CN207691965U - The burnt section all-in-one machine of horizontal burning four - Google Patents
The burnt section all-in-one machine of horizontal burning four Download PDFInfo
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- CN207691965U CN207691965U CN201820129856.2U CN201820129856U CN207691965U CN 207691965 U CN207691965 U CN 207691965U CN 201820129856 U CN201820129856 U CN 201820129856U CN 207691965 U CN207691965 U CN 207691965U
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Abstract
The utility model discloses the burnt section all-in-one machines of horizontal burning four, including rack;Rack is equipped with scenario simulation mechanism, which includes close shot mechanism, distant view mechanism, Bai Chang mechanisms, medium shot mechanism and PDAF functional tests mechanism;Work turning table, the Work turning table can be rotated along the first rotation direction about the z axis;And Work turning table can be rotated along the second rotation direction about the z axis;Close shot mechanism, distant view mechanism, Bai Chang mechanisms, medium shot mechanism and PDAF functional tests mechanism are located in the rotary motion trace of Work turning table;Work turning table is equipped with multiple test stations for placing workpiece, and test station is equipped with the testing cassete for being electrically connected with workpiece;First driving mechanism, the first driving mechanism is for driving Work turning table to be rotated around the first rotation direction and Work turning table being driven to be rotated around the second rotation direction.The utility model can carry out camera module the burning of four burnt sections, while can also carry out PDAF Function detections to camera module.
Description
Technical field
The utility model is related to camera module production equipment technology more particularly to a kind of burnt section one of horizontal burning four
Machine.
Background technology
Currently, with the raising of the level of consumption, requirement of the consumer to camera module is higher and higher, image sharpness point
The requirement of resolution etc. also improves therewith.Since the focusing speed of PDAF phases focusing is relatively fast, and it is efficient to focus, thus existing
Some camera modules more have PDAF functions.And in the production process with PDAF camera modules, generally
Multiple burnt burnings of section and the detection of PDAF functions are needed, could be dispatched from the factory.But the burning of existing camera module
Or the detection of PDAF functions often separates what different machine carried out, causes less efficient, machine cost is higher.
Utility model content
For overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of four burnt section one of horizontal burning
Machine can carry out camera module the burning of four burnt sections, while can also carry out PDAF Function detections to camera module.
The purpose of this utility model is realized using following technical scheme:
The burnt section all-in-one machine of horizontal burning four, including,
Rack;Rack is equipped with scenario simulation mechanism, which includes close shot mechanism, distant view mechanism, Bai Chang
Mechanism, medium shot mechanism and PDAF functional tests mechanism;
The Work turning table being articulated in rack, the Work turning table can be rotated along the first rotation direction about the z axis;And Work turning table
It can be rotated about the z axis along the second rotation direction;Close shot mechanism, distant view mechanism, Bai Chang mechanisms, medium shot mechanism and PDAF functional tests
Mechanism is located at the arrangement of the pivot center circle spacing in the rotary motion trace of Work turning table and around Work turning table;On the Work turning table
Equipped with multiple test stations for placing workpiece, test station is equipped with the testing cassete for being electrically connected with workpiece;
First driving mechanism, first driving mechanism is for driving Work turning table to rotate and drive around the first rotation direction
Work turning table is rotated around the second rotation direction.
Preferably, Work turning table is equipped with multiple detent mechanisms, and detent mechanism includes mounting bracket, positioning plate and crimping
Plate, the mounting bracket are fixed on Work turning table;Positioning plate is rotatably installed on mounting bracket around Y-axis;Testing cassete and pressure
Fishplate bar is set on positioning plate, and one of positioning plate end face is formed as the test station;The pcb board of testing cassete is installed on
The test station;Crimping plate can along X axis to be moved and can be along Z-direction towards the close survey close to the test station
Trial work position moves so that the pcb board of workpiece and testing cassete is electrically connected.
Preferably, the detent mechanism further includes the second driving mechanism and third driving mechanism, second driving machine
Structure is for driving crimping plate to be moved along X-axis;The third driving mechanism is for driving crimping plate to be moved along Z-direction.
Preferably, it is clamped with elastomeric element between crimping plate and the positioning plate, which makes described for offer
The elastic stress that crimping plate is moved along Z-direction away from test station.
