CN205852484U - A kind of glass plate through hole buffing machine - Google Patents
A kind of glass plate through hole buffing machine Download PDFInfo
- Publication number
- CN205852484U CN205852484U CN201620789649.0U CN201620789649U CN205852484U CN 205852484 U CN205852484 U CN 205852484U CN 201620789649 U CN201620789649 U CN 201620789649U CN 205852484 U CN205852484 U CN 205852484U
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- Prior art keywords
- hole
- motor
- object stage
- glass plate
- assembly
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- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
Abstract
This utility model relates to a kind of glass plate through hole buffing machine.This buffing machine include board, object stage, polishing roll, for drive polishing roll rotation first driving assembly, for promote the vertical above-below direction of object stage reciprocating second drive assembly, for driving objective table rotates around polishing roll axis the 3rd driving assembly and for driving objective table horizontal plane linear reciprocating motion the 4th drive assembly;When being polished manhole, first drives assembly, the second driving assembly and the 3rd to drive component synchronization work;When being polished strip through hole, first drives assembly, the second driving assembly and the 4th to drive component synchronization work.This buffing machine achieves a buffing machine and possesses the ability to two kinds of through hole polishings, it is not necessary to is respectively adopted two buffing machines and carries out the polishing of different through hole, reduces polishing cost, beneficially marketing.
Description
Technical field
This utility model relates to screen glass board processing device, particularly relates to a kind of glass plate through hole buffing machine.
Background technology
The most of mobile phone released the most on the market is all with touch screen.The quality of touch screen glass plate concerns user couple
The evaluation of mobile phone, also concerns user's public praise impression to this brand, so the quality of touch screen glass plate is particularly significant.Many
Cell phone manufacturer all starts to put into great amount of cost after recognizing the importance of touch screen glass plate and carries out touch screen glass plate finely
Processing is to improve touch screen glass sheet quality.It is the processing having obtained popularizing that touch screen glass plate wherein carries out edge polishing
Technique.All can be with through hole on many touch screen glass plates, the such as circular port of i Phone screen, in some Android mobile phone
Elongate holes (both sides are the rectangle of arc), these through holes need also exist for finely polishing to improve glass sheet quality.Existing
Have in technology, all use buffing machine to be polished manhole and strip through hole, but owing to both shapes are different, need
Use two different buffing machines to be polished, therefore improve the cost of polishing, and then improve the one-tenth of glass plate
This, be unfavorable for marketing.
Utility model content
The purpose of this utility model is the defect for overcoming prior art, and provides the one can be to manhole and length
The glass plate through hole buffing machine that strip through-hole is polished, to reduce polishing cost.
For achieving the above object, this utility model is by the following technical solutions:
A kind of glass plate through hole buffing machine, it includes board, for placing the object stage of glass plate and being located at object stage
The polishing roll with bristle of top, polishing roll and object stage be each provided on board, and the loading end of object stage is parallel to horizontal plane,
Polishing roll is perpendicular to the loading end of object stage;Buffing machine also include for drive polishing roll rotation first driving assembly, for
Promote the vertical above-below direction of object stage reciprocating second drive assembly, rotate around vertical direction for driving objective table the
Three drive assembly and drive assembly for driving objective table at the 4th of horizontal plane linear reciprocating motion;Manhole is being entered
During row polishing, first drives assembly, the second driving assembly and the 3rd to drive component synchronization work;Strip through hole is being thrown
Light time, first drives assembly, the second driving assembly and the 4th to drive component synchronization work.
Further, first drive assembly be located on board, first drive assembly include the first motor, driving belt and from
Moving axis, the first motor drives driven shaft to rotate by driving belt, and polishing roll rotates and polishing roll with driven shaft coaxial synchronous
It is fixed on driven shaft bottom.
Further, board is provided with a fixed block, and fixed block is located at above object stage, and the first motor and driven shaft are equal
Being located on fixed block, driven shaft runs through fixed block from top to bottom.
Further, second drive assembly be located on board, second drive assembly include the second motor, eccentric gearing wheel and
Roller, eccentric gearing wheel is fixed on the output shaft of the second motor, and the second motor drives roller around second by eccentric gearing wheel
Motor output shaft rotates, and the bottom surface of roller and a subframe is mutually supported, and object stage is located on subframe.
Further, the 3rd drives assembly to include the 3rd motor, and the 3rd motor is located under object stage, the output of the 3rd motor
Axle is fixing with object stage to be connected, and the 3rd motor is located on subframe.
Further, eccentric gearing wheel includes cylindrical portion and eccentric shaft, and the centre bore of cylindrical portion is fixing is inserted in the second motor
Output shaft on, eccentric shaft is located in cylindrical portion, the axis of the output shaft of eccentric shaft axis and the second motor be parallel to each other and
Both distances are more than 0, and roller is fixing to be inserted on eccentric shaft.
