CN201637421U - Laser demarcation instrument digitization detecting device based on linear array CCD (Charge Coupled Device) - Google Patents
Laser demarcation instrument digitization detecting device based on linear array CCD (Charge Coupled Device) Download PDFInfo
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- CN201637421U CN201637421U CN2010201303140U CN201020130314U CN201637421U CN 201637421 U CN201637421 U CN 201637421U CN 2010201303140 U CN2010201303140 U CN 2010201303140U CN 201020130314 U CN201020130314 U CN 201020130314U CN 201637421 U CN201637421 U CN 201637421U
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Abstract
The utility model discloses a laser demarcation instrument digitization detecting device based on a linear array CCD (Charge Coupled Device) and relates to a laser demarcation instrument detecting device. The laser demarcation instrument digitization detecting device comprises a laser demarcation instrument to be detected, wherein the laser demarcation instrument to be detected is provided with a cubic wall, a linear array CCD detector, an area array CCD detector, a serial HUB and an upper computer; by matching 8 paths of high-precision linear array CCDs with one path of area array CCD, all detecting indexes of the laser demarcation instrument are collected, and a detecting result is printed, coded and counted; and the workload for tuning, calibrating and detecting the laser demarcation instrument can be greatly reduced, and meanwhile, damage to human eyes caused by visual detection and the subjectivity of visual detection of different detecting staffs are also avoided, therefore, a detecting method is safe and reliable, and the result is more objective and scientific. The utility model not only can be used for detection and calibration of laser demarcation instrument manufacturers, maintenance departments, and the like but also can provide a laser demarcation instrument detecting standard for relevant industries, such as quality technical supervision departments, metrological verification departments, surveying and mapping departments, national defense and military industries, and the like.
Description
Technical field
The utility model relates to a kind of laser level pick-up unit, relates in particular to a kind of laser level digitizing pick-up unit based on line array CCD.
Background technology
Laser level is a kind of novel optical, mechanical and electronic integration instrument, and it adopts the 635nm laser diode mostly, can project visible red horizontal linear and vertical straight line on metope.Utilize the automatic compensator or the manual horizontalization of plate level of instrument internal, the level or the plumb position that can keep the laser projections line.
Laser level generally only provides a horizontal line, is called 1H, and the instrument of 2H and 4H is also arranged.By the branch how many 1V, 2V, 3V, 4V are arranged of perpendicular line, instruments such as 1V, the 1V1H that Here it is occurs in the market, 2V1H, 3V1H, 4V1H, 3V2H, 4V2H.External also have 4V4H, and the instrument of making a call to a sealing surface level and sealing vertical plane.Instrument simple in structure is generally made the gravity pendulum structure, and complicated instrument is then made electric Anping formula structure.
The perpendicular line of laser level is mutually 90 °, and perpendicular line intersects at zenith, produces a zenith point.Horizontal line and perpendicular line are mutually 90 °, form one and hand over the plane, according to the horizontal friendship plane that how much can form correspondence that provides.Instrument also provide one little of point.Generally commonly used is 4H1V type and 4H2V type laser level.
The index that laser level mainly needs to calibrate comprises the linearity of quadrature precision, the laser rays of or the horizontal quadrature precision of the horizontal horizontal accuracy of 1-2 bar, 1-4 bar perpendicular line and 1-2 bar, 1-4 bar perpendicular line, down to the automatic compensation precision of a precision and instrument etc.
Laser level is mainly used in interior decoration, furred ceiling, door and window installation, partition, pipe installation, tunnel piercing, hangs in vertical line and the building operation such as quality inspection and project supervision.At present domestic relevant calibrating standard or the useful test rules that also do not have basically at laser level are so mainly undertaken by the index of dispatching from the factory its calibration work.Along with the use of laser level more and more widely, its assay calibration is required also will be more and more urgent.
Summary of the invention
The purpose of this utility model just is to overcome the shortcoming and defect that prior art exists, a kind of laser level digitizing pick-up unit based on line array CCD is provided, adapt to the detection of various model laser levels, satisfy the calibration of in the processing process, dispatching from the factory of laser level manufacturing enterprise, enhance productivity.
