CN203813848U - Entire-image digital acquisition instrument - Google Patents
Entire-image digital acquisition instrument Download PDFInfo
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- CN203813848U CN203813848U CN201420087202.XU CN201420087202U CN203813848U CN 203813848 U CN203813848 U CN 203813848U CN 201420087202 U CN201420087202 U CN 201420087202U CN 203813848 U CN203813848 U CN 203813848U
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- image acquisition
- image
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- full width
- acquisition mechanism
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Abstract
The utility model discloses an entire-image digital acquisition instrument. The entire-image digital acquisition instrument is characterized by comprising a platform and an image acquisition mechanism arranged in a manner that the image acquisition mechanism moves relatively to the platform, and the image acquisition mechanism is provided with a long-strip image acquisition combination camera which is formed by splicing of a plurality of image sensors after continuous arrangement. Through the image acquisition combination camera, one-time entire-image acquisition of leather, cloth, paper and other large-breadth planar materials or roll type materials are achieved, subsequent vectorization processing is convenient, and a vector data file containing a ratio 1:1 to the material size is generated. The whole process has the advantages of simple operation, high precision and high efficiency, and operators get rid of dependence on professional technologies; and the long-strip image acquisition mechanism scans quickly, and then an entire image can be acquired once. Furthermore, the entire-image digital acquisition instrument further can be applied to dimension measurement, type setting, digital archive management, data butt of numerical control processing equipment and the like.
Description
Technical field
The utility model relates to image capture device, is specifically related to a kind of full width image digitazation Acquisition Instrument.
Background technology
At present, can directly gather the instrument and equipment of image, general breadth is all smaller, as scanner or the digitizer etc. of A4/A3 breadth, it is general that simultaneously it can gather image is also thinner drawing etc., for thicker article, as the shape of the article such as sole, can not accurately scan.Therefore, also do not have in the market directly to scan full width image digitazation Acquisition Instrument in kind, or relevant device, for full width face image scanning in kind, and then carry out the follow-up data vectorization conversions such as version of copying, output vector data carry out batch machining, the production of product to other digital processing equipments.
Simultaneously, in prior art, process the very very complicated of vector quantization process of the material view data of large format, it will become lines file from entity material, generally directly adopt relevant mapping software to carry out lines drafting by after manually material object being measured, or take pictures in part, in computer, splice complete after, spliced picture in its entirety is embedded in relevant mapping software, by manually copying and describe at the enterprising line bar of picture, no matter be the former or the latter, its process steps is many, troublesome poeration, artificial technology's horizontal dependency is high, and exist cost high, time is long, the defects such as precision is low.Generally speaking, lack at present a kind of simple to operate, precision is high, efficiency is high, and the large format material that can copy version to needs carries out disposable full width IMAQ, and the full width image digitazation Acquisition Instrument of exportable vector quantization data.
Utility model content
For the above-mentioned deficiency of prior art, the purpose of this utility model is, a kind of scientific structure full width image digitazation cleverly Acquisition Instrument is provided, strip by unique design gathers combination camera, realize the large format plane materials such as leather, cloth, paper or volume type material are carried out to disposable full width IMAQ, to facilitate follow-up vector quantization, to copy version processing.This full width image digitazation Acquisition Instrument is simple to operate, precision is high, efficiency is high, and operating cost and management cost low.
The technical scheme that the utility model adopted is for achieving the above object:
A kind of full width image digitazation Acquisition Instrument, it is characterized in that, the image acquisition mechanism that it comprises platform and arranges with this platform relative motion, this image acquisition mechanism is provided with by the strip IMAQ combination camera being spliced after some imageing sensor continuous arrangements.Described image acquisition mechanism is also strip, to facilitate the setting of strip IMAQ combination camera.
As further improvement, described imageing sensor is N channel linear imageing sensor, and wherein N is more than or equal to 1 integer.Preferably, described linear imaging sensor is CIS, CCD or COMS linear imaging sensor.Generally speaking, described strip IMAQ combination camera, undertaken being spliced after continuous arrangement by one or more of CIS imageing sensor, ccd image sensor or cmos image sensor, its length can design adjusting (if the size of object material is large according to practical situations, the several imageing sensors of many employings), its span meets the collected significantly material of covering.