Preferably, the Work turning table and scenario simulation mechanism are equipped at least two, and at least two scenario simulation machines
Structure is arranged in a one-to-one correspondence at least two Work turning tables.
Preferably, close shot mechanism includes that close shot light source, close shot mobile mechanism and close shot equipped with close shot test image move
Dynamic scale, close shot mobile mechanism is for driving close shot light source to be moved along Y direction and X-direction, and close shot movement scale is for surveying
Measure the displacement distance of the close shot light source in the X-axis direction.
Preferably, distant view mechanism include equipped with distant view light source, barn door and increment mirror assembly, distant view mobile mechanism and
Distant view moves scale;Distant view light source, barn door and increment mirror assembly are along Y direction by one end far from Work turning table towards remote
It arranges successively one end from Work turning table;Distant view mobile mechanism is for driving distant view light source to be moved along Y direction;Distant view movement mark
Ruler is for measuring the displacement distance of the distant view light source in the Y-axis direction.
Preferably, Bai Chang mechanisms include white field light source, Bai Chang mobile mechanisms and white field movement scale, the white field movement
Mechanism is for driving white field light source to be moved along Y direction and X-direction;White field movement scale is for measuring white field light source in X-axis
Displacement distance on direction.
Preferably, the medium shot mechanism includes medium shot light source, medium shot mobile mechanism and medium shot surveyors' staff, the medium shot
Mobile mechanism is for driving medium shot light source to move in the X-axis direction, and medium shot movement scale is for measuring medium shot light source in the X-axis direction
Displacement distance.
Preferably, the burnt section all-in-one machine of the horizontal burning four further includes the controller being installed in rack, the controller with
Close shot mechanism, distant view mechanism, Bai Chang mechanisms, medium shot mechanism, PDAF functional tests mechanism and testing cassete are electrically connected.
Compared with prior art, the beneficial effects of the utility model are:Its Work turning table can be in a reciprocating rotation process
In, complete the burnt burnings of section of multiple camera modules four or the detection of PDAF functions, high degree of automation, and burning and
Detection efficiency is higher.
Description of the drawings
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is the structural schematic diagram of the Work turning table of the utility model;
Fig. 3 is the structural schematic diagram of the detent mechanism of the utility model;
Fig. 4 is the partial structurtes decomposition diagram of the detent mechanism of the utility model;
Fig. 5 is the structural schematic diagram of the close shot mechanism of the utility model;
Fig. 6 is the structural schematic diagram of the distant view mechanism of the utility model;
Fig. 7 is the structural schematic diagram of the medium shot mechanism of the utility model;
Fig. 8 is the structural schematic diagram of the PDAF functional tests mechanism of the utility model;
Fig. 9 is the structural schematic diagram of the Bai Chang mechanisms of the utility model.
In figure:100, rack;10, Work turning table;20, detent mechanism;21, mounting bracket;22, positioning plate;221, work is tested
Position;23, plate is crimped;24, the second driving mechanism;25, third driving mechanism;251, push rod;252, top pressure skewback;253, it is pressurized oblique
Block;26, elastomeric element;30, the first driving mechanism;40, close shot mechanism;41, close shot light source;42, close shot mobile mechanism;43, close
Scape moves scale;50, distant view mechanism;51, distant view light source;52, distant view mobile mechanism;53, barn door;54, increment mirror assembly;
55, distant view moves scale;60, medium shot mechanism;61, medium shot light source;62, medium shot moves scale;63, medium shot mobile mechanism;70、
PDAF functional tests mechanism;71, PDAF test boards;72, PDAF test boards mobile mechanism;73, PDAF test boards move scale;
80, Bai Chang mechanisms;81, white field light source;82, Bai Chang mobile mechanisms;90, testing cassete;91, the pcb board of testing cassete.
