CN208845167U - A kind of inclinometer reconnoitred for creep deformation stage sliding surface - Google Patents

A kind of inclinometer reconnoitred for creep deformation stage sliding surface Download PDF

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Publication number
CN208845167U
CN208845167U CN201821486201.7U CN201821486201U CN208845167U CN 208845167 U CN208845167 U CN 208845167U CN 201821486201 U CN201821486201 U CN 201821486201U CN 208845167 U CN208845167 U CN 208845167U
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China
Prior art keywords
displacement sensor
sensor probe
conduit
measuring duct
sliding surface
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余正良
舒中潘
张军
陈近中
高政
陈国辉
黄晓东
马艳波
郭华
邓韧
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SICHUAN INSTITUTE OF GEOLOGICAL ENGINEERING INVESTIGATION
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SICHUAN INSTITUTE OF GEOLOGICAL ENGINEERING INVESTIGATION
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Abstract

The utility model discloses a kind of inclinometers reconnoitred for creep deformation stage sliding surface, belong to Geological Engineering technical field, including inclimation measuring duct, data processor and display, it is characterized by also including displacement sensor probes and bearing cable, displacement sensor probe is located in inclimation measuring duct, circlip is fixed on the inner wall of inclimation measuring duct, the bottom of inclimation measuring duct is fixedly connected with the tapered conduit plug in cross section, displacement sensor probe is stuck on circlip, the upper end of displacement sensor probe is fixed with Waterproof cable joint, the lower end of displacement sensor probe is fixed with rubber base plate, one end of bearing cable and the Waterproof cable joint of displacement sensor probe connect, the other end is connect with data processor.The utility model effectively can not only accurately determine sliding surface position, and can also monitor landslide sliding velocity, provide reliable foundation for landslide stability evaluation and engineering control, have the characteristics of measurement is accurate, high reliablity.

Description

A kind of inclinometer reconnoitred for creep deformation stage sliding surface
Technical field
The utility model relates to arrive Geological Engineering technical field, more particularly to a kind of creep deformation stage sliding surface that is used for is surveyed The inclinometer looked into.
Background technique
Landslide refers to that the geologic body and accumulation body under the effect of gravity, downwardly and outwardly slided along geology Weak face, geology are soft Plane of weakness is commonly called as sliding surface, including sliding the cunning clad can for cutting the sliding surface formed in the process and being formed in onlap banking process.I State is the country that Landslide Hazards are extremely developed, especially Southwest Mountainous Areas by topography and geomorphology, formation lithology, geological structure, Rainfall and Human dried bloodstains influence, and generate a large amount of landslide disasters every year, do great damage to engineering construction.
Landslide survey main purpose is exactly accurate depth, the form for determining sliding surface, to calculate landslide volume, analysis of landslide Stability and trend provide foundation.Generalling use the means such as field investigation, mapping, exploration accurate can find out Sliding Plane The elements such as depth, form.But for the landslide of creep deformation stage, conventional exploration means are difficult to reach requirement, main former Because being landslide persistently sliding deformation, conventional drilling equipment cannot effectively pore-forming, sampling, and the accidents such as generation bit freezing, pipe laying often. Thus, people want to establish always a kind of exploration method of suitable sliding deformation stage, can quickly, accurately determine sliding surface Depth and form.
But the Yao Jianli mono- all types landslide put and all quasi- exploration method cannot achieve.Although very much Documents and materials are dedicated to establishing a kind of quickly and effectively landslide survey method, and analysis of landslide deformation mechanism, calculating Thrust of Landslide With carry out estimation of stability, but due to being calculated in thrust or when estimation of stability need to consider various geological conditions as far as possible, such as Landform shape, formation lithology, sliding surface depth, sliding surface form, the gliding mass structure of matter, rainfall, exploration mode, construction technology etc. because Element, and these conditions be so it is complicated and changeable, so to establish one include all factors and be suitble to all scenes Exploration method is impossible.Therefore, researchers are to study after simplifying certain conditions, or lead as needed to it The factor is wanted to be studied, and key factor is exactly to investigate thoroughly sliding surface depth, form in landslide survey.It can be divided according to available data Analysis obtains: landslide survey means are mainly using revolution core drilling at present, and the drilling method rate of penetration is slow, core-taking rate is by stratum It is affected, this method is suitble to common static landslide survey.But for the landslide for sliding deformation stage, since slopes persistently become Shape, it is desirable that the necessary pore-forming of exploration process is quick, and can determine that sliding surface position, therefore and be not suitable for.
