CN204328521U - The radiographic measurement equipment of rim(ming) light lighting module and rim(ming) light illumination - Google Patents
The radiographic measurement equipment of rim(ming) light lighting module and rim(ming) light illumination Download PDFInfo
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- CN204328521U CN204328521U CN201420697313.2U CN201420697313U CN204328521U CN 204328521 U CN204328521 U CN 204328521U CN 201420697313 U CN201420697313 U CN 201420697313U CN 204328521 U CN204328521 U CN 204328521U
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Abstract
The utility model relates to the radiographic measurement equipment of a kind of rim(ming) light lighting module and rim(ming) light illumination, wherein, the radiographic measurement equipment of rim(ming) light illumination comprises: measurement module, control module, optical imagery module, lighting module, driver module and measuring table; Measurement module is for the formation of human-computer interaction interface; Control module comprises graphics processing unit and driving control unit; Optical imagery module is positioned at above described measuring table, and it for carrying out imaging to workpiece for measurement, image data generating, and carries out data transmission with control module; Lighting module comprises diffused illumination unit and lens illumination unit; Driver module comprises XY driver module and Z driver module; Measuring table is for the formation of the loading end of workpiece to be measured.The utility model, by conjunction with the illumination of diffusion type rim(ming) light and the illumination of collimation formula rim(ming) light, can detect accurately the quality of cover-plate glass, be conducive to improving the dispatch from the factory quality of product and the detection efficiency of product, achieve good economic benefit.
Description
Technical field
The utility model relates to the technical field of image detection of product, particularly relates to the radiographic measurement equipment of a kind of rim(ming) light lighting module and rim(ming) light illumination.
Background technology
Along with the fast development of smart mobile phone and dull and stereotyped computer row industry, its critical piece cover-plate glass has now become technology-intensive and new high-tech product that is fund-intensive.The change of cover-plate glass along with people's use habit and the increase day by day of market demand, its type becomes diversification more, and the requirement of quality is being also constantly improve.
Cover-plate glass needs through quality testing before dispatching from the factory, and can come into the market after quality testing is qualified.But existing detection mode can not meet the demand in market gradually, it well cannot detect silk-screen cover-plate glass edge silk-screen quality and transparent cover plate glass appearance and size.
For the problems referred to above, be necessary to provide further solution.
Utility model content
The purpose of this utility model is the radiographic measurement equipment providing a kind of rim(ming) light lighting module and rim(ming) light illumination.
For realizing above-mentioned utility model object, a kind of rim(ming) light lighting module of the present utility model, it comprises: diffused illumination unit and lens illumination unit;
Described lens illumination unit is positioned at below described diffused illumination unit, described lens illumination unit comprises LED, lens, described lens are positioned at the top of LED, described LED and described lens combination form a branch of less parallel light, described diffused illumination unit is positioned on described less parallel light, receive the light that described LED sends, described diffused illumination unit comprises optical diffusing plate.
As the improvement of rim(ming) light lighting module of the present utility model, described lens comprise lens one and lens two, and described set of lenses two is positioned at the below of described lens one.
For realizing above-mentioned utility model object, the radiographic measurement equipment that the utility model also provides a kind of rim(ming) light to throw light on, it comprises: measurement module, control module, optical imagery module, lighting module, driver module and measuring table;
Described measurement module is for the formation of human-computer interaction interface;
Described control module comprises graphics processing unit and driving control unit, for the treatment of the data of described optical imagery CMOS macro cell, and the carrying out of control survey process;
Described optical imagery module is positioned at above described measuring table, and it for carrying out imaging to workpiece for measurement, image data generating, and carries out data transmission with described control module;
Described lighting module comprises diffused illumination unit and lens illumination unit, for providing illumination to workpiece for measurement;
Described driver module comprises XY driver module and Z driver module, described XY drive module setting is below described measuring table, and drive described measuring table in X direction or Y-direction move, described Z driver module is connected with described optical imagery module, and drive it to move along Z-direction, the plane at the vertical X of described Z-direction, Y-direction place;
Described measuring table is for the formation of the loading end of workpiece to be measured.
As the improvement of the radiographic measurement equipment that rim(ming) light of the present utility model throws light on, described measurement module comprises display, and described display forms described human-computer interaction interface.
As the improvement of the radiographic measurement equipment that rim(ming) light of the present utility model throws light on, described graphics processing unit is for controlling the imaging of described optical imagery module, described graphics processing unit has data-interface, described data-interface receives the view data of described optical imagery CMOS macro cell, described graphics processing unit processes the view data received, and obtains the mass parameter of workpiece to be measured.
As the improvement of the radiographic measurement equipment that rim(ming) light of the present utility model throws light on, described driving control unit and described XY driver module and Z driver module are electrically connected, and control described XY driver module and Z driver module.
