CN206593607U - Automated optical white light scanning instrument - Google Patents
Automated optical white light scanning instrument Download PDFInfo
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- CN206593607U CN206593607U CN201720039389.XU CN201720039389U CN206593607U CN 206593607 U CN206593607 U CN 206593607U CN 201720039389 U CN201720039389 U CN 201720039389U CN 206593607 U CN206593607 U CN 206593607U
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Abstract
Automated optical white light scanning instrument, including base, portal frame, X-axis high accuracy grating scale, encircling type camera lens module fixing base, big visual field high definition camera lens module, high definition linear CCD module, first high-brightness LED module, second high-brightness LED module, back light source, Y-axis motion, workbench, Y-axis high accuracy grating scale and high-precision optical glass table, test piece is placed on high-precision optical glass table, high-precision optical glass table is moved along Y direction, it is scanned while mobile through White LED light source and capture, X-axis high accuracy grating scale and the high-precision grating scale of Y-axis provide high precision position information and synchronously trigger CCD to obtain complete and continuous high-definition image simultaneously, it is then transferred to computer, the profile and surface configuration size of test piece are measured by the calculating of the program of the measured software of computer, angle and positional information, efficiency is approximately equal to 6 to 10 times of existing metering system.
Description
Technical field
The utility model relates to automatic optics inspection technical field, more particularly to automated optical white light scanning instrument.
Background technology
Image measurer also known as Quadratic Finite Element heed contacted measure instrument, accurate image-type surveying instrument, it overcomes conventional projection
The deficiency of instrument, is to integrate light, mechanical, electrical, computer image technology novel high-precision, high-tech measuring instrument.By optics
Microscope measuring targets carry out high magnification optical amplifier imaging, send into the object image after amplification by CCD camera systems
After computer, profile and surface configuration size, angle and the position of various complex parts can be efficiently detected, particularly precision zero
The microcosmic detection of part and quality control.Measurement data can be directly inputted in AUTOCAD, as complete engineering drawing, figure
Shape can generate DXF documents, could be input in WORD, EXCEL, carry out statistical analysis, can mark simple Xbar-S control
Figure, obtains Ca, etc. various parameters.
However, there is following defect in above-mentioned traditional image measurer:
1st, measurement efficiency is low, than the parameter of some part if desired for measurement workpiece, just has to be moved to corresponding site
Capture, finally collects the information such as last measurement parameter, including the profile of workpiece and surface configuration size, angle and position;
Operating personnel are required high by the 2nd, troublesome poeration, its can only local capture, operating personnel need very skillfully could be accurate
Ground is being moved to the corresponding measurement position of workpiece, to obtain accurate metrical information, and moving operation needs rich experience, and
Take considerable time.
Utility model content
Based on this, it is necessary to provide a kind of measurement efficiency automated optical white light scanning instrument high and easy to operate.
Automated optical white light scanning instrument, including:Base;
Portal frame, the portal frame is arranged on the base, and the portal frame includes the first X-axis portal frame, the second X-axis
Portal frame and crossbeam, the top surface of the crossbeam is provided with the first high-precision X-axis line slideway, the first high-precision X-axis line slideway
The first X-axis slide block is provided with, first X-axis slide block is provided with sliding panel, and the lateral surface of the crossbeam is provided with X-axis driving machine
Structure, the sliding block is driven by the X-axis drive mechanism, and installing plate, the installing plate are installed with the medial surface of the sliding panel
Lateral surface be provided with Z axis line slideway, the Z axis line slideway be provided with Z axis sliding block, the Z axis sliding block is by Z axis driving machine
Structure drives, and the cross rail inner face is provided with the high-precision grating scale of X-axis;
Encircling type camera lens module fixing base, the encircling type camera lens module fixing base is fixed on the Z axis sliding block, described
It is provided with above big visual field high definition camera lens module, the big visual field high definition camera lens module and is provided with encircling type camera lens module fixing base
High definition linear CCD module, the both sides of the encircling type camera lens module fixing base are installed with the first installing plate and the second installing plate,
First installing plate is provided with the first high-brightness LED module, and second installing plate is provided with the second high-brightness LED module;
The top surface of the base is described provided with the first high-precision Y-axis line slideway and the high-precision line slideway of the second Y-axis
First high-precision Y-axis line slideway and the second high-precision Y-axis line slideway be arranged in parallel and positioned at described first X-axis gantry
Between frame and the second X-axis portal frame, the described first high-precision Y-axis line slideway and the second high-precision Y-axis straight line are led
Rail is provided with workbench, and the workbench is driven by Y-axis drive mechanism, and high-precision optical glazier is installed with the workbench
Make platform, the lower section of the high-precision optical glass table is provided with back light source, the outside of the described second high-precision Y-axis line slideway
Provided with the high-precision grating scale of Y-axis.
