CN110620866A - Camera focusing and burning integrated machine - Google Patents

Camera focusing and burning integrated machine Download PDF

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Publication number
CN110620866A
CN110620866A CN201910990612.2A CN201910990612A CN110620866A CN 110620866 A CN110620866 A CN 110620866A CN 201910990612 A CN201910990612 A CN 201910990612A CN 110620866 A CN110620866 A CN 110620866A
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CN
China
Prior art keywords
focusing
light source
burning
machine body
driving
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Pending
Application number
CN201910990612.2A
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Chinese (zh)
Inventor
李久林
雷茜
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Shenzhen Eye Technology Co Ltd
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Shenzhen Eye Technology Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shenzhen Eye Technology Co Ltd filed Critical Shenzhen Eye Technology Co Ltd
Priority to CN201910990612.2A priority Critical patent/CN110620866A/en
Publication of CN110620866A publication Critical patent/CN110620866A/en
Pending legal-status Critical Current

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N17/00Diagnosis, testing or measuring for television systems or their details
    • H04N17/002Diagnosis, testing or measuring for television systems or their details for television cameras
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N23/00Cameras or camera modules comprising electronic image sensors; Control thereof
    • H04N23/50Constructional details

Abstract

The invention discloses a camera focusing and burning integrated machine which comprises a machine body, a black field mechanism, a focusing mechanism, a white field mechanism, a dispensing mechanism, a curing mechanism, a burning mechanism and a burning detection mechanism, wherein the machine body is provided with a working turntable and a driving mechanism, and the working turntable is pivoted on the machine body and driven by the driving mechanism to rotate; the black field mechanism, the focusing mechanism, the white field mechanism, the dispensing mechanism, the curing mechanism, the burning mechanism and the burning detection mechanism are all arranged on the machine body and are distributed in sequence at intervals around the circumference of the rotating axis of the working turntable; the working rotary table is provided with a plurality of workpiece carrying platforms which are distributed at intervals around the circumference of the rotating axis of the working rotary table; the focusing mechanism comprises a focusing seat, a first driving assembly, a second driving assembly, a third driving assembly, a fourth driving assembly and a first light source board assembly. The invention can carry out focusing, dispensing and curing, black and white field testing, burning and burning detection operations on the camera.

Description

Camera focusing and burning integrated machine
Technical Field
The invention relates to the technical field of camera production detection equipment, in particular to a camera focusing and burning integration.
Background
At present, along with the popularization of electronic equipment, a camera becomes a necessary component of most of electronic equipment, in the production process of the camera, after the camera is assembled, a lens of the camera and a bracket of the camera are in threaded fit, the camera needs to be focused and then solidified to produce a product, a light source plate is shot through the lens of the camera during focusing so as to be transmitted to a test box electrically connected with the camera, the test box is electrically connected with a computer program, and during testing, the focal length of the camera is adjusted. And dispensing and fixing are carried out after the focal length adjustment is finished, and the production is finished. After the focusing is finished, burning and burning detection are required to be carried out on the camera. However, focusing and burning in the existing camera production process are mainly processed in different devices separately, that is, burning and burning tests are performed on another machine after focusing, which results in low production efficiency.
Disclosure of Invention
In order to overcome the defects of the prior art, the invention aims to provide a camera focusing and burning integrated machine which can perform focusing, dispensing curing, black and white field testing, burning and burning detection operations on a camera and has higher production efficiency.
The purpose of the invention is realized by adopting the following technical scheme:
a camera focusing and burning integrated machine comprises a machine body, a black field mechanism, a focusing mechanism, a white field mechanism, a glue dispensing mechanism, a curing mechanism, a burning mechanism and a burning detection mechanism,
the machine body is provided with a working rotary table and a driving mechanism, and the working rotary table is pivoted on the machine body and driven by the driving mechanism to rotate; the black field mechanism, the focusing mechanism, the white field mechanism, the dispensing mechanism, the curing mechanism, the burning mechanism and the burning detection mechanism are all arranged on the machine body and are distributed in sequence at intervals around the circumference of the rotating axis of the working turntable; the working rotary table is provided with a plurality of workpiece carrying platforms which are distributed at intervals around the circumference of the rotating axis of the working rotary table;
the focusing mechanism comprises a focusing seat, a first driving assembly, a second driving assembly, a third driving assembly, a fourth driving assembly and a first light source board assembly, and the focusing seat, the first driving assembly, the second driving assembly, the third driving assembly, the fourth driving assembly and the first light source board assembly are all arranged on the machine body; the focusing seat is positioned above the workpiece carrying platform; the first light source board assembly is positioned above the focusing seat; the focusing seat is driven by the first driving component to move along the length direction of the machine body; the focusing seat is driven by the second driving assembly to move along the width direction of the machine body; the focusing seat is driven by the third driving component to move towards or away from the workpiece carrying platform along the height direction of the machine body; a focusing ring is pivoted on the focusing part, and a focusing groove matched with a lens structure of the camera is formed in the focusing ring; a plurality of focusing claws are arranged at the bottom end of the inner wall of the focusing groove; the focusing claw is used for grasping a lens of the camera when the focusing seat moves towards the position close to the workpiece carrying platform; the fourth driving assembly is used for driving the focusing ring to rotate.
