CN207501954U - Three overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging - Google Patents
Three overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging Download PDFInfo
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- CN207501954U CN207501954U CN201721696186.4U CN201721696186U CN207501954U CN 207501954 U CN207501954 U CN 207501954U CN 201721696186 U CN201721696186 U CN 201721696186U CN 207501954 U CN207501954 U CN 207501954U
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- total powerstation
- parallel light
- light tube
- overlapping
- ranging
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Abstract
The utility model discloses a kind of three overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging, including workbench, it is equipped with total powerstation, detachable gray scale plate, computer monitor, power console and the parallel light tube lifting platform for adjusting parallel light tube height on the table, it is equipped with directional light convex lens, collimator tube reticle and ccd sensor successively from front to back in parallel light tube, the luminous lighting circle for illuminating the crosshair among graticle is equipped in parallel light tube, before graticle.It is additionally provided with the front lamp of the crosshair among the eyepiece for illuminating the telescope of total powerstation on the table.The utility model has many advantages, such as just can intuitively to show the coincidence situation of three axis indoors, the indoor detection for three overlapping of axles degree of total powerstation ranging and adjustment, the round-the-clock integration and semi-automation for realizing three overlapping of axles degree detection of total powerstation ranging and adjustment, ensures data origin authenticity, greatly improves detection regulated efficiency.
Description
Technical field
The utility model is related to the detection adjusting device of total powerstation, more particularly, to a kind of three overlapping of axles degree of total powerstation ranging
Indoor formula detects adjusting apparatus.
Background technology
According to JJG-2003 geodimeter vertification regulations, the emission shaft of right total powerstation, sights axis at receiving axis(Below
Referred to as " three axis of ranging ")The detection of the correctness of three axis relationships is using reflecting prism.The method of detection is:In distance meter device 300
Rice sights reflecting prism with instrument, rotates the horizontal fine motion of total powerstation and vertical fine motion hand to placement reflecting prism at 1000 meters
Wheel, observes the variation of return signal, finds out the position of signal strength maximum.Its metering performance requires:When telescope is sighted instead
The reflected signal strength that ranging unit receives when penetrating prism centers is maximum.
This three shaft detection method of adjustment of total powerstation ranging mainly in outdoor progress, at least needs 2 technicians in outdoor
Compounding practice, it is also necessary to which good weather conditions and observing environment could complete this work, and cannot complete receiving axis
Registration with sighting axis detects adjustment work.This method still may be used for detecting total powerstation emission shaft and sighting overlapping of axles degree
Capable, but if emission shaft occur and sighting overlapping of axles and total powerstation cannot still carry out ranging, this method cannot be further
Judge the cause of this failure;If detecting that total powerstation emission shaft is misaligned with sighting axis, need to be adjusted total powerstation
When, this method is still infeasible because the adjusting screw of instrument only needs rotation a bit, laser alignment deflect away from it is very big,
The Observation personnel of prism side can not find laser point, and can only say theoretically has the possibility of adjustment, but goes in practical application
It is obstructed.
Invention content
Just intuitively the coincidence situation of three axis can be shown indoors the purpose of this utility model is to provide a kind of
Come, the indoor detection for three overlapping of axles degree of total powerstation ranging and adjustment, round-the-clock three overlapping of axles degree of realization total powerstation ranging are examined
The integration and three overlapping of axles degree interior formula of total powerstation ranging that is semi-automatic, greatly improving detection regulated efficiency surveyed and adjusted are examined
Survey adjusting apparatus.
What the purpose of this utility model was realized in:
A kind of three overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging, including the work with mainframe box and operation keyboard
Make platform, left back end on the table is equipped with parallel light tube lifting platform, is equipped on parallel light tube lifting platform by lifting supporting plate
It can be moved up and down on parallel light tube lifting platform to adjust height and be in horizontal positioned parallel light tube, in parallel light tube
Inside it is equipped with directional light convex lens, collimator tube reticle and ccd sensor successively from front to back, left front end on the table is set
There is a total powerstation, the graticle in the eyepiece alignment parallel light tube of the telescope in total powerstation is set in the middle part of left end on the table
There is the detachable gray scale plate being placed between total powerstation and parallel light tube, right rear end on the table is equipped with and is shaken by display
Arm carries out aerial mobile to adjust the computer monitor of horizontal position and height, and ccd sensor is connected by data line and mainframe box
It connects, power console is equipped with before right rear end on the table, display rocking arm, be equipped with to control on power console
The control key of power supply processed, front lamp and luminous lighting circle, is characterized in:In parallel light tube, before graticle be equipped be used for
Illuminate the luminous lighting circle of the crosshair among graticle.
