CN109141360A - A kind of sliding inclinometer automatic measurement location structure - Google Patents
A kind of sliding inclinometer automatic measurement location structure Download PDFInfo
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- CN109141360A CN109141360A CN201811133041.2A CN201811133041A CN109141360A CN 109141360 A CN109141360 A CN 109141360A CN 201811133041 A CN201811133041 A CN 201811133041A CN 109141360 A CN109141360 A CN 109141360A
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- cable
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- sliding
- locating
- gripping mechanism
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C9/00—Measuring inclination, e.g. by clinometers, by levels
- G01C9/02—Details
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- Engineering & Computer Science (AREA)
- General Physics & Mathematics (AREA)
- Radar, Positioning & Navigation (AREA)
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- Length Measuring Devices With Unspecified Measuring Means (AREA)
- A Measuring Device Byusing Mechanical Method (AREA)
Abstract
The present invention relates to a kind of sliding inclinometer automatic measurement location structure and its application methods, including locating cover and cable, it is provided with flexible gripping mechanism on the locating cover, locating slot is equidistantly arranged at intervals on the cable, locating slot is provided with limited wall and guide wall;Stretch described in the locating slot face of cable gripping mechanism when, the flexible gripping mechanism stretching is caught in the locating slot, and limits fixed cable position by the limited wall;When continuing to lift the cable, the idler wheel of the flexible gripping mechanism skids off the locating slot along the guide wall.The alarm set for being additionally provided with automatic data acquisition module and being electrically connected with automatic data acquisition module;The present invention has positioning convenient, accurate, effectively reduces human cost, improves measurement accuracy, and automatic measurement may be implemented.
Description
Technical field
The present invention relates to safety monitoring technology field more particularly to a kind of sliding inclinometer automatic measurement location structures.
Background technique
Sliding inclinometer is a kind of in-situ monitoring instrument for monitoring Rock And Soil horizontal displacement, can be used for observing all kinds of engineerings
The Rock And Soil horizontal displacement of different depth.
Existing sliding inclinometer includes cable and the displacement sensor with cable connection, every on the crust of cable
Every 0.5m or 1m, one length mark is set;Scene is hand-held by manpower in use, displacement sensor is put into inclinometer pipe
Cable, and displacement sensor is lifted step by step.Every level-one needs to rely on the position that length mark determines simultaneously stability sensor when measuring
It sets.For the position of stability sensor, existing way is to be pressed cable identification in inclinometer tube orifice guide groove position by manpower
(such as Fig. 1).In consideration of it, two people of existing deviational survey need of work carry out, a personal responsibility lifts sliding inclinometer, another
People is responsible for the counting of readout instrument.
As it can be seen that the shortcomings that existing sliding inclinometer includes: that length mark is easy using and with nozzle friction for a long time
Abrasion, and length mark all has certain width, sunshade standard of reference identification in measurement is difficult to keep unanimously, also
It is difficult to ensure that the consistency of the position measured twice.In addition, length mark pressing is in inclinometer tube orifice position, cable pair at this time
What displacement sensor generated is oblique pulling force, and under the action of the horizontal component of oblique pulling force, displacement sensor can generate deflection
And then influence measurement accuracy (as shown in Figure 2).Furthermore two people's conjunction measuring when deviational survey, this had both been easy to return because tacit agreement is insufficient
Work, and be the significant wastage of human cost, while data cannot be automatically recorded.
To sum up, it is convenient, accurate to be badly in need of a kind of positioning for existing sliding inclinometer, reduces the measurement and positioning knot of human cost
Structure.
Summary of the invention
The first purpose of the invention is to provide a kind of sliding inclinometer automatic measurement location structures, have positioning side
Just, human cost accurately, is effectively reduced, realization automatically records data.
A second object of the present invention is to provide a kind of application methods of sliding inclinometer automatic measurement location structure.