Preferably, a first distance-increasing lens is detachably mounted on the focusing seat, and the first distance-increasing lens is located between the first light source plate assembly and the focusing ring.
Preferably, the first light source board assembly comprises a first light source frame, a first light source board and a first light source board driving part, and the first light source frame is fixedly connected to the machine body; the first light source plate is arranged on the first light source frame and can move along the height direction of the machine body under the driving of the first light source plate driving part.
Preferably, the first driving assembly comprises a first electric sliding table, the second driving assembly comprises a second electric sliding table, the third driving assembly comprises a first synchronous motor, a first synchronous belt, two first synchronous wheels, a screw rod, a nut and a guide assembly, and the first electric sliding table is mounted on the machine body and arranged along the length direction of the machine body; the second electric sliding table is arranged on the sliding table of the first electric sliding table and arranged along the width direction of the machine body; the sliding table of the second electric sliding table is provided with a mounting seat; the first synchronous motor is arranged on the mounting seat, and the screw rod is pivoted on the mounting seat and extends along the height direction of the machine body; eleven first synchronous wheels are synchronously connected with a rotating shaft of a first synchronous motor; the other first synchronous wheel is synchronously connected with the screw rod; the first synchronous belt is synchronously wound outside the two first synchronous wheels; the nut threads are sleeved outside the screw rod and fixedly connected with the focusing seat; the guide assembly is used for guiding the nut to move along the extending direction of the screw rod.
Preferably, the black field mechanism comprises a first moving carrier and a first moving carrier driving assembly, and the first moving carrier driving assembly is used for driving the first moving carrier to move along the length direction and the width direction of the machine body; the first mobile carrying platform is provided with a black field light source, a CCD module and a height measuring module, and the CCD module is used for acquiring information of a workpiece on the workpiece carrying platform; the height measurement module is used for measuring the height of the workpiece.
Preferably, the white field mechanism comprises a fixing frame, a white field light source and a white field light source driving assembly, the fixing frame is fixedly connected to the machine body, and the white field light source is mounted on the fixing frame and driven by the white field light source assembly to move along the height direction of the machine body.
Preferably, the glue dispensing mechanism comprises a glue dispensing gun, a glue dispensing frame, a second movable carrier and a second movable carrier driving assembly, the glue dispensing gun and the glue dispensing frame are both mounted on the second movable carrier, and the second movable carrier driving assembly is used for driving the second movable carrier to move in the length direction and the width direction of the machine body; the dispensing gun is arranged on the dispensing frame and can move along the height direction of the dispensing frame; and a detection camera is arranged on the dispensing frame.
Preferably, the curing mechanism comprises an ultraviolet lamp, and the ultraviolet lamp is mounted on the machine body.
Preferably, an image quality detection mechanism is arranged between the curing mechanism and the burning mechanism, the image quality detection mechanism is positioned on a rotating track of the working turntable, the image quality detection mechanism comprises a second light source plate assembly, a second distance-increasing lens and a second distance-increasing lens driving assembly, the second distance-increasing lens and the second light source plate assembly are both positioned above the working turntable, and the second light source plate assembly is positioned above the second distance-increasing lens; the second distance-increasing mirror driving component is used for driving the second distance-increasing mirror component to move along the width direction of the machine body.
Preferably, the burning mechanism comprises a burning light source, the burning detection mechanism comprises a burning detection light source, and the burning light source and the burning detection light source are both arranged on the machine body and can move along the height direction of the machine body.
