CN105093459B - The absorption localization method of absorption type positioner and optical mirror slip - Google Patents
The absorption localization method of absorption type positioner and optical mirror slip Download PDFInfo
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- CN105093459B CN105093459B CN201410152044.6A CN201410152044A CN105093459B CN 105093459 B CN105093459 B CN 105093459B CN 201410152044 A CN201410152044 A CN 201410152044A CN 105093459 B CN105093459 B CN 105093459B
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- absorption
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- pedestal
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Abstract
The invention relates to a kind of positioner.The present invention provides a kind of absorption type positioner, include a pedestal and a tool, the pedestal includes a locating surface, and it is connected the one first absorption runner and one first pressure release runner of the locating surface respectively, the tool is removable installed on the locating surface of the pedestal, and include the second absorption runner of a linking the first absorption runner, one is connected the second pressure release runner of the first pressure release runner, and the multiple relief holes and multiple adsorption holes set away from the pedestal, the second absorption runner has multiple the second absorption discrimination roads respectively with waiting adsorption hole to be connected, the second pressure release runner has multiple the second pressure release discrimination roads respectively with waiting relief hole to be connected, these adsorption holes are corresponded to respectively and these neighbouring relief holes are set.The present invention also provides a kind of absorption localization method of optical mirror slip, is realized using above-mentioned absorption type positioner.The present invention is used in optical mirror slip processing procedure, and the advantage of elasticity assembling can be reached using dismountable tool.
Description
Technical field
The invention relates to a kind of positioner, the absorption of a kind of absorption type positioner and optical mirror slip is particularly related to
Localization method.
Background technology
As shown in figure 1, the clipping lens orientation device 1 of prior art is controlled suitable for folder and fixes an optical mirror slip 10, should
Optical mirror slip 10 includes an effective district 101, and a breasting area 102 outside the effective district 101, and the positioner includes a base
Seat 11, multiple lower clamping jaws 12 being movably arranged on the pedestal 11, and multiple upper gripper jaws to clamping jaw 12 should be descended to set
13.By the way that the support of breasting area 102 of the optical mirror slip 10 is held on the lower clamping jaw 12, then by these upper gripper jaws 13
The top in the breasting area 102, just can spacing clamping optical mirror slip 10.
Although such design can effectively fix the optical mirror slip 10, because clamping jaws 12 and these upper gripper jaws 13 are under these
It is locked on the pedestal 11, therefore has the shortcomings that adjustment is difficult.And the optical mirror slip 10 is picked and placeed every time, all needs first to release these
Upper gripper jaw 13, and positioning locking is re-started again after completing to pick and place material, using upper quite inconvenient.If changing the optical mirror slip 10
Overall dimensions when, also need to readjust the position of the lower clamping jaw 12, it is impossible to effectively improve prouctiveness.
The content of the invention
Therefore, the purpose of the present invention, i.e., provide it is a kind of can quick fetching optical mirror slip and can according to optical mirror slip external form
The absorption type positioner that elasticity is selected.
Therefore, the purpose of the present invention, that is, providing a kind of simple to operate, and can be selected according to the external form elasticity of optical mirror slip
The absorption localization method of optical mirror slip.
Then, absorption type positioner of the present invention, includes a pedestal and a tool.
The pedestal includes a locating surface and is connected the one first absorption runner and one first pressure release stream of the locating surface respectively
Road.
The tool is removable installed on the locating surface of the pedestal, and is connected the second of the first absorption runner including one
Adsorb runner, one be connected the second pressure release runner of the first pressure release runner, and the multiple relief holes and many set away from the pedestal
Individual adsorption hole, the second absorption runner has multiple the second absorption discrimination roads being connected respectively with grade adsorption hole, second pressure release
Runner has multiple the second pressure release discrimination roads being connected respectively with grade relief hole, and these adsorption holes are corresponded to respectively and neighbouring these are let out
Hole is pressed to set.