As further improvement, described strip IMAQ combination camera is located on image acquisition mechanism by elevating mechanism, thereby makes it can move up and down the distance of adjusting with respect to platform.Described elevating mechanism comprises guide rail and the driven unit of being located at strip IMAQ combination camera both sides.This driven unit can be motor, screw mandrel, cylinder, push rod etc. form.By this elevating mechanism, can adjust flexibly strip IMAQ combination camera with respect to the distance of platform to facilitate the material that gathers different-thickness.
As further improvement, the front side of described IMAQ combined mechanism is provided with pressing running roller.This pressing running roller can, before strip IMAQ combination camera scanning shoot, play the effect of smoothing out with the fingers along flattening, better it is carried out to IMAQ to material.
As further improvement, described platform and image acquisition mechanism relative motion setting comprise various ways.Form one, the relative platform movement of image acquisition mechanism, described platform is fixedly installed, and described image acquisition mechanism is located at above or below platform by travel mechanism, or described image acquisition mechanism is two, is located at respectively platform above and below by travel mechanism.Form two, platform moves relative to image acquisition mechanism, and described image acquisition mechanism is fixedly installed, and described platform is located at image acquisition mechanism below or top by travel mechanism, or described image acquisition mechanism is two, described platform is located at the centre of these two image acquisition mechanisms by travel mechanism.Wherein, described travel mechanism comprises the guide rail that makes platform and image acquisition mechanism relative motion, and screw rod transmission assembly or belt wheel transmission assembly.In the time that described image acquisition mechanism is two, described platform adopts transparent form (as clear glass, plastic products etc.), can carry out full width IMAQ to material two sides just be located at the image acquisition mechanism of platform both sides simultaneously.
As further improvement, described platform and image acquisition mechanism can also relative static settings, and are provided with the material transport mechanism of relative motion between the two.Arrange than platform and image acquisition mechanism relative motion, it can realize automatic collection by material transport mechanism, drives material process from image acquisition mechanism by material transport mechanism, thereby realizes disposable full width IMAQ.
The utility model has the advantage of: by the strip IMAQ combination camera being spliced after image acquisition mechanism setting is by some imageing sensor continuous arrangements, thereby realize the large format plane materials such as leather, cloth, paper or volume type material are carried out to disposable full width IMAQ, to facilitate the follow-up version of copying to process, generate the vector file with material size 1:1.Whole image acquisition process, simple to operate, precision is high, efficiency is high, and break away from the dependence to operating personnel's professional technique, and collected material is placed on platform, sweep and mistake by the image acquisition mechanism of strip, just can disposable collection full width image.In addition, the utility model can also be applied to dimensional measurement, digitlization typesetting, and digital management, leather is cut out the numerically controlled processing equipments such as skin machine, cutting machine, engraving machine, printing machine, embroidery machine etc.
Below in conjunction with accompanying drawing and embodiment, the utility model is further illustrated.
Brief description of the drawings
Fig. 1 is the overall structure schematic diagram of the utility model embodiment;
Fig. 2 is the local enlarged diagram of the A portion of Fig. 1;
Fig. 3 is another visual angle structural representation of Fig. 1;
Fig. 4 is the local enlarged diagram of the B portion of Fig. 3;
In figure: 1. platform; 11. guide rails; 12. motors; 13. Timing Belts; 2. image acquisition mechanism;
21. strip IMAQ combination camera; 22. elevating mechanisms; 23. flatten running roller.
Embodiment
Referring to Fig. 1 to Fig. 4, a kind of full width image digitazation Acquisition Instrument that the present embodiment provides, the image acquisition mechanism 2 that it comprises platform 1 and arranges with this platform 1 relative motion, this image acquisition mechanism 2 is provided with by the strip IMAQ combination camera 21 being spliced after some imageing sensor continuous arrangements.Described image acquisition mechanism 2 is also strip, to facilitate the setting of strip IMAQ combination camera 21.