In one of the embodiments, the X-axis drive mechanism includes X-axis motor and X-axis screw mandrel, the X-axis driving machine
Structure is arranged between the first mounting blocks and the second mounting blocks, and first mounting blocks and second mounting blocks are located at the crossbeam
Lateral surface on;The X-axis screw mandrel is provided with the first X-axis slide block, and first X-axis slide block is fixedly arranged on the bottom surface of the sliding panel
On, the two ends of the described first high-precision X-axis line slideway are installed with X-axis buffer.
In one of the embodiments, the medial surface of the crossbeam is provided with the second high-precision X-axis line slideway, and described the
Two high-precision X-axis line slideways are provided with the second X-axis slide block, and the bottom of the installing plate is fixed in second X-axis slide block,
The width of described first high-precision X-axis line slideway is more than the width of the described second high-precision X-axis line slideway, the first X
It is installed with axle portal frame on the first support frame, the second X-axis portal frame and is installed with the second support frame, first support
Cabling drag chain is installed between frame and second support frame.
In one of the embodiments, the Z axis drive mechanism driving includes Z axis motor and Z axis screw mandrel, and the Z axis drives
Motivation structure is arranged between the 3rd mounting blocks and the 4th mounting blocks, and the 3rd mounting blocks and the 4th mounting blocks are located at described
The two ends of Z axis line slideway.
In one of the embodiments, the bottom surface of first installing plate is provided with light source mounting seat, described second on first
The two sides that the bottom surface of installing plate is provided with light source mounting seat on light source mounting seat on second, described first are logical provided with the first regulation
Groove, the two sides of light source mounting seat are provided with the second regulation groove, the installation portion of the first high-brightness LED module on described second
Provided with the first fixing hole, installation portion of second installing plate provided with the second high-brightness LED module is provided with the second fixing hole, the
One fixture sequentially passes through the first regulation groove and the first high-brightness LED module is fixed on by first fixing hole
On described first in light source mounting seat, the second fixture sequentially passes through the second regulation groove and second fixing hole by institute
The second high-brightness LED module is stated to be fixed on described second in light source mounting seat.
In one of the embodiments, the two sides of light source mounting seat are additionally provided with the first regulation through hole, institute on described first
The two sides for stating light source mounting seat on second are additionally provided with the second regulation through hole, the installation portion of the first high-brightness LED module
Two sides are additionally provided with the 3rd fixing hole, and the two sides of the installation portion of the second high-brightness LED module are provided with the 4th fixing hole, the
Three fixtures sequentially pass through the first regulation through hole and the first high-brightness LED module is fixed on by the 3rd fixing hole
On described first in light source mounting seat, the 4th fixture sequentially passes through the second regulation through hole and the 4th fixing hole by institute
The second high-brightness LED module is stated to be fixed on described second in light source mounting seat.
In one of the embodiments, the width of the described first high-precision Y-axis line slideway is more than the described second high accuracy Y
The width of axle line slideway, the Y-axis drive mechanism is on the outside of the described first high-precision Y-axis line slideway, the Y-axis driving
Mechanism includes Y-axis screw mandrel and y-axis motor, and the Y-axis screw mandrel is provided with Y-axis sliding shoe, and the Y-axis sliding shoe is arranged on described
Workbench side.
In one of the embodiments, the workbench two ends are provided with dust cover, first high accuracy along X-direction
The end of Y-axis line slideway and the second high-precision Y-axis line slideway is provided with limited block.
In one of the embodiments, the base, the portal frame and the workbench all make for marble material
Form.
In one of the embodiments, in addition to casing, mounting bracket is provided with the casing, the workbench is fixedly mounted
On the mounting bracket, display and control button are additionally provided with the casing, the bottom surface of the casing is provided with movable pulley and ground
Pin.