For up to first purpose, the invention adopts the following technical scheme:
A kind of sliding inclinometer automatic measurement location structure, including locating cover and cable;
The locating cover includes hollow cylindrical body and the outwardly extending cover rim of bodies top, the ontology and cover rim one
Body formed, the ontology is plugged in the nozzle of inclinometer pipe, and the ontology and cover rim are provided in same position through inside and outside wall
Notch is symmetrically arranged with flexible gripping mechanism on the inner wall of the ontology, and the flexible gripping mechanism front end face is provided with rolling
Wheel;
The first end of the cable connects displacement sensor, and second end connects readout instrument, and the cable is along first end to the
Two end spaced sets have locating slot, and the locating slot is guide wall by the side wall of first end, and the side wall by second end is limit
Wall;The alarm set for being provided with automatic data acquisition module in the readout instrument and being electrically connected with automatic data acquisition module;
The cable is placed in the middle part of the locating cover by the notch, and the idler wheel of the flexible gripping mechanism presses against
The cable outer wall;Stretch described in the locating slot face of cable gripping mechanism when, the flexible gripping mechanism stretching is caught in institute
It states in locating slot, and fixed cable position is limited by the limited wall;When continuing to lift the cable, the flexible clamping dress
The idler wheel set skids off the locating slot along the guide wall.
Preferably, the flexible gripping mechanism includes slide bar, sliding block, spring, and the slide bar is vertically fixed on the positioning
The inner wall of lid, the sliding block are slidably sleeved on the slide bar, and the spring is also threaded through on the slide bar, and one end connects
The sliding block is connect, the other end is fixed on the locating cover inner wall;The front end face of the sliding block is symmetrical above and below to be provided with the rolling
Wheel.
Preferably, the front end of the slide bar is additionally provided with pressure sensor, and the cover rim top is provided with microprocessor, pressure
Force snesor is connect with microprocessor by conducting wire, and the microprocessor and the automatic data acquisition module are also by conducting wire
Connection, the alarm set are buzzer or flash lamp.
Preferably, the inner wall of the locating cover is provided with counterbore, and the slide bar and spring are each attached to the bottom of the counterbore
Side wall.
Preferably, the locating slot further includes bottom wall, and the bottom wall length is greater than between the outer edge of upper and lower side wheel
Distance;The limited wall includes limiting groove and protrusion, and the limiting groove side is concordant with bottom wall, the limiting groove slot
The deep radius for being less than the idler wheel, the width of the limiting groove are less than the diameter of the idler wheel, and the outer of the protrusion was
Cross circular arc;Transition arc of the guide wall between the bottom wall and cable outer wall.
Preferably, the sliding slot for penetrating through the cable along its length is also symmetrically arranged on the cable, the sliding slot
The deep equality of depth and the locating slot;The slide bar front end is protruded into the sliding slot.
Preferably, the spacing between the locating slot is 50cm or 1m.
Preferably, the cable is additionally provided with strengthening course in the position of the locating slot, the strengthening course be steel wire or
Web.
Preferably, the diameter of the cover rim is greater than the outer diameter of inclinometer pipe, and the locating cover uses high strength plastics or metal material
Matter is made.