Publication No. CN 202659227U, publication date are that on 01 09th, 2013 Chinese patent literature discloses one kind Tilt detection component, it is characterised in that: including MEMS deviational survey sensor, electronic compass, CPU and necessary power circuit;It is described MEMS deviational survey sensor is parallel to each other with electronic compass, and is connect respectively by signal path with CPU.
Tilt detection component disclosed in the patent document, needs the intervention of electronic compass, will be by earth magnetism by magnetoresistive element Change in resistance caused by power Strength Changes is converted into curent change, and is read out, calculates, determining the side of earth north and south earth magnetism To and electronic compass angle and direction;Drilling lateral displacement could be measured by carrying out coordinated with MEMS deviational survey sensor again, Structure is complex, electronic compass or MEMS deviational survey sensor any one go wrong to easily lead to and can not measure or measurement accuracy It is deteriorated, reliability is poor.
Utility model content
The utility model in order to overcome the defects of the prior art described above, provides one kind and surveys for creep deformation stage sliding surface The inclinometer looked into, the utility model effectively can not only accurately determine sliding surface position, and can also monitor landslide sliding speed Degree, provides reliable foundation for landslide stability evaluation and engineering control, has the characteristics of measurement is accurate, high reliablity.
The utility model is achieved through the following technical solutions:
A kind of inclinometer reconnoitred for creep deformation stage sliding surface, including inclimation measuring duct, data processor and display Device, data processor and display electrical connection, it is characterised in that: further include displacement sensor probe and bearing cable, institute's rheme Displacement sensor probe is located in inclimation measuring duct, circlip is fixed on the inner wall of inclimation measuring duct, the bottom of inclimation measuring duct is fixedly connected Have the conduit plug that cross section is tapered, the displacement sensor probe is stuck on circlip, the displacement sensor probe it is upper End is fixed with Waterproof cable joint, and the lower end of displacement sensor probe is fixed with rubber base plate, one end of the bearing cable with The Waterproof cable joint of displacement sensor probe connects, and the other end is connect with data processor.
Support frame is fixedly connected at the top of the inclimation measuring duct, bearing cable solderless wrapped connection is on the support frame.
The inclimation measuring duct is split type structure, including the first conduit, the second conduit, third conduit, the first pipe joint With the second pipe joint, the first conduit and the second conduit are connected by the first pipe joint, and the second conduit and third conduit pass through Second pipe joint connection.
The circlip is three, and three circlips are arranged along the axial direction of inclimation measuring duct, the spacing phase of the adjacent circlip of any two Together.
Support frame as described above includes circular substrate, column and circular top plate, is provided on circular substrate and passes through for bearing cable The upper end of through-hole, column is fixedly connected with circular top plate, and the lower end of column is fixedly connected with circular substrate, the diameter of circular top plate Greater than the diameter of circular substrate.
The spiral groove for bearing cable winding is provided on the column.
The working principle of the utility model is as follows:
Creep into as required using down-hole hammer to design hole depth, complete tripping in afterwards hole to be drilled in early period, tune draws the hole location that determines Inclimation measuring duct and fixation, connection and debugging, be repeatedly detected it is errorless after can test, visited by displacement sensor in inclimation measuring duct Displacement signal data are transferred to data processor processes by bearing cable, at data processor by head monitoring change in displacement Data after reason are presented over the display, so that it is determined that sliding surface position.Pass through down-hole hammer pore-forming and cooperates inclinometer deep position Different depth change in displacement can be monitored, determine sliding surface position, with full to the landslide fast pore-creating of sliding deformation stage by moving monitoring The requirement that foot reconnoitres creep deformation stage sliding surface.