Compared with prior art, a kind of automated optical white light scanning instrument of the present utility model has the advantages that:
1st, the first high-brightness LED module and the second high-brightness LED module provide white light source required during scanning, high brightness
LED/light source projection on a test piece, test piece receive LED/light source after, scatter clearly contour surface information, via
Resulting information is projected on high definition linear CCD module by big visual field high definition camera lens module, along the direction of scanning by CCD
The picture of acquirement is combined into a high-resolution accurate image, and test piece is placed on high-precision optical glass table, high
Resolution optical glass table is moved along Y direction, is scanned and is taken through White LED light source while mobile
Picture, X-axis high accuracy grating scale and the high-precision grating scale of Y-axis provide high precision position information and synchronously trigger CCD to obtain simultaneously
Complete and continuous high-definition image, is then transferred to computer, test is measured by the calculating of the program of the measured software of computer
The profile and surface configuration size, angle and positional information of workpiece, its core are the process directly first quick capture in detection,
Then the measurement of workpiece is carried out again, the speed of measurement is greatly accelerated, and eliminates traverse measurement in traditional local capture time-consuming
Measurement process, efficiency is approximately equal to 6 to 10 times of existing metering system;
2nd, using widely, measurement workpiece can be the various products such as cover-plate glass, handware, plastic parts, including rule
Then measure workpiece or irregularly measure workpiece, can be carried out quick measurement.
Brief description of the drawings
Fig. 1 is the structural representation of automated optical white light scanning instrument of the present utility model;
Fig. 2 is the rearview of automated optical white light scanning instrument of the present utility model;
Fig. 3 is the side view of automated optical white light scanning instrument of the present utility model.
Fig. 4 is another side view of automated optical white light scanning instrument of the present utility model.
Fig. 5 is the overall package figure of automated optical white light scanning instrument of the present utility model.
Fig. 6 is that automated optical white light scanning instrument of the present utility model is used for the test design sketch of testing cover plate glass.
Fig. 7 is that automated optical white light scanning instrument of the present utility model is soft for the test design sketch importing of testing cover plate glass
Operation chart after part.
Embodiment
For the ease of understanding the utility model, the utility model is more fully retouched below with reference to relevant drawings
State.Better embodiment of the present utility model is given in accompanying drawing.But, the utility model can come in many different forms
Realize, however it is not limited to embodiments described herein.On the contrary, the purpose for providing these embodiments is to make to this practicality newly
It is more thorough comprehensive that the disclosure of type understands.
It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element
Or can also have element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to
To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " level ", " left side ",
For illustrative purposes only, it is unique embodiment to be not offered as " right side " and similar statement.
Unless otherwise defined, all of technologies and scientific terms used here by the article is led with belonging to technology of the present utility model
The implication that the technical staff in domain is generally understood that is identical.It is herein to be in term used in the description of the present utility model
The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term as used herein " and/or " bag
Include the arbitrary and all combination of one or more related Listed Items.
Refer to Fig. 1-7, automated optical white light scanning instrument, including:Base 1;Portal frame 2, the portal frame 2 is arranged on institute
State on base 1, the portal frame 2 includes the first X-axis portal frame 21, the second X-axis portal frame 22 and crossbeam 23, the crossbeam 23
Top surface is provided with the first X-axis slide block 4, institute provided with the first high-precision X-axis line slideway 3, the first high-precision X-axis line slideway 3
The first X-axis slide block 4 is stated provided with sliding panel 5, the lateral surface of the crossbeam 23 is provided with X-axis drive mechanism 6, and first X-axis is slided
Block 4 is driven by the X-axis drive mechanism 6, is installed with the medial surface of the sliding panel 5 outside installing plate 7, the installing plate 7
Side is provided with Z axis line slideway 8, and the Z axis line slideway 8 is provided with Z axis sliding block 9, and the Z axis sliding block 9 is by Z axis driving machine
Structure 10 drives, and the medial surface of crossbeam 23 is provided with the high-precision grating scale 11 of X axles;Encircling type camera lens module fixing base 12, it is described
Encircling type camera lens module fixing base 12 is fixed on the Z axis sliding block 9, is installed on the encircling type camera lens module fixing base 12
There is big visual field high definition camera lens module 13, the big top of visual field high definition camera lens module 13 is provided with high definition linear CCD module 14, institute
The both sides for stating encircling type camera lens module fixing base 12 are installed with the first installing plate 15 and the second installing plate 16, first installing plate
15 are provided with the first high-brightness LED module 17, and second installing plate 16 is provided with the second high-brightness LED module 18;The bottom
The top surface of seat 1 is provided with the first high-precision Y-axis line slideway 19 and the high-precision line slideway 20 of the second Y-axis, and described first is high-precision
Degree Y-axis line slideway 19 and the second high-precision Y-axis line slideway 20 be arranged in parallel and positioned at the first X-axis portal frame 21
Between the second X-axis portal frame 22, the described first high-precision Y-axis line slideway 19 and the second high-precision Y-axis straight line
Guide rail 20 is provided with workbench 24, and the workbench 24 is driven by Y-axis drive mechanism 25, is installed with the workbench 24 high-precision
Optical glass workbench 26 is spent, the lower section of the high-precision optical glass table 26 is provided with back light source, second high accuracy
The outside of Y-axis line slideway 20 is provided with the high-precision grating scale 27 of Y-axis.
