CN206205013U - Automatic lifting inclination measurement device - Google Patents
Automatic lifting inclination measurement device Download PDFInfo
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- CN206205013U CN206205013U CN201621144842.5U CN201621144842U CN206205013U CN 206205013 U CN206205013 U CN 206205013U CN 201621144842 U CN201621144842 U CN 201621144842U CN 206205013 U CN206205013 U CN 206205013U
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- motion controller
- control system
- measurement device
- inclination measurement
- automatic lifting
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Abstract
The utility model provides a kind of automatic lifting inclination measurement device, the utility model by be fixed on foundation ditch gaging hole top the mouth of pipe mouth of pipe anchor ear device, the motion controller being connected with the mouth of pipe anchor ear device, the power control system being connected with the motion controller, the lifting meter counter and sliding inclinometer being connected with the power control system, the motion controller carries out elevating movement according to the reading control power control system drive sliding inclinometer of lifting meter counter, solve human task amount weight in current pit inclinometer work, time-consuming, data are big by Human disturbance, 24 hours problems of uninterrupted real-time monitoring cannot be realized.
Description
Technical field
The utility model belongs to ground monitoring device, and the utility model is related to the deep layer of retaining wall in Excavation Process
The monitoring device of horizontal displacement.
Background technology
Deviational survey is operated in the monitoring of base pit engineering surrounding enviroment and occupies an important position, and the conventional inclinometer in the country is generally cunning
Dynamic formula inclinometer.Sliding inclinometer respectively has a pair of pulleys up and down, upper and lower wheelspan 500mm, and its operation principle is to utilize gravity bob
Hammer remains the property of vertical direction, measures the inclination angle between instrument axis and pendulum vertical line, and the change at inclination angle can be by electricity
Signal is changed and obtained, such that it is able to know by the change in displacement value of geodesic structure.Generally surveyed using artificial pulling slidingtype
The mode of oblique instrument is monitored work:
But there is following drawback in above-mentioned measuring method:
1. be monitored by artificial pulling inclino-probe, by pulling the scale controlling depth on cable, excessively according to
Judge by monitoring personnel, it is impossible to ensure the accuracy of depth;
2. when inclino-probe is measured, due to pulling state in artificial, it is impossible to ensure stabilization reading;
3. monitoring process is cumbersome, time-consuming more long, and in, extensive foundation ditch, acquisition time is long, data hysteresis quality;
4., to meet detection requirement, artificial amount is consumed very big;
5. the uninterrupted monitor in real time requirement in 24 hours required when deep basal pit critical process is constructed can not be met.
Utility model content
The purpose of this utility model is to provide a kind of automatic lifting inclination measurement device and method, can solve the problem that current foundation ditch is surveyed
Tiltedly work in human task amount weight, time-consuming, data by Human disturbance greatly, cannot realize that 24 hours uninterrupted real-time monitorings are asked
Topic.
To solve the above problems, the utility model provides a kind of automatic lifting inclination measurement device, including:
It is fixed on the mouth of pipe anchor ear device of the gaging hole top mouth of pipe of foundation ditch;
The motion controller being connected with the mouth of pipe anchor ear device;
The power control system being connected with the motion controller;
The lifting meter counter and sliding inclinometer being connected with the power control system, the motion controller is according to liter
The reading control power control system drive sliding inclinometer for dropping meter counter carries out elevating movement.
Further, in said apparatus, the automatic lifting inclination measurement device also includes:
The first radio transmission apparatus being connected with the sliding inclinometer;
With the data acquisition instrument of the first radio transmission apparatus wireless connection.
Further, in said apparatus, the automatic lifting inclination measurement device also includes:
The second radio transmission apparatus being connected with the data acquisition instrument;
With the background devices of the second radio transmission apparatus wireless connection, the background devices wireless pass from described second
Transfer device receive reading simultaneously preserve, and according to the reading automatically form the longitudinal axis be fathom, transverse axis be horizontal displacement value
Deviational survey curve.