Compared with the prior art, the invention has the beneficial effects that: the camera can be sequentially loaded on each workpiece carrying platform on the working rotary table, the test boxes on the workpiece carrying platforms are electrically connected, the workpiece carrying platforms sequentially move to the black field mechanism, the focusing mechanism, the white field mechanism, the dispensing mechanism, the curing mechanism, the burning mechanism and the burning detection mechanism under the driving of the driving mechanism, the camera can be subjected to focusing, dispensing curing, black and white field testing, burning and burning detection operations, and the production efficiency is high.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of the overall structure of the present invention;
FIG. 3 is a schematic view of a partial structure of a focusing mechanism of the present invention;
FIG. 4 is a schematic view of a partial structure of a focusing mechanism of the present invention;
FIG. 5 is a schematic view of a first light source assembly according to the present invention;
FIG. 6 is a schematic structural diagram of a black field mechanism according to the present invention;
FIG. 7 is a schematic structural view of a dispensing mechanism of the present invention;
fig. 8 is a schematic structural diagram of a curing mechanism and a second distance-increasing mirror according to the present invention.
In the figure: 100. a body; 11. a working turntable; 111. a workpiece stage; 10. a black field mechanism; 12. a first mobile carrier; 13. a height measurement module; 14. a CCD module; 15. a first mobile stage drive assembly; 16. a black field light source; 20. a focusing mechanism; 21. a first drive assembly; 22. a second drive assembly; 23. a third drive assembly; 24. a focusing seat; 241. a focusing ring; 242. a focusing slot; 25. a first distance-increasing mirror; 26. a fourth drive assembly; 261. a first light source plate; 262. a first light source holder; 263. a screw; 264. a second synchronizing wheel; 265. a second synchronous belt; 30. a white field mechanism; 40. a glue dispensing mechanism; 41. detecting a camera; 42. dispensing a glue gun; 43. a second mobile stage; 44. a second mobile stage drive assembly; 50. a curing mechanism; 60. a burning mechanism; 70. a burning detection mechanism; 80. an image quality detection means; 81. a second light source assembly; 82. a second range mirror drive assembly; 83. a second distance increasing mirror.
Detailed Description
The invention will be further described with reference to the accompanying drawings and the detailed description below:
as shown in fig. 1 to 8, a camera focusing and burning integrated machine includes a machine body 100, a black field mechanism 10, a focusing mechanism 20, a white field mechanism 30, a dispensing mechanism 40, a curing mechanism 50, a burning mechanism 60, and a burning detection mechanism 70.
Specifically, the machine body 100 is provided with a working turntable 11 and a driving mechanism, the working turntable 11 is pivoted on the machine body 100, and the working turntable 11 can be driven by the driving mechanism to rotate. The black field mechanism 10, the focusing mechanism 20, the white field mechanism 30, the dispensing mechanism 40, the curing mechanism 50, the burning mechanism 60 and the burning detection mechanism 70 are all arranged on the machine body 100 and are sequentially distributed around the rotation axis of the working turntable 11 at intervals. Further, the work turret 11 is provided with a plurality of work stages 111, and the plurality of work stages 111 are distributed in order at intervals circumferentially around the rotation axis of the work turret 11.
The focus adjustment mechanism 20 includes a focus adjustment base 24, a first driving assembly 21, a second driving assembly 22, a third driving assembly 23, a fourth driving assembly 26, and a first light source plate 261, and the focus adjustment base 24, the first driving assembly 21, the second driving assembly 22, the third driving assembly 23, the fourth driving assembly 26, and the first light source plate 261 are all mounted on the machine body 100. The focus adjustment base 24 is disposed above the workpiece stage 111, and the first light source plate 261 is located above the focus adjustment base 24, that is, the first light source assembly, the focus adjustment base 24, and the working turntable 11 are sequentially distributed from top to bottom in the height direction of the machine body 100.
The focus seat 24 is driven by the first driving assembly 21 to move in the length direction of the machine body 100, and the focus seat 24 is driven by the second driving assembly 22 to move in the width direction of the machine body 100. And under the driving of the third driving assembly 23, the focusing base 24 can move in the height direction of the machine body 100, and when the focusing base 24 moves in the height direction of the machine body 100, the focusing base can move towards or away from the workpiece carrier 111 on the working turntable 11. In addition, a focusing ring 241 is pivoted on the focusing, and a focusing groove 242 matched with the lens structure of the camera is formed on the focusing ring 241. A plurality of focusing claws are provided at the bottom end of the inner wall of the focusing groove 242. When the focusing base 24 moves towards the position close to the workpiece carrier 111, the focusing claws can grip the lens of the camera; the fourth driving assembly 26 is used for driving the focusing ring 241 to rotate.