Wherein, described imageing sensor is N channel linear imageing sensor, and wherein N is more than or equal to 1 integer.Preferably, described linear imaging sensor is CIS, CCD or COMS linear imaging sensor.Generally speaking, described strip IMAQ combination camera, undertaken being spliced after continuous arrangement by one or more of CIS imageing sensor, ccd image sensor or cmos image sensor, its length can design adjusting (if the size of object material is large according to practical situations, the several imageing sensors of many employings), its span meets the collected significantly material of covering.
Referring to 1,2, described strip IMAQ combination camera 21 is located on image acquisition mechanism 2 by elevating mechanism 22, thereby makes it can move up and down the distance of adjusting with respect to platform 1.Described elevating mechanism 22 comprises guide rail and the driven unit of being located at strip IMAQ combination camera 21 both sides.In the present embodiment, elevating mechanism 22 comprises guide rail, slide and hold-down screw bolt, adjusts by manual mode, is then fixed by screw bolt-locking.In addition, described driven unit can also be motor, screw mandrel, cylinder, push rod etc. form.By this elevating mechanism 22, can adjust flexibly strip IMAQ combination camera 21 with respect to the distance of platform 1 to facilitate the material that gathers different-thickness.
The front side of described image acquisition mechanism 2 is provided with and flattens running roller 23.This pressing running roller 23 can, before strip IMAQ combination camera 21 scanning shoots, play the effect of smoothing out with the fingers along flattening, better it is carried out to IMAQ to material.
Referring to 3,4, described platform 1 comprises various ways with image acquisition mechanism 2 relative motion settings.Form one, image acquisition mechanism 2 moves relative to platform 1, and described platform 1 is fixedly installed, and described image acquisition mechanism 2 is located at by travel mechanism above or below platform 1, or described image acquisition mechanism is two, be located at respectively platform above and below by travel mechanism.Form two, platform 1 moves relative to image acquisition mechanism 2, described image acquisition mechanism 2 is fixedly installed, described platform 1 is located at image acquisition mechanism 2 belows or top by travel mechanism, or described image acquisition mechanism is two, described platform is located at the centre of these two image acquisition mechanisms by travel mechanism.In the time that described image acquisition mechanism is two, described platform adopts transparent form (as clear glass, plastic products etc.), can carry out full width IMAQ to material two sides just be located at the image acquisition mechanism of platform both sides simultaneously.The present embodiment adopts the first form, forms travel mechanism by guide rail 11, motor 12 and Timing Belt 13, makes image acquisition mechanism 2 movable types be arranged at platform 1 top.
As a kind of version, described platform and image acquisition mechanism can also relative static settings, and are provided with the material transport mechanism of relative motion between the two.Arrange than platform and image acquisition mechanism relative motion, it can realize automatic collection by material transport mechanism, drives material process from image acquisition mechanism by material transport mechanism, thereby realizes disposable full width IMAQ.
Existing method and the feature of doing vector file is as follows: the one, and material is scanned with scanner, more manually retouch line with related softwares such as PS, reach the object of making vector file; The 2nd, to material reading, reach the object of vector file with digitizer; Its speed is slow, and precision is low, and professional operant level requires high, and management cost is high.And the utility model is by the strip IMAQ combination camera being spliced after image acquisition mechanism setting is by some imageing sensor continuous arrangements, thereby realize the large format plane materials such as leather, cloth, paper or volume type material are carried out to disposable full width IMAQ, to facilitate the follow-up version of copying to process, generate the vector file with material size 1:1.Whole image acquisition process, simple to operate, precision is high, efficiency is high, and break away from the dependence to operating personnel's professional technique, and collected material is placed on platform, sweep and mistake by the image acquisition mechanism of strip, just can obtain full width image.After carrying out IMAQ by the utility model, then by dependent vector processing, DXF, PLT isovector formatted file to the automatic generation of material with material size 1:1, speed is fast, and precision is high, and professional operant level requires very low.In addition, the utility model can also be applied to the data docking of dimensional measurement, typesetting, digital management, numerically controlled processing equipment etc.
The utility model is not limited to above-mentioned execution mode, adopts the structure identical or approximate with the utility model above-described embodiment, and other full width image digitazation Acquisition Instruments that obtain, all within protection range of the present utility model.