Further, in said apparatus, first radio transmission apparatus are also connected with the motion controller;
The background devices are additionally operable to pass sequentially through second radio transmission apparatus, data acquisition instrument and first wireless
Transmission equipment sends measuring command to the motion controller, and the motion controller is described dynamic according to measuring command control
Force control system drive sliding inclinometer carries out elevating movement.
Further, in said apparatus, the power control system includes:
The gear being connected with the motion controller;
The spool coordinated with the gear;
It is wound in the spiral on the spool.
Compared with prior art, the utility model by be fixed on foundation ditch gaging hole top the mouth of pipe mouth of pipe anchor ear device,
The motion controller being connected with the mouth of pipe anchor ear device, the power control system being connected with the motion controller is and described
The lifting meter counter and sliding inclinometer of power control system connection, reading of the motion controller according to lifting meter counter
Controlling the power control system drive sliding inclinometer carries out elevating movement, solves manually to appoint in current pit inclinometer work
Business amount weight, time-consuming, data by Human disturbance it is big, 24 hours problems of uninterrupted real-time monitoring cannot be realized.
Brief description of the drawings
Fig. 1 is the scheme of installation of the automatic lifting inclination measurement device of the embodiment of the utility model one;
Fig. 2 is the structure chart of the automatic lifting inclination measurement device of the embodiment of the utility model one.
Specific embodiment
To enable above-mentioned purpose of the present utility model, feature and advantage more obvious understandable, below in conjunction with the accompanying drawings and tool
Body implementation method is described in further detail to the utility model.
As illustrated in fig. 1 and 2, the utility model provides a kind of automatic lifting inclination measurement device, including:
The mouth of pipe anchor ear device 2 of the gaging hole top mouth of pipe 1 of the underground connection wall 10 of foundation ditch is fixed on, is consolidated for carrying out the mouth of pipe
It is fixed, the device is controlled in less scope 30*30cm as far as possible, building-site can be applied to;
The motion controller 3 being connected with the mouth of pipe anchor ear device 2;
The power control system 4 being connected with the motion controller 3;
The lifting meter counter 5 and sliding inclinometer 6 being connected with the power control system 4, the motion controller root
Elevating movement is carried out according to the reading control of the lifting meter counter power control system drive sliding inclinometer.Here, with reference to
Lifting meter counter, the tensioning of line is realized using pulling force in the line of itself, can accurately read out retractable cable meter long, it is ensured that deviational survey works
When depth the degree of accuracy.When the motion controller controls sliding inclinometer to measurement position according to the reading of lifting meter counter
When (generally subsurface per 0.5M mono- survey), the motion controller stops elevating movement, and remains stationary, sliding inclinometer is opened
Beginning reading.
Preferably, the automatic lifting inclination measurement device also includes:
The first radio transmission apparatus 7 being connected with the sliding inclinometer 6;
With the data acquisition instrument 8 of the wireless connection of the first radio transmission apparatus 7.Here, needing prison at the construction field (site)
Fixed multiple automatic lifting inclination measurement device in gaging hole top of survey, after the completion of each sliding inclinometer reading, by reading at it
Storage medium memory storage simultaneously transfers data to data acquisition instrument by the first radio transmission apparatus, can meet wireless biography in real time
Data in defeated and a period of time are preserved, can be by the slidingtype deviational survey of multiple automatic lifting inclination measurement devices by data acquisition instrument
The data of instrument collection are collected.
Preferably, the automatic lifting inclination measurement device also includes:
The second radio transmission apparatus 9 being connected with the data acquisition instrument 8;
The background devices 11 being connected with second radio transmission apparatus wireless 9, realize that reading high efficiency of transmission sets to backstage
It is standby.Preferably, the background devices such as mobile phone, PAD, computer receive reading and preserve from second radio transmission apparatus, and
According to the reading automatically form the longitudinal axis be fathom, transverse axis for horizontal displacement value deviational survey curve.