On the basis of the structure, when the camera focusing and burning integrated machine is used, taking a workpiece as a camera as an example, a camera to be focused can be loaded on the workpiece carrier 111, so that the camera is electrically connected with the test box on the workpiece carrier 111, then, the driving mechanism is started, the driving mechanism drives the working turntable 11 to rotate, the workpieces on the workpiece carriers 111 can sequentially rotate the black field mechanism 10, the focusing mechanism 20, the white field mechanism 30, the dispensing mechanism 40, the curing mechanism 50, the burning mechanism 60 and the burning detection mechanism 70, and various operations are correspondingly completed at each mechanism.
Specifically, taking eleven cameras on the workpiece stage 111 as an example, when the cameras on the workpiece stage 111 are rotated to the black field mechanism 10, a black field test can be performed at the black field mechanism 10 to test the performance of the cameras under the black field light source 16. Thereafter, the work turret 11 drives the workpiece stage 111 to rotate to the adjustment mechanism for focusing.
Specifically, the first driving assembly 21 and the second driving assembly 22 are started to move the focus base 24 in the length direction and the width direction of the body 100, after the focus slots 242 on the focus base 24 are aligned with the cameras on the workpiece carrier 111, the third driving assembly 23 is started to drive the focus base 24 to move downwards and move towards the cameras close to the workpiece carrier 111, in the process that the focus base 24 is close to, the focus ring 241 at the bottom end of the focus base 24 can be close to the lenses of the cameras, and the plurality of focus claws at the bottom end of the focus slots 242 can grip the lenses of the camera module to load the camera module into the focus slots 242. Thereafter, the fourth driving component 26 is started, the fourth driving component 26 can drive the focusing ring 241 to rotate, the lens of the camera in the focusing groove 242 can rotate along with the focusing ring 241, and the lens of the camera is in threaded fit with the bracket of the camera, so that the lens of the camera can move up and down relative to the bracket of the camera in the rotating process of the lens of the camera, the lens of the camera shoots the first light source component to different heights relative to the bracket of the camera, and feeds the result back to the test box for focusing, the degree of automation is high, and the focusing efficiency is improved. Of course, it should be noted that the adjustment distance between the lens of the camera and the bracket of the camera can be adjusted, so that the focusing mechanism 20 is compatible with the fine-pitch focusing function.
After the focusing operation is completed, the driving mechanism can continue to drive the working turntable 11 to continue to rotate, the workpiece carrier 111 can rotate to the white field mechanism 30 for white field detection, and the performance of the camera under the black field light source 16 is tested.
And thirdly, the working turntable 11 continues to rotate to the glue dispensing mechanism 40, glue can be dispensed between the lens of the camera and the bracket at the glue dispensing mechanism 40, the camera subjected to glue dispensing can move to the curing mechanism 50 in the rotating process of the working turntable 11, and the lens and the bracket of the camera are cured at the focused positions.
After the lens and the bracket of the camera are fixed, the camera can rotate to the burning mechanism 60 and the burning detection mechanism 70 in sequence in the rotation process of the working turntable 11, the burning of the camera is carried out at the burning mechanism 60, and after the burning is finished, the camera is transported to the burning detection mechanism 70 to carry out the burning detection operation, so that a series of operations in the production process of the camera are finished, and the production efficiency is high.
It should be noted that, in this embodiment, the working turntable 11 is directly driven by a DD motor in the prior art, and compared with a common motor, the DD motor has better precision, so as to drive the working turntable to rotate at a plurality of stations.
Preferably, in the present embodiment, the first distance-increasing lens 25 is mounted on the focus holder 24, and the first distance-increasing lens 25 is detachably mounted on the focus holder 24. Specifically, the first distance increasing mirror 25 is located between the first light source plate 261 assembly and the focus ring 241. So, when treating the camera of focusing for wide angle lens, can install first range lens 25 on focusing seat 24, increase the focus between camera and the first light source board 261 subassembly through first range lens 25 to increase focusing test distance, make the focusing function of this equipment interval wide angle camera. Of course, in this embodiment, the detachable mounting of the first distance-increasing lens 25 and the focusing seat 24 may be realized by screws.
