CN114449017B - Wind power plant emergency communication command system - Google Patents

Abstract

The invention discloses an emergency communication command system of a wind farm, which comprises an emergency communication command control system, wherein a main controller is arranged on the emergency communication command control system, a communication system is arranged at one connecting end of the main controller, a voice system, a network system, a software system, a video system and a data transceiver are arranged on the communication system, a comprehensive networking system is arranged at the other connecting end of the communication system, an auxiliary system, a video monitoring system, an electrical system and an electric power monitoring system are respectively arranged at the other connecting end of the comprehensive networking system, and the emergency communication command control system has an emergency starting function on wind power generation equipment of the wind farm, so that the wind farm power equipment can maintain stable and efficient operation, and can monitor the wind farm power generation equipment in real time.

Description

Wind power plant emergency communication command system

Technical Field

The invention relates to the technical field of wind power plant emergency communication command systems, in particular to a wind power plant emergency communication command system.

Background

With the increasing proportion of the wind power generation capacity in the regional power grid, the novel challenges are brought to the safe and stable operation of the power system while the development opportunity is brought to the power system, most of grid-connected points of the wind power plant are at the tail end of the power grid, the wind power plant belongs to a weak power grid, the stability is poor, and once the power grid breaks down, the wind power plant fans are disconnected, so that huge losses are caused.

However, the wind farm communication system can not be normally used sometimes due to the severe environment, so that the real-time situation of the wind farm can not be known, and the technical scheme provides the wind farm emergency communication command system to ensure that the communication system of the wind farm can still be normally used under the severe environment.

Disclosure of Invention

The invention aims to provide a wind power plant emergency communication command system which is characterized in that a main controller is arranged on an emergency communication command control system, a communication system is arranged at one connecting end of the main controller, a voice system, a network system, a software system, a video system and a data transceiver are arranged on the communication system, a comprehensive networking system is arranged at the other connecting end of the communication system, an auxiliary system, a video monitoring system, an electrical system and a power monitoring system are respectively arranged at the other connecting end of the comprehensive networking system, and the emergency communication command control system has an emergency starting function on wind power generation equipment of a wind power plant, so that the wind power plant emergency communication command system can maintain stable and efficient operation and can monitor the wind power plant power generation equipment in real time.

In order to achieve the above purpose, the present invention provides the following technical solutions: the wind power plant emergency communication command system comprises an emergency communication command control system, wherein a main controller is arranged on the emergency communication command control system, a communication system is arranged at one connecting end of the main controller, the communication system comprises a voice system, a network system, a software system, a video system and a data transceiver, the voice system, the network system, the software system and the video system are mutually connected in parallel, and the voice system, the network system, the software system and the video system are respectively connected with the data transceiver;

the other connecting end of the communication system is provided with a comprehensive networking system, the other connecting end of the comprehensive networking system is provided with an auxiliary system, a video monitoring system, an electrical system and an electric power monitoring system,

the auxiliary system comprises a temperature control system, an air conditioning system, a lighting system, a working facility and a power supply facility, wherein the temperature control system, the air conditioning system, the lighting system, the working facility and the power supply facility are connected in parallel;

the video monitoring system comprises a video module, a light sensor, a dynamic capture module and an infrared sensor module, wherein the video module, the light sensor, the dynamic capture module and the infrared sensor module are connected in parallel;

the electric system comprises a power supply system, a power distribution system, a signal line system and an electromagnetic system, wherein the power supply system, the power distribution system, the signal line system and the electromagnetic system are mutually connected in parallel;

the power monitoring system comprises a wind power monitor, a wind direction monitor, a wind turbine generator motor detection system and an overpressure protector, wherein the wind power monitor, the wind direction monitor, the wind turbine generator motor detection system and the overpressure protector are connected in parallel.

Preferably, the main controller is provided with a touch display, a camera is arranged in the center of the upper part of the touch display, and a loudspeaker is arranged below the main controller.

