900;

specifically, the automatic screen switching unit is configured to set a duration of the interface of the display 900 according to the recognition frequency of the image recognition unit 200, and switch the interface to the latest moment after the preset time, so that the surveillance camera 100 can capture the latest interface information in the preset time in time.

Further, in order to ensure the image capturing effect and integrity of the surveillance camera 100, the surveillance camera 100 of the present embodiment adopts a camera having functions of automatically adjusting the shooting angle and automatically adjusting the focal length.

In conclusion, the intelligent monitoring system provided by the utility model can reduce the manual monitoring time, so that personnel can put into other more efficient work, and the human resource cost is reduced; on the other hand, the safety risk of equipment caused by human negligence can be reduced, and intelligent alarm of a centralized control center and unattended operation of a wind farm are realized.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. An intelligent monitoring system applied to a wind power centralized control center comprises a set Scada data acquisition device (700), a Scada host (800) and a display (900), wherein the set Scada data acquisition device (700) is connected with the Scada host (800), the Scada host (800) is connected with the display (900),

the system comprises: the monitoring disc camera (100), the image recognition unit (200), the signal storage unit (300), the signal processing unit (400) and the alarm unit (500);

the monitoring disc camera (100) is arranged at an observation point of the display (900), and the monitoring disc camera (100) is connected with the image recognition unit (200);

the image recognition unit (200) is connected with the signal storage unit (300) and used for converting interface information into a keyword signal and uploading the keyword signal to the signal storage unit (300);

the signal processing unit (400) is connected with the signal storage unit (300) and used for judging whether the unit is abnormal or not according to the keyword signal; the signal processing unit (400) is connected with the alarm unit (500).

2. The intelligent monitoring system applied to the wind power centralized control center according to claim 1, wherein a plurality of monitoring cameras (100) are respectively arranged at observation points of the display (900) corresponding to the remote signaling alarm interface, the booster station main wiring diagram and the fan matrix interface.

3. The intelligent monitoring system applied to the wind power centralized control center according to claim 2, wherein the signal processing unit (400) comprises a signal presetting module (410), the signal presetting module (410) is used for presetting a signal abnormity threshold value, and the preset signal abnormity threshold value comprises equipment remote signaling, a fan state and a remote measuring threshold value.

4. The intelligent monitoring system applied to the wind power centralized control center according to claim 3, wherein the signal storage unit (300) comprises a signal management module (310), and the signal management module (310) is used for arranging and classifying the three types of data of equipment telecommand, fan state and telemetering according to chronological order.

5. The intelligent monitoring system applied to the wind power centralized control center according to claim 1, further comprising an automatic screen switching unit, wherein the automatic screen switching unit is connected with the Scada host (800);

the automatic screen switching unit is used for presetting the interface duration of the display (900).

6. The intelligent monitoring system applied to the wind power centralized control center according to claim 1, wherein the image recognition unit (200) comprises a self-learning module (210),

the self-learning module (210) is used for comparing the interface information with the stored simulation samples according to the convolution model, identifying and outputting a keyword signal, wherein the keyword signal is a text or digital signal.

7. The intelligent monitoring system applied to the wind power centralized control center according to claim 1, further comprising a mobile terminal (600) connected to the alarm unit (500), wherein the mobile terminal (600) adopts one or more of a mobile phone, a computer or a Pad capable of interacting with the alarm unit (500) in information.

8. The intelligent monitoring system applied to the wind power centralized control center according to claim 1, wherein the monitoring camera (100) adopts a camera with functions of automatically adjusting a shooting angle and automatically adjusting a focal length.

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