Specific implementation mode
In the following, in conjunction with attached drawing and specific implementation mode, the utility model is described further:
The burnt section all-in-one machine of a kind of horizontal burning four as shown in figs 1-9, including rack 100, Work turning table 10 and first
Driving mechanism 30 is equipped with scenario simulation mechanism in rack 100, which includes close shot mechanism 40, distant view mechanism
50, Bai Chang mechanisms 80, medium shot mechanism 60 and PDAF functional tests mechanism 70.Work turning table 10 is articulated in rack 100, the work
Making turntable 10 can rotate along the first rotation direction about the z axis;And Work turning table 10 can be rotated along the second rotation direction about the z axis.It is above-mentioned
Close shot mechanism 40, distant view mechanism 50, Bai Chang mechanisms 80, medium shot mechanism 60 and PDAF functional tests mechanism 70 positioned at work turn
In the rotary motion trace of platform 10, and arrange around the pivot center circle spacing of Work turning table 10.It is equipped on above-mentioned Work turning table 10
Multiple test stations 221 for placing workpiece, test station 221 are equipped with the testing cassete 90 for being electrically connected with workpiece.
I.e. in 10 rotation process of Work turning table, can drive workpiece successively pass through close shot mechanism 40, distant view mechanism 50, Bai Chang mechanisms 80,
Medium shot mechanism 60 and PDAF functional tests mechanism 70.In addition, the first driving mechanism 30 is for driving Work turning table 10 around first
Rotation direction rotates, and Work turning table 10 is driven to be rotated around the second rotation direction.
When on the basis of the said structure, using the burnt section of all-in-one machine of the horizontal burning of the utility model four, below with to camera shooting
The process that head mould group carries out burning illustrates, specifically when carrying out burning, optional burning program, with Work turning table 10 towards
The test station 221 of operating personnel is workpiece station up and down, can camera module be positioned over Work turning table in the position
On 10, and rotation work turntable 10, so that next test station 221 is entered workpiece station up and down, repeatedly, multiple cameras
Mold can be successively installed around the first rotation direction to multiple test stations 221.
And after in previous test station 221 being placed with camera module, can turn at close shot mechanism 40 carry out it is close at this
The burning of scape coke section, hereafter the camera module of the test station 221 can be into the burning of progress distant view coke section at distant view mechanism 50
(camera module in the latter test station 221 of the test station 221 carries out close shot coke at close shot mechanism 40 at this time for record
The burning of section);It can turn to white field machine when the camera module of the previous test station 221 completes the burning of distant view coke section
Structure 80 carries out white field burning and (corresponds to the camera module in the latter test station 221 of the test station 221 at this time then in distant view
The burning of close shot coke section is carried out at mechanism 50);It can after the camera module of the previous test station 221 completes white field burning
The burning for turning to the progress medium shot coke section of medium shot mechanism 60 (corresponds in the latter test station 221 of the test station 221 at this time
Camera module then carries out white field burning at Bai Chang mechanisms 80);It is completed in the camera module of the previous test station 221
It after medium shot coke section burning, can turn at PDAF functional tests mechanism 70, carries out phase focusing and (correspond to the test station at this time
Camera module in 221 latter test station 221 then carries out the burning of medium shot coke section at medium shot mechanism 60), so far, work
Make turntable 10 and rotates completion, the burning of all burnt sections of first test station 221 along the first rotation direction.
Hereafter, then by the first driving mechanism 30 Work turning table 10 is driven to be rotated around the second rotation direction, that is, turned round, the
Turning at PDAF functional tests mechanism 70 in one test station 221 completes the burning of all burnt sections, in the process of revolution
In, (close shot mechanism 40, distant view mechanism 50, Bai Chang mechanisms 80, medium shot mechanism 60 and PDAF functional tests at corresponding different institutions
Mechanism 70) camera module can back push successively, when first test station 221 returns at workpiece loading and unloading station,
Camera module is removed, and all subsequent inspection stations back have rotated identical angle, can also complete to own with bar
PDAF Function detections.And enable camera module by the way of this positive and negative rotation in the position loading and unloading of same bar, it can be real
Now uninterrupted loading and unloading improve efficiency, while can also prevent the circuit in rack 100 from winding.