The detection method of the automated optical white light scanning instrument is as follows:Test piece is placed in high-precision optical glass table 26
On, high-precision optical glass table 26 is moved along Y direction, the first high-brightness LED module 17 and the second high brightness
LED modules 18 provide white light source required during scanning, and on a test piece, test piece connects for the LED/light source projection of high brightness
Receive after LED/light source, clearly contour surface information movement is scattered, via big visual field high definition camera lens module 13 by resulting money
News are projected on high definition linear CCD module 14, and the CCD pictures obtained are combined into a high-resolution along the direction of scanning
The accurate image of rate, is scanned and capture through White LED light source, X-axis high accuracy grating scale 11 and the high-precision grating scale of Y-axis
127 offer high precision position information and synchronously triggering CCD are then transferred to computer to obtain complete and continuous high-definition image,
Profile and surface configuration size, angle and the position letter of test piece are measured by the calculating of the program of the measured software of computer
Breath, its core is the process directly first quick capture in detection, and the measurement of workpiece is then carried out again, measurement is greatly accelerated
Speed, eliminates the time-consuming measurement process of traverse measurement in traditional local capture, and what efficiency was approximately equal to existing metering system 6 arrives
10 times;
In order to improve accuracy of detection, the X-axis drive mechanism 6 includes X-axis motor 61 and X-axis screw mandrel 62, the X-axis driving
Mechanism 6 is arranged between the first mounting blocks 28 and the second mounting blocks 29, first mounting blocks 28 and second mounting blocks 29
On the lateral surface of the crossbeam 23;The X-axis screw mandrel 62 is provided with the first X-axis slide block 63, first X-axis slide block 63
On the bottom surface for being fixedly arranged on the sliding panel 5, the two ends of the described first high-precision X-axis line slideway 3 are installed with X-axis buffer 30,
Drive encircling type camera lens module fixing base 12 to be moved along X-direction by X-axis drive mechanism 6, during measurement, can easily by
Encircling type camera lens module fixing base 12 is moved to the surface of measurement workpiece, improves measurement accuracy, secondly, X axles buffer 30 can
To play cushioning effect, in this way, the motion on the first high-precision X-axis line slideway 3 can be protected to send fierce collision, carry
High security and stability, and then further improve accuracy of detection.
In order to improve encircling type camera lens module fixing base 12 along X-direction move when stability, the crossbeam 23
Medial surface is provided with the 2nd X provided with the second high-precision X-axis line slideway 231, the described second high-precision X-axis line slideway 231
Axle sliding block 232, the bottom of the installing plate 7 is fixed in second X-axis slide block 232, and the described first high-precision X-axis straight line is led
The width of rail 3, which is more than on the width of the described second high-precision X-axis line slideway 231, the first X-axis portal frame 21, is installed with the
It is installed with the second support frame 221 on one support frame 211, the second X-axis portal frame 22, first support frame 211 and described
Cabling drag chain 223 is installed between second support frame 221, due to slidably supporting machine based on the first high-precision X-axis line slideway 3
Structure, stress is big, therefore, can disperse stress using broad gauge, stability is good;Second high accuracy X axles line slideway 231 is auxiliary
Supporting mechanism, stress is smaller, therefore, in order to save space and cost, can use narrow gauge;Secondly, the cabling drag chain 223 is X
Axle and Z axis share cabling drag chain, in this way, having saved space, simplify structure.
In one of the embodiments, the Z axis drive mechanism 10 includes Z axis motor 101 and Z axis screw mandrel 102, the Z
Axle drive mechanism 10 is arranged between the 3rd mounting blocks 103 and the 4th mounting blocks 104, the 3rd mounting blocks 103 and described the
Four mounting blocks 104 are located at the two ends of the Z axis line slideway 8.