Preferably, in this embodiment, the first light source plate 261 assembly includes a first light source frame 262, a first light source plate 261 and a first light source plate 261 driving member, the first light source frame 262 is fixedly connected to the machine body 100, the first light source plate 261 is installed on the first light source frame 262, and the first light source plate 261 can move along the height direction of the machine body 100 under the driving of the first light source plate 261 driving member.
On this structure basis, when focusing, accessible first light source board 261 driving piece drives first light source board 261 along first light source frame 262 up-and-down motion, and first light source board 261 can be adjusted with the camera distance on the work piece microscope carrier 111, therefore the focusing of the camera of the different focuses of adaptation.
Specifically, the driving member of the first light source plate 261 includes two screws 263, two second synchronizing wheels 264 and a second synchronizing belt 265, the two screws 263 and the two second synchronizing wheels 264 are respectively pivoted to two sides of the first light source frame 262, the two second synchronizing wheels 264 are respectively fixed to bottom ends of the two screws 263, the second synchronizing belt 265 is synchronously wound outside the two second synchronizing wheels 264, and top ends of the two screws 263 are respectively and threadedly sleeved with a swivel nut, the swivel nut is fixed to the first light source plate 261, and the first light source plate 261 is in sliding fit with the guide rod on the first light source frame 262 through the guide sleeve, when the first light source plate 261 moves up and down, one of the screws 263 can be driven to rotate by the hand wheel, under the driving action of the second synchronizing belt 265, the other screw 263 synchronously rotates, so that the rotation of the screw 263 can drive the swivel nut to rotate, under the guide of the guide sleeve and the guide rod, the first light source plate 261 can move up and down.
Of course, the driving member of the first light source plate 261 can also be implemented by a linear motion output mechanism such as a cylinder, a screw rod transmission mechanism or a linear motor in the prior art.
Preferably, the first driving assembly 21 includes a first electric sliding table, the second driving assembly 22 includes a second electric sliding table, the third driving assembly 23 includes a first synchronous motor, a first synchronous belt, two first synchronous wheels, a lead screw, a nut and a guiding assembly, the first electric sliding table is installed on the machine body 100 and is arranged along the length direction of the machine body 100, and the second electric sliding table is installed on the sliding table of the first electric sliding table and is arranged along the width direction of the machine body 100. Specifically, a mounting seat is arranged on a sliding table of the second electric sliding table, the first synchronous motor is mounted on the mounting seat, and the screw rod is pivoted on the mounting seat and extends along the height direction of the machine body 100; one of the first synchronizing wheels is synchronously connected with a rotating shaft of the first synchronous motor; the other first synchronous wheel is synchronously connected with the screw rod; the first synchronous belt is synchronously wound outside the two first synchronous wheels; the nut thread is sleeved outside the screw rod and is fixedly connected with the focusing seat 24; the guide assembly is used for guiding the nut to move along the extending direction of the screw rod.
Thus, when the focusing seat 24 is driven to move back and forth or left and right, the movement of the mounting seat can be realized through the movement of the first electric sliding table and the second electric sliding table, and then the focusing seat 24 mounted on the mounting seat is driven to move back and forth or left and right. The up-and-down movement of the focusing base 24 can drive the first synchronous wheel to rotate through the first synchronous motor, the first synchronous wheel rotates the lead screw with the bottom end synchronously connected with the first synchronous wheel, the lead screw rotates to drive the nut to rotate, the rotation of the nut is converted into the movement along the extending direction of the lead screw under the guidance of the guide assembly, and then the focusing base 24 fixed with the nut moves up and down. It should be noted that, since the focusing mechanism 20 needs to control the adjusted focal length precisely, when a driving structure for driving the focusing base 24 to move up and down is selected, a screw transmission mechanism which facilitates the threaded matching between a nut and a screw is selected, so as to control the up and down movement of the focusing base 24 precisely.
Of course, the above-mentioned guiding assembly can be realized by matching a slide rail with a slide block, that is, a slide block can be arranged on the focusing seat 24, a slide rail extending along the height direction of the machine body 100 is arranged on the mounting seat, and the up-and-down movement of the focusing seat 24 can be guided by the sliding fit of the slide block and the slide rail.
