CN208187391U - A kind of ultra-wide waters Precision River-Crossing Leveling device - Google Patents
A kind of ultra-wide waters Precision River-Crossing Leveling device Download PDFInfo
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- CN208187391U CN208187391U CN201820604272.6U CN201820604272U CN208187391U CN 208187391 U CN208187391 U CN 208187391U CN 201820604272 U CN201820604272 U CN 201820604272U CN 208187391 U CN208187391 U CN 208187391U
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- surveyor
- beacon
- river
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- base plate
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Abstract
The utility model discloses a kind of ultra-wide waters Precision River-Crossing Leveling devices, multiple groups measuring device including being set to river two sides, the measuring device includes coaxial surveyor's beacon branch seat frame and total station, coaxial surveyor's beacon branch seat frame includes top plate and pedestal, the first threaded hole and the second threaded hole faced is respectively equipped on the top plate and the pedestal, vernier stock rod can be equipped in first threaded hole and second threaded hole, it is high to measuring instrument height and surveyor's beacon, the top plate is equipped with surveyor's beacon lamp and prism group, total station is removably disposed on the pedestal by locking assembly.The utility model, have the characteristics that synchronize direct bilateral observation, directly measure that instrument is high and surveyor's beacon is high, it has been obviously reduced in trigonometric levelling by adverse effects such as Atmosphere Refraction, earth curvature, the high errors of amount that instrument is high and surveyor's beacon is high, has substantially increased precision and working efficiency.
Description
Technical field
The utility model relates to river-crossing leveling fields, and in particular to a kind of ultra-wide waters Precision River-Crossing Leveling dress
It sets.
Background technique
With the construction of long-span bridge and bridge spanning the sea, using triangulated height carry out 3500 meters or more ultra-wide waters precisions across
River water locating tab assembly is the main means of bridge two sides elevation transmitting.The existing first and second order leveling specification of country is to 3500 meters
The above river-crossing leveling is not specified by.Trigonometric levelling is especially surveyed 3500 meters or more ultra-wide waters using triangulated height
When amount carries out river-crossing leveling, precision is mainly influenced by Atmosphere Refraction and earth curvature, to weaken it to measurement result
Influence, need to be measured, be needed in the application of the precision engineerings such as bridge using bilateral observation back and forth.But the traditional triangle measurement of higher degree
In, including process of measurement specified in national first and second order leveling specification, it is all not carried out and synchronizes direct bilateral observation, this
Sample, the atmospheric environment difference for causing the sight observed back and forth to pass through are larger, it is difficult to weaken Atmosphere Refraction and the earth to the greatest extent
The influence of curvature.In addition, instrument height and the high measurement error of surveyor's beacon also directly affect the precision of accurate cross a river trigonometric levelling,
High difficult because directly measuring instrument, traditional instrument amount is high mainly to be measured using inclination steel ruler, reduction instrument is high or uses sight
Method amount is high to measure high mode indirectly, brings the high error of larger quantities.The above reason is directly affected to 3500 meters or more ultra-wide
Waters carries out precision when river-crossing leveling using trigonometric leveling.
In view of this, being badly in need of improving existing triangulation elevation method, make it for 3500 meters or more ultra-wide water
Domain carries out that better measurement accuracy can be obtained when river-crossing leveling.
Utility model content
Technical problem to be solved in the utility model be existing triangulation elevation method it is existing for 3500 meters with
Upper ultra-wide waters carries out the problem of measurement accuracy difference when river-crossing leveling.
In order to solve the above-mentioned technical problem, it is accurate to be to provide a kind of ultra-wide waters for technical solution used by the utility model
River-crossing leveling device, the multiple groups measuring device including being set to river two sides, the measuring device include:
Coaxial surveyor's beacon branch seat frame, including top plate and pedestal are respectively equipped with the faced on the top plate and the pedestal
Vernier stock rod can be worn in one threaded hole and the second threaded hole, first threaded hole and second threaded hole, to measure
Instrument height and surveyor's beacon are high, and the top plate is equipped with surveyor's beacon lamp and prism group;
Total station is removably disposed on the pedestal by locking assembly.
