CN202092601U - Measuring reflector applicable to laser scanning - Google Patents
Measuring reflector applicable to laser scanning Download PDFInfo
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- CN202092601U CN202092601U CN2011201456935U CN201120145693U CN202092601U CN 202092601 U CN202092601 U CN 202092601U CN 2011201456935 U CN2011201456935 U CN 2011201456935U CN 201120145693 U CN201120145693 U CN 201120145693U CN 202092601 U CN202092601 U CN 202092601U
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- spheroid
- reflecting body
- laser scanning
- applicable
- utility
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Abstract
The utility model discloses a measuring reflector applicable to laser scanning, which is disposed on an under carriage and comprises a first ball. The first ball is a standard ball. The measuring reflector applicable to laser scanning omits large amounts of splicing spots and an included angle between a reflecting direction and a laser scanning direction, and guarantees optimal reflected energy of a laser spot during scanning. In addition, cloud data of scanning spots of the measuring reflector applicable to laser scanning is always a standard circle regardless of measuring and scanning angles of a laser scanner, cannot deform and is favorable for improving splicing precision.
Description
Technical field
The utility model relates to a kind of measurement reflecting body, relates in particular to a kind of measurement reflecting body that is applicable to laser scanning.
Background technology
In 3 D laser scanning, often need to use three-dimensional laser scanner, three-dimensional laser scanner is the quick measuring system of robotization of no cooperative target laser range finder and angle measurement system combination, can carry out quick scanning survey to testee in the scene and the space of complexity, directly obtain horizontal direction, zenith distance, oblique distance and the reflection strength of the body surface that laser spots contacted, and store automatically and calculate, to obtain the cloud data of testee.Cloud data is through after the Computer Processing, but goes out various cartographic datas such as the three-dimensional model of testee and line, face, body, space in conjunction with the CAD quick reconfiguration.More than 1,000 meter of the measuring distance farthest of three-dimensional laser scanner, the maximum scan frequency can reach the per second hundreds of thousands, longitudinal scanning angle θ is near 90 °, laterally can carry out 360 ° of wholecircle scannings around the instrument vertical pivot, scan-data can be transferred to computing machine automatically by ICP/IP protocol, and the scene image of its external digital camera shooting can be transferred in the computer simultaneously by the usb data line simultaneously.But because the complicacy of testee or testee environment of living in when testee is carried out laser scanning, need be provided with several different websites sometimes testee is scanned, the cloud data of the testee that need obtain after to be scanned the finishing splices.
In existing laser scanner technique operation process, for finishing the splicing of cloud data, reflection paster or foot rest reflector plate need be set as reflecting body on the testee surface, splice as the same place data of the cloud data of different websites with the scan-data of paster or reflector plate.When paster or reflector plate during over against the laser scanner direction, the paster of reflecting body or the reflected energy of reflector plate are the highest, and reflecting effect is best, and laser scanner can access reflecting body data more clearly, thereby the splicing precision of testee data is higher; If but the laser-bounce direction of the direction of scanning of laser scanner and paster or reflector plate forms angle, then reflecting effect weakens, the cloud data shape of reflecting body can produce distortion, and angle is big more, reflecting effect is poor more, be out of shape big more, thereby the error that produces when causing splicing the cloud data of different websites is big more.To sum up, there are following two defectives in the reflecting body in the splicing of traditional laser scanning data:
1, usually needs to lay a large amount of splice point, cause certain difficulty for installation and use;
2, because the direction of laser scanning usually can form angle with the reflecting body reflection direction, produce distortion and cause splicing error to occur, and cause deviation accumulation influence overall situation splicing precision.
Therefore, those skilled in the art be devoted to develop a kind of need not lay a large amount of splice point, reflection direction and laser scanning direction do not have the measurement reflecting body that is applicable to laser scanning of angle.
The utility model content
Because the above-mentioned defective of prior art, the purpose of this utility model provide a kind of need not lay a large amount of splice point, reflection direction and laser scanning direction do not have the measurement reflecting body that is applicable to laser scanning of angle.
For achieving the above object, the utility model provides a kind of measurement reflecting body that is applicable to laser scanning, and described reflecting body is located on the foot rest, and described reflecting body comprises first spheroid, and described first spheroid is a standard ball.