Then, the absorption localization method of optical mirror slip of the present invention, it is adaptable to for the optical mirror slip of several different overall dimensions
Positioning, each optical mirror slip has an effective district and a breasting area outside the effective district, and the absorption localization method is included
The following steps:
Step (A):An absorption type positioner is prepared, the absorption type positioner includes a pedestal, and multiple detachable
Ground is installed in the tool of the pedestal, and the pedestal includes the one first absorption runner and one first pressure release runner for extending through setting,
Each tool includes respectively being connected in the first absorption runner and one second pressure release runner of the first pressure release runner and one the
Two absorption runners, and multiple support faces, multiple relief holes and the multiple adsorption holes set away from the pedestal, the second pressure release runner
With multiple the second pressure release discrimination roads being connected respectively with grade relief hole, the second absorption runner has multiple respectively with waiting absorption
The second absorption discrimination road that hole is connected, these relief holes extend through these support faces, and these adsorption holes are corresponded to and circular respectively
These support faces are set, and the support face of indivedual tools has different overall dimensions, and having for optical mirror slip not of the same race is corresponded to respectively
Imitate area.
Step (B):According to the overall dimensions of this to be handled kind optical mirror slip, corresponding tool is selected;
Step (C):The corresponding tool is positioned on the pedestal, and makes the second pressure release runner and first pressure release
Runner is connected, and the second absorption runner is connected with the first absorption runner;
Step (D):Start the negative pressure source of a connection the first absorption runner;And
Step (E):Many pieces of this kind of optical mirror slips are respectively placed on these support faces, the effective district of these optical mirror slips
These relief holes are corresponded to respectively, and the breasting area of these optical mirror slips corresponds to these adsorption holes respectively.
Effect of the present invention is, by dismountable tool, the overall dimensions according to different optical mirror slips can be easy to enter
Row quick-replaceable, then by corresponding to these the second pressure release runners and these the second absorption streams that these optical mirror slips are set respectively
Road, can reach effect of quick fetching optical mirror slip.
Brief description of the drawings
The other features and effect of the present invention, will clearly be presented in embodiment referring to the drawings, wherein:
Fig. 1 is the partial sectional view of the clipping lens orientation device 1 of a prior art;
Fig. 2 is a schematic diagram, illustrates that one first preferred embodiment of absorption type positioner of the present invention is controlled in collocation difference
State during tool;
Fig. 3 is a three-dimensional combination figure, illustrates the assembling position relation of first preferred embodiment;
Fig. 4 is the top view of the explanation pedestal;
Fig. 5 is the top view of the explanation tool;
Fig. 6 is the lower view of the explanation tool;
Fig. 7 is the profile along the line VII-VII in Fig. 3;
Fig. 8 is the profile along the line VIII-VIII in Fig. 3;
Fig. 9 is similar to Fig. 7 view, illustrates state when different tools are installed in the pedestal;And
Figure 10 is a schematic diagram, illustrates one second preferred embodiment of absorption type positioner of the present invention.
Embodiment
Before the present invention is described in detail, it shall be noted that in the following description content, similar component is with identical
Numbering represent.
Shown as shown in Figure 2, Figure 3 and Figure 4, the first preferred embodiment of absorption type positioner of the present invention is suitable for multiple light
Learn eyeglass 20 to set, these optical mirror slips 20 have an effective district 21, and a breasting area 22 outside the effective district 21 respectively.
The absorption type positioner includes a pedestal 3 and an at least tool 4.Such as the different eyeglasses 20 of two kinds of display in Fig. 2, pass through one respectively
Tool 4 is positioned, figure 3 below, and Fig. 5 to Fig. 8 is depicted as one of which tool 4, and Fig. 9 is depicted as another tool 4.
The pedestal 3 includes a locating surface 31, a groove 32, multiple boss 33, one first absorption runner 34, one first pressure release
Runner 35, and a tool positioning unit 36.
The groove 32 is recessed from the locating surface 31, and these boss 33 are arranged at intervals in the groove 32.It is good compared with first in this
In embodiment, the top surface of these boss 33 and the essence of locating surface 31 are upper in same plane.