Claims (8)
1. a full width image digitazation Acquisition Instrument, it is characterized in that, the image acquisition mechanism that it comprises platform and arranges with this platform relative motion, this image acquisition mechanism is provided with by the strip IMAQ combination camera being spliced after some imageing sensor continuous arrangements.
2. full width image digitazation Acquisition Instrument according to claim 1, is characterized in that, described imageing sensor is N channel linear imageing sensor, and wherein N is more than or equal to 1 integer.
3. full width image digitazation Acquisition Instrument according to claim 1, is characterized in that, described linear imaging sensor is CIS, CCD or COMS linear imaging sensor.
4. full width image digitazation Acquisition Instrument according to claim 1, is characterized in that, described strip IMAQ combination camera is located on image acquisition mechanism by elevating mechanism, thereby makes it can move up and down the distance of adjusting with respect to platform.
5. full width image digitazation Acquisition Instrument according to claim 4, is characterized in that, described elevating mechanism comprises guide rail and the driven unit of being located at strip IMAQ combination camera both sides.
6. full width image digitazation Acquisition Instrument according to claim 1, is characterized in that, the front side of described image acquisition mechanism is provided with pressing running roller.
7. full width image digitazation Acquisition Instrument according to claim 1, it is characterized in that, described platform is fixedly installed, and described image acquisition mechanism is located at by travel mechanism above or below platform, or described image acquisition mechanism is two, be located at respectively platform above and below by travel mechanism; Or described image acquisition mechanism is fixedly installed, described platform is located at image acquisition mechanism below or top by travel mechanism, or described image acquisition mechanism is two, and described platform is located at the centre of these two image acquisition mechanisms by travel mechanism.
8. full width image digitazation Acquisition Instrument according to claim 7, is characterized in that, described travel mechanism comprises the guide rail that makes platform and image acquisition mechanism relative motion, and screw rod transmission assembly or belt wheel transmission assembly.
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CN201420087202.XU CN203813848U (en) | 2014-02-27 | 2014-02-27 | Entire-image digital acquisition instrument |
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CN201420087202.XU CN203813848U (en) | 2014-02-27 | 2014-02-27 | Entire-image digital acquisition instrument |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106506899A (en) * | 2015-09-08 | 2017-03-15 | 东莞市智觉电子科技有限公司 | A kind of image acquisition based on machine vision and method for reconstructing and device |
CN109527713A (en) * | 2018-11-30 | 2019-03-29 | 扬州哈工博视科技有限公司 | A kind of method that real-time typesetting is cut in real time |
CN110324511A (en) * | 2019-07-11 | 2019-10-11 | 广东工业大学 | A kind of flexible material process equipment and its image-scanning device |
CN112318207A (en) * | 2020-11-11 | 2021-02-05 | 全椒县汉邦机电有限公司 | Outline recognition and cutting system and device based on CIS scanner |
-
2014
- 2014-02-27 CN CN201420087202.XU patent/CN203813848U/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106506899A (en) * | 2015-09-08 | 2017-03-15 | 东莞市智觉电子科技有限公司 | A kind of image acquisition based on machine vision and method for reconstructing and device |
CN106506899B (en) * | 2015-09-08 | 2019-02-12 | 东莞市智觉电子科技有限公司 | A kind of Image Acquisition based on machine vision and method for reconstructing and device |
CN109527713A (en) * | 2018-11-30 | 2019-03-29 | 扬州哈工博视科技有限公司 | A kind of method that real-time typesetting is cut in real time |
CN109527713B (en) * | 2018-11-30 | 2021-11-23 | 扬州哈工博视科技有限公司 | Real-time typesetting and real-time cutting method |
CN110324511A (en) * | 2019-07-11 | 2019-10-11 | 广东工业大学 | A kind of flexible material process equipment and its image-scanning device |
CN112318207A (en) * | 2020-11-11 | 2021-02-05 | 全椒县汉邦机电有限公司 | Outline recognition and cutting system and device based on CIS scanner |
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Granted publication date: 20140903 Termination date: 20210227 |