In better embodiment of the present utility model, wherein said reflecting body also comprises second spheroid and the 3rd spheroid, and described second spheroid and the 3rd spheroid are standard ball, and the centre of sphere of described first spheroid, second spheroid and the 3rd spheroid constitutes triangle.
In another better embodiment of the present utility model, the outside surface of wherein said first spheroid and/or second spheroid and/or the 3rd spheroid is provided with one deck reflecting coating.
In another better embodiment of the present utility model, the diameter of wherein said first spheroid, second spheroid and the 3rd spheroid is respectively 5~15 centimetres.
In another better embodiment of the present utility model, the weight of wherein said first spheroid, second spheroid and the 3rd spheroid is respectively 100~500 grams.
In another better embodiment of the present utility model, wherein said first spheroid and/or second spheroid and/or the 3rd spheroid are solid or hollow spheroid.
In another better embodiment of the present utility model, wherein said first spheroid and/or second spheroid and/or the 3rd spheroid link to each other with described foot rest by connecting link.
In another better embodiment of the present utility model, link to each other by pedestal between wherein said connecting link and the described foot rest.
In another better embodiment of the present utility model, between wherein said connecting link and described first spheroid and/or second spheroid and/or the 3rd spheroid by being threaded.
In another better embodiment of the present utility model, be connected by draw-in groove between wherein said connecting link and described first spheroid and/or second spheroid and/or the 3rd spheroid.
The measurement reflecting body that is applicable to laser scanning of the present utility model need not laid a large amount of splice point, reflection direction and laser scanning direction does not have angle, reflected energy the best of laser spots when having guaranteed scanning.No matter laser scanner measures scanning from which kind of angle, of the present utility modelly be applicable to that the scanning cloud data of the measurement reflecting body of laser scanning is a standard garden all the time, can not produce distortion, help improving the splicing precision.Simultaneously, the outside surface of the spheroid of measurement reflecting body of the present utility model has been coated high-intensity reflecting coating, can increase the sharpness of cloud data again, improves the resolution of data splicing, thereby reaches the purpose that improves the splicing precision.
Be described further below with reference to the technique effect of accompanying drawing, to understand the purpose of this utility model, feature and effect fully design of the present utility model, concrete structure and generation.
Description of drawings
Fig. 1 is the structural representation of embodiment of the present utility model;
Fig. 2 is the schematic cross-section of the standard ball among the embodiment of the present utility model.
Embodiment
As shown in Figure 1, a kind of measurement reflecting body that is applicable to laser scanning of the present utility model is arranged on the foot rest 6.As shown in fig. 1, reflecting body of the present utility model comprises first spheroid 1.First spheroid 1 links to each other with pedestal 5 by connecting link 4, and pedestal 5 links to each other with foot rest 6.
Shown in Fig. 1, first spheroid 1 of measurement reflecting body of the present utility model is a standard ball.When adopting standard ball as the reflecting body of laser scanner, the reflecting surface of reflecting body faces laser scanner all the time.The laser that laser scanner sent, no matter which kind of angle to measure scanning from, can between reflection direction that finds any on the standard ball and laser scanning direction, there be angle, reflected energy the best of this laser scanning point when having guaranteed scanning, the scanning cloud data of the standard ball that obtains thus is a standard garden all the time, can not produce distortion, when splicing, can not produce error, help improving the splicing precision.
As shown in fig. 1, comprise also in the reflecting body of preferred embodiment of the present utility model that second spheroid 2 and the 3rd spheroid 3, the second spheroids 2 and the 3rd spheroid 3 are standard ball.The centre of sphere of first spheroid 1, second spheroid 2 and the 3rd spheroid 3 constitutes triangle.Three measurement reflecting bodys that constitute leg-of-mutton standard ball as laser scanning in preferred embodiment of the present utility model, have been used, overcome the shortcoming that the single standard spheroid lacks the condition that checks, and when testee is in the environment complicated and changeable, use the single standard spheroid when splicing data, to have certain degree of difficulty as reflecting body, if and use three standard ball that constitute certain figures as reflecting body simultaneously, can be so that laser scanner all can obtain the triangle number certificate of same place from a plurality of angles, according to certain matching algorithm calculating can make things convenient for the cloud data that accurately splice different websites, make that splicing is easier and accurate thereafter.Certainly, in other embodiments, also can only use a single standard spheroid as reflecting body, the mode of perhaps using standard ball and other platelet-like reflective bodies to combine, perhaps use the standard ball of other quantity, perhaps constitute other shape, present embodiment does not all limit this.