In order to realize the angular adjustment of the first high-brightness LED module 17 and the second high-brightness LED module 18, first peace
The bottom surface for filling plate 15 is provided with light source mounting seat 31 on first, and the bottom surface of second installing plate 16 is provided with light source mounting seat on second
32, the two sides of light source mounting seat 31 are provided with the first regulation groove 311 on described first, light source mounting seat 32 on described second
Two sides are provided with the second regulation groove 321, and the installation portion of the first high-brightness LED module 17 is provided with the first fixing hole, described
Installation portion of second installing plate provided with the second high-brightness LED module 18 is provided with the second fixing hole, and the first fixture is sequentially passed through
The first high-brightness LED module 17 is fixed on described first by the first regulation groove 311 and first fixing hole
In light source mounting seat 31, the second fixture sequentially passes through the second regulation groove 321 and second fixing hole by described the
Two high-brightness LED modules 18 are fixed on described second in light source mounting seat 32, along the first regulation groove 311 and the during regulation
Two regulation grooves 321 turn to required angle, are then fixed, are realized with this polygonal by the first fixture and the second fixture
Degree regulation, can be irradiated to regularly or irregularly workpiece, obtain workpiece clearly contour shape, higher to obtain
Measurement accuracy, expands measurement range, and adaptability is stronger.
In order to further fix light source on the first high-brightness LED module 17 and the second high-brightness LED module 18, described first
The two sides that the two sides of mounting seat 31 are additionally provided with light source mounting seat 32 on the first regulation through hole 312, described second are additionally provided with
Two regulation through holes 322, the two sides of the installation portion of the first high-brightness LED module 17 are additionally provided with the 3rd fixing hole, and described the
The two sides of the installation portion of two high-brightness LED modules 18 are provided with the 4th fixing hole, and the 3rd fixture sequentially passes through described first and adjusted
The first high-brightness LED module 17 is fixed on light source mounting seat on described first by section through hole 312 and the 3rd fixing hole
On 31, the 4th fixture sequentially passes through the second regulation through hole 322 and the 4th fixing hole by second high brightness
LED modules 18 are fixed on described second in light source mounting seat 32.Carried out by the 3rd fixture and the 4th fixture further
Fixation, to improve the stability of the first high-brightness LED module 17 and the second high-brightness LED module 18, in this way, can obtain
More stablize relatively sharp measurement effect.
It can be run simultaneously for a long time to improve workbench 24, referring to Fig. 4, the first high accuracy Y axle straight lines are led
The width of rail 19 is more than the width of the described second high-precision Y-axis line slideway 20, and the Y-axis drive mechanism 25 is located at described first
On the outside of high-precision Y-axis line slideway, the Y-axis drive mechanism 25 includes Y-axis screw mandrel 251 and y-axis motor 252, the Y-axis screw mandrel
251 are provided with Y-axis sliding shoe 253, and the Y-axis sliding shoe 253 is arranged on the side of workbench 24.So that stress it is larger
The stress of one high accuracy Y axles line slideway 19 is disperseed, and deformation is less likely to occur the first high-precision Y-axis line slideway 19, so as to
To keep the first high-precision Y-axis line slideway 19 synchronous with the motion of the second high-precision Y-axis line slideway 20 for a long time, so that
Improve accuracy of detection.
In order to carry out proofing dust and protecting to workbench 24, accompanying drawing 1 is referred to, the two ends of workbench 24 are set along X direction of principal axis
There is a dust cover 33, the end of the described first high-precision Y-axis line slideway 19 and the second high accuracy Y axles line slideway 20 is set
Limited location block 34, in this way, dust cover 33 plays dustproof effect, limited block 34 plays position-limiting action, prevents workbench 24 from skidding off
One high-precision Y-axis line slideway 19 and the second high-precision Y-axis line slideway 20, improve security.
In order to improve the stability of scanner, the base 1, the portal frame 2 and the workbench 24 are all marble
Material is made, due to marble will be excellent vibration-absorbing function, and corrosion-resistant, good appearance.