It is equipped with before in left end forepart on the table, total powerstation in the eyepiece for illuminating the telescope of total powerstation
Between crosshair front lamp.
It is equipped with to connect USB interface with detection data backup harddisk on power console.
Left end middle front part on the table is equipped with the total powerstation positioning supporting plate for placing total station, is positioned in total powerstation
The centre of supporting plate is equipped with vertical total powerstation lock screw upward, and total powerstation is locked by the downwardly open screw hole in bottom and total powerstation
The threaded connection of tight screw is located in workbench, does not have any position movement.
Total powerstation receiving axis optical fiber port is that total powerstation telescope receives an optical fiber port for returning to range laser, is adjusted in detection
Whole total powerstation receiving axis is with when sighting axis relationship, because without active light source, needing to illuminate it using front lamp, Cai Neng
Receiving axis is shown as a luminous point on display.
The utility model is to be additionally arranged luminous lighting circle in traditional three overlapping of axles degree of total powerstation ranging detection adjusting apparatus
With front lamp and detachable gray scale plate.Due to devising luminous lighting circle, staff can adjust total powerstation in detection
Emission shaft and when sighting axis relationship, by adjusting the brightness of luminous lighting circle, allow total powerstation telescope clearly sight it is flat
Graticle in row light pipe;When the receiving axis of detection adjustment total powerstation is with axis relationship is sighted, the brightness tune of luminous lighting circle
It is low, simultaneously because devising front lamp, the eyepiece of total powerstation and total powerstation receiving axis optical fiber are illuminated using front lamp at this time
Mouthful, staff can be clearly seen that the receiving axis of adjustment total powerstation to be detected and sight the coaxial feelings of axis over the display
Condition.Entirely in detection adjusts total powerstation emission shaft, sights axis and receiving axis relationship, needing to adjust detachable gray scale plate repeatedly
Adjust the light intensity into parallel light tube so that ccd sensor can be clear by the light path imaging of needs.
Telescope in total powerstation during use is sighted to the crosshair on the graticle in parallel light tube, is started in total powerstation
Laser alignment or laser ranging, open point that the laser of total powerstation is finally imaged on by detachable gray scale plate in parallel light tube
It draws on plate, then the situation on graticle is directly displayed on computer monitor with ccd sensor, i.e., completes whole station indoors
The emission shaft of instrument and the detection adjustment for sighting axis.Telescope in total powerstation is sighted to the cross on the graticle in parallel light tube
Silk, takes away detachable gray scale plate, is directed at the eyepiece of total powerstation telescope and total powerstation receiving axis optical fiber port with front lamp, at this time
Receiving axis can be imaged as a luminous point on the graticle in parallel light tube, then with ccd sensor that the situation on graticle is straight
It connects and is shown on computer monitor, i.e., complete total powerstation receiving axis indoors and sight the detection adjustment of axis.
Therefore, the utility model has and just can intuitively show the coincidence situation of three axis, for complete indoors
Stand three overlapping of axles degree of instrument ranging indoor detection and adjustment, round-the-clock realize three overlapping of axles degree detection of total powerstation ranging and adjustment
Integration and automation that is semi-automatic while can realizing testing result data record ensure data origin authenticity, greatly improve
The advantages of detecting regulated efficiency, the utility model can be the correctness that total powerstation ranging unit emits, receives, sighting three axis relationships
Judge to provide more reliable foundation or the misaligned adjustment of three axis provides help.
Description of the drawings
Fig. 1 is the structure diagram of the utility model;
Fig. 2 is the front view of the utility model;
Fig. 3 is the right view of the utility model;
Fig. 4 is the vertical view of the utility model;
Fig. 5 is the light path principle figure of the utility model;
Reference numeral:1st, parallel light tube lifting platform;2nd, detachable gray scale plate;3rd, parallel light tube;4th, front lamp;5th, it is complete
It stands instrument locking screw;6th, workbench;7th, display;8th, power console;9th, USB interface;10th, mainframe box;11st, luminous lighting circle;
12nd, collimator tube reticle;13rd, ccd sensor;14th, total powerstation;15th, lifting supporting plate;16th, display rocking arm;17th, directional light
Convex lens;18th, control key;19th, total powerstation positioning supporting plate;20th, operation keyboard;21st, total powerstation telescope;22nd, total powerstation eyepiece;
23rd, total powerstation receiving axis optical fiber port.
