CN108098622A - A kind of glass localization tool and glass localization method - Google Patents
A kind of glass localization tool and glass localization method Download PDFInfo
- Publication number
- CN108098622A CN108098622A CN201711158821.8A CN201711158821A CN108098622A CN 108098622 A CN108098622 A CN 108098622A CN 201711158821 A CN201711158821 A CN 201711158821A CN 108098622 A CN108098622 A CN 108098622A
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- glass
- platform
- groove
- positioning
- glass processing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B11/00—Work holders not covered by any preceding group in the subclass, e.g. magnetic work holders, vacuum work holders
Abstract
The present invention relates to glass processing field more particularly to a kind of glass localization tools and glass localization method.The glass localization tool of the present invention, including the second glass processing locating platform and the first glass processing locating platform being disposed adjacent, the second glass processing locating platform includes the second positioning area of positioning glass close to the side of the first glass processing locating platform, the upper surface of the first glass processing locating platform includes the first positioning area of positioning glass, when the second glass processing locating platform close to the direction of the first glass processing locating platform towards after being rotated by 90 °, projection of second positioning area on the first glass processing locating platform and the first positioning area shape area all same, glass is after the second positioning area completes glass processing work, the glass, which is rotated by 90 °, is fixed on the progress glass processing work of the first positioning area.The advantages of glass localization tool of the present invention is convenient with being converted between the not glass processing program of same-action, raising production yield.
Description
【Technical field】
The present invention relates to glass processing field more particularly to a kind of glass localization tools and glass localization method.
【Background technology】
It is beautiful and generous due to glass made of quartz, it is deep to be liked by consumers in general, and with very big market.
Associated glass process equipment on the market is transformed into another after the completion of a glass machining technique mostly now
Program is relatively complicated when in glass machining technique, and production yield is relatively low, causes cost height, efficiency low.
【The content of the invention】
It is complicated to overcome the cumbersome with the conversion between the not glass processing program of same-action of existing technology
Problem the present invention provides a kind of conversion having not between the glass processing program of same-action is convenient, improves production yield
Glass localization tool and glass localization method.
The scheme that the present invention solves technical problem is to provide a kind of glass localization tool, be used to aiding in fixed glass come into
Row processing, it is characterised in that:The glass localization tool includes the second glass processing locating platform and the first glass that are disposed adjacent
Glass locating and machining platform, the second glass processing locating platform include positioning close to the side of the first glass processing locating platform
Second positioning area of glass includes the first positioning area of positioning glass on the upper surface of the first glass processing locating platform,
When the second glass processing locating platform close to the direction of the first glass processing locating platform towards after being rotated by 90 °, described second positions
Projection of the area on the first glass processing locating platform and the first positioning area shape area all same, glass are complete in the second positioning area
After working into glass processing, the glass, which is rotated by 90 °, is fixed on the progress glass processing work of the first positioning area.
Preferably, the glass localization tool, which further includes, carries glass platform, and the load glass platform is for bearing glass, the load
For glass platform between the first glass processing locating platform and the second glass processing locating platform, the load glass platform is " convex " word
Shape structure, including integrally formed pedestal and boss, the boss is arranged on pedestal, and the boss size is less than pedestal ruler
Very little, the boss is used for bearing glass.
Preferably, it is provided in the pedestal on the face of boss and opens up at least two first through hole, in second glass
In second positioning area of locating and machining platform, at least two positioning columns corresponding with the first through hole position dimension, institute are set
State carry glass platform be fixed on the second positioning area on the second glass processing locating platform carry out glass processing work when, it is described fixed
Position column penetrates in first through hole to realize the positioning for carrying glass platform on the second glass processing locating platform.