Further, the 4th drives assembly to include the 4th motor, eccentric gearing wheel and waling stripe, and the 4th motor is fixed on
On board, waling stripe is fixing with object stage to be connected, and the 4th driven by motor eccentric gearing wheel rotates, and eccentric gearing is taken turns by level
Connecting rod driving objective table linear reciprocating motion in the horizontal plane.
Further, eccentric gearing wheel being fixed with a sleeve, waling stripe is provided with a through hole, and sleeve is placed in
In through hole, the horizontal size of through hole is equal to the external diameter of sleeve, and the vertical dimension of through hole is not less than sleeve outer diameter and the bottom on sleeve
Width sum.
Further, eccentric gearing wheel includes cylindrical portion and eccentric shaft, and the centre bore of cylindrical portion is fixing is inserted in the 4th motor
Output shaft on, eccentric shaft is located in cylindrical portion, the axis of the output shaft of eccentric shaft axis and the 4th motor be parallel to each other and
Both distances are more than 0, and sleeve is fixing to be inserted on eccentric shaft.
This utility model compared with prior art provides the benefit that: this buffing machine had both contained and carried out manhole
The assembly of polishing, also contains the assembly being polished strip through hole, and two kinds of through holes is being thrown by members
Light time can be general, it is thus achieved that a buffing machine possesses the ability to two kinds of through hole polishings, it is not necessary to be respectively adopted two throwings
Ray machine carries out the polishing of different through hole, reduces polishing cost, beneficially marketing.
Accompanying drawing explanation
Fig. 1 is the assembling stereogram of this utility model buffing machine;
Fig. 2 is the exploded view of the second driving assembly;
Fig. 3 is the 4th exploded view driving assembly.
Detailed description of the invention
In order to more fully understand technology contents of the present utility model, below in conjunction with specific embodiment to skill of the present utility model
Art scheme is described further and illustrates.
The concrete structure of this utility model embodiment is as shown in Figure 1 to Figure 3.
The buffing machine of the present embodiment is for being polished the through hole of screen glass plate.As it is shown in figure 1, the board of buffing machine
90 include bottom panel 91, montant 92, and montant 92 is perpendicularly fixed on bottom panel 91.Having subframe 93 in board 90, subframe 93 can edge
Vertical direction moves back and forth.Object stage 94 is located on the subframe 93 of board 90, for placing the glass plate being stacked up.Object stage
The loading end 95 of 94 is parallel to horizontal plane.Polishing roll 96 with bristle is located at above object stage 94 and polishing roll 96 is perpendicular to
The loading end 95 of object stage 94.
As it is shown in figure 1, first drives assembly 10 for driving polishing roll 96 rotation.First drives assembly 10 to be located at machine
On platform 90.Specifically, first assembly 10 is driven to include the first motor 11, driving belt 12 and driven shaft 13.First motor 11 leads to
Crossing driving belt 12 drives driven shaft 13 to rotate.Polishing roll 96 rotates with driven shaft 13 coaxial synchronous and polishing roll 96 is fixed on
Driven shaft 13 bottom.And the montant 92 of board 90 is provided with the fixed block 97 for supporting the first driving assembly 10.Fixed block 97
Being located at above object stage 94, the first motor 11 and driven shaft 13 are each provided on fixed block 97, and driven shaft 13 runs through solid from top to bottom
Determine block 97.
The the second driving assembly 20 being located on board 90 is for promoting the vertical above-below direction of object stage 94 reciprocating.
Specifically, as depicted in figs. 1 and 2, second assembly 20 is driven to include the second motor 21, eccentric gearing wheel 22 and roller 23.Second
Motor 21 is fixed on bottom panel 91, and eccentric gearing wheel 22 is fixed on the output shaft 211 of the second motor 21.Eccentric gearing wheel 22
Including cylindrical portion 221 and eccentric shaft 222.The centre bore of cylindrical portion 221 is fixed on the output shaft 211 being inserted in the second motor 21, partially
Mandrel 222 is located in cylindrical portion 221, and the axis of the output shaft of eccentric shaft 222 axis and the second motor 21 is parallel to each other and two
Person's distance is more than 0, i.e. eccentric shaft 222 deviates the axis of the second motor 21 output shaft.
As depicted in figs. 1 and 2, roller 23 is fixing is inserted on eccentric shaft 211 and roller 23 is mutual with the bottom surface of subframe 93
Support.Second motor 21 drives eccentric gearing wheel 22 rotation, eccentric gearing wheel 22 drive roller 23 to rotate, in the rotation of roller 23
The heart is the second motor 21 output shaft 211 axis, and owing to eccentric shaft 222 deviates the second motor 21 output shaft 211 axis, thus roll
Wheel 23 meeting is along the circular motion centered by the second motor 21 output shaft 211 axis, thus roller 23 promotes subframe 93 and loading
Platform 94 pumps.
