CN208547349U - A kind of device for monitoring inclination and system of electric power line pole tower - Google Patents
A kind of device for monitoring inclination and system of electric power line pole tower Download PDFInfo
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- CN208547349U CN208547349U CN201821099514.7U CN201821099514U CN208547349U CN 208547349 U CN208547349 U CN 208547349U CN 201821099514 U CN201821099514 U CN 201821099514U CN 208547349 U CN208547349 U CN 208547349U
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Abstract
The utility model relates to electric power line pole tower monitoring technical fields, specifically disclose a kind of device for monitoring inclination of electric power line pole tower, including the mainframe box being mounted on shaft tower, and it is mounted on the detection device outside mainframe box, mainframe box includes cabinet, and is installed on main control unit, Power Management Unit, the wireless communication unit of box house;Detection device includes at least one obliquity sensor unit and at least one laser displacement sensor unit.The device for monitoring inclination of the utility model selects obliquity sensor unit to detect with laser displacement sensor unit to shaft tower, is capable of detecting when the slight change of shaft tower.The invention also discloses a kind of inclinations of electric power line pole tower to monitor system, including multiple above-mentioned device for monitoring inclination, further includes base station and background server.In the inclination monitoring system of the utility model, background server establishes communication network by base station and numerous device for monitoring inclination, to realize the state for monitoring a wide range of shaft tower in real time.
Description
Technical field
The utility model relates to electric power line pole tower monitoring technical field more particularly to a kind of inclinations of electric power line pole tower
Monitoring device and system.
Background technique
China territory is vast, complex geologic conditions multiplicity.Because of complicated geology, the transmission line of electricity in China is essentially all use
Overhead transmission line, using shaft tower by the construction of line in the sky, under these conditions, overhead transmission line need bear self weight, wind-force,
The erosion of the pernicious gases such as the effect of the mechanical forces such as severe snow and ice and snow and dust storm, service condition very severe.It is passed through in transmission line of electricity
When crossing the unfavorable geologies areas such as coal mining area, weak soil matter area, hillside, desert region, riverbed area, in natural environment
Or under extraneous conditioning, other phenomenons such as sliding, inclination, sedimentation can occur for pole and tower foundation, to cause the change of shaft tower
Shape, inclination and bury various accident potential, influence route normal operation.It is possible that the shaft tower broken string of falling tower, causes when serious
Transmission line of electricity is at a standstill, seriously affects the normal life of people, while bringing to Utilities Electric Co. and relevant departments, people huge
Economic loss.
At the initial stage that shaft tower tilt phenomenon occurs, Utilities Electric Co. patrol officer is difficult to observe with the naked eye subtle variation,
To find to bury accident potential in time.So there is an urgent need to intelligentized transmission lines of electricity to supervise online for these high-risk geological provinces
It surveys device real-time monitoring and accident analysis is carried out to shaft tower and alarm, break down hidden danger as early as possible, excludes line fault in time, can be with
Greatly improve the stability of transmission line of electricity operation.
Utility model content
The case where for the inclination of shaft tower in the prior art discovery not in time, the utility model provides a kind of electric power line pole tower
Device for monitoring inclination and system.
A kind of device for monitoring inclination of electric power line pole tower, device for monitoring inclination include the mainframe box being mounted on shaft tower,
And it is mounted on the detection device outside mainframe box, detection device is electrically connected with mainframe box, in which:
Mainframe box includes cabinet, and is installed on main control unit, Power Management Unit, the wireless telecommunications list of box house
Member;Power Management Unit is electrically connected with main control unit, wireless communication unit, and main control unit is electrically connected with wireless communication unit;It is main
Control unit is electrically connected with detection device;Power Management Unit is electrically connected with detection device;
Detection device includes at least one obliquity sensor unit and at least one laser displacement sensor unit;Inclination angle
Sensor unit is electrically connected with main control unit respectively with laser displacement sensor unit;Obliquity sensor unit is mounted on shaft tower
On;Laser displacement sensor unit is mounted at the column foot of shaft tower.
Further, Power Management Unit includes battery and charge-discharge circuit, in which: battery passes through charge and discharge electricity
Road is electrically connected with main control unit, wireless communication unit, detection device.