Preferably, in this embodiment, the black field mechanism 10 includes a first moving stage 12 and a first moving stage driving assembly 15, where the first moving stage driving assembly 15 is configured to drive the first moving stage 12 to move along a length direction and a width direction of the machine body 100, a black field light source 16, a CCD module 14, and a height measuring module 13 may be disposed on the first moving stage 12, and the CCD module 14 is configured to perform information acquisition on a workpiece on the workpiece stage 111; the height measuring module 13 is used for measuring the height of the workpiece. Thus, when the workpiece stage 111 drives the camera to rotate to the black field mechanism 10, the first movable stage 12 can drive the black field light source 16 to move to a position corresponding to the workpiece stage 111, and the camera shoots the black field light source 16 to perform a black field test. After the black field test is completed, the first movable stage driving assembly 15 can drive the CCD module 14 on the first movable stage 12 to perform information acquisition corresponding to the camera of the workpiece stage 111, and the PR test can be completed by matching with the test box. After the PR test, the first moving stage driving assembly 15 drives the height measuring module 13 on the first moving stage 12 to correspond to the position of the camera on the workpiece stage 111, so as to perform a height measuring operation on the camera. Of course, the CCD module 14 and the height measuring module 13 can be implemented by using a CCD camera and a height measuring instrument, respectively, in the prior art.
In addition, the first movable stage driving assembly 15 may include a third electric sliding table and a fourth electric sliding table, the third electric sliding table is installed on the machine body 100 and is arranged along the length direction of the machine body 100, the fourth electric sliding table is arranged on the sliding table of the third electric sliding table and moves along the width direction of the machine body 100, so that the third electric sliding table and the fourth electric sliding table can drive the first movable stage 12 to move back and forth and left and right, and the back and forth movement of the first movable stage 12 can make the corresponding assembly on the first movable stage 12 correspond to the camera on the workpiece stage 111.
Preferably, the white field mechanism 30 includes a fixing frame, a white field light source and a white field light source driving assembly, the fixing frame is fixedly connected to the machine body 100, the white field light source is mounted on the fixing frame and moves along the height direction of the machine body 100 under the driving of the white field light source assembly, so that when the white field test is performed, the camera on the workpiece carrier 111 can shoot corresponding to the white field light source to perform the white field test. The white field light source can move up and down under the drive of the white field light source driving part, and the height is selected according to different cameras and test requirements.
Preferably, the dispensing mechanism 40 in the present embodiment includes a dispensing gun 42, a dispensing frame, a second moving stage 43, and a second moving stage driving unit 44, and both the dispensing gun 42 and the dispensing frame are mounted on the second moving stage 43. The second moving stage driving assembly 44 is configured to drive the second moving stage 43 to move in the length direction and the width direction of the machine body 100; the dispensing gun 42 is arranged on the dispensing frame and can move along the height direction of the dispensing frame; the dispensing frame is provided with a detection camera 41. In this way, during dispensing, the second moving stage driving assembly 44 can drive the second moving stage 43 to move back and forth or left and right, so that the dispensing gun 42 on the second moving stage 43 corresponds to the position on the workpiece stage 111, the detection camera 41 on the dispensing frame can shoot the camera on the workpiece stage 111, and the dispensing gun 42 can accurately dispense according to the shooting structure. The up and down movement of the dispensing gun 42 on the dispensing rack can make the dispensing gun 42 dispense glue at a proper position.
The second movable stage driving assembly 44 may include a fifth electric sliding table and a sixth electric sliding table, the fifth electric sliding table is installed on the body 100 and is arranged along the length direction of the body 100, the sixth electric sliding table is arranged on the sliding table of the fifth electric sliding table and moves along the width direction of the body 100, and the fifth electric sliding table and the sixth electric sliding table can drive the second movable stage 43 to move back and forth and left and right.
Preferably, the curing mechanism 50 includes an ultraviolet lamp, and the ultraviolet lamp is installed on the machine body 100, and the glue solution can be cured by the ultraviolet lamp.
Preferably, in this embodiment, an image quality detection mechanism 80 is disposed between the curing mechanism 50 and the burning mechanism 60, the image quality detection mechanism 80 is located on the rotation track of the working turntable 11, the image quality detection mechanism 80 includes a second light source plate assembly, a second distance-increasing mirror 83 and a second distance-increasing mirror driving assembly 82, specifically, the second distance-increasing mirror 83 and the second light source plate assembly are both located above the working turntable 11, and the second light source plate assembly is located above the second distance-increasing mirror 83; that is, the second light source board assembly, the second distance-increasing mirror 83 and the working turntable 11 may be sequentially distributed at intervals in the height direction of the machine body 100, and the second distance-increasing mirror driving assembly 82 may be configured to drive the second distance-increasing mirror 83 assembly to move along the width direction of the machine body 100.
