CN208844588U - A kind of highway high gradient slope on-Line Monitor Device - Google Patents
A kind of highway high gradient slope on-Line Monitor Device Download PDFInfo
- Publication number
- CN208844588U CN208844588U CN201821568762.1U CN201821568762U CN208844588U CN 208844588 U CN208844588 U CN 208844588U CN 201821568762 U CN201821568762 U CN 201821568762U CN 208844588 U CN208844588 U CN 208844588U
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- slope
- monitoring
- side slope
- high gradient
- line monitor
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- Testing Or Calibration Of Command Recording Devices (AREA)
Abstract
The utility model discloses a kind of highway high gradient slope on-Line Monitor Devices, and including the load-bearing monitor module for monitoring side slope stress, the load-bearing monitor module includes rope meter, osmometer and the soil pressure cell in side slope;For monitoring the deformation monitoring module of slope deforming, the deformation monitoring module includes the monitoring station GPS, inclinometer and the stay wire displacement sensor in side slope;For monitoring the rainwater monitoring modular of side slope rainfall data, the rainwater monitoring modular is the rainfall gauge in side slope;Further include the GPS receiver being electrically connected with the load-bearing monitor module, deformation monitoring module, rainwater monitoring modular, is connected with data collector and GPRS radio transmission apparatus in the GPS receiver.The utility model can Slope Stability carry out multiple comprehensive monitoring, multiple early warning, and warning information can be transmitted to relevant unit and personnel at the first time, so that the safety on highway high gradient slope periphery be effectively ensured.
Description
Technical field
The utility model relates to slope monitoring technical fields, and in particular to a kind of highway high gradient slope on-Line Monitor Device.
Background technique
Stability of the high and steep slope problem is always what geotechnical engineering circle was paid close attention to due to being influenced by its complicated geological conditions
Focal issue.With the fast development of China's infrastructure, engineering design will face more complicated geology to a certain extent
Therefore condition needs to consider influence and variation tendency of the slope geological condition to its stability when carrying out Slope Design.
For a long time, engineering geology circle, rock-soil mechanics bound pair slope stability have carried out a large amount of research work, but so far
Still it is difficult to find that the theory and method of accurate evaluation.The method for such issues that relatively efficiently handle, is exactly theory analysis, expert
The theory and method for the comprehensive integration that group's Heuristics and monitor control system combine, it is seen that slope monitoring and feedback analysis
It is an important link in slope project.
China's massif nature landslide accident takes place frequently in recent years, causes heavy losses to country and society, and China's roadbed
The safety monitoring technology of side slope is always a weak link of constructing highway, is ground due to lacking to the system of safety monitoring technology
Study carefully, do not have ripe experience and applied for design department, the guard technology of low-grade highway or the warp of reference other parts can only be used
It tests to implement localised protection, shortage comprehensively considers, and causes huge economic loss and undesirable social influence, therefore lack one
A comprehensive, whole day, convenient and fast slope stability monitoring device.
Utility model content
The utility model aim is: at present in slope project still lack can Slope Stability continued
Effectively the problem of monitoring means, a kind of highway high gradient slope on-Line Monitor Device is provided, which can be constantly to highway height
Gradient slope situation is comprehensively monitored, and can make early warning at the first time, ensure that highway high gradient slope periphery
Safety.
To achieve the goals above, the technical solution adopted in the utility model are as follows:
A kind of highway high gradient slope on-Line Monitor Device, it is described including the load-bearing monitor module for monitoring side slope stress
Load-bearing monitor module includes rope meter, osmometer and the soil pressure cell in side slope;Deformation for monitoring slope deforming is supervised
Module is surveyed, the deformation monitoring module includes the monitoring station GPS, inclinometer and the stay wire displacement sensor in side slope;For
The rainwater monitoring modular of side slope rainfall data is monitored, the rainwater monitoring modular is the rainfall gauge in side slope;Further include with
The GPS receiver that the load-bearing monitor module, deformation monitoring module, rainwater monitoring modular are electrically connected, the GPS receiver
On be connected with data collector and GPRS radio transmission apparatus.