It further, further include the solar panel being installed on outside mainframe box, solar panel and charge and discharge electricity
Road electrical connection, to charge the battery.
Further, detection device further includes at least one temperature sensor unit being mounted on shaft tower and at least one
Humidity sensor unit, charge-discharge circuit are electrically connected with temperature sensor unit, humidity sensor unit.
Further, detection device further includes at least one the air velocity transducer unit being mounted on shaft tower and at least one
Wind transducer unit, charge-discharge circuit are electrically connected with air velocity transducer unit, wind transducer unit.
Further, detection device includes four laser displacement sensor units, four laser displacement sensor units point
It Wei Yu not be at four column foots of shaft tower, and respectively from the distance between four different orientation measurements and column foot.
Further, obliquity sensor unit, temperature sensor unit, humidity sensor unit, air velocity transducer unit,
Wind transducer unit is fixedly mounted on cross arm of tower by L-type fixture.
Further, cabinet and solar panel are mounted on shaft tower platform.
Further, obliquity sensor unit is double-shaft tilt angle sensor.
The device for monitoring inclination of the electric power line pole tower of the utility model selects obliquity sensor unit and laser displacement to pass
Sensor cell detects shaft tower, can accurate detection go out the slight change of shaft tower, by main control unit to pair of data
It can show whether shaft tower is tilted or moved than analysis, staff can also make early reply for analysis result and arrange
It applies, shaft tower is avoided to tilt or move for a long time and deformation or even the serious consequence of tower occurs.
A kind of inclination monitoring system of electric power line pole tower, the inclination including multiple above-mentioned electric power line pole towers monitor dress
It sets, further includes base station and background server, in which: the environmental information of device for monitoring inclination acquisition shaft tower is simultaneously sent to base station,
Environmental information is sent to background server by base station, and background server is analyzed and processed environmental information;And/or backstage takes
Control instruction is sent to base station by business device, and control instruction is sent to device for monitoring inclination by base station, and device for monitoring inclination executes control
System instruction.
The inclination of the electric power line pole tower of the utility model monitors system, and background server passes through base station and numerous inclinations
Monitoring device establishes communication network, to realize the state for monitoring a wide range of shaft tower in real time, it is ensured that the shaft tower in the region tilts
Counter-measure is taken when trend early.
Detailed description of the invention
Illustrate the utility model embodiment or technical solution in the prior art in order to clearer, it below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it is clear that, the accompanying drawings in the following description is only
It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor
Under, it can also be obtained according to these attached drawings other attached drawings.
Fig. 1 is a kind of device for monitoring inclination module composition figure (one) of electric power line pole tower of the utility model embodiment;
Fig. 2 is a kind of device for monitoring inclination module composition figure (two) of electric power line pole tower of the utility model embodiment;
Fig. 3 is a kind of device for monitoring inclination module composition figure (three) of electric power line pole tower of the utility model embodiment;
Fig. 4 is a kind of device for monitoring inclination module composition figure (four) of electric power line pole tower of the utility model embodiment;
Fig. 5 is a kind of device for monitoring inclination module composition figure (five) of electric power line pole tower of the utility model embodiment;
Fig. 6 is a kind of device for monitoring inclination module composition figure (six) of electric power line pole tower of the utility model embodiment;
Fig. 7 is a kind of device for monitoring inclination module composition figure (seven) of electric power line pole tower of the utility model embodiment;
Fig. 8 is laser range sensor in a kind of device for monitoring inclination of electric power line pole tower of the utility model embodiment
The schematic view of the mounting position of unit;
Fig. 9 is the structure of L-type fixture in a kind of device for monitoring inclination of electric power line pole tower of the utility model embodiment
Design drawing;
Figure 10 is that a kind of module of the inclination monitoring system of electric power line pole tower of the utility model embodiment forms figure;
Wherein: 1- mainframe box, 101- main control unit, 102- Power Management Unit, 1021- battery, 1022- charge and discharge
Circuit, 103- wireless communication unit, 2- detection device, 201- obliquity sensor unit, 202- laser displacement sensor unit
203- temperature sensor unit, 204- humidity sensor unit, 205- air velocity transducer unit, 206- wind transducer unit,
3- solar panel, 4- angle steel, 5-L type fixture, the first L-type of 501- component, the second L-type of 502- component, 503- screw,
504- nut, 505- screw set, the base station 6-, 7- background server.