The purpose of this utility model is achieved in that
The laying of the level by 8 line array CCD detecting devices, near point, vertical, quadrature, right point etc., and cooperate 1 road area array CCD, the multinomial technical indicator of laser level is carried out digitizing detection and judgement, and testing result filed and print, the workload that makes adjustment demarcate the detection laser level reduces greatly, also avoided simultaneously the injury that visual detection causes human eye and the subjectivity of different testing staff range estimation, made detection method safe and reliable, the result is objective science more.
Specifically, this device comprises laser level to be checked, is provided with a cube metope, CCD detecting device, serial ports and host computer;
Cube metope is grown up in 5 meters, is wider than 5 meters, and is tall and big in 3 meters; Cube metope comprises the 1st, 2 vertical walls, end face and bottom surface;
The CCD detecting device comprises 8 CCD linear array detecting devices and 1 CCD face battle array detecting device;
On the bottom surface, place laser level to be checked;
On the 1st vertical wall, be arranged at level 5 meters 2 points apart about horizontal line left side point line array CCD detecting device and the right point of horizontal line line array CCD detecting device, horizontal line near point line array CCD detecting device is provided with distance the 1st vertical wall in 1 meter place with a fixed support;
On the 1st vertical wall, some line array CCD detecting device and following some line array CCD detecting device upper and lower settings of perpendicular line are in vertical 3 meters 2 points apart on the perpendicular line;
The 2nd vertical wall is provided with the right point of perpendicular line line array CCD detecting device;
End face is provided with the 1st mutually orthogonal zenith quadrature line array CCD detecting device and the 2nd zenith quadrature line array CCD detecting device;
Under the cultellation over the ground of laser level 00, be provided with under one a right alignment area array CCD detecting device;
To the right alignment area array CCD detecting device, other 8 detecting devices are connected with 8 road serial ports respectively except that down;
Serial ports is connected with host computer.
The utlity model has following advantage and good effect:
1. the utility model is skillfully constructed, and is rational in infrastructure, easy for installation, easy and simple to handle, can realize detection and calibrating to the most of technical indicator of laser level.
2. the utility model adopts 8 road line array CCDs as the positional information of laser beam and the detecting sensor of width information, can reduce human eye injury and visual error, structures the formation by rational line array CCD, can satisfy every detection index of laser level fully.Since utilize line array CCD to carry out the detection of displacement and light width, the precision height, price is low, good stability, and anti-interference strong, laser alignment is convenient, and need not demarcate, and has improved the production efficiency of laser level greatly, has guaranteed product quality.
3. the utility model not only can be used as detection and calibration usefulness such as laser level manufacturer, maintenance department, also can be used as relevant industries such as quality supervision department, measurement verification department, Mapping departments and defence and military the laser level standard verification is provided.
Description of drawings
Fig. 1 is the structural representation of this device;
Fig. 2 is the process decision chart of laser level line precision index;
Fig. 3 is the process decision chart of laser vertical line precision index;
Fig. 4 is the process decision chart of laser rays zenith quadrature precision index;
Fig. 5 is the process decision chart of 90 ° of corner accuracy indexs of laser.
Wherein:
00-laser level to be checked;
10-cube of metope,
11-the 1st vertical wall, 12-the 2nd vertical wall, 15-end face, 16-bottom surface;
The 20-CCD detecting device,
21-horizontal line left side point line array CCD detecting device,
22-horizontal line near point line array CCD detecting device,
The right point of 23-horizontal line line array CCD detecting device,
Following some line array CCD detecting device of 24-perpendicular line,
Point line array CCD detecting device on the 25-perpendicular line,
26-the 1st zenith quadrature line array CCD detecting device,
27-the 2nd zenith quadrature line array CCD detecting device,
The right point of 28-perpendicular line line array CCD detecting device,
Under the 29-to a right alignment area array CCD detecting device;
30-8 road serial ports;
The 40-host computer;
The last horizontal light of A-, horizontal light under the B-, the vertical light in a C-left side, the right vertical light of D-.
English to Chinese
The CCD-charge coupled cell.