In the above scheme, the coaxial surveyor's beacon branch seat frame is arranged on forced centering pier, sets on the forced centering pier
There are the screw thread plush copper to raise upward, the top of the screw thread plush copper and the second threaded hole face.The coaxial surveyor's beacon support
Frame is tightened on the forced centering pier by the screw thread plush copper.
In the above scheme, the pedestal includes upper base plate and lower seat board, and the upper base plate is equipped with spiral and adjusts component,
And component is adjusted by the spiral and is connect with the lower seat board.
In the above scheme, the upper base plate is equipped with pipe spirit level.
In the above scheme, the locking assembly includes that the multiple location holes being arranged in the middle part of the upper base plate exist with setting
The upper base plate edge and the multiple locking members circumferentially uniformly distributed along the upper base plate.
In the above scheme, the spiral adjustment component includes that multiple circumferentially revolve along the upper base plate is located at the upper base plate
On threaded post, the top of the threaded post is equipped with knob.
In the above scheme, the top plate is fixedly connected by support rod with the upper base plate.
In the above scheme, the measuring device is set as two groups, every group two, measuring device described in two groups it is described strong
Return heart pier processed is separately positioned on the two sides in river.
Compared with prior art, the utility model, which has, synchronizes direct bilateral observation, directly measures instrument height and surveyor's beacon height
The characteristics of, it has been obviously reduced three main errors --- the influence of Atmosphere Refraction and earth curvature and the instrument of trigonometric levelling
The high and high error of surveyor's beacon a large amount, essence when substantially increasing to ultra-wide waters using trigonometric levelling progress river-crossing leveling
Degree and working efficiency.
Detailed description of the invention
Fig. 1 is the river-crossing leveling schematic illustration of the utility model;
Fig. 2 is coaxial surveyor's beacon support mount structure schematic diagram in the utility model;
Fig. 3 is forced centering pier structure schematic diagram in the utility model;
Fig. 4 is coaxial surveyor's beacon branch seat frame scheme of installation in the utility model;
Fig. 5 is the high schematic diagram of vernier stock rod amount in the utility model.
Fig. 6 is total station scheme of installation in the utility model;
Fig. 7 is that total station and surveyor's beacon lamp and coaxial surveyor's beacon branch seat frame carry out vertical angle after being installed together in the utility model
Instrumentation plan;
Fig. 8 is to be installed together laggard row distance measurement signal in coaxial surveyor's beacon branch seat frame and prism group in the utility model
Figure.
Specific embodiment
The utility model provides a kind of ultra-wide waters Precision River-Crossing Leveling device and method, directly right with synchronizing
To observation, the feature that instrument is high and surveyor's beacon is high is directly measured, the influence of Atmosphere Refraction and earth curvature is effectively reduced, significantly subtracts
Small measurement error substantially increases for ultra-wide waters precision when carrying out river-crossing leveling using trigonometric leveling
And working efficiency.
As shown in Fig. 1~8, a kind of ultra-wide waters Precision River-Crossing Leveling device, the multiple groups including being set to river two sides
Measuring device, it is preferred that measuring device is set as two groups, and every group two, two groups of measuring devices are separately positioned on the two sides in river, inspection
Survey device include forced centering pier 5, as shown in Figure 1, can enable riverbank two sides forced centering pier 5 be respectively forced centering pier A,
B、C、D。
Measuring device includes: coaxial surveyor's beacon branch seat frame 1 and total station 3, and coaxial surveyor's beacon branch seat frame 1 is arranged in forced centering pier
On, including top plate 6 and pedestal 7, it is fixedly connected between top plate 6 and pedestal 7 by support rod 8, is formed between top plate 6 and pedestal 7
The cavity of tubular.Be respectively equipped with the first threaded hole and the second threaded hole faced on top plate 6 and pedestal 7, the first threaded hole and
Vernier stock rod 18 is equipped in second threaded hole, top plate 6 is equipped with surveyor's beacon lamp 2 and prism group 4.Total station 3 passes through locking assembly
It is removably disposed on pedestal 7.Pedestal 7 includes upper base plate 10 and lower seat board 11, and locking assembly includes being arranged in upper base plate 10
Multiple location holes 15 and setting 10 edge of upper base plate and the multiple locking members 13 circumferentially uniformly distributed along upper base plate 10 at middle part.Location hole
15 are adapted to the locating detent 17 of total station 3, and total station 3 is fixed on upper base plate 10 by location hole 15 and locking member 13.