Specific embodiment
Below in conjunction with the attached drawing in the utility model, to the technical scheme in the embodiment of the utility model carry out it is clear,
Complete description, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole implementation
Example.Based on the embodiments of the present invention, those skilled in the art is without making creative work
All other embodiment obtained, belongs to the protection scope of the utility model.
The utility model provides a kind of device for monitoring inclination of electric power line pole tower, the device for monitoring inclination packet of the present embodiment
The mainframe box 1 being mounted on shaft tower is included, and is mounted on the detection device 2 outside mainframe box 1, as shown in Figure 1, detection device 2
It is electrically connected with mainframe box 1, detection device 2 is used to detect the ambient condition information of shaft tower, and environmental information is sent to mainframe box 1
It is further processed, meanwhile, mainframe box 1 can also control opening and shutting off for detection device 2, carry out selectively data and examine
It surveys.
As shown in Fig. 2, the mainframe box of the present embodiment includes cabinet (not shown), and it is installed on the master of box house
Control unit 101, Power Management Unit 102, wireless communication unit 103;It is Power Management Unit 102 and main control unit 101, wireless
Communication unit 103 is electrically connected, for being powered to main control unit 101 and wireless communication unit 103 (with line with the arrow in attached drawing
Item indicates power supply);Main control unit 101 is electrically connected with wireless communication unit 103, and main control unit 101 is for controlling other component
Working condition, wireless communication unit 103 are used for the transmitting-receiving of wireless data;Main control unit 101 is electrically connected with detection device 2, is used for
The detection information of receiving detection device 2 is simultaneously analyzed and processed, and detection unit 2 is used to detect the environmental information of shaft tower;Power supply pipe
Reason unit 102 is electrically connected with detection device 2, is powered for detection device 2.The present embodiment is to main control unit 101 and wireless telecommunications
The product type of unit 103 is not specifically limited.Chip microcontroller can be selected in main control unit 101, other, which also can be selected, has control
The chip of function processed is realized.Wireless communication unit 103 is based in the prior art for realizing wireless receiving/transmission of data
GPRS/3G/4G network carries out the transmission of data, and the wireless communication unit with encryption function also can be selected in the present embodiment
103 information first sent to needs transmit again after encrypting, it is ensured that the safety of information, meanwhile, the present embodiment is to data
Cryptographic protocol etc. is not especially limited, and is realized using existing technological means;Preferably, macro electricity can be selected in the present embodiment
H7118GPRS/EDGE DTU realizes the function of wireless communication unit 103 in the present embodiment.Size, shape of the present embodiment to cabinet
Without limitation, the cuboid being preferably formed from steel, and being mounted on the platform of shaft tower, steel material has for shape and material
Higher metal strength, and can be corrosion-resistant, it can be used for a long time.
As shown in figure 3, the detection device 2 in the present embodiment includes at least one inclination angle on the basis of a upper embodiment
Sensor unit 201 and at least one laser displacement sensor unit 202;Obliquity sensor unit 201 and laser displacement pass
Sensor cell 202 is electrically connected with main control unit 101 respectively;Obliquity sensor unit 201 is mounted on shaft tower;Laser displacement sensing
Device unit 202 is mounted at the column foot of shaft tower;Obliquity sensor unit 201 is used to detect the tilt angle of shaft tower, passes through measurement
Angle offset of the shaft tower in X-axis, Y-axis realizes data acquisition;Laser displacement sensor unit 202 is used to detect the position of shaft tower
It moves, is set with initial distance during installation;What obliquity sensor unit 201 and laser displacement sensor unit 202 will test
To main control unit 101, main control unit 101 is sent out after arranging to data by wireless communication unit 103 data transmission.