Particularly, in the present embodiment, above-mentioned close shot mechanism 40, distant view mechanism 50, Bai Chang mechanisms 80, medium shot mechanism 60 with
And PDAF functional tests mechanism 70 is distributed in the surrounding of the mounting bracket 21, single test station 221 is rotated in mounting bracket 21
Close shot mechanism 40, distant view mechanism 50, Bai Chang mechanisms 80, medium shot mechanism 60 and PDAF functions successively after one fixed angle
Mechanism for testing 70 corresponds to, and multiple test stations 221 promote successively during Work turning table 10 is rotated around the first rotation direction,
And pushed back successively in the second rotation direction rotation process in Work turning table 10, complete the camera in each test station 221
On the one hand the burning of module is convenient for the camera module in multiple test stations 221 orderly to carry out burning.On the other hand, it compares
The installation space on body can be effectively saved, the rack is reduced using the mode of movement of this rotation in straight line mode of movement
100 volume.
It, then can be according to it should be noted that above-mentioned is the explanation to burning process, and when carrying out the detection of PDAF functions
Aforesaid operations method, carries out the detection of different burnt sections, and final inspection is carried out at PDAF functional tests mechanism 70.And it need to only select not
Same program can select to be to carry out burning or PDAF Function detections.
Preferably, on above-mentioned Work turning table 10 can multiple detent mechanisms 20, specific detent mechanism 20 include mounting bracket
21, positioning plate 22 and crimping plate 23, mounting bracket 21 are fixed on Work turning table 10, positioning plate 22 is rotatably pacified around Y-axis
Loaded on mounting bracket 21.Testing cassete 90 and crimping plate 23 are set on positioning plate 22, make one of positioning plate 22 end face
Be formed as test station 221;The pcb board 91 of testing cassete is installed on test station 221.Above-mentioned crimping plate 23 can along X axis and lean on
Nearly test station 221 moves, and can move the pcb board so that workpiece and testing cassete towards close to test station 221 along Z-direction
91 are electrically connected.
On the basis of the said structure, when carrying out camera module feeding, positioning plate 22 can be made to be rotated around Y-axis, make positioning
Plate 22 turns to horizontality, is convenient for the installation of camera.At this point, installing camera module to the positioning work on positioning plate 22
At position, and the pcb board 91 of camera module and testing cassete is made to be electrically connected.Hereafter, by the way that crimping plate 23 can be made towards along X axis
It and is moved close to test station 221, that is, crimp plate 23 and move to the top of test station 221, then make crimping plate 23 along Z-direction
It is moved towards close to test station 221, so crimping plate 23 can be pressed downward, and make the electricity between camera module and testing cassete 90
Property connection structure stablize.And after completing the installation that camera module is completed on positioning plate 22, positioning plate 22 can be made to turn around Y-axis
It moves to vertical state, convenient for the camera module on positioning plate 22 towards each mechanism, is convenient for burning or detection.
Further, above-mentioned detent mechanism 20 further includes the second driving mechanism 24 and third driving mechanism 25, tool
The second driving mechanism of body 24 is for driving crimping plate 23 to be moved along X-axis, and third driving mechanism 25 is for driving crimping plate 23 along Z
Axis direction moves.In this way, installation that can be by the above-mentioned camera module of maneuver autopilot on positioning plate 22.
Particularly, in the present embodiment, the second above-mentioned driving mechanism 24 includes driving cylinder, drives the piston of cylinder
Bar is connect with crimping plate 23;And the piston rod of cylinder is driven to extend along X-direction when positioning plate 22 turns to horizontality, lead to
Cylinder of overdriving can drive crimping plate 23 along the movement of X-direction.And third driving mechanism 25 is oblique including push rod 251, top pressure
Block 252 and compression skewback 253, specific push rod 251 are installed on positioning plate 22, and push rod 251 turns to horizontal in positioning plate 22
Extend and can move in the X-axis direction along X-direction when state, the top pressure skewback 252 is fixed in the end of push rod 251, is pressurized oblique
Block 253 is installed on crimping plate 23 can drive top pressure skewback close to the end face of positioning plate 22 when push rod 251 moves in the X-axis direction
252 move to the top of compression skewback 253, and compression skewback 253 is by top pressure, due to top pressure skewback 252 and 253 inclined-plane of compression skewback
Cooperation, so as to make the Kinematic Decomposition of X-direction be the movement of Z-direction, to drive crimping plate 23 to be moved along Z-direction,
Complete crimping.
