CN202837193U - Testing region charge coupled device (CCD) line scanning mechanism - Google Patents
Testing region charge coupled device (CCD) line scanning mechanism Download PDFInfo
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- CN202837193U CN202837193U CN 201220407523 CN201220407523U CN202837193U CN 202837193 U CN202837193 U CN 202837193U CN 201220407523 CN201220407523 CN 201220407523 CN 201220407523 U CN201220407523 U CN 201220407523U CN 202837193 U CN202837193 U CN 202837193U
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Abstract
Provided is a testing region charge coupled device (CCD) line scanning mechanism. The testing region CCD line scanning mechanism is characterized by comprising a long strip scanning window (19), a middle clapboard (20) of a face A and a face B, a CCD line scanning device of the face A and a CCD line scanning device of the face B. The CCD line scanning device of the face A and the CCD line scanning device of the face B are respectively arranged on both sides of the middle clapboard (20) of the face A and the face B, and the long strip scanning window (19) is arranged on the middle clapboard (20) of the face A and the face B. According to the testing region CCD line scanning mechanism, two faces are scanned simultaneously, turning motion on a product is not required, complexity of a mechanical structure is reduced, the turning motion is not needed, and efficiency reduction which is produced by turning is saved. Therefore, scanning efficiency of the two faces is high and production benefit is doubled. Meanwhile, a turning mechanism of the whole equipment is removed, size of the equipment is reduced greatly, more devices can be placed in the same space, and a use ratio of a workshop is improved effectively.
Description
Technical field
The utility model relates to machinery, electronic visual and checks technical field, specifically a kind of test section CCD line sweep mechanism.
Background technology
In the visual inspection field product is carried out visual examination at present and need to carry out multiaspect when checking, usually the mode that adopts is after the object single face scans, then behind the rolling object other one side is scanned, finish the multiaspect scanography work of object with this, this kind mode needs to finish a turn-over job of object midway, mechanism is loaded down with trivial details, and checking efficiency is lower, and agency cost is high.
Summary of the invention
Loaded down with trivial details mechanism when at present article being carried out the multiaspect visual inspection in order to simplify, save cost, improve production and check benefit, utility model provides a kind of test section CCD line sweep mechanism, adopts this scheme, allows be examined article and carry out tow sides by the vertical type motion through two-sided CCD and scan simultaneously, finish simultaneously the inspection work on two sides, need not product is overturn, reduce the complicacy of physical construction, admittedly reduce equipment failure rate because reducing switching mechanism, reduce the machine volume.Higher, the higher productivity effect of two-sided surface sweeping efficient.
The technical solution of the utility model:
A kind of test section CCD line sweep mechanism, comprise rectangular scanning window 19, AB face central dividing plate 20, A face CCD line scanning device and B face CCD line scanning device, described A face CCD line scanning device and B face CCD line scanning device are separately positioned on the both sides of AB face central dividing plate 20, and AB face central dividing plate 20 is provided with rectangular scanning window 19.
Described A face CCD line scanning device and B face CCD line scanning device are installed in respectively on A side support 1 and the B side supports 18, and A side support 1 and B side supports 18 are installed in respectively the both sides of AB face central dividing plate 20.
Be connected with A side regulating block 14 on the described A side support 1, A side regulating block 14 is arranged on the AB face central dividing plate 20.
Described A side support 1 is provided with A face bottom supporting plate 2.
Described B side supports 18 is provided with CCD power shelf base 16 and CCD bracket power cover plate 17.
Described A face CCD line scanning device comprises A face fixed head 3, A face directions X adjustable plate 4, A face Y-direction adjustable plate 7, A face Z axis rotation fixed head 8, A face Z axis rotation adjustable plate 9, A face XY rotary fixing frame 11, A face CCD fixed head 12, A face ccd sensor 13 and A face are regulated support 15, described A face directions X adjustable plate 4 is arranged on the A face fixed head 3, A face Y-direction adjustable plate 7 is arranged on the A face directions X adjustable plate 4, A face Z axis rotation fixed head 8 is arranged on the A face Y-direction adjustable plate 7, A face Z axis rotation adjustable plate 9 is arranged on A face Y-direction adjustable plate 7, A face CCD fixed head 12 is arranged on the A face XY rotary fixing frame 11, and A face ccd sensor 13 is arranged on the A face CCD fixed head 12.
Described A face CCD line scanning device also comprises A face Y-direction blend stop 5, A face directions X blend stop 6, A face Z axis rotary fine adjustment plate 10 and A face adjusting support 15, A face Y-direction blend stop 5 is arranged on A face directions X adjustable plate 4 edges, A face directions X blend stop 6 is arranged on A face Y-direction adjustable plate 7 edges, A face Z axis rotary fine adjustment plate 10 is arranged on the A face Y-direction adjustable plate 7, and the A face is regulated support 15 and is arranged on the A face fixed head 3.