The present embodiment is equal to the product type of obliquity sensor unit 201 and laser displacement sensor unit 202 and manufacturer
It is not construed as limiting, such as: LVT518T single shaft current-output type obliquity sensor, LVT515T wireless tilt angle sensor, LVT426T
Twin shaft numeric type obliquity sensor, LVT425T twin shaft CAN open obliquity sensor, ZX2-LDA112M laser sensor, ZX1-
LD100A66 0.5M laser sensor etc. is all product in the prior art.Preferably, the obliquity sensor list in the present embodiment
Member 201 is double-shaft tilt angle sensor.In the present embodiment, obliquity sensor unit 201,202 and of laser displacement sensor unit
The connection type of main control unit 101 selects wired connection, and wired connection can ensure that the real-time and integrality of signal transmission, and nothing
Line connection type then will increase the complexity of whole device, improve the cost of device, run also not as good as the mode of wired connection
Stablize.Obliquity sensor unit 201 is selected to detect with laser displacement sensor unit 202 to shaft tower in the present embodiment, energy
Enough accurate detections go out the slight change of shaft tower, can show whether shaft tower has occurred by comparative analysis of the main control unit to data
Inclination is mobile, and staff makes counter-measure for analysis result early, avoid shaft tower tilt for a long time or movement and go out
Now deformation or even the serious consequence of tower.
Specifically, as shown in figure 4, the Power Management Unit 102 of the present embodiment includes battery 1021 and charge and discharge electricity
Road 1022, wherein battery 1021 passes through charge-discharge circuit 1022 and main control unit 101, wireless communication unit 103, detection device
2 electrical connections.As shown in figure 5, battery 1021 is obliquity sensor unit 201, laser displacement biography by charge-discharge circuit 1022
Sensor cell 202 is powered.Without limitation to the running parameter of battery 1021, reserve of electricity regards specifically used environment to the present embodiment
Depending on.The present embodiment designs also without limitation the specific of charge-discharge circuit 1022, realizes referring to the prior art.This implementation
The charge-discharge circuit 1022 of example has different working conditions, preferably when the charging of battery 1021 is discharged with battery 1021
, the function that the present embodiment selects large day SR-SL2410 solar charging discharging controller to realize that this programme designs.The present embodiment pair
The charging modes of battery 1021 are not specifically limited, periodic replacement have electricity battery 1021 can also, or be laid with power transmission line
Road is that battery 1021 charges.Preferably, as shown in fig. 6, the present embodiment further includes the sun being installed on outside mainframe box
Energy solar panel 3, solar panel 3 are electrically connected with charge-discharge circuit 1022, are charged for battery 1021.Solar panel 3
Electric energy is stored in battery 1021 by charge-discharge circuit 1022 after converting solar energy into electrical energy.Preferably, this implementation
Solar panel 3 in example selects two blocks of 80W mono-crystalline silicon solar plates to realize purpose of design.The solar battery of the present embodiment
Plate 3 is mounted on shaft tower using wall-mounted mounting means, and the present embodiment can also increase electric rotary body, by solar battery
Plate 3 is mounted on electric rotary body, and with the change in location of the sun on daytime, electric rotary body drives solar panel 3
It carries out rotation to follow, it is ensured that collect enough electric energy.
Specifically, as shown in fig. 7, the detection device 2 in the present embodiment further includes at least one temperature being mounted on shaft tower
Spend sensor unit 203 and at least one humidity sensor unit 204, charge-discharge circuit 1022 and temperature sensor unit
203, humidity sensor unit 204 is electrically connected (being not drawn into figure).Temperature sensor unit 203, humidity sensor unit 204 are equal
It is electrically connected with main control unit 101, for detecting the temperature and humidity of shaft tower ambient air, and will test data and be sent to master control
Unit 101 is further processed.Temperature sensor unit 203 and humidity sensor unit 204 in the present embodiment are selected existing
There is product realization, does not do specific restriction herein.The present embodiment is to temperature sensor unit 203, humidity sensor unit
204 quantity and installation site is also not specifically limited, and can be installed according to the height and structure of shaft tower.For example,
On vertical direction, the every 5m-15m of height according to shaft tower installs a temperature sensor unit 203 or humidity sensor unit
204, in same level, 2-3 temperature sensor unit 203 or humidity sensor are angularly installed in the edge of shaft tower
Unit 204, to ensure the accuracy of data acquisition, this mounting means is only a kind of implementation, can not be interpreted as to this
A temperature sensor unit 204 and a humidity sensor unit also can be selected when tower structure is smaller in the restriction of application
204 are mounted on the cross-arm of shaft tower, so should be accounted for the specific configuration and design requirement of shaft tower.The present embodiment uses
Temperature sensor unit 203 or humidity sensor unit 204 detect the temperature and humidity of shaft tower ambient enviroment, are main control unit
Increase more variable factors when 101 analysis shaft tower heeling condition, keeps analysis conclusion more accurate, while can also be to this area's gas
The analysis for waiting variation provides effective detection data.