Certainly, driving cylinder or electric pushrod can be selected in the second above-mentioned driving mechanism 24 and third driving mechanism 25
251 equal other move along a straight line output mechanisms to replace.
Preferably, it is clamped with elastomeric element 26 between above-mentioned crimping plate 23 and positioning plate 22, which is used for
Offer makes the elastic stress that crimping plate 23 is moved along Z-direction away from test station 221, in this way, in crimping plate 23 along Z axis
When direction moves, elastomeric element 26 can play certain cushioning effect, prevent the hardness between crimping plate 23 and camera module
Contact, causes camera module to damage.
Preferably, Work turning table 10 and scenario simulation mechanism are equipped at least two, and at least two scenario simulation mechanisms
It is arranged in a one-to-one correspondence at least two Work turning tables 10.In this way, can be carried out at least two Work turning table 10 simultaneously
Operation, you can be carried out at the same time burn job or be carried out at the same time PDAF test jobs, also or one group of burning, one group of PDAF are surveyed
Examination improves efficiency.
Preferably, close shot mechanism 40 include equipped with the close shot light source 41 of close shot test image, close shot mobile mechanism 42 and
Close shot moves scale 43, and for driving close shot light source 41 to be moved along Y direction and X-direction, close shot moves for close shot mobile mechanism 42
Dynamic scale 43 is for measuring the displacement distance of close shot light source 41 in the X-axis direction.In this way, can be driven by close shot mobile mechanism 42
Close shot light source 41 is moved in Y direction, realizes the focusing of close shot light source 41 and test station 221, and close shot light source 41 is in X-axis side
Upward movement is then adjusted close shot at a distance from the camera module in test station 221, focuses.And close shot moves
The then displacement distance of observable close shot light source 41 in the X-axis direction of scale 43, convenient for adjusting.Specific above-mentioned close shot mobile mechanism
42 lead screw transmission mechanism that the linear motion of exportable two different directions can be selected combine to realize.
Preferably, above-mentioned distant view mechanism 50 includes equipped with distant view light source 51, barn door 53 and increment mirror assembly 54, far
Scape mobile mechanism 52 and distant view move scale 55;Distant view light source 51, barn door 53 and increment mirror assembly 54 along Y direction by
One end far from Work turning table 10 is arranged successively away from one end of Work turning table 10, and distant view mobile mechanism 52 is for driving
Distant view light source 51 is moved along Y direction;Distant view movement scale 55 for measure the movement of distant view light source 51 in the Y-axis direction away from
From.In this way, the movement of light source in the Y-axis direction can be driven by distant view mobile mechanism 52, it is conveniently adjusted distant view focal length, distant view moves
Then the displacement distance of observable distant view light source 51 in the Y-axis direction, adjusting are more accurate for dynamic scale 55.Above-mentioned barn door 53 then may be used
It prevents from, in distant view camera shooting focal length test, being influenced by external factor because light path is too long.And above-mentioned increment mirror assembly 54 can be located at and hide
Tabula rasa 53 can make test focal length elongated close to the side of detection station, so as to shorten distant view light source 51 and the reality for checking station
Distance reduces the volume of entire body.The sliding rail extended along Y direction can be selected in specific distant view mobile mechanism 52, passes through distant view
Light source 51 is slidably matched with sliding rail, can realize that movement, moving structure are stablized.
Preferably, above-mentioned Bai Chang mechanisms 80 include that scale is moved in white field light source 81, Bai Chang mobile mechanisms 82 and white field,
Bai Chang mobile mechanisms 82 are for driving white field light source 81 to be moved along Y direction and X-direction;White field movement scale is white for measuring
The displacement distance of field light source 81 in the X-axis direction.In this way, the close shot light source 41 that can be arrived by Bai Chang mobile mechanisms 82 is in Y-axis side
To movement, the focusing of realization nearly white field light source 81 and test station 221, and the movement of white field light source 81 in the X-axis direction, then may be used
White field light source 81 is adjusted at a distance from the camera module in test station 221, is focused.And white field movement scale then may be used
The displacement distance of close shot light source 41 in the X-axis direction is observed, convenient for adjusting.Specific above-mentioned Bai Chang mobile mechanisms 82 can be selected can
The lead screw transmission mechanism for exporting the linear motion of two different directions combines to realize.