After the camera on the work stage is cured at the curing mechanism 50, the work turntable 11 can drive the camera on the work stage 111 to rotate to the image quality detection mechanism 80, and shoot the second light source board assembly of the image quality detection mechanism 80, so as to detect the shooting image quality performance. When the camera to be tested is a wide-angle lens, the second distance-increasing lens 83 can be driven by the second distance-increasing lens driving component 82 to move to the upper side of the workpiece carrying platform 111 along the width direction of the machine body 100, so that distance increasing and wide-angle lens image quality detection operation can be performed.
It should be noted that, the structures of the second light source plate assembly and the first light source plate 261 assembly are the same, and the difference is that the first light source plate 261 of the first light source assembly selects the light source plate for focusing, and the light source plate in the second light source plate assembly selects the light source plate for image quality detection, and the other structures are the same.
On the basis of the structure, the machine body 100 is provided with eight stations including the black field mechanism 10, the focusing mechanism 20, the white field mechanism 30, the dispensing mechanism 40, the curing mechanism 50, the image quality detection mechanism 80, the burning mechanism 60 and the burning detection mechanism 70, namely, a camera to be detected can sequentially pass through the eight stations under the driving of the working turntable to perform eight-station detection, so that the function of the machine is more comprehensive, and the detection efficiency of the camera is higher.
Preferably, the recording mechanism 60 includes a recording light source, the recording detection mechanism 70 includes a recording detection light source, and both the recording light source and the recording detection light source are mounted on the body 100 and can move along the height direction of the body 100. When the burning and burning detection are carried out, the burning procedure in the test box is completed, and the burning light source and the burning detection light source can provide burning and burning detection environments. The movement of the recording light source and the recording detection light source in the height direction of the body 100 can be selected according to the different heights of the camera products.
Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims (10)

1. A camera focusing and burning integrated machine is characterized by comprising a machine body, a black field mechanism, a focusing mechanism, a white field mechanism, a dispensing mechanism, a curing mechanism, a burning mechanism and a burning detection mechanism,
the machine body is provided with a working rotary table and a driving mechanism, and the working rotary table is pivoted on the machine body and driven by the driving mechanism to rotate; the black field mechanism, the focusing mechanism, the white field mechanism, the dispensing mechanism, the curing mechanism, the burning mechanism and the burning detection mechanism are all arranged on the machine body and are distributed in sequence at intervals around the circumference of the rotating axis of the working turntable; the working rotary table is provided with a plurality of workpiece carrying platforms which are distributed at intervals around the circumference of the rotating axis of the working rotary table;
the focusing mechanism comprises a focusing seat, a first driving assembly, a second driving assembly, a third driving assembly, a fourth driving assembly and a first light source board assembly, and the focusing seat, the first driving assembly, the second driving assembly, the third driving assembly, the fourth driving assembly and the first light source board assembly are all arranged on the machine body; the focusing seat is positioned above the workpiece carrying platform; the first light source board assembly is positioned above the focusing seat; the focusing seat is driven by the first driving component to move along the length direction of the machine body; the focusing seat is driven by the second driving assembly to move along the width direction of the machine body; the focusing seat is driven by the third driving component to move towards or away from the workpiece carrying platform along the height direction of the machine body; a focusing ring is pivoted on the focusing part, and a focusing groove matched with a lens structure of the camera is formed in the focusing ring; a plurality of focusing claws are arranged at the bottom end of the inner wall of the focusing groove; the focusing claw is used for grasping a lens of the camera when the focusing seat moves towards the position close to the workpiece carrying platform; the fourth driving assembly is used for driving the focusing ring to rotate.
2. The camera focusing and burning all-in-one machine is characterized in that a first distance-increasing lens is detachably mounted on the focusing seat, and the first distance-increasing lens is positioned between the first light source board assembly and the focusing ring.
3. The camera focusing and burning integrated machine according to claim 1, wherein the first light source board assembly comprises a first light source frame, a first light source board and a first light source board driving member, the first light source frame is fixedly connected to the machine body; the first light source plate is arranged on the first light source frame and can move along the height direction of the machine body under the driving of the first light source plate driving part.