Preferably, the comprehensive networking system is provided with a WIFI module, a 5G module, a monitor, a terminal and a high-frequency router.

Preferably, the temperature control system comprises a temperature sensor, a rectifier and a heating resistance wire, and the temperature sensor, the rectifier and the heating resistance wire are mutually connected in series.

Preferably, the air conditioning system is provided with a temperature sensor, a humidity sensor and a humidifying module, the temperature sensor and the humidity sensor are connected in parallel, and the temperature sensor and the humidity sensor are respectively connected with the humidifying module.

Preferably, the lighting system comprises a light sensor, a current controller and an on-off switch, and the light sensor, the current controller and the on-off switch are mutually connected in series.

Preferably, the wind turbine generator system motor detection system is provided with a generator, one end of the generator is provided with a power converter, one end of the power converter is provided with a terminal, a connecting end of the terminal is provided with a first current collector and a second current collector, the first current collector and the second current collector are mutually connected in parallel, a connecting end of the first current collector is provided with a yaw motor, a connecting end of the second current collector is provided with a pitch motor, and a connecting end of the terminal is provided with a fan controller.

Preferably, the power supply system is provided with a main power supply and a standby power supply, the main power supply and the standby power supply are connected in parallel, the main power supply is provided with a voltage stabilizing module, a connecting end of the voltage stabilizing module is provided with a current circuit and a voltage circuit, and the current circuit and the voltage circuit are connected in parallel.

Preferably, the control method of the wind farm emergency communication command system comprises the following steps:

step one: the video monitoring system, the electric system and the electric power monitoring system monitor the actual conditions of the wind field respectively, the electric system monitors the power supply, the power distribution and the signals of the wind field in real time, and the electric power monitoring system monitors the wind power, the wind direction and the voltage;

step two: the video monitoring system, the electrical system and the power monitoring system upload the monitored data to the comprehensive networking system in time, the comprehensive networking system converts the received data and uploads the converted data to a data transceiver of the communication system, and the data transceiver classifies the data and converts the classified data and uploads the classified data to the voice system, the network system, the software system and the video system respectively;

step three: the communication system uploads data to the main controller, the touch display on the main controller displays the detected data in real time, the main controller adjusts the current data, the adjusted data is uploaded to the comprehensive networking system through the communication system, and the data is uploaded to the auxiliary system, the video monitoring system, the electric system and the electric power monitoring system through the comprehensive networking system respectively, and the auxiliary system, the video monitoring system, the electric system and the electric power monitoring system are controlled respectively.

Compared with the prior art, the invention has the beneficial effects that:

(1) The main controller is provided with a touch display, a camera is arranged in the center above the touch display, a loudspeaker is arranged below the main controller, the system data of the wind power plant emergency communication command system can be regulated and controlled through the main controller, and meanwhile, the currently detected data can be checked at any time through the touch display on the main controller;

(2) The other connecting end of the comprehensive networking system is provided with an auxiliary system, a video monitoring system, an electric system and an electric power monitoring system, and the communication system converts and transmits detected data and regulation data made by the main controller to the system, so that the system has a central communication function;

(3) A fan controller is arranged at one connecting end of the terminal machine 33, a wind turbine generator motor detection system detects the wind direction and the wind speed, and the wind turbine generator motor detection system adjusts according to different wind directions, converts wind energy into electric energy in different modes, and maximizes wind power generation;

(4) The emergency communication command control system has an emergency starting function on wind power generation equipment of the wind power plant, so that the wind power plant can maintain stable and efficient operation, and meanwhile, the wind power generation equipment can be monitored in real time.

Drawings

FIG. 1 is a schematic diagram of an emergency communication command control system of the present invention;

FIG. 2 is a schematic diagram of a motor detection system of a wind turbine according to the present invention.