The beneficial effects of the utility model are mainly manifested in following aspect:
One, the utility model, displacement sensor probe are located in inclimation measuring duct, are fixed with card on the inner wall of inclimation measuring duct Spring, the bottom of inclimation measuring duct are fixedly connected with the tapered conduit plug in cross section, and displacement sensor probe is stuck on circlip, position The upper end of displacement sensor probe is fixed with Waterproof cable joint, and the lower end of displacement sensor probe is fixed with rubber base plate, load-bearing One end of cable and the Waterproof cable joint of displacement sensor probe connect, and the other end connect with data processor, specifically adopts Displacement sensor probe is fixed in inclimation measuring duct with circlip, can prevent displacement sensor probe from generating shaking, ensures and surveys Try accuracy;It is fixedly connected with the tapered conduit plug in cross section by the bottom in inclimation measuring duct, deviational survey can be effectively reduced Resistance when conduit tripping in drills, down tube is more smooth, and is easily installed;By Waterproof cable joint by displacement sensor probe It links together with data processor, can be improved data transmission stability, convenient for ensureing data processing precision;By being displaced The fixed rubber base plate in the lower end of sensor probe, can buffer displacement sensor probe may fall the shake caused by hard object plane It is dynamic, ensure that stability is used for a long time in displacement sensor probe;As a complete technical solution, compared with the prior art, no It only effectively can accurately determine sliding surface position, and landslide sliding velocity can also be monitored, be landslide stability evaluation and work Cheng Zhili provides reliable foundation, has the characteristics of measurement is accurate, high reliablity.
Two, the utility model, is fixedly connected with support frame at the top of inclimation measuring duct, bearing cable solderless wrapped connection on the support frame, By the way that support frame is arranged, the good support of bearing cable can be given, is conducive to ensure that bearing cable is intact, and then ensure displacement Signal data transmission stability.
Three, the utility model, inclimation measuring duct are split type structure, including the first conduit, the second conduit, third conduit, One pipe joint and the second pipe joint, the first conduit and the second conduit are connected by the first pipe joint, the second conduit and the Three conduits are connected by the second pipe joint, and inclimation measuring duct is split type structure, and maintenance replacement easy to disassemble passes through pipe joint It is attached, it can be ensured that the bonding strength of entire inclimation measuring duct.
Four, the utility model, circlip are three, and three circlips are arranged along the axial direction of inclimation measuring duct, the adjacent card of any two The spacing of spring is identical, more stable displacement sensor probe can be fixed in inclimation measuring duct, further ensures that displacement passes The stability in use and test accuracy of sensor probe.
Five, the utility model, support frame include circular substrate, column and circular top plate, are provided on circular substrate for load-bearing The upper end of the through-hole that cable passes through, column is fixedly connected with circular top plate, and the lower end of column is fixedly connected with circular substrate, round The diameter of top plate is greater than the diameter of circular substrate, can not only carry out good fixation to bearing cable, and circular top plate Diameter is greater than the diameter of circular substrate, bearing cable can be prevented to a certain extent by rain erosion, extend bearing cable Service life.
Six, the utility model is provided with the spiral groove for bearing cable winding on column, solid convenient for bearing cable winding It is fixed, further increase the fixed degree of bearing cable.
Detailed description of the invention
The utility model is described in further detail below in conjunction with specification drawings and specific embodiments, In:
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is the structural schematic diagram of the utility model embodiment 2;
Fig. 3 is the structural schematic diagram of the utility model embodiment 3;
Fig. 4 is the structural schematic diagram of support frame in the utility model embodiment 4;
Marked in the figure: 1, inclimation measuring duct, 2, data processor, 3, display, 4, displacement sensor probe, 5, load-bearing electricity Cable, 6, circlip, 7, conduit plug, 8, Waterproof cable joint, 9, rubber base plate, 10, support frame, the 11, first conduit, 12, second Conduit, 13, third conduit, the 14, first pipe joint, the 15, second pipe joint, 16, circular substrate, 17, column, 18, circle Top plate, 19, spiral groove.