Forced centering pier 5 is equipped with the screw thread plush copper 16 to raise upward, and the top of screw thread plush copper 16 and the second threaded hole are just
It is right.The top of screw thread plush copper 16 is contacted with the bottom of vernier stock rod 18, for making vernier stock rod 18 measure the top surface of top plate 6 away from strong
The vertical distance of 5 upper surface of return heart pier processed.
Upper base plate 10 and lower seat board 11 adjust component 12 by spiral and connect, and upper base plate 10 is equipped with the spiral shell of pipe spirit level 14
Tune whole group part 12 include it is multiple be located at along the circumferential rotation of upper base plate 10 on upper base plate 10 threaded post, the top of the threaded post is equipped with
Knob.It can adjust the height that upper base plate 10 at threaded post descends seat board 11 relatively by rotation knob, by adjusting multiple spiral tune
Whole group part 12 can make the bubble in pipe spirit level 14 be located at middle part, even if also upper base plate 10 is horizontal.
Preferably, surveyor's beacon lamp 2 and prism group 4 pass through the connection position of its bottom end, and pass through bolt and coaxial surveyor's beacon branch seat frame 1
Top plate 6 be detachably connected.
A kind of ultra-wide waters Precision River-Crossing Leveling device provided by the utility model has and synchronizes directly opposite see
It surveys, directly measure the feature that instrument is high and surveyor's beacon is high, effectively reduce the influence of Atmosphere Refraction and earth curvature, significantly reduce
Measurement error, measurement method the following steps are included:
S1, forced centering pier A, B are set in the side on riverbank, the other side is arranged forced centering pier C, D, four are coaxially observed
Mark branch seat frame is separately mounted on forced centering pier A, B, C, D;
S2, the spiral adjustment component adjusted on upper base plate level coaxial surveyor's beacon branch seat frame, use vernier by pipe spirit level
Stock rod precision measures the vertical distance of coaxial surveyor's beacon support arch to the convex crown of forced centering pier, is coaxially observed according to known
The height for marking the height of branch seat frame and the height of total station and surveyor's beacon lamp, calculates separately and obtains the high i of total station and the high v of surveyor's beacon;
S3, coaxial surveyor's beacon branch seat frame on forced centering pier A, C pedestal on dispose total station, then in coaxial surveyor's beacon
Support arch installs surveyor's beacon lamp, and two total stations, to the same direct bilateral observation of light section, measure vertical angle α in the same periodAC
And αCA;
S4, forced centering DunAChu total station remain stationary, the total station and surveyor's beacon lamp of forced centering DunCChu moves together
Forced centering DunDChu is moved, two total stations, to the same direct bilateral observation of light section, measure vertical angle α in the same periodADWith
αDA;
S5, forced centering DunDChu total station remain stationary, the total station and surveyor's beacon lamp of forced centering DunAChu moves together
It moves at B, 2 total stations synchronize mutual bilateral observation, measure vertical angle αBDAnd αDB;
S6, forced centering DunBChu total station remain stationary, the total station and surveyor's beacon lamp of forced centering DunDChu moves together
Forced centering DunCChu is moved, 2 total stations synchronize mutual bilateral observation, measure vertical angle αBCAnd αCB, so far complete vertical angle
Upper semiobservation observation;
S7,2 total station positions for being located at two sides are exchanged, and coaxial surveyor's beacon branch seat frame and surveyor's beacon lamp are motionless, press more than
Step is completed semiobservation under vertical angle and is observed;