Described B face CCD line scanning device comprises B face fixed head 3 ', B face directions X adjustable plate 4 ', B face Y-direction adjustable plate 7 ', B face Z axis rotation fixed head 8 ', B face Z axis rotation adjustable plate 9 ', B face XY rotary fixing frame 11 ', B face CCD fixed head 12 ', B face ccd sensor 13 ' and B face are regulated support 15 ', described B face directions X adjustable plate 4 ' is arranged on the B face fixed head 3 ', B face Y-direction adjustable plate 7 ' is arranged on the B face directions X adjustable plate 4 ', B face Z axis rotation fixed head 8 ' is arranged on the B face Y-direction adjustable plate 7 ', B face Z axis rotation adjustable plate 9 ' is arranged on the B face Y-direction adjustable plate 7 ', B face CCD fixed head 12 ' is arranged on the B face XY rotary fixing frame 11 ', and B face ccd sensor 13 ' is arranged on the B face CCD fixed head 12 '.
Described B face CCD line scanning device also comprises B face Y-direction blend stop 5 ', B face directions X blend stop 6 ', B face Z axis rotary fine adjustment plate 10 ' and B face adjusting support 15 ', B face Y-direction blend stop 5 ' is arranged on B face directions X adjustable plate 4 ' edge, B face directions X blend stop 6 ' is arranged on B face Y-direction adjustable plate 7 ' edge, B face Z axis rotary fine adjustment plate 10 ' is arranged on the B face Y-direction adjustable plate 7 ', and the B face is regulated support 15 ' and is arranged on the B face fixed head 3 '.
The beneficial effects of the utility model are:
Test section of the present utility model CCD line sweep mechanism adopts the two sides to scan simultaneously, need not product is carried out rotary movement, reduces the complicacy of physical construction, because need not to carry out rotary movement, reduces so saved the efficient that produces because of upset.Thereby the two-sided second efficient of sweeping is higher, the productivity effect that can double.Because whole equipment has reduced switching mechanism, and the volume of equipment greatly reduces, more equipment can be put in identical space, the utilization factor of Effective Raise factory building simultaneously.
Description of drawings
Fig. 1 is side structure schematic diagram of the present utility model.
Fig. 2 is perspective view of the present utility model.
Among the figure: 1 is A side support, 2 is A face bottom supporting plate, 3 is A face fixed head, 4 is A face directions X adjustable plate, 5 is A face Y-direction blend stop, 6 is A face directions X blend stop, 7 is A face Y-direction adjustable plate, 8 is A face Z axis rotation fixed head, 9 is A face Z axis rotation adjustable plate, 10 is A face Z axis rotary fine adjustment plate, 11 is A face XY rotary fixing frame, 12 is A face CCD fixed head, 13 is A face ccd sensor, 14 is A side regulating block, 15 are A face adjusting support, 3 ' is B face fixed head, 4 ' is B face directions X adjustable plate, 5 ' is B face Y-direction blend stop, 6 ' is B face directions X blend stop, 7 ' is B face Y-direction adjustable plate, 8 ' is B face Z axis rotation fixed head, 9 ' is B face Z axis rotation adjustable plate, 10 ' is B face Z axis rotary fine adjustment plate, 11 ' is B face XY rotary fixing frame, 12 ' is B face CCD fixed head, 13 ' is B face ccd sensor, 15 ' is B face adjusting support, 16 is CCD power shelf base, 17 is CCD bracket power cover plate, 18 is the B side supports, 19 is rectangular scanning window, 20 is AB face central dividing plate.
Embodiment
Following the utility model is further described in connection with the embodiment in the accompanying drawing:
Such as Fig. 1, Fig. 2, a kind of test section CCD line sweep mechanism, comprise rectangular scanning window 19, AB face central dividing plate 20, A face CCD line scanning device and B face CCD line scanning device, described A face CCD line scanning device and B face CCD line scanning device are separately positioned on the both sides of AB face central dividing plate 20, and AB face central dividing plate 20 is provided with rectangular scanning window 19.
A face CCD line scanning device and B face CCD line scanning device are installed in respectively on A side support 1 and the B side supports 18, and A side support 1 and B side supports 18 are installed in respectively the both sides of AB face central dividing plate 20.
Be connected with A side regulating block 14 on the A side support 1, A side regulating block 14 is arranged on the AB face central dividing plate 20.
A side support 1 is provided with A face bottom supporting plate 2.