Preferably, first radio transmission apparatus 7 are also connected with the motion controller 3, realize background devices to institute
State the remote control of motion controller;
The background devices 11 are additionally operable to pass sequentially through second radio transmission apparatus 9, data acquisition instrument 8 and first
Radio transmission apparatus 7 send measuring command to the motion controller 3, and the motion controller is controlled according to the measuring command
The power control system drive sliding inclinometer carries out elevating movement.Here, being set by backstages such as mobile phone, PAD, computers
It is standby, measuring command is sent by background control system, measuring command passes through the second radio transmission apparatus, data acquisition instrument and first
The cloud network of radio transmission apparatus composition is sent to the motion controller, and the motion controller is according to the measuring command control
Braking force controller drive sliding inclinometer carries out elevating movement.
Preferably, as shown in Fig. 2 the power control system 4 includes:
The gear 13 being connected with the motion controller 3;
The spool 12 coordinated with the gear 13;
It is wound in the spiral on the spool.Here, by the cooperation of gear and spool, increased the power control
Storage line length in system processed, reduces the inner space of the power control system, ensures that transmission is accurate in small space,
Occur without stifled line, the situation of superfluous line.
Preferably, the background devices 11 are additionally operable to pass sequentially through second radio transmission apparatus 9, data acquisition instrument
8 and first radio transmission apparatus 7 monitoring frequency of measuring command, the motion controller root are sent to the motion controller 3
According to the monitoring frequency, the power control system is controlled to drive slidingtype deviational survey according to the measuring command every Preset Time
Instrument carries out elevating movement, realizes the automatic Real-time Collection of inclination measurement system, transmission, preservation and analysis.
The application method of above-mentioned automatic lifting inclination measurement device, including:
Mouth of pipe anchor ear device is fixed on the gaging hole top mouth of pipe of foundation ditch, here, the mouth of pipe anchor ear device is used to carry out
The mouth of pipe is fixed, and the device is controlled in less scope 30*30cm as far as possible, can be applied to building-site;
The mouth of pipe anchor ear device is connected with motion controller, power control system is connected with the motion controller
Connect, lifting meter counter and sliding inclinometer are connected with the power control system, the motion controller, dynamic Control system
System, lifting meter counter and sliding inclinometer are arranged in pipe;
The motion controller controls the power control system to drive slidingtype deviational survey according to the reading of lifting meter counter
Instrument carries out elevating movement;
It is (general when the motion controller controls sliding inclinometer to measurement position according to the reading of lifting meter counter
For subsurface is surveyed per 0.5M mono-), the motion controller stops elevating movement, and remains stationary, the sliding inclinometer starts
Reading.Here, with reference to lifting meter counter, the tensioning of line is realized using pulling force in the line of itself, retractable cable meter can be accurately read out
It is long, it is ensured that the degree of accuracy of depth when deviational survey works.
Preferably, after the sliding inclinometer starts reading, also include:
First radio transmission apparatus are connected with the sliding inclinometer, data acquisition instrument is wireless with described first
It is outer that transmission equipment wireless connection, first radio transmission apparatus and data acquisition instrument are arranged at pipe;
After the completion of sliding inclinometer reading, by reading is in its storage medium memory storage and passes through the first radio transmission apparatus
Reading is transferred to data acquisition instrument.Here, needing fixed multiple automatic lifting in gaging hole top of monitoring at the construction field (site)
Inclination measurement device, after the completion of each sliding inclinometer reading, by reading in its storage medium memory storage and by the first wireless biography
Transfer device transfers data to data acquisition instrument, can meet wireless real-time transmission and the data in a period of time are preserved, and passes through
Data acquisition instrument can be collected the data that the sliding inclinometer of multiple automatic lifting inclination measurement devices is gathered.
Preferably, it is after the completion of sliding inclinometer reading, reading is in its storage medium memory storage and wireless by first
Be transferred to reading after data acquisition instrument by transmission equipment, also includes:
Second radio transmission apparatus are connected with the data acquisition instrument, background devices are wirelessly transferred with described second
Equipment wireless connection;
Background devices receive reading and preserve from second radio transmission apparatus, and are automatically formed according to the reading vertical
Axle be fathom, transverse axis for horizontal displacement value deviational survey curve.