S8, two total stations are successively separately mounted to A, B and C, on D forced centering pier, the corresponding placement of two prism groups
The top of coaxial surveyor's beacon branch seat frame on C, D and A, B forced centering pier, measurement, calculate between two sides forced centering pier it is flat away from
D;
S9, according to the flat vertical angle α away from D and corresponding total station to surveyor's beacon lamp between forced centering pier, and it is corresponding
The high i of instrument and the high v of surveyor's beacon, calculate two sides forced centering pier between toward survey height difference average value, as elevation aberration measurements
α includes αACAnd αCA, i includes iAAnd iC, v includes vAAnd vC;
Elevation aberration measurements between other forced centering piers of two sides are calculated according to above formula;
S10, it is observed, is measured with two, bank back and forth by ad eundem measurement of the level required precision using leveling measuring method
The height difference h of forced centering pier A, B and C, DAB waterAnd hCD water.Then compensating computation obtains the elevation of each forced centering pier, completes cross a river
The measurement of the level.
In the above scheme, in step s 2, the high i of instrument and the high v calculation formula of surveyor's beacon are as follows:
I=LInstrument+(L-LFrame)
V=LIt observes+L
L is the vertical distance that coaxial surveyor's beacon support arch connects bolt top to forced centering pier, L in above formulaFrameIt is coaxial
Surveyor's beacon branch seat frame oneself height, i.e., the vertical distance of seat of honour plate top surface of the coaxial surveyor's beacon branch seat frame Roof face to its pedestal, LInstrument
For total station oneself height, the i.e. height at total station horizontal axis center to its bottom, LIt observesFor surveyor's beacon lamp oneself height, i.e., in surveyor's beacon lamp
The heart is to the distance of its low side, and surveyor's beacon lamp center is to coaxial surveyor's beacon branch after being installed in coaxial surveyor's beacon branch seat frame equal to surveyor's beacon lamp
The distance of seat frame top plate top surface.
In above-mentioned steps S9, the height difference calculation formula between the forced centering pier of two sides is as follows:
According to bilateral observation trigonometric levelling principle, the elevation aberration measurements between forced centering pier A, C of two sides are calculated:
The environment and observation condition for passing through sight because of the utility model are very much like, it is believed that from A to C observe and from
Atmospheric Refraction Coefficient k when C is observed to AACAnd kCAIt is equal, the round-trip horizontal distance D of bilateral observation between A, CACAnd DCAAlso phase
Deng so having:
Therefore between forced centering pier A, the C of calculating two sides for carrying out river-crossing leveling using coaxial surveyor's beacon support frame apparatus
Elevation aberration measurements formula can simplify are as follows:
Elevation aberration measurements between other forced centering piers of two sides are calculated according to above formula.
Compared with prior art, the utility model has and synchronizes direct bilateral observation, directly measures instrument height and surveyor's beacon height
The characteristics of, it has been obviously reduced in trigonometric levelling by Atmosphere Refraction, earth curvature, the high error of amount that instrument is high and surveyor's beacon is high
Equal adverse effects, precision and work when substantially increasing to ultra-wide waters using trigonometric levelling progress river-crossing leveling
Efficiency.
The utility model is not limited to above-mentioned preferred forms, and anyone should learn that the enlightenments in the utility model
Under the structure change made, it is all that there is same or similar technical solution with the utility model, each fall within the utility model
Within protection scope.