Specifically, as shown in fig. 7, the detection device 2 in the present embodiment further includes at least one wind being mounted on shaft tower
Fast sensor unit 205 and at least one wind transducer unit 206, charge-discharge circuit 1022 and air velocity transducer unit
205, wind transducer unit is electrically connected 206 (being not drawn into figure).Air velocity transducer unit 205, wind transducer unit 206 are equal
It is electrically connected with main control unit 101, for detecting wind speed and wind direction around shaft tower, and will test data and be sent to main control unit
101 are handled.The present embodiment does not limit the specific product signal of air velocity transducer unit 205, wind transducer unit 206
It is fixed, select existing matured product to realize.The present embodiment is to air velocity transducer unit 205, wind transducer unit 206
Particular number and installation site are not construed as limiting, with the temperature sensor unit 203 in a upper embodiment, humidity sensor unit
204 installation is identical, should retinal rod tower specific configuration and design requirement account for.The present embodiment uses air velocity transducer
Unit 205, wind transducer unit 206 detect wind speed and wind direction, analyze shaft tower heeling condition for main control unit 101
The more variable factors of Shi Zengjia keep analysis conclusion more accurate, while can also be provided with to the analysis of this area's climate change
The detection data of effect.
Specifically, because shaft tower common in the art is largely the mechanism of four column foots, so in the present embodiment
Detection device 2 includes four laser displacement sensor units 202, as shown in figure 8, four laser displacement sensor units 202 divide
It Wei Yu not be at four column foots of shaft tower, and respectively from the distance between four different orientation measurements and column foot.Four laser positions
Displacement sensor 202 is denoted as a1, a2, a3, a4, a1, a2, a3, a4 is installed respectively with position shown in Fig. 8, and root
According to arrow direction, respectively the distance between measurement and nearest column foot.Four laser displacement sensor units 202 pass through to four
The range measurement of column foot makes main control unit 101 more have specific aim to the analysis result of data, can be accurately judged to some
There is inclination that is mobile and causing which kind of situation in column foot, more accurate depending on monitoring result.
Specifically, obliquity sensor unit 201, temperature sensor unit 203, humidity sensor unit in the present embodiment
204, air velocity transducer unit 205, wind transducer unit 206 are fixedly mounted on cross arm of tower by L-type fixture 5.Due to
Shaft tower is mostly made with angle steel 4, and for the fixation convenient for detection device 2, the ad hoc meter of the present embodiment is installed using L-type fixture 5, by
It is also not quite similar in the composite structure of the various structures of shaft tower, angle steel 4, so the present embodiment does not limit specific shaft tower knot
Structure, as shown in figure 9, being a kind of structure design method of L-type fixture 5, L-type fixture 5 includes the first L-type component 501, the second L-type
Component 502, screw 503, nut 504, screw set 505.The modes of two kinds of clampings are devised in Fig. 9, first way includes the
The edge of two L-type components 502, screw 503, nut 504, the first L-type component 501 at this time is longer than the edge of angle steel 4,
The corresponding position of one L-type component 501 and the second L-type component 502 opens up threaded hole, is consolidated by screw 503 and nut 504
It is fixed;Another method of clamping includes the 2nd L type component 502, screw 503, screw set 505, the first L-type component 501 at this time
Edge is shorter than the edge of angle steel 4, threaded hole is opened up on the second L-type component 502, and in the correspondence position of the first L-type component 501
Welding screw set 505 is set, screw 503 is screwed into screw set 505 and realizes fixation.Inspection is fixedly mounted on the first L-type component 501
Device 2 is surveyed, such L-type fixture 5 not only firmly installs, and convenient disassembly, can install or remove on demand at any time, also just
In the maintenance of detection device 2.Those skilled in the art can also go again according to the specific location of installation and design other structures.