Preferably, medium shot mechanism 60 includes medium shot light source 61, medium shot mobile mechanism 63 and medium shot surveyors' staff, and medium shot is moved
Motivation structure 63 is for driving medium shot light source 61 to move in the X-axis direction, and medium shot movement scale 62 is for measuring medium shot light source 61 in X-axis
Displacement distance on direction.In this way, the movement of light source in the X-axis direction can be driven by medium shot mobile mechanism 63, it is conveniently adjusted
Medium shot focal length, medium shot move the then displacement distance of observable distant view light source 51 in the X-axis direction of scale 62, and it is more accurate to adjust.
Certainly, the sliding rail extended along X-direction can be selected in medium shot mobile mechanism 63, is slidably matched with sliding rail by medium shot light source 61, just
Movement can be achieved, moving structure is stablized.
In addition, above-mentioned PDAF functional tests mechanism 70 may also comprise PDAF test boards 71, PDAF test boards mobile mechanism
72 and PDAF test boards move scale 73, drive PDAF test boards 71 along Y direction by PDAF test boards mobile mechanism 72
Movement adjusts the position relationship of PDAF test boards 71 and test module, convenient for focusing.Certainly, PDAF test boards move scale 73
Also the displacement distance of PDAF test boards 71 can be tested, focusing is accurate.Lead screw biography can be selected in specific PDAF test boards mobile mechanism 72
Motivation structure.
It should be noted that in the present embodiment, two are respectively provided in above-mentioned scenario simulation mechanism and Work turning table 10
In the case of, the PDAF functional tests mechanism 70 in Liang Ge scenario simulations mechanism can be oppositely arranged, and be moved using same PDAF
Mechanism is moved, and rack 100 installation space is saved.Particularly, it is arranged along Y direction between two Work turning tables 10
The sliding rail of extension, two PDAF test boards 71 can be slidably matched with the sliding rail.
Preferably, the burnt section all-in-one machine of the horizontal burning four further includes the controller being installed in rack 100, controller with it is close
Scape mechanism 40, distant view mechanism 50, Bai Chang mechanisms 80, medium shot mechanism 60, PDAF functional tests mechanism 70 and testing cassete 90 electricity
Property connection.In the controller can built-in burning program and PDAF test programs, can be selected according to needs of production,
White dynamicization degree higher.
It should be noted that X-direction signified in the present embodiment, Y direction and Z-direction can refer to and Fig. 1
Shown in X, Y, Z coordinate system.
It will be apparent to those skilled in the art that technical solution that can be as described above and design, make various other
Corresponding change and deformation, and all these changes and deformation should all belong to the protection of the utility model claims
Within the scope of.
Claims (10)
1. the burnt section all-in-one machine of horizontal burning four, which is characterized in that including,
Rack;Rack be equipped with scenario simulation mechanism, the scenario simulation mechanism include close shot mechanism, distant view mechanism, Bai Chang mechanisms,
Medium shot mechanism and PDAF functional tests mechanism;
The Work turning table being articulated in rack, the Work turning table can be rotated along the first rotation direction about the z axis;And Work turning table can be around
Z axis is rotated along the second rotation direction;Close shot mechanism, distant view mechanism, Bai Chang mechanisms, medium shot mechanism and PDAF functional tests mechanism
Pivot center circle spacing arrangement in the rotary motion trace of Work turning table and around Work turning table;The Work turning table is equipped with
Multiple test stations for placing workpiece, test station are equipped with the testing cassete for being electrically connected with workpiece;
First driving mechanism, first driving mechanism is for driving Work turning table to be rotated around the first rotation direction and driving work
Turntable is rotated around the second rotation direction.
2. four burnt section all-in-one machine of horizontal burning as described in claim 1, which is characterized in that Work turning table is equipped with multiple positioning
Mechanism, detent mechanism include that mounting bracket, positioning plate and crimping plate, the mounting bracket are fixed on Work turning table;Positioning plate is around Y
Axis is rotatably installed on mounting bracket;Testing cassete and crimping plate are set on positioning plate, one of positioning plate end face
Be formed as the test station;The pcb board of testing cassete is installed on the test station;Crimping plate can along X axis close to described
Test station is moved and can be moved towards close to the test station so that the pcb board of workpiece and testing cassete is electrical along Z-direction
Connection.