Embodiment
Below in conjunction with accompanying drawing and exemplifying embodiment the utility model is further specified:
One, overall
As Fig. 1, this device comprises laser level 00 to be checked, is provided with cube metope 10, CCD detecting device 20, serial ports 30 and host computer 40;
Cube metope 10 is grown up in 5 meters, is wider than 5 meters, and is tall and big in 3 meters; Cube metope 10 comprises the 1st, 2 vertical walls 11,12, end face 15 and bottom surface 16;
On bottom surface 16, place laser level 00 to be checked;
On the 1st vertical wall 11, horizontal line left side point line array CCD detecting device 21 and the right point of horizontal line line array CCD detecting device about 23 are arranged at level 5 meters 2 points apart, and horizontal line near point line array CCD detecting device 22 usefulness one fixed support is provided with distance the 1st vertical wall 11 in 1 meter place;
On the 1st vertical wall 11, some line array CCD detecting device 25 and following some line array CCD detecting device 24 upper and lower settings of perpendicular line are in vertical 3 meters 2 points apart on the perpendicular line;
The 2nd vertical wall 12 is provided with the right point of perpendicular line line array CCD detecting device 28;
End face 5 is provided with the 1st mutually orthogonal zenith quadrature line array CCD detecting device 26 and the 2nd zenith quadrature line array CCD detecting device 27;
Under the cultellation over the ground of laser level 00, be provided with under one a right alignment area array CCD detecting device 29;
To the right alignment area array CCD detecting device 29, other 8 linear array detecting devices are connected with 8 road serial ports 30 respectively except that down;
Principle of work:
As Fig. 1,2,3,4,5, judgement and detection that horizontal line left side point line array CCD detecting device 21, horizontal line near point line array CCD detecting device 22 and the right point of horizontal line line array CCD detecting device 23 are formed laser level 00 horizontal guideline error criterion to be checked and indexs such as live width precision and horizontal pitching degree;
Point line array CCD detecting device 25 is formed laser level 00 vertical guideline error criterion to be checked and live width precision on following some line array CCD detecting device 24 of perpendicular line and the perpendicular line judgement and detection;
The 1st zenith quadrature line array CCD detecting device 26 and the 2nd zenith quadrature line array CCD detecting device 27 are formed the quadrature error index of 00 liang of mutual perpendicular line of laser level to be checked and the judgement and the detection of live width precision;
The right point of some line array CCD detecting device 25 and perpendicular line line array CCD detecting device 28 is formed 90 ° of angle error indexs of laser level 00 vertical line to be checked on following some line array CCD detecting device 24 of perpendicular line, the perpendicular line judgement and detection;
Down 00 time right alignment to laser spots of 29 pairs of laser levels to be checked of a right alignment area array CCD detecting device is detected.
8 road serial ports 30 carry out parallel connection with 8 road line array CCD detecting devices, the laser rays positional information and the width information of gathering are communicated by serial ports 30 and host computer 40, host computer 40 can be specified a certain road transmission of corresponding 8 road line array CCD detecting devices data by sending different instructions, thereby realizes the data acquisition and processing (DAP) to 8 road line array CCD detecting devices.
Standard water horizontal line and standard vertical line and standard right angle are all demarcated by high-precision level, transit or total powerstation.
Two, each functional part
1, the CCD detecting device 20
The line array CCD detecting device can be selected TCD1501D; The area array CCD detecting device can be selected FDSCCD.
2, serial ports 30
3, host computer 40
Three, using method
1, this device can be realized the detection to dissimilar laser level to be checked 00 such as 1V1H-4V4H respectively, is needing incoming inspection personnel title before each the detection, is detecting parameter informations such as date, product plane No. and model.
2, the corner scale by laser level 00 to be checked carries out respectively 0 °, 90 °, 180 °, 270 ° laser levels during with 360 ° are thrown line, vertically thrown line, zenith corner and down a laser run location track is detected, and obtains the positional information of laser beam at line array CCD.Wherein 360 ° the time, laser level 00 all detected parameters to be checked are all got back to original position, and the detection data during with 0 ° compare, do the 5th detection again, thereby with the first time testing result compare, can carry out repeatability index and detect, the index that obtains repeatability is judged.
3, the check data that shows needs two kinds of colors, is when qualified such as data, and each data presentation be green, if a certain index is defective, then shows redness.
4, the printing function button is set, testing result is directly printed output.
5, testing result saves as the excel document, can carry out the statistics of data.