To reach another object of the present invention, the present invention adopts the following technical scheme:
A kind of application method of sliding inclinometer measurement and positioning structure, includes the following steps:
(1) sliding inclinometer and locating cover above-mentioned for having aforementioned cable are provided;
(2) displacement sensor, is slowly put into inclinometer pipe tube bottom by cable by the protective cover for opening inclinometer pipe;
(3) cable is placed in the middle part of the locating cover by the notch, and two sides are stretched gripping mechanism
Slide bar be placed in cable sliding slot in, then, the locating cover is plugged in the nozzle of inclinometer pipe, and ensure top of inclinometer pipe with
The cover rim bottom fitting;
(4) cable is lifted, the cable so that the flexible gripping mechanism stretching comes loose after being caught in first locating slot,
Sliding block triggers pressure sensor at this time, and signal is reached microprocessor by pressure sensor, and microprocessor feeds back to signal automatically
Data acquisition module simultaneously starts to acquire data, and after the completion of data acquisition, automatic data acquisition module is by the letter of data acquisition
Number feed back to the alarm set;
(5) cable is slowly lifted, so that the idler wheel of the flexible gripping mechanism skids off first institute along the guide wall
State locating slot;
(6) continue to lift cable, so that the flexible gripping mechanism stretching comes loose after being caught in second locating slot
Cable, sliding block triggers pressure sensor again at this time, and signal is reached microprocessor by pressure sensor, and microprocessor is by signal
It feeds back to automatic data acquisition module and starts to acquire data, after the completion of data acquisition, automatic data acquisition module adopts data
The signal of collection feeds back to the alarm set;
(7) acquisition for completing all deviational survey data in step (5)-(6) is repeated;
(8) locating cover is laid down, and covers inclinometer pipe protective cover;Cable is taken out from notch, and is placed displacement and passed
Sensor and locating cover complete entire deviational survey work.
The attainable technical effect of institute of the invention has:
(1) locating slot on the locating cover and cable that the present invention passes through specific structure carries out positioning measurement, eliminates length
Mark, greatly facilitates positioning, and can guarantee that the multiple measurement position of same observation station is completely the same, it is subtle to eliminate position
Influence of the difference to deviational survey data, in addition, under the action of locating cover stretches gripping mechanism, it is ensured that cable is in always
The middle part of inclinometer pipe will not apply oblique pulling force to displacement sensor and avoid displacement sensing caused by oblique pulling force in turn
The deflection of device, so that measurement result is more accurate;
(2) present invention is provided with limited wall and guide wall on locating slot, and limited wall limits cable and displacement sensor
Downslide, can come loose completely cable after lifting in place, therefore, by using measurement and positioning structure of the invention, a people is
Achievable deviational survey work, reduces human cost;The setting of guide wall can make flexible gripping mechanism easily skid off positioning
Slot greatly reduces deviational survey lifting difficulty, reduces labor intensity in addition, cooperating flexible gripping mechanism;
(3) present invention is additionally arranged automatic data acquisition module and alarm set in readout instrument, and automaticdata may be implemented
Acquisition, by alarm set automatic feedback after the completion of acquisition, worker only needs intermittent lifting, further simplifies survey
Tiltedly work;
(4) present invention cleverly sets slide bar, and slide bar both can be used as the slideway of sliding block, the guide rod of spring, and can
Using the weight in measurement as supporting element balanced cable and displacement sensor;Meanwhile cooperating sliding slot, cable can be mentioned
Capable guiding is drawn in, further pressure sensor is arranged in the front end of slide bar in the present invention, touches by the signal of pressure sensor
Automatic data acquisition module in readout instrument is sent out, ensure that and only just acquire data when flexible gripping mechanism is caught in locating slot.It can
See, the setting of slide bar is to achieve many things at one stroke;
(5) present invention is provided with limiting groove on limited wall, and limiting groove cooperates idler wheel, can completely by cable and
The position of displacement sensor is subject to stuck, prevents slipping phenomenon, further ensures the precision of measurement;
(6) present invention is provided with strengthening course in the position of locating slot, and strengthening course can be improved the intensity at locating slot, have
Effect balances at locating slot and the intensity difference of its elsewhere of cable, and cable is prevented to be pulled off at locating slot;
(7) it is greater than the cover rim of deviational survey pipe outside diameter by setting diameter, has greatly facilitated locating cover and inserted or pull out deviational survey
Pipe.
Detailed description of the invention
Fig. 1 is the schematic cross-section of existing inclinometer pipe;
Fig. 2 is existing sliding inclinometer instrumentation plan;
Fig. 3 is structural schematic diagram of the one embodiment of the invention in sliding;
Fig. 4 is the top view of one embodiment of the invention Fig. 3;
Structural schematic diagram when Fig. 5 is one embodiment of the invention positioning;
Fig. 6 is sectional view of the one embodiment of the invention Fig. 5 at locating slot;
Fig. 7 is enlarged drawing at B in one embodiment of the invention Fig. 3;
Fig. 8 is enlarged drawing at A in one embodiment of the invention Fig. 5;
Fig. 9 is the structural schematic diagram of one embodiment of the invention cable;
Figure 10 is the schematic diagram of the automatic data collection of another embodiment of the present invention.