The utility model embodiment also provides a kind of inclination monitoring system of electric power line pole tower, including multiple above implementations
It further include base station 6 and background server 7 in example other than the device for monitoring inclination of electric power line pole tower, in which: inclination monitoring dress
It sets the environmental information of acquisition shaft tower and is sent to base station 6, environmental information is sent to background server 7, background server by base station 6
7 pairs of environmental informations are analyzed and processed;And/or control instruction is sent to base station 6 by background server 7, base station 6 refers to control
Order is sent to device for monitoring inclination, and device for monitoring inclination executes control instruction.Specifically, as shown in Figure 10, detection device 2 will be examined
After the environmental information measured is sent to main control unit 101, main control unit 101 arranges environmental information data, is calculated, is deposited
The operations such as storage, packing, and by treated, environmental information data are sent to base station 6 by wireless communication unit 103, base station 6 will
Information is sent to background server 7 and is further processed and analyzes;And/or control instruction is sent to by background server 7
Control instruction is sent to device for monitoring inclination by base station 6, base station 6, and wireless communication unit 103 is realized the reception of control instruction and turned
Main control unit 101 is issued, main control unit 101 carries out corresponding operation according to the content of control instruction, such as disconnects charge and discharge electricity
Road 1022 is to the power supply line of each component, or controls acquisition etc. of some sensor unit to data, herein to control instruction
Particular content without limitation, depending on specific design scheme.Quantity and base station 6 of the utility model to device for monitoring inclination
Quantity be not construed as limiting, settable multiple base stations 6 cover large-scale device for monitoring inclination, and background server 7 achieves that
The state of a wide range of shaft tower is monitored in real time, it is ensured that the shaft tower in this region occurs taking counter-measure early when slope trend.
The inclination of the electric power line pole tower of the utility model embodiment monitors system, and background server is supervised by base station and numerous inclinations
It surveys device and establishes communication network, to realize the state for monitoring a wide range of shaft tower in real time, it is ensured that the shaft tower in the region inclination occurs and becomes
Counter-measure is taken when gesture early.
The utility model is further described by specific embodiment above, it should be understood that, have here
The description of body, should not be construed as the restriction to the spirit and scope of the utility model, and one of ordinary skilled in the art is readding
The various modifications made after reader specification to above-described embodiment belong to the range that the utility model is protected.
Claims (10)
1. a kind of device for monitoring inclination of electric power line pole tower, which is characterized in that the device for monitoring inclination includes being mounted on bar
Mainframe box on tower, and it is mounted on the detection device outside the mainframe box, the detection device is electrically connected with the mainframe box
It connects, in which:
The mainframe box includes cabinet, and is installed on the main control unit of the box house, Power Management Unit, wireless telecommunications
Unit;The Power Management Unit is electrically connected with the main control unit, the wireless communication unit, the main control unit with it is described
Wireless communication unit electrical connection;The main control unit is electrically connected with the detection device;The Power Management Unit and the inspection
Survey device electrical connection;
The detection device includes at least one obliquity sensor unit and at least one laser displacement sensor unit;It is described
Obliquity sensor unit is electrically connected with the main control unit respectively with laser displacement sensor unit;The obliquity sensor unit
It is mounted on shaft tower;The laser displacement sensor unit is mounted at the column foot of shaft tower.
2. a kind of device for monitoring inclination of electric power line pole tower as described in claim 1, which is characterized in that the power management
Unit includes battery and charge-discharge circuit, in which:
The battery passes through the charge-discharge circuit and the main control unit, the wireless communication unit, the detection device
Electrical connection.
3. a kind of device for monitoring inclination of electric power line pole tower as claimed in claim 2, which is characterized in that further include being installed on
Solar panel outside the mainframe box, the solar panel are electrically connected with the charge-discharge circuit, are the storage
Battery charging.
4. a kind of device for monitoring inclination of electric power line pole tower as claimed in claim 3, which is characterized in that the detection device
It further include at least one temperature sensor unit being mounted on shaft tower and at least one humidity sensor unit, the charge and discharge
Circuit is electrically connected with the temperature sensor unit, the humidity sensor unit.