Preferably, the glass localization tool further includes a concave appliance, and the concave appliance offers first on one side
Groove, in terms of the depth direction of first groove, the shape size of first groove and the shape size complete one of pedestal
It causes, the depth of first groove is greater than or equal in terms of the depth direction of the first groove the thickness for carrying glass platform, described the
The bottom of one groove offers the second groove, from the depth direction of the second groove, the shape size of second groove with
The shape size of boss is completely the same, the depth of second groove be less than between face and pedestal of the boss away from pedestal away from
From offering at least one 5th groove in the edge of second groove, the 5th groove connects and deep with the second groove
It spends equal, a rectangular third through-hole is opened up in second groove, glass is described when being positioned on the carrier wave platform
Pedestal and at least part boss are contained in the first groove, and glass is against by boss in second groove.
Preferably, the first glass processing locating platform is rectangular entity, in the first glass processing locating platform
The first positioning area in offer the 3rd groove, from the depth direction of the 3rd groove, the shape size of the 3rd groove with
Base shape is in the same size, and the depth of the 3rd groove is less than or equal to the axial length of first through hole on pedestal, is put down in the load glass
When platform is placed on the first positioning area of the first glass processing locating platform, pedestal is at least partially housed in the 3rd groove, convex
Platform is located at outside the 3rd groove.
Preferably, a matrix pattern groove is opened up in the slot bottom of the 3rd groove, is opened at the center of the matrix pattern groove
If the first counterbore, first counterbore be evacuation passageway, the center of first counterbore, the center of the 3rd groove and matrix pattern
The center of groove point-blank, offers the second counterbore on the side of the first glass processing locating platform, described
The distal portion of second counterbore intersects with the distal portion of first counterbore, and second counterbore sets for being vacuumized with outside
Standby connection.
Preferably, the second counterbore, second counterbore are offered on the side of the first glass processing locating platform
Distal portion intersect with the distal portion of the fourth hole, second counterbore with external vaccum-pumping equipment for being connected.
The scheme that the present invention solves technical problem is to provide a kind of glass localization method, includes the following steps:
Step S1:Glass to be processed is fixed on the load glass platform by spreading glue;
Step S2:Then the load glass platform is removably mounted to described in the second glass processing locating platform
Glass processing work is carried out on second positioning area;And
Moving to the progress illumination of glue curing machine makes glue curing to realize glass to be processed consolidating on the load glass platform
It is fixed;
Step S3:After the completion of processing work, the load glass platform is rotated by 90 ° and is removably mounted to first glass
Glass processing work is carried out on first positioning area of locating and machining platform.
Preferably, step S4:After the completion of processing work, the load glass platform is soaked in a tepid bath, hydrolysis colloidality is taken out
Glass, the temperature of the warm water are T, 50 DEG C≤T≤85 DEG C.
Preferably, a concave utensil is provided, the step S1 includes the following steps:
Step S11:Glass to be processed is placed in the concave appliance;
Step S12:Spreading glue on glass to be processed, then the load glass platform is put into concave utensil coordinate it is recessed
Type utensil is fixed glass to be processed;And
Step S13:Moving to the progress illumination of glue curing machine makes glue curing to realize that glass to be processed is put down in the load glass
Fixation on platform.
Compared with prior art, glass localization tool of the invention includes the second glass processing locating platform being disposed adjacent
With the first glass processing locating platform, it is fixed that the second glass processing locating platform is provided with close to the side of glass processing locating platform
Second positioning area of position glass, the upper surface of the first glass processing locating platform are provided with positioning the first positioning area of glass, glass
Locating and machining platform is rotated by 90 ° rear second positioning area in the first glass processing towards close to the direction of the first glass processing locating platform
Projection and the first positioning area shape area all same on locating platform.Second positioning area and the face residing for the first positioning area are mutual
Vertically, 90 ° of angle is convenient for technologic adjusting and operation, the second positioning area and the first positioning area shape area all same, system
For one shape convenient for the unified transfer platform of manufactured size, the conversion speed accelerated between two locating platforms saves the time.
The load glass platform of the glass localization tool of the present invention is "convex" shaped integral structure, convenient for the installing and dismounting of glass
And processing.
First through hole is provided on the load glass platform of the glass localization tool of the present invention, for being positioned with the second glass processing
Positioning column cooperation on second positioning area of platform, so when the second glass processing locating platform works, vacuumizes and sets
During standby pumping, positioning column can limit the position for carrying glass platform, and load glass platform is made not slided.