Wherein: locating cover 1, cover rim 11, ontology 12, notch 13, flexible gripping mechanism 1-1, counterbore 1-1-1, slide bar 1-1-
2, spring 1-1-3, sliding block 1-1-4, idler wheel 1-1-5, cable 2, locating slot 21, sliding slot 22, protrusion 2-1-1, limiting groove 2-1-
2, bottom wall 2-1-3, guide wall 2-1-4, inclinometer pipe 3, displacement sensor 4, microprocessor 5, conducting wire 6, pressure sensor 7, automatic
Data acquisition module 8.
Specific embodiment
To further illustrate the technical scheme of the present invention below with reference to the accompanying drawings and specific embodiments.
Embodiment 1:
As shown in figures 3-8, a kind of sliding inclinometer measurement and positioning structure, including locating cover 1 and cable 2;
The locating cover 1 includes the 12 outwardly extending cover rim 11 in top of hollow cylindrical body 12 and ontology, the ontology
12 and cover rim 11 be integrally formed, the ontology 11 is plugged in the nozzle of inclinometer pipe 3, and the ontology 12 and cover rim 11 are in same position
The notch 13 being equipped with through inside and outside wall is installed, flexible gripping mechanism 1-1 is symmetrically arranged on the inner wall of the ontology 12, it is described
Flexible gripping mechanism 1-1 front end face is provided with idler wheel 1-1-5;
The first end of the cable 2 connects displacement sensor 4, and second end connects readout instrument, and the cable 2 is along first end
There is locating slot 21 to second end spaced set, the locating slot 21 is guide wall by the side wall of first end, by the side of second end
Wall is limited wall;Limited wall limits the downslide of cable and displacement sensor 4, and can come loose cable completely after lifting in place, because
This, by using measurement and positioning structure of the invention, deviational survey work is can be completed in a people, reduces human cost;Guide wall
Setting flexible gripping mechanism can be made easily to skid off locating slot, in addition, cooperating flexible gripping mechanism, greatly reduce
Deviational survey lifts difficulty, reduces labor intensity.
The prompting for being provided with automatic data acquisition module 8 in the readout instrument and being electrically connected with automatic data acquisition module 8
Device;Automatic data acquisition may be implemented, by alarm set automatic feedback after the completion of acquisition, worker only needs intermittent mention
Drawing further simplifies deviational survey work.
The cable 2 is placed in the middle part of the locating cover 1, the rolling of the flexible gripping mechanism 1-1 by the notch 13
Wheel 1-1-5 presses against 2 outer wall of cable;Stretch described in 21 face of locating slot of cable 2 gripping mechanism 1-1 when, it is described to stretch
Contracting gripping mechanism 1-1 stretching is caught in the locating slot 21, and limits fixed 2 position of cable by the limited wall;Continue to lift
When the cable 2, the idler wheel 1-1-5 of the flexible gripping mechanism 1-1 skids off the locating slot 21 along the guide wall.
By above structure, length mark is eliminated, greatly facilitates positioning, and can guarantee that same observation station is repeatedly surveyed
It is completely the same to measure position, eliminates influence of the position nuance to deviational survey data, in addition, the flexible clamping in locating cover 1 fills
Under the action of setting 1-1, it is ensured that cable is in the middle part of inclinometer pipe always, will not apply oblique drawing to displacement sensor 4
Power avoids the deflection of displacement sensor 4 caused by oblique pulling force in turn, so that measurement result is more accurate.
