CN208651052U - Wind turbines In-service testing device - Google Patents

Abstract

The utility model relates to the improvement of Wind turbines power generation performance supplemental characteristic processing unit structure, especially Wind turbines In-service testing device, it is located on the position below impeller outside tower and the first lateral damper and wind speed and direction detector is installed, temperature sensor, PM2.5 detector, humidity sensor, baroceptor, first wireless transceiver and the first ball-shaped camera are installed on the first lateral damper, the second lateral damper is installed in nacelle top outer surface, wireless network card and GPRS wireless data transmission module, second wireless transceiver and the second ball-shaped camera are installed on the second lateral damper, vibration detecting sensor is fixedly mounted in cabin, current sensor and the equal engagement sleeves of voltage sensor are on electric power output insulation cable；The respective wired electrical connection controller of all the sensors and detector.The utility model more systematic can comprehensively acquire all wind-powered electricity generation physical parametric datas relevant to Wind turbines running of wind generating set state.

Description

Wind turbines In-service testing device

Technical field

The utility model relates to the improvement of Wind turbines power generation performance supplemental characteristic processing unit structure, especially wind turbine Group In-service testing device.

Background technique

It is currently used for comprehensive analysis and detects the Data Analysis Services apparatus structure of Wind turbines power generation supplemental characteristic still Also really unmature, structure is perfect not to the utmost, does not sufficiently acquire relevant environmental parameter by sensor and detector, therefore, It is unable to system and comprehensively detects Wind turbines power generation performance, it is pre- can not effectively to solve horizontal shaft type wind-driven generator failure comprehensively The technical issues of survey.

Utility model content

The purpose of this utility model is to provide a kind of Wind turbines In-service testing devices, and function set degree is higher, knot Structure connection laying design is more reasonable, more systematic can comprehensively acquire relevant to Wind turbines running of wind generating set state all Wind-powered electricity generation physical parametric data facilitates wireless correspondent entities server and cloud computing platform (artificial intelligence), can assisting wind generating equipment Inspection personnel can full forecast water after the analysis to wind-powered electricity generation physical parametric data refering to property server and cloud computing platform The electricity generation efficiency of flat axle type wind driven generator, power generating quality, potential technology failure and electricity is exported to horizontal shaft type wind-driven generator Power is deployed.

Purpose of the utility model is realized as follows: a kind of Wind turbines In-service testing device, in horizontal axis wind It is located on the position below the impeller of horizontal shaft type wind-driven generator outside the tower of generator and the first lateral damper is installed And wind speed and direction detector, temperature sensor, PM2.5 detector, humidity sensor, baroceptor, wind speed and direction therein Detector is set on the side positive windward of tower, and the first wireless transceiver and the first ball are installed on the first lateral damper Type video camera, camera lens that the first ball-shaped camera has itself mutually should be able to by horizontally rotate or vertically rotate in a manner of pass through replacement Shooting angle drivenly is imaged impeller, wheel hub and the cabin in horizontal shaft type wind-driven generator, in horizontal axis wind The nacelle top outer surface of generator is installed with the second lateral damper, wireless network card and GPRS wireless data transmission module, second Second wireless transceiver and the second ball-shaped camera, the camera lens that the second ball-shaped camera has itself are installed on lateral damper Mutually should be able to by horizontally rotate or vertically rotate in a manner of by replacement shooting angle drivenly in horizontal shaft type wind-driven generator Impeller, wheel hub and cabin be imaged, vibration detecting sensor is fixedly mounted in cabin, in horizontal shaft type wind-driven generator tower Current sensor and voltage sensor are installed in cylinder, current sensor and the equal engagement sleeves of voltage sensor are mounted in draws out of cabin Enter tower and is passed down through on the electric power output insulation cable of tower；First ball-shaped camera is with mutual with the first wireless transceiver The mode of communication wired the first wireless transceiver of electrical connection, the second ball-shaped camera with the second wireless transceiver to be in communication with each other Mode is electrically connected the second wireless transceiver, the first wireless transceiver and the second wireless transceiver respectively with wireless network card phase intercommunication The mode wireless of letter is electrically connected wireless network card, wireless network card, solid-state memory and GPRS wireless data transmission module respectively with control The wired electrical connection controller of the mode that device is in communication with each other, vibration detecting sensor, current sensor, voltage sensor, wind speed and wind To detector, temperature sensor, PM2.5 detector, humidity sensor, baroceptor respectively with the mould of one-way communication controller The wired electrical connection controller of formula.

It is practical at this after structure of all components of the utility model in horizontal shaft type wind-driven generator lays completion It is novel without matched any software is installed in the case where, only need to by connection debugging can be activated carry out it is in-service Work is detected, to be acquired to horizontal shaft type wind-driven generator related data comprehensively.