The first absorption runner 34 is connected in the locating surface 31, and is located at one between the groove 32 and these boss 33
Pneumatic trough 341, and one can conflux the pneumatic trough 341 and the absorption that an outside negative pressure source (not shown) is connected section 342.It is logical
Cross the absorption conflux section 342 can be in the subnormal ambient of construction one in the pneumatic trough 341.The pneumatic trough 341 of the first absorption runner 34
Also can be multiple, and respectively around the outside for being arranged at these boss 33.
The first pressure release runner 35 is connected in the locating surface 31, and extends through the first of these boss 33 with multiple and let out
Ya Qi roads 351, and one can conflux the pressure release that these the first pressure release discrimination roads 351 are communicated to outside the pedestal 3 section 352.Let out by this
Section 352 of confluxing is pressed to make these the first pressure release discrimination roads 351 are permanent to keep balancing with ambient pressure.
In this first preferred embodiment, the first absorption runner 34 and the first pressure release runner 35 are by vertical
On be staggered, and absorption section 342 and the pressure release section 352 of confluxing of confluxing is distinguished insertion and is connected the different of the pedestal 3
Sideways, the advantage for being easy to the identification of operator can be reached, and then is avoided confusion.
The tool positioning unit 36 is arranged on the locating surface 31 of the pedestal 3, and with two spaced locating flanges
361, and a stop part 362 for being orthogonal to these locating flanges 361.In this first preferred embodiment, the stop part 362 is two
Protruding pin.
As shown in Fig. 5, Fig. 6 and Fig. 7, the tool 4 is removable installed on the locating surface 31 of the pedestal 3, and can be bearing on
Between these locating flanges 361 and the stop part 362 (see Fig. 3) of the tool positioning unit 36.The tool 4 includes a body
41st, an airtight face 42, multiple core pieces 43, multiple relief holes 44, one second pressure release runner 45, multiple adsorption holes 46, one second
Adsorb runner 47, and a lens orientation unit 48.
The airtight face 42 is located at the body 41 of the tool 4 and the neighbouring pedestal 3.In this compared with the first good embodiment, the gas
Close face 42 is substantially a plane, and can prevent the airtight face 42 relative to the positioning of the pedestal 3 by the tool positioning unit 36
Face 31 slides, and then reaches and keep airtight effect with the locating surface 31.
These down of core pieces 43 have these optical mirror slips of shape correspondence respectively in the body 41 of the tool 4
The support face 431 of 20 effective district 21, by changing the outside dimension of these core pieces 43 and the bumps in corresponding support face 431
Curvature, can make these core pieces 43 correspond to the optical mirror slip 20 of different overall dimensions, or at least make these core pieces 43 will not
Touch the effective district 21 of optical mirror slip 20.These relief holes 44 are arranged at away from the pedestal 3 in corresponding core pieces 43, and
Through corresponding support face 431.The second pressure release runner 45 can be connected in the first pressure release runner 35, and with multiple difference
It is disposed through the second pressure release discrimination road 451 being connected in these core pieces 43 and with these relief holes 44, the second pressure release stream
Road 45 can by with the first pressure release runner 35 for being connected of the external world, the gas perseverance in these relief holes 44 is kept circulation shape
State, and when these optical mirror slips 20 are picked and placeed, be avoided that the curvature in corresponding support face 431 is just concavo-convex and correspond to these optics
During the effective district 21 of eyeglass 20, and the vacuum adsorption phenomenon produced, and then avoid causing these optical mirror slips 20 when picking and placeing
Damage.
As can be seen from figures 8 and 9, these adsorption holes 46 are arranged on the body 41 of the tool 4 away from the pedestal 3, and respectively
These corresponding and neighbouring relief holes 44 are set, and with multiple around corresponding relief hole 44 and in the shuntings of circular arc type setting
Portion 461.The second absorption runner 47 can be connected in the pneumatic trough 341 of the first absorption runner 34, and be extended through with multiple
It is arranged in the body 41 of the tool 4, and the second absorption discrimination road 471 being connected with these adsorption holes 46.