B side supports 18 is provided with CCD power shelf base 16 and CCD bracket power cover plate 17.
A face CCD line scanning device comprises A face fixed head 3, A face directions X adjustable plate 4, A face Y-direction adjustable plate 7, A face Z axis rotation fixed head 8, A face Z axis rotation adjustable plate 9, A face XY rotary fixing frame 11, A face CCD fixed head 12, A face ccd sensor 13 and A face are regulated support 15, described A face directions X adjustable plate 4 is arranged on the A face fixed head 3, A face Y-direction adjustable plate 7 is arranged on the A face directions X adjustable plate 4, A face Z axis rotation fixed head 8 is arranged on the A face Y-direction adjustable plate 7, A face Z axis rotation adjustable plate 9 is arranged on the A face Y-direction adjustable plate 7, A face CCD fixed head 12 is arranged on the A face XY rotary fixing frame 11, and A face ccd sensor 13 is arranged on the A face CCD fixed head 12.
A face CCD line scanning device also comprises A face Y-direction blend stop 5, A face directions X blend stop 6, A face Z axis rotary fine adjustment plate 10 and A face adjusting support 15, A face Y-direction blend stop 5 is arranged on A face directions X adjustable plate 4 edges, A face directions X blend stop 6 is arranged on A face Y-direction adjustable plate 7 edges, A face Z axis rotary fine adjustment plate 10 is arranged on the A face Y-direction adjustable plate 7, and the A face is regulated support 15 and is arranged on the A face fixed head 3.
B face CCD line scanning device comprises B face fixed head 3 ', B face directions X adjustable plate 4 ', B face Y-direction adjustable plate 7 ', B face Z axis rotation fixed head 8 ', B face Z axis rotation adjustable plate 9 ', B face XY rotary fixing frame 11 ', B face CCD fixed head 12 ', B face ccd sensor 13 ' and B face are regulated support 16 ', described B face directions X adjustable plate 4 ' is arranged on the B face fixed head 3 ', B face Y-direction adjustable plate 7 ' is arranged on the B face directions X adjustable plate 4 ', B face Z axis rotation fixed head 8 ' is arranged on the B face Y-direction adjustable plate 7 ', B face Z axis rotation adjustable plate 9 ' is arranged on the B face Y-direction adjustable plate 7 ', B face CCD fixed head 12 ' is arranged on the B face XY rotary fixing frame 11 ', and B face ccd sensor 13 ' is arranged on the B face CCD fixed head 12 '.
B face CCD line scanning device also comprises B face Y-direction blend stop 5 ', B face directions X blend stop 6 ', B face Z axis rotary fine adjustment plate 10 ' and B face adjusting support 15 ', B face Y-direction blend stop 5 ' is arranged on B face directions X adjustable plate 4 ' edge, B face directions X blend stop 6 ' is arranged on B face Y-direction adjustable plate 7 ' edge, B face Z axis rotary fine adjustment plate 10 ' is arranged on the B face Y-direction adjustable plate 7 ', and the B face is regulated support 15 ' and is arranged on the B face fixed head 3 '.
Embodiment recited above is described preferred implementation of the present utility model; be not that design of the present utility model and scope are limited; do not breaking away under the utility model design concept prerequisite; common engineering technical personnel make the technical solution of the utility model in this area various modification and improvement; all should fall into protection domain of the present utility model, the technology contents that the utility model is asked for protection all is documented in claims.
Claims (9)
1. test section CCD line sweep mechanism, it is characterized in that comprising rectangular scanning window (19), AB face central dividing plate (20), A face CCD line scanning device and B face CCD line scanning device, described A face CCD line scanning device and B face CCD line scanning device are separately positioned on the both sides of AB face central dividing plate (20), and AB face central dividing plate (20) is provided with rectangular scanning window (19).
2. test section according to claim 1 CCD line sweep mechanism, it is characterized in that described A face CCD line scanning device and B face CCD line scanning device are installed in respectively on A side support (1) and the B side supports (18), A side support (1) and B side supports (18) are installed in respectively the both sides of AB face central dividing plate (20).
3. test section according to claim 2 CCD line sweep mechanism is characterized in that being connected with A side regulating block (14) on the described A side support (1), and A side regulating block (14) is arranged on the AB face central dividing plate (20).
4. test section according to claim 1 CCD line sweep mechanism is characterized in that described A side support (1) is provided with A face bottom supporting plate (2).
5. test section according to claim 2 CCD line sweep mechanism is characterized in that described B side supports (18) is provided with CCD power shelf base (16) and CCD bracket power cover plate (17).