Specific embodiment
Embodiment 1
Referring to Fig. 1, a kind of inclinometer reconnoitred for creep deformation stage sliding surface, including inclimation measuring duct 1, data processing Device 2 and display 3, data processor 2 and display 3 are electrically connected, and further include displacement sensor probe 4 and bearing cable 5, described Displacement sensor probe 4 is located in inclimation measuring duct 1, and circlip 6 is fixed on the inner wall of inclimation measuring duct 1, and the bottom of inclimation measuring duct 1 is solid Surely it is connected with the tapered conduit plug 7 in cross section, the displacement sensor probe 4 is stuck on circlip 6, institute's displacement sensors The upper end of probe 4 is fixed with Waterproof cable joint 8, and the lower end of displacement sensor probe 4 is fixed with rubber base plate 9, the load-bearing One end of cable 5 is connect with the Waterproof cable joint 8 of displacement sensor probe 4, and the other end is connect with data processor 2.
The present embodiment is most basic embodiment, and displacement sensor probe is located in inclimation measuring duct, inclimation measuring duct it is interior Circlip is fixed on wall, the bottom of inclimation measuring duct is fixedly connected with the tapered conduit plug in cross section, displacement sensor probe It is stuck on circlip, the upper end of displacement sensor probe is fixed with Waterproof cable joint, and the lower end of displacement sensor probe is fixed with Rubber base plate, one end of bearing cable and the Waterproof cable joint of displacement sensor probe connect, the other end and data processor Displacement sensor probe is specifically fixed in inclimation measuring duct using circlip, can prevent displacement sensor probe from producing by connection It is raw to shake, ensure test accuracy;It is fixedly connected with the tapered conduit plug in cross section by the bottom in inclimation measuring duct, it can Resistance when inclimation measuring duct tripping in drilling is effectively reduced, down tube is more smooth, and is easily installed;By Waterproof cable joint by position Displacement sensor probe links together with data processor, can be improved data transmission stability, convenient for ensureing data processing essence Degree;By in the fixed rubber base plate in the lower end of displacement sensor probe, can buffer displacement sensor probe may fall hard Vibration caused by object plane ensures that stability is used for a long time in displacement sensor probe;It is more existing as a complete technical solution For technology, sliding surface position effectively can not only be accurately determined, and landslide sliding velocity can also be monitored, be landslide form mechanism Property evaluation and engineering control reliable foundation is provided, there is the characteristics of measurement is accurate, high reliablity.
Embodiment 2
Referring to fig. 2, a kind of inclinometer reconnoitred for creep deformation stage sliding surface, including inclimation measuring duct 1, data processing Device 2 and display 3, data processor 2 and display 3 are electrically connected, and further include displacement sensor probe 4 and bearing cable 5, described Displacement sensor probe 4 is located in inclimation measuring duct 1, and circlip 6 is fixed on the inner wall of inclimation measuring duct 1, and the bottom of inclimation measuring duct 1 is solid Surely it is connected with the tapered conduit plug 7 in cross section, the displacement sensor probe 4 is stuck on circlip 6, institute's displacement sensors The upper end of probe 4 is fixed with Waterproof cable joint 8, and the lower end of displacement sensor probe 4 is fixed with rubber base plate 9, the load-bearing One end of cable 5 is connect with the Waterproof cable joint 8 of displacement sensor probe 4, and the other end is connect with data processor 2.
The top of the inclimation measuring duct 1 is fixedly connected with support frame 10, and 5 solderless wrapped connection of bearing cable is on support frame 10.