In this first preferred embodiment, these down of core pieces 43 are located at the body 41 of the tool 4 and are located at these respectively
In second absorption discrimination road 471, and with the body 41 around these adsorption holes 46 are defined, now, the bottom of the body 41 of the tool 4
Face and the bottom surface of these core pieces 43 form the airtight face 42.Only these core pieces 43 can be also integrally formed with the body 41, this
A little direct machine-shapings of adsorption hole 46 are on the body 41, and now, the external form of these distributary divisions 461 also can be annular point-like, put
Aplysia punctata, or the (not shown) such as C-shaped arcuation.
It is preferred that the external diameter in these the second absorption discrimination roads 471 is more than the external diameter of these adsorption holes 46, except that can be easily installed
Outside these core pieces 43, be also avoided that foreign matter is stuck in wherein, and influence effect of vacuum suction, and larger external diameter these
Two absorption discrimination roads 471, which can also produce one, can stablize the air chamber of negative pressure source, and then improve the quality and efficiency of absorption.
These lens orientation units 48 are respectively arranged at the periphery of these adsorption holes 46, and are applied to arrest limit phase with multiple
The keeper 481 of corresponding optical mirror slip 20, these keepers 481 can make the correspondence of effective district 21 of corresponding optical mirror slip 20
In corresponding relief hole 44, the breasting area 22 corresponds to corresponding adsorption hole 46.In this preferred embodiment, these positioning
The quantity of part 481 is three and is in round pin shape, and is inserted in around interval on the body 41 of the tool 4, only these keepers 481
It can be outwardly from the body 41 of the tool 4, and be arranged at the flange being bearing on outside area 22 of the optical mirror slip 20 in a ring
Shape structure.
As shown in Figure 10, the second preferred embodiment of absorption type positioner of the present invention is similar to the first preferably implementation
Example, its difference be in:The pedestal 3 also includes a drop-proof structure 37 being formed between these locating flanges 361, the tool 4
Set with the drop-proof structure 37 into bumps and shape is corresponding, and the airtight face 42 of the tool 4 can be prevented by the drop-proof structure 37
Locating surface 31 away from the pedestal 3.In this second preferred embodiment, the drop-proof structure 37 is in dovetail channel-shaped.The only anti-avulsion knot
The shape of structure 37 also can be it is any can be set with the tool 4 in concavo-convex, and can for slip external form.
For another example shown in Fig. 2, Fig. 7 and Fig. 8, it is made up of said structure, can be by the excellent of absorption type positioner of the present invention
Point is summarized as follows with effect:
First, by the tool 4, the use except that can be easy to operator because conveniently replaced also can be according to different overall dimensions
These optical mirror slips 20 and prepare more than two different types of tools 4 so that except can reach elasticity selection effect,
Because only needing a corresponding pedestal 3, and reach section space-efficient advantage.
2nd, by the first pressure release runner 35, these relief holes 44, and the second pressure release runner 45, it is avoided that these light
The support face 431 of the effective district 21 and these core pieces 43 of learning eyeglass 20 produces vacuum adsorption phenomenon, and then avoids when picking and placeing
Cause the damage of these optical mirror slips 20.
3rd, when the pedestal 3 sets the anti-avulsion of a locating surface 31 of the airtight face 42 away from the pedestal 3 that can prevent the tool 4
During structure 37, can be avoided by the drop-proof structure 37 tool 4 in use, because outside negative pressure source is unstable and above and below producing
Oscillation phenomenon, improves precision during detection.