As shown in fig. 6, the flexible gripping mechanism 1-1 includes slide bar 1-1-2, sliding block 1-1-4, spring 1-1-3, it is described
Slide bar 1-1-2 is vertically fixed on the inner wall of the locating cover 1, and the sliding block 1-1-4 is slidably sleeved on the slide bar 1-1-
On 2, the spring 1-1-3 is also threaded through on the slide bar 1-1-2, and one end connects the sliding block 1-1-4, and the other end is fixed on
On 1 inner wall of locating cover;The front end face of the sliding block 1-1-4 is symmetrical above and below to be provided with the idler wheel 1-1-5.
Further, the front end of the slide bar 1-1-2 is additionally provided with pressure sensor 7, and 11 top of cover rim is provided with
Microprocessor 5, pressure sensor 7 are connect with microprocessor 5 by conducting wire, the microprocessor 5 and the automatic data acquisition
Module 8 is connected also by conducting wire, and the alarm set is buzzer or flash lamp.
Here slide bar 1-1-2 both can be used as the slideway of sliding block 1-1-4, the guide rod of spring 1-1-3, and can survey
Weight when amount as supporting element balanced cable 2 and displacement sensing;Meanwhile cooperating locating slot 21, it can be to the lifting of cable 2
It is oriented to, further pressure sensor 7 is arranged in the front end of slide bar 1-1-2 in the present invention, passes through pressure sensor 7
Signal triggers automatic data acquisition module 8 in readout instrument, ensure that only when flexible gripping mechanism 1-1 is caught in locating slot 21
Just acquire data.As it can be seen that the setting of slide bar 1-1-2 is to achieve many things at one stroke;
Further, the inner wall of the locating cover 1 is provided with counterbore 1-1-1, and the slide bar 1-1-2 and spring 1-1-3 are equal
It is fixed on the downside wall of the counterbore 1-1-1, reduces the area occupied of flexible gripping mechanism 1-1 in this way, is set convenient for cable 2
Enter in locating cover;
As shown in fig. 7, the locating slot 21 further includes bottom wall, the bottom wall length is outer greater than upper and lower side wheel 1-1-5
The distance between edge;The limited wall includes limiting groove 2-1-2 and the side protrusion 2-1-1, the limiting groove 2-1-2
Concordant with bottom wall, the limiting groove 2-1-2 groove depth is less than the radius of the idler wheel, and the width of the limiting groove 2-1-2 is small
In the diameter of the idler wheel 1-1-5, the outer of the protrusion 2-1-1 is transition arc;The guide wall is the bottom wall and electricity
Transition arc between cable outer wall.Limiting groove 2-1-2 cooperates idler wheel, can be completely by the position of cable and displacement sensor 4
It is subject to stuck, prevents slipping phenomenon, further ensure the precision of measurement;
As shown in figure 9, the sliding slot 22 for penetrating through the cable along its length is also symmetrically arranged on the cable 2, it is described
The deep equality of the depth of sliding slot 22 and the locating slot 21;The slide bar 1-1-2 is protruded into front end in the sliding slot 22.
Further, the spacing between the locating slot 21 is 50cm or 1m.
The cable 2 is additionally provided with strengthening course in the position of the locating slot 21, and the strengthening course is steel wire or fiber
Net (not shown).Strengthening course can be improved the intensity at locating slot, at active balance locating slot 21 and 2 its elsewhere of cable
Intensity difference prevents cable to be pulled off at locating slot 21;
Further, referring to Fig. 3, the diameter of 5 cover rims 11 is greater than the outer diameter of inclinometer pipe 3, in this way, greatly facilitating
Locating cover inserts or pull out inclinometer pipe.The locating cover is made of high strength plastics or metal material.