Specific embodiment
With reference to embodiment and compare attached drawing the utility model is described in further detail.
A kind of three overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging, including band mainframe box 10 and operation keyboard 20
Workbench 6, left back end on workbench 6 is equipped with parallel light tube lifting platform 1, passes through lifting on parallel light tube lifting platform 1
Supporting plate 15, which is equipped with, can move up and down to adjust height and be in horizontal positioned parallel light tube on parallel light tube lifting platform 1
3, it is equipped with directional light convex lens 17, collimator tube reticle 12 and ccd sensor 13 successively from front to back in parallel light tube 3,
Left front end on workbench 6 is equipped with total powerstation 14, and the eyepiece 22 of the telescope 21 in total powerstation 14 is aligned in parallel light tube 3
Graticle 12 is equipped with the detachable gray scale plate being placed between total powerstation 14 and parallel light tube 3 in the middle part of the left end on workbench 6
2, the right rear end on workbench 6 is equipped with carries out aerial mobile to adjust the electricity of horizontal position and height by display rocking arm 16
Brain display 7, ccd sensor 13 are connect by data line with mainframe box 10, right rear end, display rocking arm on workbench 6
Power console 8 is equipped with before 16, is equipped with to control power supply, front lamp 4 and luminous lighting circle on power console 8
11 control key 18 is equipped with the hair for illuminating the crosshair among graticle 12 in parallel light tube 3, before graticle 12
Optical illumination circle 11.
The telescope 21 for illuminating total powerstation 14 is equipped with before in left end forepart, total powerstation 14 on workbench 6
22 intermediate crosshair of eyepiece front lamp 4.
It is equipped with to connect USB interface 9 with detection data backup harddisk on power console 8.
Left end middle front part on workbench 6 is equipped with the total powerstation positioning supporting plate 19 for placing total station 14, in whole station
The centre of instrument positioning supporting plate 19 is equipped with vertical total powerstation lock screw 5 upward, and total powerstation 14 passes through the downwardly open spiral shell in bottom
Hole and the threaded connection of total powerstation lock screw 5 are located in workbench 6, do not have any position movement.
Total powerstation receiving axis optical fiber port 23 is that total powerstation telescope receives an optical fiber port for returning to range laser, is being detected
Adjustment total powerstation receiving axis is with when sighting axis relationship, because without active light source, illuminating it using front lamp 4, you can
Receiving axis is shown as a luminous point on display 7.
Operation principle:
1st, when the emission shaft of total powerstation is with sighting shaft detection adjustment, total powerstation 14 to be checked is placed on workbench 6
On total powerstation lock screw 5, power supply is connected using power console 8 and opens computer;It is beaten with the switch on power console 8
Exploitation optical illumination circle 11 simultaneously adjusts brightness to position that is suitable, while adjusting ccd sensor 13, makes high-visible on display 7
Crosshair on graticle 12;Remove detachable gray scale plate 2, make total powerstation 14 telescope 21 eyepiece 22 on crosshair shine
The crosshair on graticle 12 in quasi-parallel light pipe 3 adjusts the horizontal and vertical final motion screw of total powerstation 14 to two crosses
Silk overlaps, and total powerstation 14 is braked;The laser in total powerstation 14 is opened, range laser brightness, side are adjusted using detachable gray scale plate 2
Adjust side observation display 7 so that clearly, i.e., the crosshair on laser projection point and graticle 12 on display 7 is all shown
It completes the emission shaft of total powerstation and sights the detection work of axis.If the point of laser projection and the crosshair on graticle 12 at this time
Center is misaligned, then can be overlapped by adjusting screw to the two of the emission shaft of total powerstation 14, that is, complete the emission shaft of total powerstation
Adjustment work with sighting axis.