Using above-mentioned absorption type positioner, the absorption localization method of optical mirror slip 20 of the present invention is as follows:
Step (A):Prepare an absorption type positioner 2, the absorption type positioner 2 include a pedestal 3, and it is multiple can
The tool 4 of the pedestal 3 is releasably installed in, the pedestal 3 includes the one first absorption runner 34 and 1 first for extending through setting
Pressure release runner 35, each tool 4 includes respectively being connected one the in the first absorption runner 34 and the first pressure release runner 35
Two pressure release runners 45 and one second absorption runner 47, and multiple support faces 431 away from the pedestal 3 setting, multiple relief holes 44
And multiple adsorption holes 46, the second pressure release runner 45 is with multiple the second pressure release discrimination roads respectively with waiting relief hole 44 to be connected
451, the second absorption runner 47 has multiple the second absorption discrimination roads 471 being connected respectively with grade adsorption hole 46, these pressure releases
Hole 44 extends through these support faces 431, and these adsorption holes 46 are corresponded to and set around these support faces 431, Ge Biezhi respectively
The support face 431 of tool 4 has different overall dimensions, and the effective district 21 of different types of optical mirror slip 20 can be corresponded to respectively.
Step (B):According to the overall dimensions of this to be handled kind optical mirror slip 20, corresponding tool 4 is selected.
Step (C):The corresponding tool 4 is positioned on the pedestal 3, and make the second pressure release runner 45 with this first
Pressure release runner 35 is connected, and the second absorption runner 47 is connected with the first absorption runner 34.
Step (D):Start the negative pressure source (not shown) of a connection the first absorption runner 34.
Step (E):Many pieces of this kind of optical mirror slips 20 are respectively placed on these support faces 431, these optical mirror slips 20
Effective district correspond to these relief holes 44 respectively, the breasting area 22 of these optical mirror slips 20 corresponds to these adsorption holes 46 respectively.
So as to which the effective district of these optical mirror slips 20 is vented towards the second pressure release runner 45 respectively, these optical mirror slips 20
Breasting area 22 fixed respectively by the positioning of the suction of the negative pressure source.
The order of special instruction, the step (D) and step (E) can be exchanged, that is to say, that be readily modified as first will be many
After piece this kind of optical mirror slip 20 is respectively placed on these support faces 431, restart a connection the first absorption runner 34
Negative pressure source (not shown).
By above-mentioned narration, the absorption localization method of optical mirror slip of the present invention not only flexible effect used also has
Have the advantages that just to reach without using additional means and quickly assemble, be not only avoided that such as the known clipping institute of lens orientation device 1
The complex adjustment mechanism disclosed, and the shortcoming that optical mirror slip 20 is difficult is picked and placeed, overall volume also can be substantially reduced, is reached
It is easy to the effect for assembling and using.
In summary, by dismountable tool 4, it can be easy to carry out quickly according to the overall dimensions of different optical mirror slips 20
Change, then by corresponding to these the second pressure release runners 45 and these the second absorption runners that these optical mirror slips 20 are set respectively
47, effect of the quick fetching optical mirror slip 20 can be reached, therefore the purpose of the present invention can be reached really.
Although specifically showing and describing the present invention with reference to preferred embodiment, those skilled in the art should be bright
In vain, do not departing from the spirit and scope of the present invention that appended claims are limited, in the form and details can be right
The present invention makes a variety of changes, and is protection scope of the present invention.
Claims (10)
1. a kind of absorption type positioner, comprising:
One pedestal, including a locating surface and the one first absorption runner and one first pressure release runner that are connected the locating surface respectively, should
First absorption runner is connected with a negative pressure source;And
One tool, is removable installed on the locating surface of the pedestal, and includes the second suction of a linking the first absorption runner
The second pressure release runner that attached runner, one are connected the first pressure release runner, and the multiple relief holes and multiple set away from the pedestal
Adsorption hole, the second absorption runner has multiple the second absorption discrimination roads being connected respectively with corresponding adsorption hole, second pressure release
Runner has multiple the second pressure release discrimination roads being connected respectively with corresponding relief hole, and these adsorption holes are corresponded to and adjacent to these respectively
Relief hole is set.