Preferably, the second radio transmission apparatus are connected with the data acquisition instrument, by background devices and described second
After radio transmission apparatus wireless connection, also include:
First radio transmission apparatus are connected with the motion controller;
The background devices pass sequentially through second radio transmission apparatus, data acquisition instrument and first and are wirelessly transferred and set
Standby to send measuring command to the motion controller, the motion controller controls the dynamic Control according to the measuring command
System drive sliding inclinometer carries out elevating movement.Here, by background devices such as mobile phone, PAD, computers, by Background control
System sends measuring command, and measuring command passes through the second radio transmission apparatus, data acquisition instrument and the first radio transmission apparatus
The cloud network of composition is sent to the motion controller, and the motion controller is according to measuring command control dynamic Control system
The dynamic sliding inclinometer of regiment commander carries out elevating movement.
Preferably, after first radio transmission apparatus are connected with the motion controller, also include:
The background devices pass sequentially through second radio transmission apparatus, data acquisition instrument and first and are wirelessly transferred and set
The standby monitoring frequency that measuring command is sent to the motion controller, the motion controller according to the monitoring frequency, every
Preset Time carries out elevating movement according to the measuring command control power control system drive sliding inclinometer, realizes
Inclination measurement system automatic Real-time Collection, transmission, preservation and analysis.
In sum, the utility model is and described by being fixed on the mouth of pipe anchor ear device of the gaging hole top mouth of pipe of foundation ditch
The motion controller of mouth of pipe anchor ear device connection, the power control system being connected with the motion controller, with the power control
The lifting meter counter and sliding inclinometer of system connection processed, the motion controller control institute according to the reading of lifting meter counter
Stating power control system drive sliding inclinometer carries out elevating movement, solves human task amount in current pit inclinometer work
Weight, time-consuming, data by Human disturbance it is big, 24 hours problems of uninterrupted real-time monitoring cannot be realized.
Each embodiment is described by the way of progressive in this specification, and what each embodiment was stressed is and other
The difference of embodiment, between each embodiment identical similar portion mutually referring to.
Obviously, those skilled in the art can carry out various changes to utility model and modification is new without deviating from this practicality
The spirit and scope of type.So, if it is of the present utility model these modification and modification belong to the utility model claim and its
Within the scope of equivalent technologies, then the utility model is also intended to including including these changes and modification.
Claims (5)
1. a kind of automatic lifting inclination measurement device, it is characterised in that including:
It is fixed on the mouth of pipe anchor ear device of the gaging hole top mouth of pipe of foundation ditch;
The motion controller being connected with the mouth of pipe anchor ear device;
The power control system being connected with the motion controller;
The lifting meter counter and sliding inclinometer being connected with the power control system.
2. automatic lifting inclination measurement device as claimed in claim 1, it is characterised in that the automatic lifting inclination measurement device is also wrapped
Include:
The first radio transmission apparatus being connected with the sliding inclinometer;
With the data acquisition instrument of the first radio transmission apparatus wireless connection.
3. automatic lifting inclination measurement device as claimed in claim 2, it is characterised in that the automatic lifting inclination measurement device is also wrapped
Include:
The second radio transmission apparatus being connected with the data acquisition instrument;
With the background devices of the second radio transmission apparatus wireless connection.
4. automatic lifting inclination measurement device as claimed in claim 3, it is characterised in that first radio transmission apparatus also with institute
State motion controller connection.
5. automatic lifting inclination measurement device as claimed in claim 4, it is characterised in that the power control system includes:
The gear being connected with the motion controller;
The spool coordinated with the gear;
It is wound in the spiral on the spool.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621144842.5U CN206205013U (en) | 2016-10-21 | 2016-10-21 | Automatic lifting inclination measurement device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621144842.5U CN206205013U (en) | 2016-10-21 | 2016-10-21 | Automatic lifting inclination measurement device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206205013U true CN206205013U (en) | 2017-05-31 |
Family
ID=58757114
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621144842.5U Active CN206205013U (en) | 2016-10-21 | 2016-10-21 | Automatic lifting inclination measurement device |
Country Status (1)
Country | Link |
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CN (1) | CN206205013U (en) |
-
2016
- 2016-10-21 CN CN201621144842.5U patent/CN206205013U/en active Active
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