The glass localization tool of the present invention further includes a concave appliance, which is used for being engaged more with carrying glass platform
Glass is fixed on the boss for carrying glass platform well.
It is recessed that the 3rd is provided on first positioning area of the first glass processing locating platform of the glass localization tool of the present invention
Slot, the 3rd groove can limit the position for carrying glass platform on the first glass processing locating platform, make load glass platform in the course of work
In will not be slided.
It is recessed that matrix pattern is offered in 3rd groove of the first glass processing locating platform of the glass localization tool of the present invention
Slot, the center of matrix pattern groove offer the first counterbore, and it is heavy that second is offered on the side of the first glass processing locating platform
The distal portion of hole, the first counterbore and the second counterbore intersects, and is to make in the first glass processing locating platform course of work
Vaccum-pumping equipment is evacuated by the second counterbore, and suction holds via the first counterbore and carries glass platform, and matrix pattern groove is for that will inhale
Power is uniformly distributed to glass platform is carried, and the uneven possible caused glass platform that carries of suction is avoided to turn over.
One is opened up in second positioning area of the second glass processing locating platform of the glass localization tool of the present invention in rectangular
4th groove of the bodily form, the center of the 4th bottom portion of groove open up a second cylindrical through hole.Carrying out glass processing work
During skill, vaccum-pumping equipment is evacuated by the second through hole, and suction carries glass platform, the effect of the 4th groove by the 4th groove to hold
It is for suction is uniformly distributed to glass platform is carried, load glass platform is made preferably to adsorb on the second glass processing locating platform.
【Description of the drawings】
Fig. 1 is the dimensional structure diagram of glass localization tool of the present invention.
Fig. 2A is the dimensional structure diagram of the load glass platform of glass localization tool of the present invention.
Fig. 2 B are the front views of the load glass platform of glass localization tool of the present invention.
Fig. 3 is the dimensional structure diagram of the concave appliance of glass localization tool of the present invention.
Fig. 4 A are the dimensional structure diagrams of the first glass processing locating platform of glass localization tool of the present invention.
Fig. 4 B are the front views of the first glass processing locating platform of glass localization tool of the present invention.
Fig. 5 A are the dimensional structure diagrams of the second glass processing locating platform of glass localization tool of the present invention.
Fig. 5 B are the front views of the second glass processing locating platform of glass localization tool of the present invention.
Fig. 5 C are the rearviews of the second glass processing locating platform of glass localization tool of the present invention.
Fig. 6 is the flow chart of the method for glass positioning of the present invention.
【Specific embodiment】
In order to make the purpose of the present invention, technical solution and advantage are more clearly understood, below in conjunction with attached drawing and embodiment,
The present invention will be described in further detail.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention,
It is not intended to limit the present invention.
Referring to Fig. 1, the present invention provides a kind of glass localization tool 10, it is used to that fixed glass to be aided in be processed,
It is particularly suitable for that fixed Watch glass is aided in be processed.The glass localization tool 10 includes carrying glass platform 11, the first glass
Locating and machining platform 12, the second glass processing locating platform 13 and concave appliance 14 carry glass platform 11, the first glass processing positioning
Platform 12, the second glass processing locating platform 13 and concave appliance 14 are independently arranged mutually.The second glass processing positioning is flat
Platform 13 is used to the surface of glass to be processed being processed into curved surface, and the first glass processing locating platform 12 is used for to be processed
The thickness of glass is processed.The upper surface of first glass processing locating platform 12 includes the first positioning area 15 of positioning glass,
Second glass processing locating platform 13 includes the second positioning of positioning glass close to the side of the first glass processing locating platform 12
Area 16.When glass localization tool 10 works, glass to be processed is placed in concave appliance 14 and then smeared UV glue, then
Cooperation, which carries glass platform 11 and fixed and move to the progress illumination of UV adhesive curings machine, makes UV adhesive curings to realize that glass to be processed is carrying
Load glass platform 11 is then removably mounted to the second of the second glass processing locating platform 13 and determined by the fixation on glass platform 11
Position carries out glass processing work in area 16, after the completion of processing work, will carry glass platform 11 and is rotated by 90 ° and be removably mounted to first
Glass processing work is carried out on first positioning area 15 of glass processing locating platform 12, when 13 court of the second glass processing locating platform
After being rotated by 90 ° close to the direction of the first glass processing locating platform 12, the second positioning area 16 is in the first glass processing locating platform
Projection and 15 shape area all same of the first positioning area on 12.