Four, after testing, this device technique index is as follows:
Horizontal accuracy | ± 1mm/5m, ± 2mm/5m, ± 2mm/10m |
Vertical precision | ± 1mm/5m, ± 1.5mm/3m |
The |
40 ", 1 ', 2 ' |
The zenith precision | ± 1mm/3m, ± 1.5mm/3m, ± 1mm/2.5m |
Down to a precision | Φ 2mm/2.5m, Φ 1.5mm/3m |
The line of laser rays is thick | 2mm, 2.5mm, 3mm. |
Claims (4)
1. the laser level digitizing pick-up unit based on line array CCD comprises laser level to be checked (00), it is characterized in that:
Be provided with a cube metope (10), CCD detecting device (20), serial ports (30) and host computer (40);
Cube metope (10) is grown up in 5 meters, is wider than 5 meters, and is tall and big in 3 meters; Cube metope (10) comprises the 1st, 2 vertical walls (11,12), end face (15) and bottom surface (16);
CCD detecting device (20) comprises 8 line array CCD detecting devices and 1 area array CCD detecting device;
(16) are gone up and are placed laser level to be checked (00) in the bottom surface;
On the 1st vertical wall (11), be arranged at level 5 meters 2 points apart about horizontal line left side point line array CCD detecting device (21) and horizontal line right some line array CCD detecting device (23), horizontal line near point line array CCD detecting device (22) is provided with distance the 1st vertical wall (11) in 1 meter place with a fixed support;
On the 1st vertical wall (11), some line array CCD detecting device (25) and following some line array CCD detecting device of perpendicular line (24) upper and lower settings are in vertical 3 meters 2 points apart on the perpendicular line;
The 2nd vertical wall (12) is provided with the right point of perpendicular line line array CCD detecting device (28);
End face (15) is provided with the 1st mutually orthogonal zenith quadrature line array CCD detecting device (26) and the 2nd zenith quadrature line array CCD detecting device (27);
Under the cultellation over the ground of laser level (00), be provided with under one a right alignment area array CCD detecting device (29);
To the right alignment area array CCD detecting device (29), other 8 linear array detecting devices are connected with 8 road serial ports (30) respectively except that down;
Serial ports (30) is connected with host computer (40).
2. by the described laser level digitizing of claim 1 pick-up unit, it is characterized in that:
CCD detecting device (20) is selected 8 line array CCD detecting devices of high precision and 1 area array CCD detecting device for use.
3. by the described laser level digitizing of claim 1 pick-up unit, it is characterized in that:
Serial ports (30) is selected 8 road serial ports HUB for use.
4. by the described laser level digitizing of claim 1 pick-up unit, it is characterized in that:
Host computer (40) is selected PC or notebook computer for use.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010201303140U CN201637421U (en) | 2010-03-09 | 2010-03-09 | Laser demarcation instrument digitization detecting device based on linear array CCD (Charge Coupled Device) |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010201303140U CN201637421U (en) | 2010-03-09 | 2010-03-09 | Laser demarcation instrument digitization detecting device based on linear array CCD (Charge Coupled Device) |
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CN201637421U true CN201637421U (en) | 2010-11-17 |
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CN2010201303140U Expired - Lifetime CN201637421U (en) | 2010-03-09 | 2010-03-09 | Laser demarcation instrument digitization detecting device based on linear array CCD (Charge Coupled Device) |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101782403A (en) * | 2010-03-09 | 2010-07-21 | 武汉方寸科技有限公司 | Digital detection device of laser cast instrument based on linear array charge coupled device (CCD) |
CN103499355A (en) * | 2013-10-18 | 2014-01-08 | 武汉大学 | Laser demarcation device calibration system |
CN106908081A (en) * | 2017-02-23 | 2017-06-30 | 深圳市鼎泰威科技有限公司 | Laser level detecting system and method based on ccd video camera |
-
2010
- 2010-03-09 CN CN2010201303140U patent/CN201637421U/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101782403A (en) * | 2010-03-09 | 2010-07-21 | 武汉方寸科技有限公司 | Digital detection device of laser cast instrument based on linear array charge coupled device (CCD) |
CN101782403B (en) * | 2010-03-09 | 2011-11-30 | 武汉方寸科技有限公司 | Digital detection device of laser cast instrument based on linear array charge coupled device (CCD) |
CN103499355A (en) * | 2013-10-18 | 2014-01-08 | 武汉大学 | Laser demarcation device calibration system |
CN103499355B (en) * | 2013-10-18 | 2016-02-10 | 武汉大学 | A kind of laser demarcation device calibration system |
CN106908081A (en) * | 2017-02-23 | 2017-06-30 | 深圳市鼎泰威科技有限公司 | Laser level detecting system and method based on ccd video camera |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20101117 Effective date of abandoning: 20120502 |