Embodiment 2:
Referring to attached drawing 3-10, embodiment 2 is the application method of embodiment 1, is included the following steps:
(1) sliding inclinometer and locating cover above-mentioned 1 for having aforementioned cable 2 are provided;
(2) protective cover for opening inclinometer pipe, is slowly put into 3 tube bottom of inclinometer pipe for displacement sensor 4 by cable 2;
(3) cable is placed in the middle part of the locating cover 1 by the notch 13, and two sides is stretched clamping dress
It sets in the sliding slot 22 of slide bar 1-1-2 merging cable 2 of 1-1, then, the locating cover 1 is plugged in the nozzle of inclinometer pipe 3, and
Ensure that 3 top of inclinometer pipe is bonded with 11 bottom of cover rim;
(4) cable is lifted, so that the flexible gripping mechanism 1-1 stretching is loose after being caught in first locating slot 21
Power down cable 2, sliding block 1-1-4 triggers pressure sensor 7 at this time, and signal is reached microprocessor 5, microprocessor by pressure sensor 7
Signal is fed back to automatic data acquisition module 8 and starts to acquire data by 5, after the completion of data acquisition, automatic data acquisition module
The signal of data acquisition is fed back to the alarm set by 8;
(5) cable 2 is slowly lifted, so that the idler wheel 1-1-5 of the flexible gripping mechanism 1-1 is sliding along the guide wall
First locating slot 21 out;
(6) continue to lift cable 2, so that the flexible gripping mechanism 1-1 stretching is caught in second locating slot 21
After come loose cable 2, sliding block 1-1-4 triggers pressure sensor 7 again at this time, and signal is reached microprocessor 5 by pressure sensor 7,
Signal is fed back to automatic data acquisition module 8 and starts to acquire data by microprocessor 5, after the completion of data acquisition, automaticdata
The signal that data acquire is fed back to the alarm set by acquisition module 8;
(7) acquisition for completing all deviational survey data in step (5)-(6) is repeated;
(8) locating cover 1 is laid down, and covers inclinometer pipe protective cover;Cable 2 is taken out from notch 13, and places position
Displacement sensor 4 and locating cover 1 complete entire deviational survey work.
The technical principle of the invention is described above in combination with a specific embodiment.These descriptions are intended merely to explain of the invention
Principle, and shall not be construed in any way as a limitation of the scope of protection of the invention.Based on the explanation herein, the skill of this field
Art personnel can associate with other specific embodiments of the invention without creative labor, these modes all will
It falls under the scope of the present invention.
Claims (10)
1. a kind of sliding inclinometer automatic measurement location structure, including locating cover and cable;It is characterized by:
The locating cover includes hollow cylindrical body and the outwardly extending cover rim of bodies top, the ontology and cover rim one at
Type, the ontology are plugged in the nozzle of inclinometer pipe, the ontology and cover rim and same position are provided with the notch through inside and outside wall,
Flexible gripping mechanism is symmetrically arranged on the inner wall of the ontology, the flexible gripping mechanism front end face is provided with idler wheel;
The first end of the cable connects displacement sensor, and second end connects readout instrument, and the cable is along first end to second end
Spaced set has locating slot, and the locating slot is guide wall by the side wall of first end, and the side wall by second end is limited wall;Institute
State the alarm set for being provided with automatic data acquisition module in readout instrument and being electrically connected with automatic data acquisition module;
The cable is placed in the middle part of the locating cover by the notch, and the idler wheel of the flexible gripping mechanism presses against described
Cable outer wall;Stretch described in the locating slot face of cable gripping mechanism when, it is described fixed that the flexible gripping mechanism stretching is caught in
In the slot of position, and fixed cable position is limited by the limited wall;When continuing to lift the cable, the rolling of the flexible gripping mechanism
Wheel skids off the locating slot along the guide wall.
2. sliding inclinometer automatic measurement location structure according to claim 1, it is characterised in that: the flexible clamping
Device includes slide bar, sliding block, spring, and the slide bar is vertically fixed on the inner wall of the locating cover, and the sliding block slideably covers
It is located on the slide bar, the spring is also threaded through on the slide bar, and one end connects the sliding block, and the other end is fixed on described fixed
On the lid inner wall of position;The front end face of the sliding block is symmetrical above and below to be provided with the idler wheel.