The utility model is monitored by situations of change such as side slope stress, deformation and rainwater, to realize side slope
The monitoring of stability, and by the way that inclinometer, osmometer, rainfall gauge, rope meter, the monitoring station GPS, bracing wire displacement are arranged in side slope
Sensor and soil pressure cell etc. are used cooperatively, and are played the multiple comprehensive monitoring of Slope Stability, multiple early warning, are passed through simultaneously
Warning information can be transmitted to related by setting GPS receiver, data collector and GPRS radio transmission apparatus etc. at the first time
Unit and personnel, so that the safety on highway high gradient slope periphery be effectively ensured.
As a preferred embodiment of the present invention, further include power module for being powered to entire monitoring device,
The power module includes solar panel, battery controller and battery, the power module also with GPS receiver, number
It is electrically connected according to collector and GPRS radio transmission apparatus.By the way that solar panel, battery controller and battery is arranged,
It realizes and entire monitoring device is powered, guarantee that monitoring device be monitored within round-the-clock 24 hours, side slope stress
Deformation, inclined sliding, surrounding environment change etc. carry out full-automatic on-line monitoring, to grasp side slope integral status in real time.
As a preferred embodiment of the present invention, the anchor cable is calculated as two, is arranged in Slope shoulder, Po Zhongchu.It should
Rope meter can monitor side slope stress situation of change, judge whether side slope is in stable state will pass through the variation of side slope stress.
As a preferred embodiment of the present invention, the monitoring station GPS is three, is arranged in Slope shoulder, slope, slope
At foot.The monitoring station GPS can monitor earth surface of side slope change in displacement situation, judge side slope will pass through earth surface of side slope change in displacement
Whether stable state is in.
As a preferred embodiment of the present invention, the stay wire displacement sensor is two, is arranged in Slope, slope
At foot.The stay wire displacement sensor is capable of the monitoring of side slope surface displacement.
As a preferred embodiment of the present invention, three vertical detection holes are additionally provided in side slope, the detection hole is set
It sets in Slope shoulder, slope, at slope foot, and the inclinometer and osmometer are set in the detection hole.By in detection hole
Interior setting inclinometer is monitored for side slope inclination conditions, and osmometer is monitored for side slope soil moisture content.
As a preferred embodiment of the present invention, further include cabinet body, the battery controller, battery, GPS receiver,
Data collector, GPRS radio transmission apparatus are set in cabinet body, are equipped with the fixation kit for fixing cabinet body in bottom of cabinet bulk.
By being arranged in bottom of cabinet bulk for fixing the fixation kit of cabinet body, to ensure the safety of the monitoring device.
As a preferred embodiment of the present invention, the fixation kit includes the pedestal being connected with bottom of cabinet bulk, in pedestal
Lower section is connected with multiple lower margins, and multiple screw rods corresponding with lower margin are also connected with above the pedestal, can edge after the screw rod rotation
Lower margin stretches out.
As a preferred embodiment of the present invention, the solar panel is set at the top of cabinet body, at the top of the cabinet body also
Equipped with GPS receiving antenna and lightning rod.By the way that GPS receiving antenna and lightning rod are arranged at the top of cabinet body, to enhance signal reception
Ability, while lightning rod can ensure the safety of the monitoring device.
As a preferred embodiment of the present invention, the soil pressure cell is two, is arranged at side slope slope foot, to rise
To the monitoring to slope foot soil pressure and orifice gap water pressure.
In conclusion by adopting the above-described technical solution, the beneficial effects of the utility model are:
1, the utility model is monitored by situations of change such as side slope stress, deformation and rainwater, to realize opposite side
The monitoring of slope stability, and by the way that inclinometer, osmometer, rainfall gauge, rope meter, the monitoring station GPS, bracing wire position are arranged in side slope
Displacement sensor and soil pressure cell etc. are used cooperatively, and play the multiple comprehensive monitoring of Slope Stability, multiple early warning, are led to simultaneously
Phase can be transmitted to for warning information at the first time by crossing setting GPS receiver, data collector and GPRS radio transmission apparatus etc.