In the figure: 1. an emergency communication command control system; 2. a main controller; 3. a communication system; 4. a voice system; 5. a network system; 6. a software system; 7. a video system; 8. a data transceiver; 9. a comprehensive networking system; 10. an auxiliary system; 11. a video monitoring system; 12. an electrical system; 13. a power monitoring system; 14. a temperature control system; 15. an air conditioning system; 16. a lighting system; 17. a work facility; 18. a power supply facility; 19. a video module; 20. a light sensor; 21. a dynamic capture module; 22. an infrared sensing module; 23. a power supply system; 24. a power distribution system; 25. a signal line system; 26. an electromagnetic system; 27. a wind power monitor; 28. a wind direction monitor; 29. a motor detection system of the wind turbine generator; 30. an overpressure protector; 31. a generator; 32. a power converter; 33. a terminal; 34. a first current collector; 35. a second current collector; 36. a yaw motor; 37. a pitch motor; 38. and a fan controller.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-2, the present invention provides a technical solution: the wind power plant emergency communication command system comprises an emergency communication command control system 1, wherein a main controller 2 is arranged on the emergency communication command control system 1, a touch display is arranged on the main controller 2, a camera is arranged at the center of the upper part of the touch display, a loudspeaker is arranged below the main controller 2, system data regulation and control can be carried out on the wind power plant emergency communication command system through the main controller 2, and meanwhile, currently detected data can be checked at any time through the touch display on the main controller 2.

A communication system 3 is arranged at one connecting end of the main controller 2, the communication system 3 comprises a voice system 4, a network system 5, a software system 6, a video system 7 and a data transceiver 8, the voice system 4, the network system 5, the software system 6 and the video system 7 are connected in parallel, and the voice system 4, the network system 5, the software system 6 and the video system 7 are respectively connected with the data transceiver 8;

the other connecting end of the communication system 3 is provided with a comprehensive networking system 9, the comprehensive networking system 9 is provided with a WIFI module, a 5G module, a monitor, a terminal and a high-frequency router, the other connecting end of the comprehensive networking system 9 is provided with an auxiliary system 10, a video monitoring system 11, an electrical system 12 and a power monitoring system 13, and the communication system 3 converts and transmits detected data and regulation and control data made by the main controller 2 to the system, so that the communication system has a central communication function.

The auxiliary system 10 comprises a temperature control system 14, an air conditioning system 15, a lighting system 16, a working facility 17 and a power supply facility 18, wherein the temperature control system 14, the air conditioning system 15, the lighting system 16, the working facility 17 and the power supply facility 18 are mutually connected in parallel, the temperature control system 14 comprises a temperature sensor, a rectifier and a heating resistance wire, and the temperature sensor, the rectifier and the heating resistance wire are mutually connected in series.

The air conditioning system 15 is provided with a temperature sensor, a humidity sensor and a humidifying module, the temperature sensor and the humidity sensor are connected in parallel, and the temperature sensor and the humidity sensor are respectively connected with the humidifying module.

The video monitoring system 11 comprises a video module 19, a light sensor 20, a dynamic capture module 21 and an infrared sensor module 22, wherein the video module 19, the light sensor 20, the dynamic capture module 21 and the infrared sensor module 22 are mutually connected in parallel.

The lighting system 16 comprises a light sensor, a current controller and an on-off switch which are connected in series.

The electrical system 12 comprises a power supply system 23, a power distribution system 24, a signal line system 25 and an electromagnetic system 26, wherein the power supply system 23, the power distribution system 24, the signal line system 25 and the electromagnetic system 26 are connected in parallel;

the power monitoring system 13 comprises a wind power monitor 27, a wind direction monitor 28, a wind turbine generator motor detection system 29 and an overpressure protector 30, wherein the wind power monitor 27, the wind direction monitor 28, the wind turbine generator motor detection system 29 and the overpressure protector 30 are mutually connected in parallel.