3. sliding inclinometer automatic measurement location structure according to claim 1 or 2, it is characterised in that: the slide bar
Front end be additionally provided with pressure sensor, the cover rim top is provided with microprocessor, and pressure sensor passes through with microprocessor
Conducting wire connection, the microprocessor are connect with the automatic data acquisition module also by conducting wire, and the alarm set is buzzing
Device or flash lamp.
4. sliding inclinometer automatic measurement location structure according to claim 3, it is characterised in that: the locating cover
Inner wall is provided with counterbore, and the slide bar and spring are each attached to the downside wall of the counterbore.
5. sliding inclinometer automatic measurement location structure according to claim 3 or 4, it is characterised in that: the positioning
Slot further includes bottom wall, and the bottom wall length is greater than the distance between the outer edge of upper and lower side wheel;The limited wall includes limit
Groove and protrusion, the limiting groove side is concordant with bottom wall, and the limiting groove groove depth is less than the radius of the idler wheel, described
The width of limiting groove is less than the diameter of the idler wheel, and the outer of the protrusion is transition arc;The guide wall is the bottom
Transition arc between wall and cable outer wall.
6. sliding inclinometer automatic measurement location structure according to claim 5, it is characterised in that: on the cable also
It is symmetrically arranged with the sliding slot for penetrating through the cable along its length, the deep equality of the depth of the sliding slot and the locating slot;
The slide bar front end is protruded into the sliding slot.
7. sliding inclinometer automatic measurement location structure according to claim 6, it is characterised in that: the locating slot it
Between spacing be 50cm or 1m.
8. sliding inclinometer automatic measurement location structure according to claim 6, it is characterised in that: the cable is in institute
The position for stating locating slot is additionally provided with strengthening course, and the strengthening course is steel wire or web.
9. the diameter of sliding inclinometer automatic measurement location structure according to claim 8, the cover rim is greater than deviational survey
The outer diameter of pipe, the locating cover are made of high strength plastics or metal material.
10. a kind of sliding inclinometer automatic measurement location structure as described in any one of claim 1-9 claim makes
With method, include the following steps:
(1) sliding inclinometer and locating cover for having cable are provided;
(2) displacement sensor, is slowly put into inclinometer pipe tube bottom by cable by the protective cover for opening inclinometer pipe;
(3) cable is placed in the middle part of the locating cover by the notch, and two sides are stretched the slide bar of gripping mechanism
It is placed in the sliding slot of cable, then, the locating cover is plugged in the nozzle of inclinometer pipe, and ensure top of inclinometer pipe and the lid
It is bonded along bottom;
(4) cable is lifted, the cable so that the flexible gripping mechanism stretching comes loose after being caught in first locating slot, at this time
Sliding block triggers pressure sensor, and signal is reached microprocessor by pressure sensor, and signal is fed back to automaticdata by microprocessor
Acquisition module simultaneously starts to acquire data, and after the completion of data acquisition, automatic data acquisition module is anti-by the signal of data acquisition
It is fed to the alarm set;
(5) slowly lift cable so that the idler wheel of the flexible gripping mechanism along the guide wall skid off first it is described fixed
Position slot;
(6) continue to lift cable, the cable so that the flexible gripping mechanism stretching comes loose after being caught in second locating slot,
Sliding block triggers pressure sensor again at this time, and signal is reached microprocessor by pressure sensor, and microprocessor feeds back to signal
Automatic data acquisition module simultaneously starts to acquire data, after the completion of data acquisition, letter that automatic data acquisition module acquires data
Number feed back to the alarm set;
(7) acquisition for completing all deviational survey data in step (5)-(6) is repeated;
(8) locating cover is laid down, and covers inclinometer pipe protective cover;Cable is taken out from notch, and places displacement sensor
And locating cover, complete entire deviational survey work.
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CN115387406A (en) * | 2022-09-03 | 2022-11-25 | 福建金鼎建筑发展有限公司 | Foundation pit monitoring device |
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