First ball-shaped camera will be overturn by the space of itself camera lens from different skies simultaneously from the second ball-shaped camera Between impeller in the collected horizontal shaft type wind-driven generator of position real-time multi-angle, wheel hub and cabin image data pass through it is each From wireless transceiver and wireless network card wirelessly successively wirelessly passed through corresponding wireless transceiver and wireless network card Send to controller, vibration detecting sensor, current sensor, voltage sensor, wind speed and direction detector, temperature sensor, PM2.5 detector, humidity sensor and baroceptor will respectively correspond to collected horizontal shaft type wind-driven generator cabin vibration Dynamic frequency data, the current data of horizontal shaft type wind-driven generator output power, horizontal shaft type wind-driven generator output power Voltage data, the wind speed and direction data in single horizontal shaft type wind-driven generator location, diameter are micro- equal to or more than 2.5 microns The aerial content concn data of small particle, humidity data and barometric information is wired is sent to controller, controller will connect The collected physical parametric data of image data and detector and sensor received by GPRS wireless data transmission module it is wireless on It reaches relevant property server and cloud computing platform (artificial intelligence) permanently stores, by property server and cloud computing platform (artificial intelligence) analysis result is fed back to wind power equipment inspection personnel and predicted after big data analysis to all data Assessment, at the same time, controller will receive detector and the collected physical parametric data of sensor is wired is sent to solid-state Memory temporarily stores, and carries out periodical storage and deletion, the solid-state of setting to physical parametric data by the solid-state memory period Memory purpose is to set in the wind-powered electricity generation for the horizontal shaft type wind-driven generator location work being assembled together with the utility model Standby maintenance personnel scene transfers temporarily instant cycle memory in time and stores up the physical parametric data in solid-state memory, facilitates wind-powered electricity generation Plant maintenance personnel by the physical parametric data transferred input relevant software analysis system to horizontal shaft type wind-driven generator into The assessment of row electricity generation efficiency.

Finely ground particles enter the bearing in horizontal shaft type wind-driven generator or it is located at day product in the gearbox in cabin The moon is tired, stealthy mechanical wear can be caused to the cores mechanical component such as bearing, gearbox, therefore, by PM2.5 detector to sky The Concentration Testing of gas finely ground particles facilitates wind power equipment maintenance personnel and maintains core in horizontal shaft type wind-driven generator in time Aligning mechanical component.

In addition to this, wind power equipment inspection personnel can also be given by property server or cloud computing platform (artificial intelligence) GPRS wireless data transmission module, which is sent, manipulates the nothing that the camera lens of the first ball-shaped camera and the second ball-shaped camera quantitatively rotates respectively Line, alternatively, property server or cloud computing platform (artificial intelligence) independently send manipulation the to GPRS wireless data transmission module The wireless instructions that the camera lens of one ball-shaped camera and the second ball-shaped camera quantitatively rotates respectively then pass through controller wireless The camera lens that network interface card directly controls corresponding ball-shaped camera is adjusted to impeller, wheel hub and the cabin in horizontal shaft type wind-driven generator Shooting angle, so as to ball-shaped camera as far as possible comprehensively to impeller, wheel hub and cabin carry out graph data acquisition.

The ball-shaped camera that the utility model uses has the technical performance shot with 1000 ~ 10000 frame per second, especially It can provide the impeller interior motion process per second of the high-speed rotation in horizontal shaft type wind-driven generator to wind power equipment inspection personnel In hundreds of frames dynamic image, wind power equipment inspection personnel examines the generally impeller that does not stall by naked eyes and rotating Metamorphosis in journey finds whether impeller the slight crack, the obvious shape distortion that influence its material mechanical performance occurs in time, helps Facilitate wind power equipment maintenance personnel to safeguard impeller in time, prevents the great power technology of potential horizontal shaft type wind-driven generator in advance The generation of failure.

It can be seen that the utility model can assisting wind generating equipment inspection personnel refering to property server and cloud computing platform The analysis to wind-powered electricity generation physical parametric data after can the electricity generation efficiency of full forecast horizontal shaft type wind-driven generator, power generating quality, Potential technology failure and horizontal shaft type wind-driven generator output power is deployed.

Detailed description of the invention

Fig. 1 is the hardware configuration connection schematic diagram of the utility model all components；

Fig. 2 is that installation site structure of the utility model members in horizontal shaft type wind-driven generator lays signal Figure.