Unit and personnel are closed, so that the safety on highway high gradient slope periphery be effectively ensured;
2, it by setting solar panel, battery controller and battery, realizes and entire monitoring device is supplied
Electricity guarantees that monitoring device be monitored within round-the-clock 24 hours, side slope stress deformation, inclined sliding, surrounding environment change
Deng the full-automatic on-line monitoring of progress, to grasp side slope integral status in real time;
3, by the way that fixation kit and lightning rod for fixing cabinet body are arranged on the cabinet, to ensure the monitoring device
Safety;
4, user and work can be notified in the form of short message, fax, broadcast etc. at the first time by setting data collector
Personnel directly extract corresponding processing method from disaster processing prediction scheme database, and block road in time, and security risk is eliminated
In budding state and data can be collected to provide reference frame later, structural damage mechanism study and industry are advised
The formation of model standard plays important function.
Detailed description of the invention
Fig. 1 is the utility model overall structure diagram.
Fig. 2 is the whole the schematic diagram of the section structure of Fig. 1.
Fig. 3 is the utility model side slope and structure of the detecting device schematic diagram.
Fig. 4 is enlarged structure schematic diagram at the A in Fig. 2.
Fig. 5 is component connection relationship diagram in the utility model.
Marked in the figure: 1- pedestal, 2- cabinet body, 3- cabinet door, 4- coded lock, 5- universal wheel, 6- lower margin, 7- screw rod, 8- bull stick,
9-GPS receiving antenna, 10- pillar, 11- solar panel, 12- connected ball, 13- connecting cylinder, 14- sealing ring, 15- are lightning-arrest
Needle, 16- pillar fixing seat, 17- lightning rod pedestal, 18- transverse slat, 19- riser, 20- battery controller, 21- battery, 22-GPS
Receiver, 23- data collector, 24-GPRS radio transmission apparatus, 25- through-hole, 26- side slope, 27- rainfall gauge, the first anchor of 28-
Rope meter, the first monitoring station GPS 29-, the first detection hole of 30-, the second rope meter of 31-, the 2nd monitoring station GPS 32-, 33- first are drawn
The 3rd monitoring station GPS linear movement pick-up, 34-, the first inclinometer of 35-, the first osmometer of 36-, the second detection hole of 37-, 38-
Two inclinometers, the second osmometer of 39-, the second stay wire displacement sensor of 40-, 41- third detection hole, 42- third inclinometer, 43-
Third osmometer, 44- soil pressure cell, 45- retaining wall.
Specific embodiment
With reference to the accompanying drawing, the utility model is described in detail.
In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation
Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only to explain this
Utility model is not used to limit the utility model.
Embodiment
The present embodiment provides a kind of highway high gradient slope on-Line Monitor Devices;
As Figure 1-Figure 5, the highway high gradient slope on-Line Monitor Device in the present embodiment, including for monitor side slope by
The load-bearing monitor module of power, the load-bearing monitor module include rope meter, osmometer and the soil pressure cell 44 in side slope 26;
For monitoring the deformation monitoring module of slope deforming, the deformation monitoring module includes the monitoring station GPS being set in side slope, deviational survey
Instrument and stay wire displacement sensor;For monitoring the rainwater monitoring modular of side slope rainfall data, the rainwater monitoring modular be set on
Rainfall gauge 27 in side slope, the rainfall gauge model HC-6400;Further include and the load-bearing monitor module, deformation monitoring mould
The GPS receiver 22 that block, rainwater monitoring modular are electrically connected is connected with data collector 23 and GPRS in the GPS receiver
Radio transmission apparatus 24, the data collector model HC-6000.