The present embodiment is a better embodiment, is fixedly connected with support frame, bearing cable solderless wrapped connection at the top of inclimation measuring duct On the support frame, by the way that support frame is arranged, the good support of bearing cable can be given, is conducive to ensure that bearing cable is intact, And then ensure displacement signal data transmission stability.
Embodiment 3
Referring to Fig. 3, a kind of inclinometer reconnoitred for creep deformation stage sliding surface, including inclimation measuring duct 1, data processing Device 2 and display 3, data processor 2 and display 3 are electrically connected, and further include displacement sensor probe 4 and bearing cable 5, described Displacement sensor probe 4 is located in inclimation measuring duct 1, and circlip 6 is fixed on the inner wall of inclimation measuring duct 1, and the bottom of inclimation measuring duct 1 is solid Surely it is connected with the tapered conduit plug 7 in cross section, the displacement sensor probe 4 is stuck on circlip 6, institute's displacement sensors The upper end of probe 4 is fixed with Waterproof cable joint 8, and the lower end of displacement sensor probe 4 is fixed with rubber base plate 9, the load-bearing One end of cable 5 is connect with the Waterproof cable joint 8 of displacement sensor probe 4, and the other end is connect with data processor 2.
The top of the inclimation measuring duct 1 is fixedly connected with support frame 10, and 5 solderless wrapped connection of bearing cable is on support frame 10.
The inclimation measuring duct 1 is split type structure, including the first conduit 11, the second conduit 12, third conduit 13, first is led Pipe fitting 14 and the second pipe joint 15, the first conduit 11 and the second conduit 12 are connected by the first pipe joint 14, and second leads Pipe 12 and third conduit 13 are connected by the second pipe joint 15.
The circlip 6 is three, and three circlips 6 are arranged along the axial direction of inclimation measuring duct 1, between the adjacent circlip 6 of any two Away from identical.
The present embodiment is another better embodiment, and inclimation measuring duct is split type structure, including the first conduit, second is led Pipe, third conduit, the first pipe joint and the second pipe joint, the first conduit and the second conduit are connected by the first pipe joint It connects, the second conduit is connected with third conduit by the second pipe joint, and inclimation measuring duct is split type structure, and maintenance easy to disassemble is more It changes, is attached by pipe joint, it can be ensured that the bonding strength of entire inclimation measuring duct.
Circlip is three, and three circlips arrange that the spacing of the adjacent circlip of any two is identical, energy along the axial direction of inclimation measuring duct It is enough more stable that displacement sensor probe is fixed in inclimation measuring duct, further ensure that the use of displacement sensor probe is steady Qualitative and test accuracy.
Embodiment 4
Referring to Fig. 3 and Fig. 4, a kind of inclinometer reconnoitred for creep deformation stage sliding surface, including inclimation measuring duct 1, number According to processor 2 and display 3, it further includes displacement sensor probe 4 and bearing cable that data processor 2 and display 3, which are electrically connected, 5, the displacement sensor probe 4 is located in inclimation measuring duct 1, and circlip 6 is fixed on the inner wall of inclimation measuring duct 1, inclimation measuring duct 1 Bottom is fixedly connected with the tapered conduit plug 7 in cross section, and the displacement sensor probe 4 is stuck on circlip 6, the displacement The upper end of sensor probe 4 is fixed with Waterproof cable joint 8, and the lower end of displacement sensor probe 4 is fixed with rubber base plate 9, institute The one end for stating bearing cable 5 is connect with the Waterproof cable joint 8 of displacement sensor probe 4, and the other end and data processor 2 connect It connects.
The top of the inclimation measuring duct 1 is fixedly connected with support frame 10, and 5 solderless wrapped connection of bearing cable is on support frame 10.
The inclimation measuring duct 1 is split type structure, including the first conduit 11, the second conduit 12, third conduit 13, first is led Pipe fitting 14 and the second pipe joint 15, the first conduit 11 and the second conduit 12 are connected by the first pipe joint 14, and second leads Pipe 12 and third conduit 13 are connected by the second pipe joint 15.