2nd, when the receiving axis of total powerstation 14 is with sighting shaft detection adjustment:Total powerstation 14 to be checked is placed on workbench 6
On total powerstation lock screw 5, power supply is all connected using power console 8 and opens computer;With the switch on power console 8
It opens luminous lighting circle 11 and adjusts brightness to suitable;Detachable gray scale plate 2 is removed, the eyepiece of the telescope 21 of total powerstation 14
22 crosshair sights the crosshair of the graticle 12 in parallel light tube 3, adjusts the horizontal and vertical final motion screw of total powerstation 14
It is overlapped to two crosshairs, total powerstation 14 is braked;The luminous lighting circle 11 closed in parallel light tube 3 is switched with power console 8,
Front lamp 4 is opened, the light of front lamp 4 is aligned at the eyepiece 22 of the telescope 21 of total powerstation 14;Open total powerstation 14
Ranging head protection lid, while be directed at total powerstation receiving axis optical fiber port 23 with front lamp 4, the receiving axis of total powerstation 14 can be at this time
A luminous point is imaged as on display 7, the geometrical relationship of recording spot and the crosshair of the eyepiece 22 of telescope 21 is completed complete
Stand instrument 14 receiving axis and sight the detection work of axis.If the crosshair of receiving axis luminous point and the eyepiece 22 of telescope 21 at this time
Center is misaligned, and adjusting screw to the two by adjusting the receiving axis of total powerstation 14 overlaps, that is, completes the reception of total powerstation 14
Axis and the adjustment work for sighting axis.
Claims (4)
1. a kind of three overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging, including the work with mainframe box and operation keyboard
Platform, left back end on the table are equipped with parallel light tube lifting platform, energy are equipped with by lifting supporting plate on parallel light tube lifting platform
It is moved up and down on parallel light tube lifting platform to adjust height and be in horizontal positioned parallel light tube, in parallel light tube
It is equipped with directional light convex lens, collimator tube reticle and ccd sensor successively from front to back, left front end on the table is equipped with
Total powerstation, the graticle in the eyepiece alignment parallel light tube of the telescope in total powerstation are equipped in the middle part of left end on the table
The detachable gray scale plate being placed between total powerstation and parallel light tube, right rear end on the table are equipped with through display rocking arm
Aerial mobile is carried out to adjust the computer monitor of horizontal position and height, ccd sensor is connect by data line with mainframe box,
Power console is equipped with before right rear end on the table, display rocking arm, is equipped with to control on power console
The control key of power supply, front lamp and luminous lighting circle, is characterized in:It is equipped with to shine in parallel light tube, before graticle
The luminous lighting circle of crosshair among bright graticle.
2. three overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging according to claim 1, it is characterised in that:
The crosshair being equipped with before in left end forepart, total powerstation on workbench among the eyepiece for illuminating the telescope of total powerstation
Front lamp.
3. three overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging according to claim 1 or 2, feature exist
In:It is equipped with to connect USB interface with detection data backup harddisk on power console.
4. three overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging according to claim 1, it is characterised in that:
Left end middle front part on workbench is equipped with the total powerstation positioning supporting plate for placing total station, in the centre of total powerstation positioning supporting plate
Equipped with total powerstation lock screw vertically upward, for locking total powerstation.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721696186.4U CN207501954U (en) | 2017-12-08 | 2017-12-08 | Three overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721696186.4U CN207501954U (en) | 2017-12-08 | 2017-12-08 | Three overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging |
Publications (1)
Publication Number | Publication Date |
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CN207501954U true CN207501954U (en) | 2018-06-15 |
Family
ID=62509233
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201721696186.4U Withdrawn - After Issue CN207501954U (en) | 2017-12-08 | 2017-12-08 | Three overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging |
Country Status (1)
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CN (1) | CN207501954U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107727119A (en) * | 2017-12-08 | 2018-02-23 | 江西省测绘成果质量监督检验测试中心 | The overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging three |
-
2017
- 2017-12-08 CN CN201721696186.4U patent/CN207501954U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107727119A (en) * | 2017-12-08 | 2018-02-23 | 江西省测绘成果质量监督检验测试中心 | The overlapping of axles degree interior formula detection adjusting apparatus of total powerstation ranging three |
CN107727119B (en) * | 2017-12-08 | 2023-09-29 | 江西省测绘成果质量监督检验测试中心 | Total powerstation ranging triaxial overlap ratio indoor type detection and adjustment device |
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GR01 | Patent grant | ||
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AV01 | Patent right actively abandoned | ||
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Granted publication date: 20180615 Effective date of abandoning: 20230929 |
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AV01 | Patent right actively abandoned |
Granted publication date: 20180615 Effective date of abandoning: 20230929 |