In preferred embodiment of the present utility model, three standard ball are when measuring reflecting body, in order to reach desirable graphical effect, relative distance between three standard ball can not be too short, certainly, in other embodiments, as long as laser scanner can scan three standard ball clearly, relative distance between three standard ball does not limit in the present embodiment.
When using and the measurement reflecting body of preferred embodiment of the present utility model is installed, can set up the measurement foot rest at first in place, carry out according to the relevant requirements of measuring when setting up foot rest; Then pedestal is placed on the foot rest, and itself and foot rest are fixed; Thereafter adjusting foot rest makes pedestal upper surface keep basic horizontal; The back is installed connecting link and is measured reflecting body on pedestal again, and makes measurement reflecting body and the tight socket of connecting link; Regulate the length of connecting link at last, make the measurement reflecting body be in suitable locus.
In this preferred embodiment, the centre of sphere of first spheroid, second spheroid and the 3rd spheroid constitutes triangle.After drawing the scan-data of different websites at the laser scanner that scans between different websites, utilize the scan-data of measurement reflecting body of the present utility model to carry out conversion as common point, with the scan-data unification of different websites in same coordinate system, thereby finish the splicing of scan-data, reconstruct various cartographic datas such as the three-dimensional model of testee and line, face, body, space.
As shown in Figure 2, first spheroid of the measurement reflecting body in the preferred embodiment of the present utility model and/or the outside surface of second spheroid and/or the 3rd spheroid are provided with one deck reflecting coating.This reflecting coating is high-intensity reflecting coating, and the laser that sends of reflector laser scanner increases the sharpness of the cloud data of measuring reflecting body preferably, thereby further improves the resolution of the data splicing of different websites.Certainly, in other embodiments, can not use reflecting coating yet, perhaps use other the material that can improve reflected energy, perhaps measure reflecting body itself and be the reflectorized material formation, the utility model does not all limit this.
In preferred embodiment of the present utility model, the diameter of first spheroid, second spheroid and the 3rd spheroid is respectively 5~15 centimetres, wherein preferred 10 centimetres.Because laser scanner has certain preferable scanning distance, therefore also has certain diameter as first spheroid of the present utility model, second spheroid and the 3rd spheroid of measuring reflecting body, can be selected from 5~15 centimetres, in preferred embodiment of the present utility model preferred 10 centimetres, certainly, in other embodiments, also can select other diameter sphere for use, can access clearly with laser scanner that the scan-data of standard ball gets final product, the utility model does not limit this.
In addition, in preferred embodiment of the present utility model, the weight of first spheroid, second spheroid and the 3rd spheroid is respectively 100~500 grams, wherein preferred 250 grams.The weight of standard ball is advisable at spatial stability can make the measurement reflecting body, also can adopt the standard ball of other weight in other embodiments, and present embodiment does not limit this.
In preferred embodiment of the present utility model, first spheroid and/or second spheroid and/or the 3rd spheroid can be solid or hollow spheroid, as long as the spheroid of measurement reflecting body of the present utility model is the spheroid of a standard, for the interior shape of spheroid, the utility model does not limit.
As shown in fig. 1, in preferred embodiment of the present utility model, first spheroid 1, second spheroid 2 link to each other with foot rest 6 by connecting link 4 with the 3rd spheroid 3.Certainly, in other embodiments, also can adopt in first spheroid 1, second spheroid 2 and the 3rd spheroid 3 one or its two to link to each other with foot rest 6 by connecting link 4, perhaps first spheroid 1, second spheroid 2 directly link to each other with foot rest 6 with the 3rd spheroid 3, be beneficial to data splicing as long as make the spheroid of winning, second spheroid and the 3rd spheroid spatially form stable triangle, present embodiment does not limit this.
Shown in Fig. 1, in preferred embodiment of the present utility model, also can link to each other between connecting link 4 and the foot rest 6 by pedestal 5.Be provided with pedestal 5 in this preferred embodiment, thereby connecting link and the measurement reflecting body that links to each other with pedestal 5 can be applied to different foot rest 6.Make the scope of application of measurement reflecting body of the present utility model increase.Certainly, in other embodiments, pedestal 5 can be set, present embodiment does not limit this yet.