The utility model is monitored by situations of change such as side slope stress, deformation and rainwater, to realize side slope
The monitoring of stability, and by the way that inclinometer, osmometer, rainfall gauge, rope meter, the monitoring station GPS, bracing wire displacement are arranged in side slope
Sensor and soil pressure cell etc. are used cooperatively, and are played the multiple comprehensive monitoring of Slope Stability, multiple early warning, are passed through simultaneously
Warning information can be transmitted to related by setting GPS receiver, data collector and GPRS radio transmission apparatus etc. at the first time
Unit and personnel, so that the safety on highway high gradient slope periphery be effectively ensured.
It further include the power module for being powered to entire monitoring device in the present embodiment, the power module packet
Include solar panel 11, battery controller 20 and battery 21, the power module also with GPS receiver, data collector
It is electrically connected with GPRS radio transmission apparatus.By setting solar panel, battery controller and battery, realize pair
Entire monitoring device is powered, and guarantees that monitoring device be monitored within round-the-clock 24 hours, side slope stress deformation, inclination
Downslide, surrounding environment change etc. carry out full-automatic on-line monitoring, to grasp side slope integral status in real time.
In the present embodiment, the anchor cable is calculated as two, and respectively the first rope meter 28 and the second rope meter 31 are set respectively
It sets in Slope shoulder, Po Zhongchu.The rope meter can monitor side slope stress situation of change, will pass through the variation judgement of side slope stress
Whether side slope is in stable state.First rope meter and the second rope meter model it is identical be ASZ-200KN.
In the present embodiment, the monitoring station GPS is three, respectively the first monitoring station GPS 29, the 2nd monitoring station GPS 32
With the 3rd monitoring station GPS 34, it is separately positioned on Slope shoulder, in slope, at slope foot.The monitoring station GPS is with can monitoring side slope
Epitope moves situation of change, judges whether side slope is in stable state will pass through earth surface of side slope change in displacement.The first GPS prison
Survey station, the 2nd monitoring station GPS is identical with the 3rd monitoring station GPS model and is OK-WXHJ15.
In the present embodiment, the stay wire displacement sensor is two, respectively the second stay wire displacement sensor 40 and first
Stay wire displacement sensor 33 is separately positioned in Slope, at slope foot.The stay wire displacement sensor being capable of side slope surface position
The monitoring of shifting.First stay wire displacement sensor and the second stay wire displacement sensor model are identical and be 161-1915-
C6SU。
In the present embodiment, three vertical detection holes, the detection of respectively the first detection hole 30, second are additionally provided in side slope
Hole 37 and third detection hole 41, three detection holes are separately positioned on Slope shoulder, in slope, at slope foot, and the inclinometer and infiltration
Pressure meter is set in the detection hole.It is successively arranged three 35 Hes of the first inclinometer from top to bottom in the inside of the first detection hole 30
First osmometer 36;It is successively arranged two the second inclinometers 38 and the second osmometer 39 from top to bottom in the second detection hole 37;?
Third detection hole 41 is successively arranged third inclinometer 42 and third osmometer 43 from top to bottom.By the way that deviational survey is arranged in detection hole
Instrument is monitored for side slope inclination conditions, and osmometer is monitored for side slope soil moisture content.Described first surveys
Oblique instrument, the second inclinometer are identical with the model of third inclinometer and are ZCT-CX100;First osmometer, second are seeped
Pressure meter is identical with third osmometer model and is RW-102A.
In the present embodiment, further include cabinet body, cabinet door 3 is fixed on cabinet body 2, which passes through embedded hinge and cabinet body
Hingedly, the center of cabinet door 3 is fixed with coded lock 4, protects the safety of equipment;The inner hub location of cabinet body 2 is equipped with perpendicular
Plate 19,19 two sides of riser are symmetrically arranged with four transverse slats 18, the battery controller 20, battery 21, GPS receiver 22, data
Collector 23, GPRS radio transmission apparatus 24 are set in cabinet body, are equipped with the fixation kit for fixing cabinet body in bottom of cabinet bulk.
By being arranged in bottom of cabinet bulk for fixing the fixation kit of cabinet body, to ensure the safety of the monitoring device.