The wind turbine generator system motor detecting system 29 is provided with a generator 31, one end of the generator 31 is provided with a power converter 32, one end of the power converter 32 is provided with a terminal 33, a connecting end of the terminal 33 is provided with a first current collector 34 and a second current collector 35, the first current collector 34 and the second current collector 35 are mutually connected in parallel, a connecting end of the first current collector 34 is provided with a yaw motor 36, a connecting end of the second current collector 35 is provided with a variable pitch motor 37, a connecting end of the terminal 33 is provided with a fan controller 38, the wind turbine generator system motor detecting system 29 detects wind direction and wind speed, and adjusts according to different wind directions, wind energy is converted into electric energy in different modes, and maximization of wind power generation is achieved.

The power supply system 23 is provided with a main power supply and a standby power supply which are connected in parallel, a voltage stabilizing module is arranged on the main power supply, a current circuit and a voltage circuit are arranged at a connecting end of the voltage stabilizing module, the current circuit and the voltage circuit are connected in parallel, and the system component modules which are applicable to the emergency communication command control system 1 are used in a model matching mode according to actual production requirements.

The control method of the wind power plant emergency communication command system comprises the following steps: the video monitoring system 11, the electrical system 12 and the power monitoring system 13 monitor actual conditions of the wind field respectively, the electrical system 12 monitors aspects of power supply, power distribution and signals of the wind field in real time, and the power monitoring system 13 monitors the wind power, the wind direction and the voltage.

The video monitoring system 11, the electrical system 12 and the electric power monitoring system 13 upload the monitored data to the comprehensive networking system 9 in time, the comprehensive networking system 9 converts the received data and then uploads the converted data to the data transceiver 8 of the communication system 3, and the data transceiver 8 classifies the data and then converts the data and uploads the data to the voice system 4, the network system 5, the software system 6 and the video system 7 respectively.

The communication system 3 uploads data to the main controller 2, the touch display on the main controller 2 displays the detected data in real time, the main controller 2 adjusts the current data, the adjusted data is uploaded to the comprehensive networking system 9 through the communication system 3, and then the comprehensive networking system 9 uploads the data to the auxiliary system 10, the video monitoring system 11, the electric system 12 and the electric power monitoring system 13 respectively, and the auxiliary system 10, the video monitoring system 11, the electric system 12 and the electric power monitoring system 13 are controlled respectively.

The emergency communication command control system has an emergency starting function on wind power generation equipment of the wind power plant, so that the wind power plant can maintain stable and efficient operation, and meanwhile, the wind power generation equipment can be monitored in real time.

In the description of the present application, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, merely to facilitate description of the present application and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a specific orientation, be configured and operated in a specific orientation, and are not to be construed as limiting the present application.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The control method of the wind power plant emergency communication command system comprises an emergency communication command control system (1), wherein a main controller (2) is arranged on the emergency communication command control system (1), a communication system (3) is arranged at a connection end of the main controller (2), the communication system (3) comprises a voice system (4), a network system (5), a software system (6), a video system (7) and a data transceiver (8), the voice system (4), the network system (5), the software system (6) and the video system (7) are connected in parallel, and the voice system (4), the network system (5), the software system (6) and the video system (7) are respectively connected with the data transceiver (8);

the other connecting end of the communication system (3) is provided with a comprehensive networking system (9), the other connecting end of the comprehensive networking system (9) is provided with an auxiliary system (10), a video monitoring system (11), an electrical system (12) and an electric power monitoring system (13),

the auxiliary system (10) comprises a temperature control system (14), an air conditioning system (15), a lighting system (16), a working facility (17) and a power supply facility (18), wherein the temperature control system (14), the air conditioning system (15), the lighting system (16), the working facility (17) and the power supply facility (18) are mutually connected in parallel;

the video monitoring system (11) comprises a video module (19), a light sensor (20), a dynamic capture module (21) and an infrared sensing module (22), wherein the video module (19), the light sensor (20), the dynamic capture module (21) and the infrared sensing module (22) are mutually connected in parallel;