In order to improve the good appearance degree of scanner, referring to Fig. 5, also including in casing 35, the casing 35 provided with peace
36 are shelved, the workbench 24 is fixedly mounted on the mounting bracket 36, display 351 and control are additionally provided with the casing 35
Button 354, the bottom surface of the casing 35 is provided with movable pulley 352 and lower margin 353, in this way, shell 35 can improve outer U.S. of product
Sight degree, and water proof and dust proof can be played a part of, secondly, movable pulley 352 and lower margin 353 each serve as and are easy to mobile and support
Effect, pass through display 351.
Automated optical white light scanning instrument of the present utility model also including the various embodiments described above being mutually combined to be formed from
Dynamic optics white light scanning instrument.
Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality
Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited
In contradiction, the scope of this specification record is all considered to be.
Embodiment described above only expresses several embodiments of the present utility model, and it describes more specific and detailed
Carefully, but can not therefore and be interpreted as the limitation to the utility model the scope of the claims.It should be pointed out that for the general of this area
For logical technical staff, without departing from the concept of the premise utility, various modifications and improvements can be made, these are all
Belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.
Claims (10)
1. automated optical white light scanning instrument, it is characterised in that including:Base;
Portal frame, the portal frame is arranged on the base, and the portal frame includes the first X-axis portal frame, second X-axis gantry
Frame and crossbeam, the top surface of the crossbeam, which is provided with the first high-precision X-axis line slideway, the first high-precision X-axis line slideway, to be set
There is the first X-axis slide block, first X-axis slide block is provided with sliding panel, and the lateral surface of the crossbeam is provided with X-axis drive mechanism, institute
State the first X-axis slide block to be driven by the X-axis drive mechanism, installing plate, the installation are installed with the medial surface of the sliding panel
The lateral surface of plate is provided with Z axis line slideway, and the Z axis line slideway is provided with Z axis sliding block, and the Z axis sliding block is driven by Z axis
Mechanism drives, and the cross rail inner face is provided with the high-precision grating scale of X-axis;
Encircling type camera lens module fixing base, the encircling type camera lens module fixing base is fixed on the Z axis sliding block, described to encircle
It is provided with formula camera lens module fixing base above big visual field high definition camera lens module, the big visual field high definition camera lens module and is provided with high definition
Linear CCD module, the both sides of the encircling type camera lens module fixing base are installed with the first installing plate and the second installing plate, described
First installing plate is provided with the first high-brightness LED module, and second installing plate is provided with the second high-brightness LED module;
The top surface of the base is provided with the first high-precision Y-axis line slideway and the high-precision line slideway of the second Y-axis, described first
High-precision Y-axis line slideway and the second high-precision Y-axis line slideway be arranged in parallel and positioned at the first X-axis portal frame and
Between the second X-axis portal frame, on the described first high-precision Y-axis line slideway and the second high-precision Y-axis line slideway
Provided with workbench, the workbench is driven by Y-axis drive mechanism, and the work of high-precision optical glass is installed with the workbench
Platform, the lower section of the high-precision optical glass table, which is provided with the outside of back light source, the described second high-precision Y-axis line slideway, to be set
There is the high-precision grating scale of Y-axis.
2. automated optical white light scanning instrument according to claim 1, it is characterised in that the X-axis drive mechanism includes X-axis
Motor and X-axis screw mandrel, the X-axis drive mechanism are arranged between the first mounting blocks and the second mounting blocks, first mounting blocks
On the lateral surface for being located at the crossbeam with second mounting blocks;The X-axis screw mandrel is provided with the first X-axis slide block, the first X
Axle sliding block is fixedly arranged on the bottom surface of the sliding panel, and the two ends of the described first high-precision X-axis line slideway are installed with X-axis buffering
Device.
3. automated optical white light scanning instrument according to claim 1, it is characterised in that the medial surface of the crossbeam is provided with
Second high-precision X-axis line slideway, the described second high-precision X-axis line slideway is provided with the second X-axis slide block, the installing plate
Bottom is fixed in second X-axis slide block, and the width of the described first high-precision X-axis line slideway is more than the described second high accuracy
It is installed with the width of X-axis line slideway, the first X-axis portal frame fixed on the first support frame, the second X-axis portal frame
There is the second support frame, cabling drag chain is installed between first support frame and second support frame.
4. automated optical white light scanning instrument according to claim 1, it is characterised in that the Z axis drive mechanism driving bag
Z axis motor and Z axis screw mandrel are included, the Z axis drive mechanism is arranged between the 3rd mounting blocks and the 4th mounting blocks, the 3rd peace
Fill block and the 4th mounting blocks are located at the two ends of the Z axis line slideway.