In the present embodiment, the fixation kit includes the pedestal 1 being connected with 2 bottom of cabinet body, connect below pedestal 1 there are four
Lower margin 6 and universal wheel 5, the firm effect of running fix;It is corresponding with 6 position of lower margin there are four also connecting above the pedestal 1
Screw rod 7, the center of lower margin 6 offer through-hole 25, and the screw rod 7 is to be threadedly coupled with pedestal 1 and is perforation shape with through-hole 25
State, the screw rod 7 can stretch out after rotating along the through-hole 25 at 6 center of lower margin.Screw rod 7 is symmetrically positioned in 2 left and right sides of cabinet body, screw rod 7
Top slide be connected with bull stick 8, convenient for rotation screw rod.
In the present embodiment, the solar panel 11 is set to 2 top of cabinet body, and 2 top center of cabinet body is fixed with
The top center of pillar fixing seat 16, pillar fixing seat 16 is equipped with pillar 10, and the top of pillar 10 is fixed with connected ball
12, it can play the role of centainly buffering under the action of by wind-force, connected ball 12 is socketed in the inner wall of connecting cylinder 13, connection
Ball 12 and 13 junction of connecting cylinder are fixed with sealing ring 14, and solar panel 11 is fixed on the end of connecting cylinder 13, will too
Sun can be converted into electric energy.It is additionally provided with GPS receiving antenna 9 and lightning rod 15 at the top of the cabinet body 2, is located at pillar fixing seat 16
The left and right sides, lightning rod 15 is installed on lightning rod pedestal 17, and the lightning rod 15 is set as ground state, the lightning rod
Pedestal 17 is insulating materials.By the way that GPS receiving antenna and lightning rod are arranged at the top of cabinet body, to enhance signal reception, together
When lightning rod can ensure the safety of the monitoring device.
In the present embodiment, the soil pressure cell 44 is two, is arranged at side slope slope foot, the soil pressure cell model
LY-350, to play the monitoring to slope foot soil pressure and orifice gap water pressure.The right side and position of two soil pressure cells 44
In being fixed with retaining wall 45 in side slope 26.
Utility model works process: select position that rainfall gauge 27 to be installed in side slope when detection, in rainfall gauge
27 lower right side and it is located in side slope 26 first rope meter 28 is installed, the right side of the first rope meter 28 and is located in side slope 26
First monitoring station GPS 29 is installed, the right side of the first monitoring station GPS 29 and being located in side slope 26, which is opened, opens up the with Special drill machine
One detection hole 30, and three the first inclinometers 35 and the first osmometer are successively installed from top to bottom in the inside of the first detection hole 30
36, the lower right side of the first detection hole 30 and be located at side slope 26 on the second rope meter 31, the lower right side of the second rope meter 31 are installed
And it is located in side slope 26 and opens up the second detection hole 37 with Special drill machine, the second detection hole 37 successively installs two from top to bottom
Second inclinometer 38 and the second osmometer 39, the right side of the second detection hole 37 and the 2nd GPS of the installation monitoring in side slope 26
It stands 32, the lower right side of the 2nd monitoring station GPS 32 and is located in side slope 26 second stay wire displacement sensor 40, the second bracing wire are installed
The lower right side of displacement sensor 40 and it is located in side slope 26 and with Special drill machine opens up third detection hole 41, third detection hole 41
Third inclinometer 42 and third osmometer 43 be successively installed from top to bottom, the right side of institute's third detection hole 41 and is located at side slope 26
The right side of the first stay wire displacement sensor 33 of upper installation, the first stay wire displacement sensor 33 is installed by the 3rd monitoring station GPS 34, third
The lower right side of the monitoring station GPS 34 and two soil pressure cells 44 of installation in side slope 26, the right side of two soil pressure cells 44 is simultaneously
And be located in side slope 26 and retaining wall 45 is installed, sunlight can sufficiently be received at this time by being moved into using the effect of universal wheel 5
Place is locked, and is rotated bull stick 8 using the through-hole of lower margin 6 25 and extended to screw rod 7 inside soil, guarantees the peace of equipment