3. four burnt section all-in-one machine of horizontal burning as claimed in claim 2, which is characterized in that the detent mechanism further includes second
Driving mechanism and third driving mechanism, second driving mechanism is for driving crimping plate to be moved along X-axis;The third driving
Mechanism is for driving crimping plate to be moved along Z-direction.
4. four burnt section all-in-one machine of horizontal burning as claimed in claim 2, which is characterized in that between crimping plate and the positioning plate
It is clamped with elastomeric element, which, which is used to provide, makes the plate that crimps be moved away from test station along Z-direction
Elastic stress.
5. four burnt section all-in-one machine of horizontal burning as described in claim 1, which is characterized in that the Work turning table and scene mould
Quasi- mechanism is equipped at least two, and at least two scenario simulation mechanisms are arranged in a one-to-one correspondence at least two Work turning tables.
6. four burnt section all-in-one machine of horizontal burning as described in any one in claim 1-5, which is characterized in that close shot mechanism includes setting
There are close shot light source, close shot mobile mechanism and close shot movement scale, the close shot mobile mechanism of close shot test image close for driving
Scape light source is moved along Y direction and X-direction, and close shot movement scale is for measuring the shifting of the close shot light source in the X-axis direction
Dynamic distance.
7. four burnt section all-in-one machine of horizontal burning as described in any one in claim 1-5, which is characterized in that distant view mechanism includes setting
There are distant view light source, barn door and increment mirror assembly, distant view mobile mechanism and distant view movement scale;Distant view light source, barn door
And increment mirror assembly is arranged by one end far from Work turning table away from one end of Work turning table successively along Y direction;Far
Scape mobile mechanism is for driving distant view light source to be moved along Y direction;Distant view movement scale is for measuring the distant view light source in Y-axis
Displacement distance on direction.
8. four burnt section all-in-one machine of horizontal burning as described in any one in claim 1-5, which is characterized in that Bai Chang mechanisms include white
Scale is moved in field light source, Bai Chang mobile mechanisms and white field, and the Bai Chang mobile mechanisms are for driving white field light source along Y direction
It is moved with X-direction;White field movement scale is for measuring the displacement distance of white field light source in the X-axis direction.
9. four burnt section all-in-one machine of horizontal burning as described in any one in claim 1-5, which is characterized in that medium shot mechanism packet
Medium shot light source, medium shot mobile mechanism and medium shot surveyors' staff are included, the medium shot mobile mechanism is for driving medium shot light source along X-axis
Direction moves, and medium shot movement scale is for measuring the displacement distance of medium shot light source in the X-axis direction.
10. four burnt section all-in-one machine of horizontal burning as described in any one in claim 1-5, which is characterized in that the horizontal burning four
Burnt section all-in-one machine further includes the controller being installed in rack, the controller and close shot mechanism, distant view mechanism, Bai Chang mechanisms,
Medium shot mechanism, PDAF functional tests mechanism and testing cassete are electrically connected.
Priority Applications (1)
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CN201820129856.2U CN207691965U (en) | 2018-01-25 | 2018-01-25 | The burnt section all-in-one machine of horizontal burning four |
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Application Number | Priority Date | Filing Date | Title |
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CN201820129856.2U CN207691965U (en) | 2018-01-25 | 2018-01-25 | The burnt section all-in-one machine of horizontal burning four |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108093253A (en) * | 2018-01-25 | 2018-05-29 | 深圳眼千里科技有限公司 | The horizontal burnt section all-in-one machine of burning four |
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2018
- 2018-01-25 CN CN201820129856.2U patent/CN207691965U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108093253A (en) * | 2018-01-25 | 2018-05-29 | 深圳眼千里科技有限公司 | The horizontal burnt section all-in-one machine of burning four |
CN108093253B (en) * | 2018-01-25 | 2024-05-10 | 深圳眼千里科技有限公司 | Horizontal burning four-coke-section integrated machine |
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