As the improvement of the radiographic measurement equipment that rim(ming) light of the present utility model throws light on, described optical imagery module is CCD image-forming module.
As the improvement of the radiographic measurement equipment that rim(ming) light of the present utility model throws light on, described diffused illumination unit is positioned at below described measuring table, and be fixed with described measuring table and be connected, described lens illumination unit is positioned at below described diffused illumination unit, described lens illumination unit comprises LED, described LED forms parallel telecentric beam path, described diffused illumination unit is positioned on described parallel telecentric beam path, receive the light that described LED sends, described diffused illumination unit comprises optical diffusing plate, described optical diffusing plate is between described lens illumination unit and measuring table.
As the improvement of the radiographic measurement equipment that rim(ming) light of the present utility model throws light on, described XY driver module and Z driver module comprise respective servomotor.
As the improvement of the radiographic measurement equipment that rim(ming) light of the present utility model throws light on, described measuring table be transparent surface for carrying the loading end of workpiece to be measured.
Compared with prior art, the beneficial effects of the utility model are: by throwing light in conjunction with the illumination of diffusion type rim(ming) light and collimation formula rim(ming) light, can detect accurately the quality of cover-plate glass, be conducive to improving the dispatch from the factory quality of product and the detection efficiency of product, achieve good economic benefit.
Accompanying drawing explanation
Fig. 1 is the floor map of a detailed description of the invention of rim(ming) light lighting module of the present utility model;
Fig. 2 is a detailed description of the invention schematic perspective view of the radiographic measurement equipment of rim(ming) light of the present utility model illumination;
Fig. 3 is the module diagram of the radiographic measurement equipment of rim(ming) light illumination in Fig. 1.
Detailed description of the invention
By reference to the accompanying drawings the utility model is described in further detail now.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present utility model are described in a schematic way, and therefore it only shows the formation relevant with the utility model.
Change as shown in Figure 1 and amendment.The technical scope of this utility model is not limited to the content on description, must determine its technical scope according to right.
As shown in Figure 1, rim(ming) light lighting module 200 of the present utility model comprises: diffused illumination unit and lens illumination unit.Wherein, described lens illumination unit is positioned at below described diffused illumination unit, described lens illumination unit comprises LED 201, lens, described lens are between LED 201, described LED and described lens combination form a branch of less parallel light, described diffused illumination unit is positioned on described less parallel light, receives the light that described LED sends, and described diffused illumination unit comprises optical diffusing plate.Wherein, described lens comprise lens 1 and lens 2 203, and described lens 2 203 are positioned at the below of described lens 1.
Based on above-mentioned rim(ming) light lighting module, the radiographic measurement equipment that the utility model also provides a kind of rim(ming) light to throw light on.Concrete technical scheme is as follows:
As shown in Figure 2,3, the radiographic measurement equipment 100 of rim(ming) light illumination of the present utility model comprises: measurement module 10, control module 20, optical imagery module 30, lighting module 40, driver module 50 and measuring table 60.
Described measurement module 10 for the formation of human-computer interaction interface, by this human-computer interaction interface, operating personnel's Observable workpiece for measurement, inputoutput data, control survey process and measurement data is analyzed.Particularly, described measurement module 10 comprises display, and described display forms described human-computer interaction interface.
Described control module 20 is for the treatment of the data of described optical imagery CMOS macro cell, and the carrying out of control survey process.Particularly, control module 20 comprises graphics processing unit 21 and driving control unit 22, wherein, described graphics processing unit for controlling the imaging of described optical imagery module, such as, to the control of imaging number of times and the adjustment control etc. of contrast.Described graphics processing unit has data-interface, and described data-interface receives the view data of described optical imagery CMOS macro cell, and described graphics processing unit processes the view data received, and obtains the mass parameter of workpiece to be measured.Described driving control unit and described XY driver module and Z driver module are electrically connected, and control described XY driver module and Z driver module.Thus, make XY driver module drive workpiece to be measured to move along specific path, so that the carrying out of image checking.In present embodiment, graphics processing unit can be image pick-up card.
Described optical imagery module 30 is positioned at above described measuring table 60, and it is for carrying out imaging to workpiece for measurement, image data generating, and carries out data transmission with described control module 20.Preferably, described optical imagery module can be CCD image-forming module.
Described lighting module 40 comprises diffused illumination unit 41 and lens illumination unit 42, for providing illumination to workpiece for measurement.By the combination of this diffused illumination unit 41 and lens illumination unit 42, can realize well detecting silk-screen cover-plate glass edge silk-screen quality and transparent cover plate glass appearance and size.