Full property and stability, lightning rod 15 connects electricity at this time, and opens coded lock 4 and equipment solar panel 11 is electrically connected battery
Battery 21 and GPS receiver 22 is electrically connected in controller 20, battery controller 20, and GPS receiver 22 is electrically connected number
According to collector 23, data collector 23 is electrically connected GPRS radio transmission apparatus 24, and GPS receiver 22 is electrically connected rain respectively
Meter 27, the first inclinometer 35, the second inclinometer 38, third inclinometer 42, the first osmometer 36, the second osmometer 39, third
Osmometer 43, the first stay wire displacement sensor 33, the second stay wire displacement sensor 40, the first rope meter 28, the second rope meter 31,
First monitoring station GPS 29, the 2nd monitoring station GPS 32 and soil pressure cell 44 carry out the normal operation that debugging guarantees equipment after connection
Work, this monitoring device play multiple comprehensive monitoring, and multiple early warning, at the first time with short message, the forms such as fax, broadcast are logical
Know user and the timely prediction scheme processing of staff, directly extracts corresponding processing method from disaster processing prediction scheme database, in time
Take personnel to intervene the block methods such as road, by security risk eliminate budding state and data can be collected for
After reference frame is provided, important function is played to the formation of structural damage mechanism study and industry standard standard.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
Made any modifications, equivalent replacements, and improvements etc. within the principle of utility model, should be included in the protection of the utility model
Within the scope of.
Claims (10)
1. a kind of highway high gradient slope on-Line Monitor Device, which is characterized in that including the load-bearing monitor for monitoring side slope stress
Module, the load-bearing monitor module include rope meter, osmometer and the soil pressure cell in side slope;For monitoring slope deforming
Deformation monitoring module, the deformation monitoring module includes the monitoring station GPS, inclinometer and bracing wire displacement sensing in the side slope
Device;For monitoring the rainwater monitoring modular of side slope rainfall data, the rainwater monitoring modular is the rainfall gauge in side slope;Also
Including the GPS receiver being electrically connected with the load-bearing monitor module, deformation monitoring module, rainwater monitoring modular, the GPS
Data collector and GPRS radio transmission apparatus are connected on receiver.
2. highway high gradient slope on-Line Monitor Device according to claim 1, which is characterized in that further include for entire
The power module that monitoring device is powered, the power module include solar panel, battery controller and battery, institute
Power module is stated also to be electrically connected with GPS receiver, data collector and GPRS radio transmission apparatus.
3. highway high gradient slope on-Line Monitor Device according to claim 1, which is characterized in that the anchor cable is calculated as two
It is a, it is arranged in Slope shoulder, Po Zhongchu.
4. highway high gradient slope on-Line Monitor Device according to claim 1, which is characterized in that the monitoring station GPS is
Three, it is arranged in Slope shoulder, slope, at slope foot.
5. highway high gradient slope on-Line Monitor Device according to claim 1, which is characterized in that the bracing wire displacement sensing
Device is two, is arranged in Slope, at slope foot.
6. highway high gradient slope on-Line Monitor Device according to claim 1, which is characterized in that be additionally provided with three in side slope
A vertical detection hole, the detection hole are arranged in Slope shoulder, slope, at slope foot, and the inclinometer and osmometer setting
In in the detection hole.
7. highway high gradient slope on-Line Monitor Device according to claim 2, which is characterized in that it further include cabinet body, it is described
Battery controller, battery, GPS receiver, data collector, GPRS radio transmission apparatus are set in cabinet body, at cabinet body bottom
Portion is equipped with the fixation kit for fixing cabinet body.
8. highway high gradient slope on-Line Monitor Device according to claim 7, which is characterized in that the fixation kit includes
The pedestal being connected with bottom of cabinet bulk is connected with multiple lower margins below pedestal, is also connected with above the pedestal multiple opposite with lower margin
The screw rod answered can stretch out after the screw rod rotation along lower margin.