the electrical system (12) comprises a power supply system (23), a power distribution system (24), a signal line system (25) and an electromagnetic system (26), wherein the power supply system (23), the power distribution system (24), the signal line system (25) and the electromagnetic system (26) are connected in parallel;

the power monitoring system (13) comprises a wind power monitor (27), a wind direction monitor (28), a wind turbine generator motor detection system (29) and an overpressure protector (30), wherein the wind power monitor (27), the wind direction monitor (28), the wind turbine generator motor detection system (29) and the overpressure protector (30) are mutually connected in parallel;

the control method comprises the following steps:

step one: the wind power monitoring system comprises a video monitoring system (11), an electric system (12) and an electric power monitoring system (13), wherein the video monitoring system (11), the electric system (12) and the electric power monitoring system (13) are used for respectively monitoring actual conditions of a wind field, the electric system (12) is used for monitoring aspects of power supply, power distribution and signals of the wind field in real time, and the electric power monitoring system (13) is used for monitoring the wind power, the wind direction and the voltage;

step two: the video monitoring system (11), the electrical system (12) and the electric power monitoring system (13) upload the monitored data to the comprehensive networking system (9) in time, the comprehensive networking system (9) converts the received data and uploads the converted data to the data transceiver (8) of the communication system (3), and the data transceiver (8) classifies the data and converts the classified data and uploads the classified data to the voice system (4), the network system (5), the software system (6) and the video system (7) respectively;

step three: the communication system (3) uploads data to the main controller (2), the touch display on the main controller (2) displays detected data in real time, the main controller (2) adjusts the current data, the adjusted data is uploaded to the comprehensive networking system (9) through the communication system (3), and the data is uploaded to the auxiliary system (10), the video monitoring system (11), the electrical system (12) and the power monitoring system (13) through the comprehensive networking system (9) respectively, and the auxiliary system (10), the video monitoring system (11), the electrical system (12) and the power monitoring system (13) are controlled respectively.

2. The control method of the wind farm emergency communication command system according to claim 1, wherein: the touch display is arranged on the main controller (2), the camera is arranged in the center of the upper part of the touch display, and the loudspeaker is arranged below the main controller (2).

3. The control method of the wind farm emergency communication command system according to claim 1, wherein: and the comprehensive networking system (9) is provided with a WIFI module, a 5G module, a monitor, a terminal machine and a high-frequency router.

4. The control method of the wind farm emergency communication command system according to claim 1, wherein: the temperature control system (14) comprises a temperature sensor, a rectifier and a heating resistance wire, wherein the temperature sensor, the rectifier and the heating resistance wire are mutually connected in series.

5. The control method of the wind farm emergency communication command system according to claim 1, wherein: the air conditioning system (15) is provided with a temperature sensor, a humidity sensor and a humidifying module, wherein the temperature sensor and the humidity sensor are connected in parallel, and the temperature sensor and the humidity sensor are respectively connected with the humidifying module.

6. The control method of the wind farm emergency communication command system according to claim 1, wherein: the lighting system (16) comprises a light sensor, a current controller and an on-off switch which are connected in series.

7. The control method of the wind farm emergency communication command system according to claim 1, wherein: be equipped with generator (31) on wind turbine generator system motor detecting system (29), the one end of generator (31) is equipped with power converter (32), and the one end of power converter (32) is equipped with terminal machine (33), a connecting end of terminal machine (33) is equipped with first current collector (34), second current collector (35), and first current collector (34) are parallelly connected each other with second current collector (35), a connecting end of first current collector (34) is equipped with yaw motor (36), and a connecting end of second current collector (35) is equipped with variable pitch motor (37), a connecting end of terminal machine (33) is equipped with fan controller (38).

8. The control method of the wind farm emergency communication command system according to claim 1, wherein: the power supply system (23) is provided with a main power supply and a standby power supply which are connected in parallel, the main power supply is provided with a voltage stabilizing module, and a current circuit and a voltage circuit are arranged at one connecting end of the voltage stabilizing module and are connected in parallel.