4. The camera focusing and burning integrated machine according to claim 1, wherein the first driving assembly comprises a first electric sliding table, the second driving assembly comprises a second electric sliding table, the third driving assembly comprises a first synchronous motor, a first synchronous belt, two first synchronous wheels, a lead screw, a nut and a guide assembly, and the first electric sliding table is mounted on the machine body and arranged along the length direction of the machine body; the second electric sliding table is arranged on the sliding table of the first electric sliding table and arranged along the width direction of the machine body; the sliding table of the second electric sliding table is provided with a mounting seat; the first synchronous motor is arranged on the mounting seat, and the screw rod is pivoted on the mounting seat and extends along the height direction of the machine body; one of the first synchronizing wheels is synchronously connected with a rotating shaft of the first synchronous motor; the other first synchronous wheel is synchronously connected with the screw rod; the first synchronous belt is synchronously wound outside the two first synchronous wheels; the nut threads are sleeved outside the screw rod and fixedly connected with the focusing seat; the guide assembly is used for guiding the nut to move along the extending direction of the screw rod.
5. The camera focusing and burning all-in-one machine is characterized in that the black field mechanism comprises a first moving carrier and a first moving carrier driving assembly, and the first moving carrier driving assembly is used for driving the first moving carrier to move along the length direction and the width direction of the machine body; the first mobile carrying platform is provided with a black field light source, a CCD module and a height measuring module, and the CCD module is used for acquiring information of a workpiece on the workpiece carrying platform; the height measurement module is used for measuring the height of the workpiece.
6. The camera focusing and burning integrated machine according to claim 1, wherein the white field mechanism comprises a fixing frame, a white field light source and a white field light source driving assembly, the fixing frame is fixedly connected to the machine body, and the white field light source is mounted on the fixing frame and driven by the white field light source assembly to move along the height direction of the machine body.
7. The camera focusing and burning all-in-one machine as claimed in claim 1, wherein the dispensing mechanism comprises a dispensing gun, a dispensing frame, a second moving stage and a second moving stage driving assembly, the dispensing gun and the dispensing frame are both mounted on the second moving stage, and the second moving stage driving assembly is used for driving the second moving stage to move in the length direction and the width direction of the machine body; the dispensing gun is arranged on the dispensing frame and can move along the height direction of the dispensing frame; and a detection camera is arranged on the dispensing frame.
8. The camera focus burn all-in-one machine of claim 1, wherein the curing mechanism comprises an ultraviolet lamp mounted on the machine body.
9. The camera focusing and burning integrated machine according to claim 1, wherein a picture quality detection mechanism is disposed between the curing mechanism and the burning mechanism, the picture quality detection mechanism is located on a rotation track of the working turntable, the picture quality detection mechanism comprises a second light source plate assembly, a second distance-increasing lens and a second distance-increasing lens driving assembly, the second distance-increasing lens and the second light source plate assembly are both located above the working turntable, and the second light source plate assembly is located above the second distance-increasing lens; the second distance-increasing mirror driving component is used for driving the second distance-increasing mirror component to move along the width direction of the machine body.
10. The camera focusing and burning integrated machine according to claim 1, wherein the burning mechanism comprises a burning light source, the burning detection mechanism comprises a burning detection light source, and the burning light source and the burning detection light source are both mounted on the machine body and can move along the height direction of the machine body.
CN201910990612.2A 2019-10-17 2019-10-17 Camera focusing and burning integrated machine Pending CN110620866A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201910990612.2A CN110620866A (en) 2019-10-17 2019-10-17 Camera focusing and burning integrated machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201910990612.2A CN110620866A (en) 2019-10-17 2019-10-17 Camera focusing and burning integrated machine

Publications (1)

Publication Number Publication Date
CN110620866A true CN110620866A (en) 2019-12-27

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201910990612.2A Pending CN110620866A (en) 2019-10-17 2019-10-17 Camera focusing and burning integrated machine

Country Status (1)

Country Link
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111163266A (en) * 2020-01-06 2020-05-15 昆山丘钛微电子科技有限公司 Automatic focusing mechanism and micro-distance focusing device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111163266A (en) * 2020-01-06 2020-05-15 昆山丘钛微电子科技有限公司 Automatic focusing mechanism and micro-distance focusing device
CN111163266B (en) * 2020-01-06 2022-03-25 昆山丘钛生物识别科技有限公司 Automatic focusing mechanism and micro-distance focusing device

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