Second glass processing locating platform 13 and the first glass processing locating platform 12 can be determined for glass of polishing
Bit platform or for polished glass locating platform or other glass processings locating platform.
Fig. 2A and Fig. 2 B are referred to, it is "convex" shaped structure to carry glass platform 11, including boss 111 and pedestal 112, boss
111 are arranged on pedestal 112 and intersect with pedestal 112 for face, and 111 size of boss is less than the size of pedestal 112, processed product
Glass is placed on face of the boss 111 away from pedestal 112, it is preferable that boss 111 and pedestal 112 are integrally formed, it is preferable that
Pedestal 112 and boss 111 are rectangular parallelepiped structure, are come in the present embodiment by taking pedestal 112 and boss 111 is rectangular parallelepiped structures as an example
It illustrates, but its shape is not construed as limiting, its shape can be adjusted according to actual needs.
The identical cylindrical first through hole 1121 of size there are two being provided with and opened up on the face of boss 111 in pedestal 112.
Referring to Fig. 3, concave appliance 14 its be used to coordinate fixed glass to be processed with carrying glass platform 11.
The first groove 142 is offered on a face of concave appliance 14, it is recessed to offer second in 142 bottom of the first groove
Slot 141, from the depth direction of the first groove 142, the size shape and the size shape of pedestal 112 of the first groove 142 are complete
Complete consistent, the depth of the first groove 142 is greater than or equal to from the thickness for carrying glass platform 11 in terms of the depth direction of the first groove 142
Degree, from the depth direction of the second groove 141, the size shape of the second groove 141 and the size shape complete one of boss 111
It causes, the depth of the second groove 141 is less than face of the boss 111 away from pedestal 112 to the distance of pedestal 112.In the second groove 141
Inside opens up a rectangular third through-hole 143, and third through-hole 143 is used for the illumination by UV adhesive curing machines.In the second groove
141 four angles offer one the 5th groove 144, and the shape of the 5th groove 144 can be circle, square, rectangle, three
Angular or other regular geometries, it is preferable that the shape of the 5th groove 144 is circle, the 5th groove 144 and the second groove
141 connection and it is consistent with the depth of the second groove 141, the 5th groove 144 facilitates the placement and taking-up of glass to be processed.Recessed
For shape utensil 14 in use, the second groove 141 is used for taking glass to be processed in, boss 111 props up glass to be processed, so as not to
It loosens, glass to be processed will not be drained to from third through-hole 143 outside concave utensil 14.At least partly corresponding first groove of pedestal 112
142 orientation is in the first groove 142.As a kind of deformation, boss 111 can be partly extend into the second groove 141
It can all be in the first groove 142, specifically depending on the thickness of glass to be processed.
It is appreciated that the shape of the second groove 141 is not construed as limiting, it can be changed according to processed product, the 5th is recessed
The number that slot 144 opens up is determined also according to actual conditions, can be one or more.
Refer to 4A and Fig. 4 B, 12 rectangular entity of the first glass processing locating platform, in the upper table of glass processing positioning 12
The 3rd groove 121 is opened up in the first positioning area of face 15, the 3rd groove 121 is rectangular shape, from the depth side of the 3rd groove 121
It looks up, size, the shape of the 3rd groove 121 are consistent with size, the shape in the face of pedestal 112, and the depth of the 3rd groove 121
D is less than the axial length of first through hole 1121, after working in glass processing, carries glass platform 11 and is convenient for from the first positioning
It is taken out in area 15.