5. a kind of device for monitoring inclination of electric power line pole tower as claimed in claim 4, which is characterized in that the detection device
It further include at least one the air velocity transducer unit and at least one wind transducer unit being mounted on shaft tower, the charge and discharge
Circuit is electrically connected with the air velocity transducer unit, the wind transducer unit.
6. a kind of device for monitoring inclination of electric power line pole tower as described in claim 1, which is characterized in that the detection device
Including four laser displacement sensor units, four laser displacement sensor units are located at four column foots of shaft tower
Place, and respectively from the distance between four different orientation measurements and column foot.
7. a kind of device for monitoring inclination of electric power line pole tower as claimed in claim 5, which is characterized in that the inclination angle sensing
Device unit, the temperature sensor unit, the humidity sensor unit, the air velocity transducer unit, wind direction sensing
Device unit is fixedly mounted on cross arm of tower by L-type fixture.
8. a kind of device for monitoring inclination of electric power line pole tower as claimed in claim 7, which is characterized in that the cabinet and institute
Solar panel is stated to be mounted on shaft tower platform.
9. a kind of device for monitoring inclination of electric power line pole tower as described in claim 1, which is characterized in that the inclination angle sensing
Device unit is double-shaft tilt angle sensor.
10. a kind of inclination of electric power line pole tower monitors system, which is characterized in that including appointing in multiple the claims 1 to 9
The device for monitoring inclination of electric power line pole tower described in one further includes base station and background server, in which:
The environmental information of device for monitoring inclination acquisition shaft tower is simultaneously sent to the base station, and the base station is by the environmental information
It is sent to the background server, the background server is analyzed and processed the environmental information;The backstage and/or
Control instruction is sent to the base station by server, and the control instruction is sent to the device for monitoring inclination by the base station,
The device for monitoring inclination executes the control instruction.
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CN201821099514.7U CN208547349U (en) | 2018-07-11 | 2018-07-11 | A kind of device for monitoring inclination and system of electric power line pole tower |
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CN201821099514.7U CN208547349U (en) | 2018-07-11 | 2018-07-11 | A kind of device for monitoring inclination and system of electric power line pole tower |
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CN201821099514.7U Expired - Fee Related CN208547349U (en) | 2018-07-11 | 2018-07-11 | A kind of device for monitoring inclination and system of electric power line pole tower |
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Cited By (7)
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CN111322987A (en) * | 2020-04-20 | 2020-06-23 | 南京环电科技有限公司 | Transmission line shaft tower slope monitoring devices |
CN112556652A (en) * | 2020-12-14 | 2021-03-26 | 国网辽宁省电力有限公司沈阳供电公司 | Online monitoring system and method for inclination of power transmission line tower |
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CN113029088A (en) * | 2021-05-08 | 2021-06-25 | 国网新疆电力有限公司喀什供电公司 | Online monitoring system and monitoring method for tower inclination |
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CN111322987A (en) * | 2020-04-20 | 2020-06-23 | 南京环电科技有限公司 | Transmission line shaft tower slope monitoring devices |
CN112556652A (en) * | 2020-12-14 | 2021-03-26 | 国网辽宁省电力有限公司沈阳供电公司 | Online monitoring system and method for inclination of power transmission line tower |
CN112649045A (en) * | 2020-12-18 | 2021-04-13 | 南方电网海南数字电网研究院有限公司 | Monitoring device for power transmission line |
CN113029088A (en) * | 2021-05-08 | 2021-06-25 | 国网新疆电力有限公司喀什供电公司 | Online monitoring system and monitoring method for tower inclination |
CN113654496A (en) * | 2021-08-26 | 2021-11-16 | 上海电力大学 | Power transmission tower body rod piece monitoring device |
CN114235032A (en) * | 2021-11-23 | 2022-03-25 | 西南交通大学 | Pillar monitoring system |
CN115164831A (en) * | 2022-06-16 | 2022-10-11 | 国网新疆电力有限公司电力科学研究院 | Transmission tower settlement monitoring device and method |
WO2023241743A3 (en) * | 2022-06-16 | 2024-02-15 | 国网新疆电力有限公司电力科学研究院 | Power transmission tower settlement monitoring apparatus and method |
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