Particularly, described diffused illumination unit 41 is positioned at below described measuring table 60, and is fixed with described measuring table 60 and is connected, and described lens illumination unit 42 is positioned at below described diffused illumination unit 41.Described lens illumination unit 42 comprises LED, lens, described LED and described lens forming less parallel light, described diffused illumination unit is positioned on described less parallel light, and receive the light that described LED sends, described diffused illumination unit 41 also comprises optical diffusing plate, and described optical diffusing plate is between described lens illumination unit 42 and described measuring table 60.
Thus, by this optical diffusing plate, diffused illumination unit can be dispersed the less parallel light that described lens illumination unit 42 sends, form the diverging light of wide-angle, obtain clearly workpiece image data message to be measured with auxiliary optical image-forming module, reach the object that the quality treating measuring workpieces carries out accurately detecting.
Described driver module 50 comprises XY driver module 51 and Z driver module 52.Wherein, described XY driver module 51 is arranged at below described measuring table 60, and drive described measuring table 60 in X direction or Y-direction move, described Z driver module 52 is connected with described optical imagery module 30, and drive it to move along Z-direction, the plane at the vertical X of described Z-direction, Y-direction place.During measurement, first XY driver module 51 drives measuring table 60 according to specified path motion ad-hoc location, and then, Z driver module 52 regulates the height between optical imagery module 30 and measuring table 60, after meeting image-forming condition, start to treat measuring workpieces and carry out imaging.In order to realize the driving to measuring table and optical imagery module, described XY driver module 51 and Z driver module 52 comprise respective servomotor.
Described measuring table 60 is for the formation of the loading end of workpiece to be measured.In order to the light enabling lighting module 40 send arrives workpiece to be measured, described measuring table 60 be designed to transparent surface for the loading end carrying workpiece to be measured.
The measuring process of the radiographic measurement equipment of rim(ming) light illumination of the present utility model carries out carrying out in the following manner:
First, a workpiece to be measured is placed on described measuring table, and guarantees that this workpiece to be measured is in its image display area.Lighting module provides illumination for workpiece to be measured, and guarantees the imaging clearly of the image of this workpiece to be measured in image picture.
Pass through driver module again, optical imagery module and measuring table are moved by predefined paths, when moving to the assigned address in predefined paths, the image of this position workpiece to be measured is obtained by the camera lens of optical imagery module, and be sent in lens video district by the image of this workpiece to be measured, and guarantee the imaging clearly of the image of this workpiece to be measured in image frame.
This workpiece image information transmission to be measured of getting is given described graphics processing unit by optical imagery module, after graphics processing unit receives the image information of this workpiece to be measured, first carries out picture quality judgement to the image information of this workpiece to be measured.According to judged result, contrast is carried out to the image information of this workpiece to be measured and automatically adjusts, to obtain preferably this workpiece image information to be measured, then calculate the mass parameter of this workpiece to be measured based on this workpiece image information to be measured.
After graphics processing unit obtains the parameter of this workpiece to be measured, undertaken showing and exporting by described measurement module, so far complete whole measuring process.
In sum, the utility model is by throwing light in conjunction with the illumination of diffusion type rim(ming) light and collimation formula rim(ming) light, can detect accurately the quality of cover-plate glass, be conducive to improving the dispatch from the factory quality of product and the detection efficiency of product, achieve good economic benefit.
To those skilled in the art, obvious the utility model is not limited to the details of above-mentioned one exemplary embodiment, and when not deviating from spirit of the present utility model or essential characteristic, can realize the utility model in other specific forms.Therefore, no matter from which point, all should embodiment be regarded as exemplary, and be nonrestrictive, scope of the present utility model is limited by claims instead of above-mentioned explanation, and all changes be therefore intended in the implication of the equivalency by dropping on claim and scope are included in the utility model.Any Reference numeral in claim should be considered as the claim involved by limiting.
In addition, be to be understood that, although this description is described according to embodiment, but not each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should by description integrally, and the technical scheme in each embodiment also through appropriately combined, can form other embodiments that it will be appreciated by those skilled in the art that.
Claims (10)
1. a rim(ming) light lighting module, is characterized in that, described rim(ming) light lighting module comprises: diffused illumination unit and lens illumination unit;
Described lens illumination unit is positioned at below described diffused illumination unit, described lens illumination unit comprises LED, lens, described lens are positioned at the top of LED, described LED and described lens combination form a branch of less parallel light, described diffused illumination unit is positioned at described less parallel light, receive the light that described LED sends, described diffused illumination unit comprises optical diffusing plate.
2. rim(ming) light lighting module according to claim 1, is characterized in that, described lens comprise lens one and lens two, and described lens two are positioned at the below of described lens one.