Please continue to refer to Fig. 4 A and Fig. 4 B, a matrix pattern groove 1211 is opened up in the slot bottom of the 3rd groove 121, in matrix pattern
The first counterbore 1212 is opened up at the center of groove 1211, the first counterbore 1212 is evacuation passageway, it is preferable that the first counterbore 1212
Center, the 3rd groove 121 center and matrix pattern groove 1211 center point-blank.Matrix pattern groove 1211 is open
The shortest distance H of 121 inner wall of the 3rd groove of distance is more than the diameter of first through hole 1121, when the pedestal residing for first through hole 1121
112 when being placed in the 3rd groove 121, first through hole 1121 by matrix pattern groove 1211 be open to 121 inner wall of the 3rd groove it
Between slot bottom part be completely covered by.
The second counterbore 122, the terminal part of the second counterbore 122 are offered on the side of the first glass processing locating platform 12
Position is intersected with the distal portion of the first counterbore 1212 reserves a passage so that vaccum-pumping equipment is evacuated.3rd groove 121
The bottom surface of the first residing glass processing locating platform 12 is located on horizontal plane, and second counterbore 122 is used to take out with outside true
Null device connects.
Fig. 5 A, 5B and 5C are referred to, the second glass processing locating platform 13 is in cuboid, is positioned in the second glass processing
Two cylindrical positioning columns 132 are set in second positioning area 16 of platform 13, the positioning column 132 is determined with the second glass processing
Bit platform 13 is integrally formed, it is preferable that the axial direction of positioning column 132 is vertical with residing face, positioning column 132 and first through hole
1121 positions opened up are corresponding and diameter is equal, i.e., work when load glass platform 11 is placed on the second glass processing locating platform 13
When, positioning column 132 can be corresponded in insertion first through hole 1121, and the length of the positioning column 132 is more than first through hole 1121
Axial length.
The 4th groove 131 in cuboid is opened up in the second positioning area 16, in the bottom centre of the 4th groove 131
Position opens up a second cylindrical through hole 1311, what the center of the second through hole 1311 was linked to be with the center of the 4th groove 131
Straight line is vertical with the face residing for the 4th groove 131.One circle lug boss 1312 is set in the second positioning area 16, lug boss 1312
It is highly 2mm, lug boss 1312 is integrally formed with the second glass processing locating platform 13, and lug boss 1312 surrounds the 4th groove
131 are set, and positioning column 132 is in the outside of lug boss 1312.The distance in the face residing for lug boss 1312 and positioning column 132 is less than the
The axial length of one through hole 1121.It is inserted into when positioning column 132 corresponds in first through hole 1121, the 4th groove 131 quilt completely
Pedestal 112 covers, at this time the center of pedestal 112 and the straight line where 131 center of the 4th groove and the face where the 4th groove 131
Vertically, the second positioning area 16 is just completely covered in pedestal 112 at this time.
When the glass localization tool 10 works, glass to be processed is placed in the second groove of concave appliance 14
In 141, glass to be processed will not expose from third through-hole 143, then smear UV glue on glass to be processed, then put down glass is carried
The correspondence of platform 11 is inserted in the first groove 142 of concave appliance 14, is fixed glass to be processed, wherein carrying 11 distance of glass platform
The face of the boss 111 of pedestal 112 farther out and glass contact to be processed, and move to UV adhesive curings machine by third through-hole 143 come into
Row illumination makes UV adhesive curings to realize fixation of the glass to be processed on glass platform 11 is carried.It is detachable will then glass platform 11 to be carried
It moves on the second positioning area 16 of the second glass processing locating platform 13, leads to wherein two positioning columns 132 correspond insertion first
It is sucked simultaneously by 1311 external vaccum-pumping equipment (not shown) of the second through hole by glass platform 11 is carried in the second glass in hole 1121
Into the work of curved surface on locating and machining platform 13 and by glass processing.After the completion of the work of glass processing curved surface to be processed, take out
Vacuum equipment (not shown) stops pumping, and is rotated by 90 ° glass platform 11 is carried mounted on the first glass processing locating platform 12
On first positioning area 15, wherein pedestal 112 is correspondingly placed in the 3rd groove 121, is set by 122 external vacuumize of the second counterbore
Standby (not shown) pumping will carry glass platform 11 and suck on the first positioning area 15 of the first glass processing locating platform 12 and carry out
To the processing work of thickness of glass to be processed.