6. test section according to claim 1 CCD line sweep mechanism, it is characterized in that described A face CCD line scanning device comprises A face fixed head (3), A face directions X adjustable plate (4), A face Y-direction adjustable plate (7), A face Z axis rotation fixed head (8), A face Z axis rotation adjustable plate (9), A face XY rotary fixing frame (11), A face CCD fixed head (12), A face ccd sensor (13) and A face are regulated support (15), described A face directions X adjustable plate (4) is arranged on the A face fixed head (3), A face Y-direction adjustable plate (7) is arranged on the A face directions X adjustable plate (4), A face Z axis rotation fixed head (8) is arranged on the A face Y-direction adjustable plate (7), A face Z axis rotation adjustable plate (9) is arranged on the A face Y-direction adjustable plate (7), A face CCD fixed head (12) is arranged on the A face XY rotary fixing frame (11), and A face ccd sensor (13) is arranged on the A face CCD fixed head (12).
7. test section according to claim 6 CCD line sweep mechanism, it is characterized in that described A face CCD line scanning device also comprises A face Y-direction blend stop (5), A face directions X blend stop (6), A face Z axis rotary fine adjustment plate (10) and A face adjusting support (15), A face Y-direction blend stop (5) is arranged on A face directions X adjustable plate (4) edge, A face directions X blend stop (6) is arranged on A face Y-direction adjustable plate (7) edge, A face Z axis rotary fine adjustment plate (10) is arranged on the A face Y-direction adjustable plate (7), and the A face is regulated support (15) and is arranged on the A face fixed head (3).
8. test section according to claim 1 CCD line sweep mechanism, it is characterized in that described B face CCD line scanning device comprises B face fixed head (3 '), B face directions X adjustable plate (4 '), B face Y-direction adjustable plate (7 '), B face Z axis rotation fixed head (8 '), B face Z axis rotation adjustable plate (9 '), B face XY rotary fixing frame (11 '), B face CCD fixed head (12 '), B face ccd sensor (13 ') and B face are regulated support (15 '), described B face directions X adjustable plate (4 ') is arranged on the B face fixed head (3 '), B face Y-direction adjustable plate (7 ') is arranged on the B face directions X adjustable plate (4 '), B face Z axis rotation fixed head (8 ') is arranged on the B face Y-direction adjustable plate (7 '), B face Z axis rotation adjustable plate (9 ') is arranged on the B face Y-direction adjustable plate (7 '), B face CCD fixed head (12 ') is arranged on the B face XY rotary fixing frame (11 '), and B face ccd sensor (13 ') is arranged on the B face CCD fixed head (12 ').
9. test section according to claim 8 CCD line sweep mechanism, it is characterized in that described B face CCD line scanning device also comprises B face Y-direction blend stop (5 '), B face directions X blend stop (6 '), B face Z axis rotary fine adjustment plate (10 ') and B face are regulated support (15 '), B face Y-direction blend stop (5 ') is arranged on B face directions X adjustable plate (4 ') edge, B face directions X blend stop (6 ') is arranged on B face Y-direction adjustable plate (7 ') edge, B face Z axis rotary fine adjustment plate (10 ') is arranged on the B face Y-direction adjustable plate (7 '), and the B face is regulated support (15 ') and is arranged on the B face fixed head (3 ').
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201220407523 CN202837193U (en) | 2012-08-16 | 2012-08-16 | Testing region charge coupled device (CCD) line scanning mechanism |
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CN 201220407523 CN202837193U (en) | 2012-08-16 | 2012-08-16 | Testing region charge coupled device (CCD) line scanning mechanism |
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CN202837193U true CN202837193U (en) | 2013-03-27 |
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CN 201220407523 Withdrawn - After Issue CN202837193U (en) | 2012-08-16 | 2012-08-16 | Testing region charge coupled device (CCD) line scanning mechanism |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102841096A (en) * | 2012-08-16 | 2012-12-26 | 南京协力电子科技集团有限公司 | Detecting area upright-type double-faced charge coupled device (CCD) line scanning mechanism |
-
2012
- 2012-08-16 CN CN 201220407523 patent/CN202837193U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102841096A (en) * | 2012-08-16 | 2012-12-26 | 南京协力电子科技集团有限公司 | Detecting area upright-type double-faced charge coupled device (CCD) line scanning mechanism |
WO2014026583A1 (en) * | 2012-08-16 | 2014-02-20 | 南京协力电子科技集团有限公司 | Ccd line scanning mechanism for test zone |
CN102841096B (en) * | 2012-08-16 | 2015-02-25 | 南京协力电子科技集团有限公司 | Detecting area upright-type double-faced charge coupled device (CCD) line scanning mechanism |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20130327 Effective date of abandoning: 20150225 |
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RGAV | Abandon patent right to avoid regrant |