The circlip 6 is three, and three circlips 6 are arranged along the axial direction of inclimation measuring duct 1, between the adjacent circlip 6 of any two Away from identical.
Support frame as described above 10 includes circular substrate 16, column 17 and circular top plate 18, is provided on circular substrate 16 for load-bearing The upper end of the through-hole that cable 5 passes through, column 17 is fixedly connected with circular top plate 18, and the lower end of column 17 and circular substrate 16 are fixed Connection, the diameter of circular top plate 18 are greater than the diameter of circular substrate 16.
The spiral groove 19 wound for bearing cable 5 is provided on the column 17.
The present embodiment is preferred forms, and displacement sensor probe is located in inclimation measuring duct, on the inner wall of inclimation measuring duct It is fixed with circlip, the bottom of inclimation measuring duct is fixedly connected with the tapered conduit plug in cross section, and displacement sensor probe is stuck in On circlip, the upper end of displacement sensor probe is fixed with Waterproof cable joint, and the lower end of displacement sensor probe is fixed with rubber Pedestal, one end of bearing cable and the Waterproof cable joint of displacement sensor probe connect, and the other end is connect with data processor, Specifically displacement sensor probe is fixed in inclimation measuring duct using circlip, can prevent displacement sensor probe from generating rolling It is dynamic, ensure test accuracy;It is fixedly connected with the tapered conduit plug in cross section by the bottom in inclimation measuring duct, it can be effective Reduce resistance when inclimation measuring duct tripping in drilling, down tube is more smooth, and is easily installed;Displacement is passed by Waterproof cable joint Sensor probe links together with data processor, can be improved data transmission stability, convenient for ensureing data processing precision;It is logical Cross in the fixed rubber base plate in the lower end of displacement sensor probe, can buffer displacement sensor probe may fall and draw in hard object plane The vibration risen ensures that stability is used for a long time in displacement sensor probe;As a complete technical solution, compared with the prior art Speech, effectively can not only accurately determine sliding surface position, and can also monitor landslide sliding velocity, be landslide stability evaluation Reliable foundation is provided with engineering control, there is the characteristics of measurement is accurate, high reliablity.
Support frame includes circular substrate, column and circular top plate, and the through-hole passed through for bearing cable is provided on circular substrate, The upper end of column is fixedly connected with circular top plate, and the lower end of column is fixedly connected with circular substrate, and the diameter of circular top plate is greater than The diameter of circular substrate can not only carry out good fixation to bearing cable, and the diameter of circular top plate is greater than round base The diameter of plate can prevent bearing cable by rain erosion to a certain extent, extend the service life of bearing cable.
It is provided with the spiral groove for bearing cable winding on column, is fastened, further increases convenient for bearing cable The fixed degree of bearing cable.

Claims (6)

1. a kind of inclinometer reconnoitred for creep deformation stage sliding surface, including inclimation measuring duct (1), data processor (2) and Display (3), data processor (2) and display (3) electrical connection, it is characterised in that: further include displacement sensor probe (4) and Bearing cable (5), the displacement sensor probe (4) are located in inclimation measuring duct (1), are fixed on the inner wall of inclimation measuring duct (1) Circlip (6), the bottom of inclimation measuring duct (1) are fixedly connected with the tapered conduit plug (7) in cross section, and institute's displacement sensors are visited Head (4) is stuck on circlip (6), and the upper end of the displacement sensor probe (4) is fixed with Waterproof cable joint (8), displacement sensing The lower end of device probe (4) is fixed with rubber base plate (9), one end of the bearing cable (5) and preventing for displacement sensor probe (4) Water power cable joint (8) connection, the other end are connect with data processor (2).
2. a kind of inclinometer reconnoitred for creep deformation stage sliding surface according to claim 1, it is characterised in that: institute It states and is fixedly connected at the top of inclimation measuring duct (1) support frame (10), bearing cable (5) solderless wrapped connection is on support frame (10).