Fig. 6 is refer to, the present invention also provides a kind of glass localization methods, use glass localization tool as described above,
The glass localization method includes the following steps:
Step S1:Glass to be processed is fixed on the load glass platform by spreading glue;
Step S2:Load glass platform 11 then is removably mounted to the second of the second glass processing locating platform 13 to position
Glass processing work is carried out in area 16;And
Step S3:After the completion of processing work, glass platform 11 will be carried it is rotated by 90 ° and be removably mounted to the first glass processing and determine
Glass processing work is carried out on first positioning area 15 of bit platform 12;
Step S4:After the completion of processing work, glass platform 11 will be carried and soaked in a tepid bath, hydrolysis colloidality takes out glass.
The glue is preferably UV glue.
In step sl, include the following steps:
Step S11:Glass to be processed is placed in concave appliance 14;
Step S12:Spreading glue on glass to be processed, then the load glass platform is put into concave utensil coordinate it is recessed
Type utensil is fixed glass to be processed;And
Step S13:Moving to the progress illumination of glue curing machine makes glue curing to realize that glass to be processed is carrying glass platform 11
On fixation.
In step s 4, the temperature of the warm water be T, 50 DEG C≤T≤85 DEG C.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all originals in the present invention
Any modification made within then, equivalent substitution and improvement etc. should all be included within protection scope of the present invention.
Claims (10)
1. a kind of glass localization tool is used to that fixed glass to be aided in be processed, it is characterised in that:The glass positioning is controlled
Tool includes the second glass processing locating platform and the first glass processing locating platform that are disposed adjacent, and second glass processing is determined
Bit platform includes the second positioning area of positioning glass, first glass processing close to the side of the first glass processing locating platform
The upper surface of locating platform includes the first positioning area of positioning glass, when the second glass processing locating platform is towards close to the first glass
After the direction of locating and machining platform is rotated by 90 °, projection of second positioning area on the first glass processing locating platform and the
One positioning area shape area all same, for glass after the second positioning area completes glass processing work, the glass is rotated by 90 ° fixation
Glass processing work is carried out in the first positioning area.
2. a kind of glass localization tool as described in claim 1, it is characterised in that:The glass localization tool further includes load glass
Platform, the load glass platform are located at the first glass processing locating platform and the second glass for bearing glass, the load glass platform
Between locating and machining platform, the load glass platform is "convex" shaped structure, described convex including integrally formed pedestal and boss
Platform is arranged on pedestal, and the boss size is less than base dimensions, and the boss is used for bearing glass.
3. a kind of glass localization tool as claimed in claim 2, it is characterised in that:It is provided in the pedestal on the face of boss
Open up at least two first through hole, in the second positioning area of the second glass processing locating platform, set at least two with
The corresponding positioning column of the first through hole position dimension, it is described carry glass platform and be fixed on the second glass processing locating platform the
When glass processing work is carried out on two positioning areas, the positioning column penetrates in first through hole and carries glass platform in the second glass to realize
Positioning on locating and machining platform.
4. a kind of glass localization tool as claimed in claim 3, it is characterised in that:It is recessed that the glass localization tool further includes one
Shape utensil, the concave appliance offer the first groove on one side, and in terms of the depth direction of first groove, described first is recessed
The shape size of slot and the shape size of pedestal are completely the same, and the depth of first groove is greater than or equal to from the first groove
Depth direction sees the thickness for carrying glass platform, the second groove is offered in the bottom of first groove, from the depth of the second groove
Side looks up, and the shape size of second groove and the shape size of boss are completely the same, and the depth of second groove is small
In the distance between face of the boss away from pedestal and pedestal, it is recessed to offer at least one 5th in the edge of second groove
Slot, the 5th groove is connected with the second groove and deep equality, and a rectangular threeway is opened up in second groove
Hole, when being positioned on the carrier wave platform, the pedestal and at least part boss are contained in the first groove glass, and glass is convex
Platform is against in second groove.