2. absorption type positioner as claimed in claim 1, it is characterised in that:Each adsorption hole also has multiple right around institute
The distributary division for the relief hole answered, the tool also includes multiple lens orientation units for being respectively arranged at these adsorption hole peripheries, often
One lens orientation unit is applied to arrest one optical mirror slip of limit, and the optical mirror slip has an effective district and one outside the effective district
Area is bearing on, the lens orientation unit is surrounded on the breasting area, and the breasting area can be made to correspond to the adsorption hole, effective district correspondence
In the relief hole.
3. absorption type positioner as claimed in claim 2, it is characterised in that:The tool is also posted by the pedestal including one
The airtight face of locating surface, the pedestal, which also includes one, can prevent the airtight face of the tool from positioning list with respect to the tool that the locating surface slides
Member.
4. absorption type positioner as claimed in claim 3, it is characterised in that:The pedestal, which also includes one, can prevent the tool
Drop-proof structure of the airtight face away from the locating surface.
5. absorption type positioner as claimed in claim 4, it is characterised in that:There are the tool positioning unit a pair of intervals to set
The locating flange being placed on the locating surface of the pedestal, and one be arranged on the locating surface of the pedestal and be orthogonal to these locating flanges
Stop part, a dovetail groove for defining the drop-proof structure is formed between these locating flanges, the tool is spacing to be bearing on these
Between locating flange and the stop part.
6. absorption type positioner as claimed in claim 5, it is characterised in that:The tool also includes one can be for these the second suctions
Fu Qi roads are through the body set, and multiple down are located at the body and are located at respectively in these the second absorption discrimination roads, and can distinguish
For these the second pressure release discrimination roads through the core pieces set, the core pieces have a shape to should optical mirror slip effective district
Support face, defines these adsorption holes respectively between the body and these core pieces.
7. absorption type positioner as claimed in claim 6, it is characterised in that:It is recessed from the locating surface that the pedestal also includes one
Groove, and multiple boss for being arranged at the groove, the first absorption runner has one to be located between the groove and these boss
Pneumatic trough, the pneumatic trough is connected with the second absorption runner, and the first pressure release runner has multiple through these boss
First pressure release discrimination road, these boss top surfaces are with locating surface position in same plane, the body bottom surface and these core rods of the tool
Block bottom surface forms the airtight face, and position is in same plane.
8. absorption type positioner as claimed in claim 3, it is characterised in that:The tool also includes one can be for these the second suctions
Fu Qi roads are through the body set, and multiple down are located at the body and are located at respectively in these the second absorption discrimination roads, and can distinguish
For these the second pressure release discrimination roads through the core pieces set, the core pieces have a shape to should optical mirror slip effective district
Support face, defines these adsorption holes respectively between the body and these core pieces.
9. absorption type positioner as claimed in claim 8, it is characterised in that:It is recessed from the locating surface that the pedestal also includes one
Groove, and multiple boss for being arranged at the groove, the first absorption runner has one to be located between the groove and these boss
Pneumatic trough, the pneumatic trough is connected with the second absorption runner, and the first pressure release runner has multiple through these boss
First pressure release discrimination road, these boss top surfaces are with locating surface position in same plane, the body bottom surface and these core rods of the tool
Block bottom surface forms the airtight face, and position is in same plane.