5. automated optical white light scanning instrument according to claim 1, it is characterised in that the bottom surface of first installing plate is set
There is light source mounting seat on first, the bottom surface of second installing plate is provided with light source peace on light source mounting seat on second, described first
The two sides for filling seat adjust the two sides of light source mounting seat on groove, described second provided with the second regulation groove, institute provided with first
The installation portion for stating the first high-brightness LED module is provided with the first fixing hole, and second installing plate is provided with the second high-brightness LED mould
The installation portion of group is provided with the second fixing hole, and the first fixture sequentially passes through the first regulation groove and first fixing hole will
The first high-brightness LED module is fixed on described first in light source mounting seat, and the second fixture sequentially passes through described second
The second high-brightness LED module is fixed on described second in light source mounting seat by regulation groove and second fixing hole.
6. automated optical white light scanning instrument according to claim 5, it is characterised in that light source mounting seat on described first
The two sides that two sides are additionally provided with light source mounting seat on the first regulation through hole, described second are additionally provided with the second regulation through hole, described
The two sides of the installation portion of first high-brightness LED module are additionally provided with the 3rd fixing hole, the installation of the second high-brightness LED module
The two sides in portion are provided with the 4th fixing hole, and the 3rd fixture sequentially passes through the first regulation through hole and the 3rd fixing hole will
The first high-brightness LED module is fixed on described first in light source mounting seat, and the 4th fixture sequentially passes through described second
The second high-brightness LED module is fixed on described second in light source mounting seat by regulation through hole and the 4th fixing hole.
7. automated optical white light scanning instrument according to claim 1, it is characterised in that the described first high-precision Y-axis straight line
The width of guide rail is more than the width of the described second high-precision Y-axis line slideway, and the Y-axis drive mechanism is high-precision located at described first
Spend on the outside of Y-axis line slideway, the Y-axis drive mechanism includes Y-axis screw mandrel and y-axis motor, the Y-axis screw mandrel is slided provided with Y-axis
Motion block, the Y-axis sliding shoe is arranged on workbench side.
8. the automated optical white light scanning instrument according to claim 1 or 7, it is characterised in that the workbench two ends are along X
Direction of principal axis is provided with dust cover, and the end of the described first high-precision Y-axis line slideway and the second high-precision Y-axis line slideway is set
Limited location block.
9. automated optical white light scanning instrument according to claim 1, it is characterised in that the base, the portal frame and
The workbench is all made for marble material.
10. the automated optical white light scanning instrument according to claim 1 or 9, it is characterised in that also including casing, the machine
Mounting bracket is provided with shell, the workbench is fixedly mounted on the mounting bracket, and display and control are additionally provided with the casing
Button, the bottom surface of the casing is provided with movable pulley and lower margin.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106767516A (en) * | 2017-01-12 | 2017-05-31 | 广东龙天智能仪器股份有限公司 | Automated optical white light scanning instrument |
CN108107612A (en) * | 2017-12-25 | 2018-06-01 | 江苏才道精密仪器有限公司 | A kind of high-accuracy panel measuring instrument of ultra-large type |
CN109141277A (en) * | 2018-07-18 | 2019-01-04 | 中铁工程装备集团有限公司 | A kind of complete-section tunnel boring machine is slagged tap detection device |
WO2022062057A1 (en) * | 2020-09-27 | 2022-03-31 | 苏州康代智能科技股份有限公司 | Motion control device capable of automatically adjusting depth of field and automated optical inspection machine |
-
2017
- 2017-01-12 CN CN201720039389.XU patent/CN206593607U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106767516A (en) * | 2017-01-12 | 2017-05-31 | 广东龙天智能仪器股份有限公司 | Automated optical white light scanning instrument |
CN108107612A (en) * | 2017-12-25 | 2018-06-01 | 江苏才道精密仪器有限公司 | A kind of high-accuracy panel measuring instrument of ultra-large type |
CN109141277A (en) * | 2018-07-18 | 2019-01-04 | 中铁工程装备集团有限公司 | A kind of complete-section tunnel boring machine is slagged tap detection device |
WO2022062057A1 (en) * | 2020-09-27 | 2022-03-31 | 苏州康代智能科技股份有限公司 | Motion control device capable of automatically adjusting depth of field and automated optical inspection machine |
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