Specific embodiment

A kind of Wind turbines In-service testing device, as shown in Fig. 2, at the outer position of tower 25 of horizontal shaft type wind-driven generator In being installed with the first lateral damper 24 and wind speed and direction detection on the position of the lower section of impeller 20 of horizontal shaft type wind-driven generator Instrument 12, temperature sensor 13, PM2.5 detector 14, humidity sensor 15, baroceptor 16, wind speed and direction detection therein Instrument 12 is set on the side positive windward of tower 25, and the first wireless transceiver 3 and are installed on the first lateral damper 24 One ball-shaped camera 4,23 phase of camera lens that the first ball-shaped camera 4 has itself should be able to by horizontally rotate or vertically rotate in a manner of Impeller 20, the wheel hub 21 in horizontal shaft type wind-driven generator are imaged with cabin 17 drivenly by replacement shooting angle, The second lateral damper 18, wireless network card 5 and GPRS are installed in 17 outer surface of cupular part of cabin of horizontal shaft type wind-driven generator Wireless data transmission module 11 is installed with the second wireless transceiver 2 and the second ball-shaped camera 1 on the second lateral damper 18, the 19 phase of camera lens that two ball-shaped cameras 1 have itself should be able to by horizontally rotate or vertically rotate in a manner of by replacement shooting angle Impeller 20, the wheel hub 21 in horizontal shaft type wind-driven generator are imaged with cabin 17 drivenly, are fixedly mounted in cabin 17 Vibration detecting sensor 6 installs current sensor 7 and voltage sensor 8 in horizontal shaft type wind-driven generator tower 25, electricity Flow sensor 7 and the equal engagement sleeves of voltage sensor 8 are mounted in the electric power for introducing tower 25 out of cabin 17 and being passed down through tower 25 It exports on insulation cable 22；As shown in Figure 1, the first ball-shaped camera 4 has with the mode being in communication with each other with the first wireless transceiver 3 Line is electrically connected the first wireless transceiver 3, and the second ball-shaped camera 1 is electrically connected with the mode being in communication with each other with the second wireless transceiver 2 Connect the second wireless transceiver 2, the first wireless transceiver 3 and the second wireless transceiver 2 with wireless network card 5 respectively to be in communication with each other Mode wireless be electrically connected wireless network card 5, wireless network card 5, solid-state memory 10 and GPRS wireless data transmission module 11 respectively with control The wired electrical connection controller 9 of the mode that device 9 processed is in communication with each other, vibration detecting sensor 6, current sensor 7, voltage sensor 8, Wind speed and direction detector 12, temperature sensor 13, PM2.5 detector 14, humidity sensor 15, baroceptor 16 are respectively with list To the wired electrical connection controller 9 of mode of communication controler 9.

Claims (1)

1. a kind of Wind turbines In-service testing device, it is characterised in that: be located at outside the tower of horizontal shaft type wind-driven generator First lateral damper and wind speed and direction detector, temperature are installed on the position below the impeller of horizontal shaft type wind-driven generator Sensor, PM2.5 detector, humidity sensor, baroceptor, wind speed and direction detector therein are set to tower windward On positive side, the first wireless transceiver and the first ball-shaped camera, the camera shooting of the first ball-type are installed on the first lateral damper Camera lens that machine itself has mutually should be able to by horizontally rotate or vertically rotate in a manner of by replacement shooting angle drivenly to level Impeller, wheel hub and cabin in axle type wind driven generator are imaged, in the nacelle top appearance of horizontal shaft type wind-driven generator Face is installed with the second lateral damper, wireless network card and GPRS wireless data transmission module, and is installed on the second lateral damper Two wireless transceivers and the second ball-shaped camera, the camera lens that the second ball-shaped camera has itself mutually should be able to be to horizontally rotate or hang down The mode directly rotated drivenly carries out impeller, wheel hub and the cabin in horizontal shaft type wind-driven generator by replacement shooting angle Imaging, vibration detecting sensor is fixedly mounted in cabin, installs current sensor in horizontal shaft type wind-driven generator tower And voltage sensor, current sensor and the equal engagement sleeves of voltage sensor are mounted in and introduce tower out of cabin and be passed down through tower Electric power output insulation cable on；First ball-shaped camera is electrically connected so that the mode being in communication with each other with the first wireless transceiver is wired First wireless transceiver, the second ball-shaped camera are electrically connected the second wireless receipts with the mode being in communication with each other with the second wireless transceiver Device is sent out, the first wireless transceiver is with the second wireless transceiver respectively to be electrically connected nothing with the mode wireless that wireless network card is in communication with each other Gauze card, wireless network card, solid-state memory and GPRS wireless data transmission module are respectively wired with the mode being in communication with each other with controller Be electrically connected controller, vibration detecting sensor, current sensor, voltage sensor, wind speed and direction detector, temperature sensor, PM2.5 detector, humidity sensor, baroceptor are respectively with the wired electrical connection controller of the mode of one-way communication controller.