9. highway high gradient slope on-Line Monitor Device according to claim 8, which is characterized in that the solar panel
At the top of cabinet body, GPS receiving antenna and lightning rod are additionally provided at the top of the cabinet body.
10. highway high gradient slope on-Line Monitor Device according to claim 1, which is characterized in that the soil pressure cell is
Two, it is arranged at side slope slope foot.
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CN201821568762.1U CN208844588U (en) | 2018-09-25 | 2018-09-25 | A kind of highway high gradient slope on-Line Monitor Device |
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CN201821568762.1U CN208844588U (en) | 2018-09-25 | 2018-09-25 | A kind of highway high gradient slope on-Line Monitor Device |
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CN201821568762.1U Expired - Fee Related CN208844588U (en) | 2018-09-25 | 2018-09-25 | A kind of highway high gradient slope on-Line Monitor Device |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110397047A (en) * | 2019-06-25 | 2019-11-01 | 湖南工业大学 | Side slope protection stake and its slope monitoring and guard system |
CN110660195A (en) * | 2019-10-30 | 2020-01-07 | 江苏省水利科学研究院 | Rainfall type landslide early warning system based on rainfall and soil moisture |
CN110879053A (en) * | 2019-12-20 | 2020-03-13 | 湖北楚航电子科技有限公司 | Multi-sensor integrated automatic slope deformation monitoring device |
CN111560994A (en) * | 2020-05-28 | 2020-08-21 | 南京南智先进光电集成技术研究院有限公司 | Cement mixing pile construction monitoring system and method |
CN111696317A (en) * | 2020-05-29 | 2020-09-22 | 吕梁学院 | Automatic monitoring and early warning device for mine geological disasters |
CN112832305A (en) * | 2021-01-07 | 2021-05-25 | 淮北九天测绘股份有限公司 | Foundation pit slope stability dynamic monitoring device |
CN113538856A (en) * | 2021-07-12 | 2021-10-22 | 广州市泺立能源科技有限公司 | Slope comprehensive monitoring early warning platform |
CN113593188A (en) * | 2021-07-28 | 2021-11-02 | 江西师范高等专科学校 | Geotechnical engineering slope structure deformation monitoring and early warning device |
-
2018
- 2018-09-25 CN CN201821568762.1U patent/CN208844588U/en not_active Expired - Fee Related
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110397047A (en) * | 2019-06-25 | 2019-11-01 | 湖南工业大学 | Side slope protection stake and its slope monitoring and guard system |
CN110660195A (en) * | 2019-10-30 | 2020-01-07 | 江苏省水利科学研究院 | Rainfall type landslide early warning system based on rainfall and soil moisture |
CN110660195B (en) * | 2019-10-30 | 2024-04-12 | 江苏省水利科学研究院 | Rainfall type landslide early warning system based on rainfall and soil moisture |
CN110879053A (en) * | 2019-12-20 | 2020-03-13 | 湖北楚航电子科技有限公司 | Multi-sensor integrated automatic slope deformation monitoring device |
CN111560994A (en) * | 2020-05-28 | 2020-08-21 | 南京南智先进光电集成技术研究院有限公司 | Cement mixing pile construction monitoring system and method |
CN111696317A (en) * | 2020-05-29 | 2020-09-22 | 吕梁学院 | Automatic monitoring and early warning device for mine geological disasters |
CN111696317B (en) * | 2020-05-29 | 2021-12-31 | 吕梁学院 | Automatic monitoring and early warning device for mine geological disasters |
CN112832305A (en) * | 2021-01-07 | 2021-05-25 | 淮北九天测绘股份有限公司 | Foundation pit slope stability dynamic monitoring device |
CN113538856A (en) * | 2021-07-12 | 2021-10-22 | 广州市泺立能源科技有限公司 | Slope comprehensive monitoring early warning platform |
CN113593188A (en) * | 2021-07-28 | 2021-11-02 | 江西师范高等专科学校 | Geotechnical engineering slope structure deformation monitoring and early warning device |
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