5. a kind of glass localization tool as claimed in claim 3, it is characterised in that:The first glass processing locating platform is
Rectangular entity offers the 3rd groove in the first positioning area of the first glass processing locating platform, from the 3rd groove
It is seen on depth direction, the shape size and base shape of the 3rd groove are in the same size, and the depth of the 3rd groove is less than or equal to bottom
The axial length of first through hole on seat is placed in the load glass platform on the first positioning area of the first glass processing locating platform
When, pedestal is at least partially housed in the 3rd groove, and boss is located at outside the 3rd groove.
6. a kind of glass localization tool as claimed in claim 5, it is characterised in that:One is opened up in the slot bottom of the 3rd groove
Matrix pattern groove, opens up the first counterbore at the center of the matrix pattern groove, and first counterbore is evacuation passageway, and described the
The center at the center of one counterbore, the center of the 3rd groove and matrix pattern groove point-blank, in first glass processing
The second counterbore, the distal portion of second counterbore and the distal portion of first counterbore are offered on the side of locating platform
Intersecting, second counterbore is used to be connected with external vaccum-pumping equipment.
7. a kind of glass localization tool as claimed in claim 3, it is characterised in that:The second glass processing locating platform
The 4th groove in cuboid is offered in second positioning area, a circle is opened up in the bottom centre position of the 4th groove
Second through hole of cylindricality, second through hole are evacuation passageway, the center of second through hole and the center institute of the 4th groove
The straight line being linked to be is vertical with the face where positioning column.
8. a kind of glass localization method, it is characterised in that:Using such as claim 2 to 7 any one of them glass localization tool
Glass positioning is carried out, is included the following steps:
Step S1:Glass to be processed is fixed on the load glass platform by spreading glue;
Step S2:The load glass platform is then removably mounted to described the second of the second glass processing locating platform
Glass processing work is carried out on positioning area;And
Step S3:After the completion of processing work, the load glass platform is rotated by 90 ° and is removably mounted to first glass processing
Glass processing work is carried out on first positioning area of locating platform.
9. a kind of glass localization method as claimed in claim 8, it is characterised in that:Step S4:After the completion of processing work, by institute
It states and carries glass platform and soak in a tepid bath, hydrolysis colloidality takes out glass, and the temperature of the warm water is T, 50 DEG C≤T≤85 DEG C.
10. a kind of glass localization method as claimed in claim 8, provides a concave utensil, it is characterised in that:The step S1
Include the following steps:
Step S11:Glass to be processed is placed in the concave appliance;
Step S12:Then the load glass platform is put into cooperation concave device in concave utensil by spreading glue on glass to be processed
Tool is fixed glass to be processed;And
Step S13:Moving to the progress illumination of glue curing machine makes glue curing to realize glass to be processed on the load glass platform
Fixation.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111546161A (en) * | 2020-03-31 | 2020-08-18 | 江西沃格光电股份有限公司 | Positioning jig and polishing equipment |
CN111946705A (en) * | 2019-05-17 | 2020-11-17 | 株洲中车时代电气股份有限公司 | Positioning device |
CN112809578A (en) * | 2020-12-30 | 2021-05-18 | 江苏安蒲光学科技有限公司 | Glass positioning jig and glass positioning method |
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CN111546161A (en) * | 2020-03-31 | 2020-08-18 | 江西沃格光电股份有限公司 | Positioning jig and polishing equipment |
CN112809578A (en) * | 2020-12-30 | 2021-05-18 | 江苏安蒲光学科技有限公司 | Glass positioning jig and glass positioning method |
CN112809578B (en) * | 2020-12-30 | 2021-09-24 | 江苏安蒲光学科技有限公司 | Glass positioning jig and glass positioning method |
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