3. the radiographic measurement equipment of a rim(ming) light illumination, it is characterized in that, the radiographic measurement equipment of described rim(ming) light illumination comprises: measurement module, control module, optical imagery module, rim(ming) light lighting module, driver module and measuring table as claimed in claim 1 or 2;
Described measurement module is for the formation of human-computer interaction interface;
Described control module comprises graphics processing unit and driving control unit, for the treatment of the data of described optical imagery CMOS macro cell, and the carrying out of control survey process;
Described optical imagery module is positioned at above described measuring table, and it for carrying out imaging to workpiece for measurement, image data generating, and carries out data transmission with described control module;
Described lighting module comprises diffused illumination unit and lens illumination unit, for providing illumination to workpiece for measurement;
Described driver module comprises XY driver module and Z driver module, described XY drive module setting is below described measuring table, and drive described measuring table in X direction or Y-direction move, described Z driver module is connected with described optical imagery module, and drive it to move along Z-direction, the plane at the vertical X of described Z-direction, Y-direction place;
Described measuring table is for the formation of the loading end of workpiece to be measured.
4. the radiographic measurement equipment of rim(ming) light illumination according to claim 3, it is characterized in that, described measurement module comprises display, and described display forms described human-computer interaction interface.
5. the radiographic measurement equipment of rim(ming) light illumination according to claim 3, it is characterized in that, described graphics processing unit is for controlling the imaging of described optical imagery module, described graphics processing unit has data-interface, described data-interface receives the view data of described optical imagery CMOS macro cell, described graphics processing unit processes the view data received, and obtains the mass parameter of workpiece to be measured.
6. the radiographic measurement equipment of rim(ming) light according to claim 3 illumination, is characterized in that, described driving control unit and described XY driver module and Z driver module are electrically connected, and control described XY driver module and Z driver module.
7. the radiographic measurement equipment of rim(ming) light illumination according to claim 3, it is characterized in that, described optical imagery module is CCD image-forming module.
8. the radiographic measurement equipment of rim(ming) light illumination according to claim 3, it is characterized in that, described diffused illumination unit is positioned at below described measuring table, and be fixed with described measuring table and be connected, described lens illumination unit is positioned at below described diffused illumination unit, described lens illumination unit comprises LED, lens, described LED and a branch of less parallel light of described lens forming, described diffused illumination unit is positioned on described less parallel light, receive the light that described LED sends, described diffused illumination unit comprises optical diffusing plate, described optical diffusing plate is between described lens illumination unit and measuring table.
9. the radiographic measurement equipment of rim(ming) light illumination according to claim 3, it is characterized in that, described XY driver module and Z driver module comprise respective servomotor.
10. the radiographic measurement equipment of rim(ming) light according to claim 3 illumination, is characterized in that, described measuring table be transparent surface for carrying the loading end of workpiece to be measured.
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CN111157529A (en) * | 2020-04-04 | 2020-05-15 | 博奥生物集团有限公司 | Image acquisition method and device, automatic alignment method and device, and nucleic acid detector |
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CN104655024A (en) * | 2015-02-11 | 2015-05-27 | 苏州天准科技股份有限公司 | Image measurement equipment as well as quick and accurate height measurement device and method of image measurement equipment |
US10066986B2 (en) * | 2016-08-31 | 2018-09-04 | GM Global Technology Operations LLC | Light emitting sensor having a plurality of secondary lenses of a moveable control structure for controlling the passage of light between a plurality of light emitters and a primary lens |
CN108240995A (en) * | 2016-12-27 | 2018-07-03 | 张家港康得新光电材料有限公司 | Detecting system, detection method and the device of diaphragm |
CN109682329B (en) * | 2019-02-27 | 2020-12-22 | Oppo广东移动通信有限公司 | Cover plate flatness detection method and device, detection equipment and storage medium |
CN112683323B (en) * | 2020-12-27 | 2024-01-12 | 富联裕展科技(深圳)有限公司 | Detection device, control system and control method |
CN114772278B (en) * | 2022-04-12 | 2023-05-23 | 苏州天准科技股份有限公司 | Plate exposure equipment |
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CN100565096C (en) * | 2007-06-06 | 2009-12-02 | 徐一华 | A kind of full-automatic image measurer |
CN201284986Y (en) * | 2008-10-22 | 2009-08-05 | 黄国进 | LED module group with light-collection structure, and lamp employing the same |
CN103438801A (en) * | 2013-09-16 | 2013-12-11 | 苏州天准精密技术有限公司 | Mobile platform type image measuring equipment and method |
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CN111157529A (en) * | 2020-04-04 | 2020-05-15 | 博奥生物集团有限公司 | Image acquisition method and device, automatic alignment method and device, and nucleic acid detector |
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