Claims (8)
1. a kind of ultra-wide waters Precision River-Crossing Leveling device, the multiple groups measuring device including being set to river two sides, feature
It is, the measuring device includes:
Coaxial surveyor's beacon branch seat frame, including top plate and pedestal are respectively equipped with the first spiral shell faced on the top plate and the pedestal
Vernier stock rod can be worn in pit and the second threaded hole, first threaded hole and second threaded hole, to measuring instrument
High and surveyor's beacon is high, is removably equipped with surveyor's beacon lamp and prism group by bolt on the top plate;
Total station is removably disposed on the pedestal by locking assembly.
2. a kind of ultra-wide waters Precision River-Crossing Leveling device according to claim 1, which is characterized in that described coaxial
Surveyor's beacon branch seat frame is arranged on forced centering pier, and the forced centering pier is equipped with the plush copper to raise upward, the top of the plush copper
Portion and the second threaded hole face, the coaxial surveyor's beacon branch seat frame is tightened by the screw thread plush copper returns in the pressure
On heart pier.
3. a kind of ultra-wide waters Precision River-Crossing Leveling device according to claim 1, which is characterized in that the pedestal
Including upper base plate and lower seat board, the upper base plate is equipped with spiral and adjusts component, and by spiral adjustment component with it is described
Lower seat board connection.
4. a kind of ultra-wide waters Precision River-Crossing Leveling device according to claim 3, which is characterized in that the seat of honour
Plate is equipped with pipe spirit level.
5. a kind of ultra-wide waters Precision River-Crossing Leveling device according to claim 3, which is characterized in that the locking
Component includes the multiple location holes being arranged in the middle part of the upper base plate and is arranged at the upper base plate edge and along the upper base plate
Circumferentially uniformly distributed multiple locking members.
6. a kind of ultra-wide waters Precision River-Crossing Leveling device according to claim 3, which is characterized in that the spiral
Adjusting component includes multiple threaded posts circumferentially revolved and be located on the upper base plate along the upper base plate, and the top of the threaded post is set
There is knob.
7. a kind of ultra-wide waters Precision River-Crossing Leveling device according to claim 3, which is characterized in that the top plate
It is fixedly connected by support rod with the upper base plate.
8. a kind of ultra-wide waters Precision River-Crossing Leveling device according to claim 2, which is characterized in that the measurement
Device is set as two groups, and every group two, the forced centering pier of measuring device described in two groups is separately positioned on the two sides in river.
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CN201820604272.6U CN208187391U (en) | 2018-04-24 | 2018-04-24 | A kind of ultra-wide waters Precision River-Crossing Leveling device |
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CN201820604272.6U CN208187391U (en) | 2018-04-24 | 2018-04-24 | A kind of ultra-wide waters Precision River-Crossing Leveling device |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108827230A (en) * | 2018-04-24 | 2018-11-16 | 中铁大桥局集团有限公司 | A kind of ultra-wide waters Precision River-Crossing Leveling device and method |
CN111750826A (en) * | 2020-06-29 | 2020-10-09 | 中设设计集团股份有限公司 | Dynamic second-class river-crossing quasi-field data acquisition and processing method and system |
CN113551643A (en) * | 2021-07-29 | 2021-10-26 | 中冀建勘集团有限公司 | River-crossing leveling method and system |
-
2018
- 2018-04-24 CN CN201820604272.6U patent/CN208187391U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108827230A (en) * | 2018-04-24 | 2018-11-16 | 中铁大桥局集团有限公司 | A kind of ultra-wide waters Precision River-Crossing Leveling device and method |
CN108827230B (en) * | 2018-04-24 | 2023-10-20 | 中铁大桥局集团有限公司 | Ultra-wide water area precise river crossing leveling device and method |
CN111750826A (en) * | 2020-06-29 | 2020-10-09 | 中设设计集团股份有限公司 | Dynamic second-class river-crossing quasi-field data acquisition and processing method and system |
CN113551643A (en) * | 2021-07-29 | 2021-10-26 | 中冀建勘集团有限公司 | River-crossing leveling method and system |
CN113551643B (en) * | 2021-07-29 | 2022-09-09 | 中冀建勘集团有限公司 | River-crossing leveling method and system |
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