3. a kind of inclinometer reconnoitred for creep deformation stage sliding surface according to claim 1, it is characterised in that: institute Stating inclimation measuring duct (1) is split type structure, including the first conduit (11), the second conduit (12), third conduit (13), the first conduit Connector (14) and the second pipe joint (15), the first conduit (11) and the second conduit (12) are connected by the first pipe joint (14) It connects, the second conduit (12) and third conduit (13) are connected by the second pipe joint (15).
4. a kind of inclinometer reconnoitred for creep deformation stage sliding surface according to claim 1, it is characterised in that: institute Stating circlip (6) is three, axial direction arrangement of three circlips (6) along inclimation measuring duct (1), the spacing of the adjacent circlip of any two (6) It is identical.
5. a kind of inclinometer reconnoitred for creep deformation stage sliding surface according to claim 2, it is characterised in that: institute Stating support frame (10) includes circular substrate (16), column (17) and circular top plate (18), and circular substrate is provided on (16) for load-bearing The upper end of the through-hole that cable (5) passes through, column (17) is fixedly connected with circular top plate (18), the lower end of column (17) and round base Plate (16) is fixedly connected, and the diameter of circular top plate (18) is greater than the diameter of circular substrate (16).
6. a kind of inclinometer reconnoitred for creep deformation stage sliding surface according to claim 5, it is characterised in that: institute State the spiral groove (19) being provided on column (17) for bearing cable (5) winding.
CN201821486201.7U 2018-09-12 2018-09-12 A kind of inclinometer reconnoitred for creep deformation stage sliding surface Active CN208845167U (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110174090A (en) * 2019-05-28 2019-08-27 广东质安建设工程技术有限公司 The towed deeply mixing cement-soil pile of intelligence based on automatic lifting inclinometer monitors system
CN110454086A (en) * 2019-08-20 2019-11-15 奥瑞拓能源科技股份有限公司 A kind of method and device of high angle hole down-the-hole drilling steering
CN111599136A (en) * 2020-03-24 2020-08-28 南京智慧基础设施技术研究院有限公司 Sensing device applied to landslide monitoring
CN114114388A (en) * 2021-11-28 2022-03-01 中交第四公路工程局有限公司 Micro-seismic monitoring sensor for tunnel drilling and blasting construction and cable protection device
CN114753792A (en) * 2022-05-17 2022-07-15 内蒙古煤勘新能源开发有限公司 Rope coring well track monitoring device

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110174090A (en) * 2019-05-28 2019-08-27 广东质安建设工程技术有限公司 The towed deeply mixing cement-soil pile of intelligence based on automatic lifting inclinometer monitors system
CN110174090B (en) * 2019-05-28 2022-07-26 广东质安建设工程技术有限公司 Intelligent traction type deep horizontal displacement monitoring system based on automatic lifting inclinometer
CN110454086A (en) * 2019-08-20 2019-11-15 奥瑞拓能源科技股份有限公司 A kind of method and device of high angle hole down-the-hole drilling steering
CN110454086B (en) * 2019-08-20 2024-04-30 奥瑞拓能源科技股份有限公司 Method and device for controlling drilling direction of down-the-hole of highly deviated well
CN111599136A (en) * 2020-03-24 2020-08-28 南京智慧基础设施技术研究院有限公司 Sensing device applied to landslide monitoring
CN114114388A (en) * 2021-11-28 2022-03-01 中交第四公路工程局有限公司 Micro-seismic monitoring sensor for tunnel drilling and blasting construction and cable protection device
CN114114388B (en) * 2021-11-28 2024-01-23 中交第四公路工程局有限公司 Microseism monitoring sensor and cable protection device for tunnel drilling and blasting method construction
CN114753792A (en) * 2022-05-17 2022-07-15 内蒙古煤勘新能源开发有限公司 Rope coring well track monitoring device
CN114753792B (en) * 2022-05-17 2024-05-31 内蒙古煤勘新能源开发有限公司 Rope coring well track monitoring device

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