In addition, as shown in fig. 1, in preferred embodiment of the present utility model, between connecting link 4 and first spheroid 1, second spheroid 2 and the 3rd spheroid 3 by being threaded; And for example shown in Fig. 2, on the standard ball 1 of measuring reflecting body, be provided with groove, thereby connecting link 4 is realized and being connected of standard ball by inserting this groove.Certainly, in other embodiments, one or its two can be connected with connecting link by screw thread or groove in first spheroid, second spheroid and the 3rd spheroid, perhaps realize connecting by other modes, as long as standard ball is fixed on the connecting link, and stable in the space, present embodiment does not limit this.
In addition, as shown in Figure 1, in preferred embodiment of the present utility model, connecting link 4 can be can free adjustment length flexible connecting link.Use can free adjustment length flexible connecting link, both three standard ball of reflecting body can be installed on the pedestal by set mode, can guarantee that again the figure that three standard ball of reflecting body spatially constitute gets a desired effect.Certainly, in other embodiments, can also use non-retractable connecting link, present embodiment does not limit this.
More than describe preferred embodiment of the present utility model in detail.The ordinary skill that should be appreciated that this area need not creative work and just can make many modifications and variations according to design of the present utility model.Therefore, all technician in the art comply with design of the present utility model on the basis of existing technology by the available technical scheme of logical analysis, reasoning, or a limited experiment, all should be in the determined protection domain by claims.
Claims (10)
1. measurement reflecting body that is applicable to laser scanning, described reflecting body is located on the foot rest, it is characterized in that, and described reflecting body comprises first spheroid, and described first spheroid is a standard ball.
2. the measurement reflecting body that is applicable to laser scanning as claimed in claim 1, wherein said reflecting body also comprises second spheroid and the 3rd spheroid, described second spheroid and the 3rd spheroid are standard ball, and the centre of sphere of described first spheroid, second spheroid and the 3rd spheroid constitutes triangle.
3. the measurement reflecting body that is applicable to laser scanning as claimed in claim 2, the outside surface of wherein said first spheroid and/or second spheroid and/or the 3rd spheroid is provided with one deck reflecting coating.
4. the measurement reflecting body that is applicable to laser scanning as claimed in claim 2, the diameter of wherein said first spheroid, second spheroid and the 3rd spheroid is respectively 5~15 centimetres.
5. the measurement reflecting body that is applicable to laser scanning as claimed in claim 2, the weight of wherein said first spheroid, second spheroid and the 3rd spheroid are respectively 100~500 grams.
6. the measurement reflecting body that is applicable to laser scanning as claimed in claim 2, wherein said first spheroid and/or second spheroid and/or the 3rd spheroid are solid or hollow spheroid.
7. the measurement reflecting body that is applicable to laser scanning as claimed in claim 2, wherein said first spheroid and/or second spheroid and/or the 3rd spheroid link to each other with described foot rest by connecting link.
8. link to each other by pedestal between the measurement reflecting body that is applicable to laser scanning as claimed in claim 7, wherein said connecting link and described foot rest.
9. between the measurement reflecting body that is applicable to laser scanning as claimed in claim 7, wherein said connecting link and described first spheroid and/or second spheroid and/or the 3rd spheroid by being threaded.
10. be connected by draw-in groove between the measurement reflecting body that is applicable to laser scanning as claimed in claim 7, wherein said connecting link and described first spheroid and/or second spheroid and/or the 3rd spheroid.
Priority Applications (1)
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CN2011201456935U CN202092601U (en) | 2011-05-10 | 2011-05-10 | Measuring reflector applicable to laser scanning |
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CN2011201456935U CN202092601U (en) | 2011-05-10 | 2011-05-10 | Measuring reflector applicable to laser scanning |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102288109A (en) * | 2011-05-10 | 2011-12-21 | 上海市城市建设设计研究院 | Measuring reflector suitable for laser scanning |
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2011
- 2011-05-10 CN CN2011201456935U patent/CN202092601U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102288109A (en) * | 2011-05-10 | 2011-12-21 | 上海市城市建设设计研究院 | Measuring reflector suitable for laser scanning |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20111228 Termination date: 20190510 |
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CF01 | Termination of patent right due to non-payment of annual fee |