10. the absorption localization method of a kind of optical mirror slip, it is adaptable to positioned for the optical mirror slip of several different overall dimensions, each
Planting optical mirror slip has an effective district and a breasting area outside the effective district, and the absorption localization method is comprised the steps of:
Step (A):An absorption type positioner is prepared, the absorption type positioner includes a pedestal, and multiple removably fills
Located at the tool of the pedestal, the pedestal includes the one first absorption runner and one first pressure release runner for extending through setting, each
Tool includes respectively being connected in the first absorption runner and one second pressure release stream of the first pressure release runner and one second absorption
Runner, and multiple support faces, multiple relief holes and the multiple adsorption holes set away from the pedestal, the second pressure release runner has many
Individual the second pressure release discrimination road being connected respectively with corresponding relief hole, this second absorption runner have it is multiple respectively with corresponding adsorption hole
The second absorption discrimination road being connected, these relief holes extend through these support faces, and these adsorption holes are corresponded to and around this respectively
A little support faces are set, and the support face of indivedual tools has different overall dimensions, and the effective of optical mirror slip not of the same race is corresponded to respectively
Area;
Step (B):According to the overall dimensions for this kind of optical mirror slip for being intended to handle, corresponding tool is selected;
Step (C):The corresponding tool is positioned on the pedestal, and makes the second pressure release runner and the first pressure release runner
It is connected, the second absorption runner is connected with the first absorption runner;
Step (D):Start the negative pressure source of a connection the first absorption runner;And
Step (E):Many pieces of this kind of optical mirror slips are respectively placed on these support faces, the effective district difference of these optical mirror slips
These relief holes of correspondence, the breasting area of these optical mirror slips corresponds to these adsorption holes respectively.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
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CN201410152044.6A CN105093459B (en) | 2014-04-15 | 2014-04-15 | The absorption localization method of absorption type positioner and optical mirror slip |
TW103114980A TWI516820B (en) | 2014-04-15 | 2014-04-25 | Suction positioning device and method for suction positioning optical lens |
Applications Claiming Priority (1)
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CN201410152044.6A CN105093459B (en) | 2014-04-15 | 2014-04-15 | The absorption localization method of absorption type positioner and optical mirror slip |
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CN105093459B true CN105093459B (en) | 2017-10-20 |
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CN106970447A (en) * | 2016-01-13 | 2017-07-21 | 元利盛精密机械股份有限公司 | Camera lens anti-dazzling screen takes the method for putting and its tool |
CN106019653B (en) | 2016-07-22 | 2019-04-23 | 京东方科技集团股份有限公司 | False pressure head component |
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CN1454137A (en) * | 2000-05-26 | 2003-11-05 | 庄臣及庄臣视力保护公司 | Process for the automated manufacture of spectacle lenses |
CN101835598A (en) * | 2007-08-21 | 2010-09-15 | 庄臣及庄臣视力保护公司 | The method for preparing ophthalmic lens precursor and eyeglass |
CN102023321A (en) * | 2009-09-21 | 2011-04-20 | 一品光学工业股份有限公司 | Disc-shaped optical lens array and manufacturing method thereof |
CN203317214U (en) * | 2013-06-25 | 2013-12-04 | 广州海鸥卫浴用品股份有限公司 | Vacuum adsorption device |
CN103429386A (en) * | 2011-03-17 | 2013-12-04 | 萨特隆股份公司 | Device for the fine machining of optically active surfaces on in particular spectacle lenses |
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- 2014-04-25 TW TW103114980A patent/TWI516820B/en active
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JPH10236759A (en) * | 1997-02-27 | 1998-09-08 | Tokimetsuku Power Syst:Kk | Control valve for vacuum pad and carrying system using this control valve for vacuum pad |
CN1454137A (en) * | 2000-05-26 | 2003-11-05 | 庄臣及庄臣视力保护公司 | Process for the automated manufacture of spectacle lenses |
CN101835598A (en) * | 2007-08-21 | 2010-09-15 | 庄臣及庄臣视力保护公司 | The method for preparing ophthalmic lens precursor and eyeglass |
CN102023321A (en) * | 2009-09-21 | 2011-04-20 | 一品光学工业股份有限公司 | Disc-shaped optical lens array and manufacturing method thereof |
CN103429386A (en) * | 2011-03-17 | 2013-12-04 | 萨特隆股份公司 | Device for the fine machining of optically active surfaces on in particular spectacle lenses |
CN203317214U (en) * | 2013-06-25 | 2013-12-04 | 广州海鸥卫浴用品股份有限公司 | Vacuum adsorption device |
Also Published As
Publication number | Publication date |
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TWI516820B (en) | 2016-01-11 |
TW201539077A (en) | 2015-10-16 |
CN105093459A (en) | 2015-11-25 |
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