As it is shown in figure 1, the 3rd driving assembly 30 being located on the subframe 93 of board 90 is around perpendicular for driving objective table 94
Nogata is to rotation.3rd drives assembly 30 to include the 3rd motor 31.3rd motor 31 is located at below object stage 94, the 3rd motor
The output shaft of 31 is fixing with the loading end 95 of object stage 94 to be connected, and the center of loading end 95 rotation is the 3rd motor 31 output shaft
Axis.
As shown in figures 1 and 3, the 4th driving assembly 40 being fixed on board 90 is in level for driving objective table 94
Face linear reciprocating motion.4th drives assembly 40 to include the 4th motor 41, eccentric gearing wheel 42 and waling stripe 44.4th electricity
Machine 41 is fixed on montant 92, and the 4th motor 41 drives eccentric gearing wheel 42 rotation, and waling stripe 44 is fixing with object stage 94 even
Connecing, eccentric gearing wheel 42 is by waling stripe 44 driving objective table 94 linear reciprocating motion in the horizontal plane.
Specifically, as shown in figures 1 and 3, eccentric gearing wheel 42 includes integrated cylindrical portion 421 and eccentric shaft 422.
The centre bore of cylindrical portion 421 is fixed on the output shaft 411 being inserted in the 4th motor 41.Eccentric shaft 422 axis and the 4th motor 41
The axis of output shaft 411 is parallel to each other and both distances are more than 0, i.e. eccentric shaft 422 axis runout the 4th motor 41 output shaft
The axis of 411.Sleeve 43 is fixing to be inserted on eccentric shaft 422.Waling stripe 44 is provided with through hole 441, and sleeve 43 is placed in through hole
In 441.The horizontal size of through hole 441 is not less than sleeve 43 external diameter and set equal to the external diameter of sleeve 43, the vertical dimension of through hole 441
Cylinder about 43 amplitude of oscillation sums.Sleeve 43 is when rotating around the 4th motor 41 output shaft 411 axis, and sleeve 43 downward shift is all logical
In hole 441, the left and right side-play amount of sleeve 43 is then converted into the horizontal plane linear reciprocation position of loading end 95 by through hole 441
Move.
When being polished glass plate manhole, first drives assembly 10, second to drive assembly 20 and the 3rd to drive
Assembly 30 works asynchronously, and i.e. polishing roll 96 needs rotation, the loading end 95 of object stage 94 and glass plate need to pump, loading
The loading end 95 of platform 94 and glass plate need to be around vertical direction rotations.Owing to glass plate through hole is circular, glass plate is without in level
Straight reciprocating motion on face, therefore the 4th drives assembly 40 to close.
When being polished glass plate strip through hole, the 3rd drives assembly 30 to close, and first drives assembly 10, second
Drive assembly 20 and the 4th to drive assembly 40 to work asynchronously, i.e. polishing roll 96 needs rotation, the loading end 95 of object stage 94 and glass
Plate need to pump, the loading end of object stage 94 95 and glass plate need straight reciprocating motion in the horizontal plane.It is noted that
It is to need to be adjusted to glass plate position once: glass plate straight reciprocating motion direction in the horizontal plane and glass plate strip
The length direction of shape through hole is consistent.
Set forth above only further illustrate technology contents of the present utility model with embodiment, in order to reader is easier to reason
Solving, but do not represent embodiment of the present utility model and be only limitted to this, any technology done according to this utility model extends or creates
Make, all by protection of the present utility model.
Claims (9)
1. a glass plate through hole buffing machine, it is characterised in that it includes board, for placing the object stage of glass plate and setting
The polishing roll with bristle above object stage, described polishing roll and object stage be each provided on board, holding of described object stage
Section is parallel to horizontal plane, and described polishing roll is perpendicular to the loading end of described object stage;Described buffing machine also includes for driving
The first of polishing roll rotation drives assembly, is used for promoting the reciprocating second driving group of the vertical above-below direction of described object stage
Part, for driving described object stage the 3rd to drive assembly and for driving described object stage in level around what vertical direction rotated
4th driving assembly of face linear reciprocating motion;When being polished manhole, described first drives assembly, the second driving
Assembly and the 3rd drives component synchronization work;When being polished strip through hole, described first drives assembly, the second driving
Assembly and the 4th drives component synchronization work.
2. glass plate through hole buffing machine as claimed in claim 1, it is characterised in that described first drives assembly to be located at board
On, described first drives assembly to include that the first motor, driving belt and driven shaft, described first motor are driven by driving belt
Driven shaft rotates, and described polishing roll rotates with driven shaft coaxial synchronous and described polishing roll is fixed on driven shaft bottom.
3. glass plate through hole buffing machine as claimed in claim 2, it is characterised in that described board is provided with a fixed block,
Described fixed block is located at above object stage, and described first motor and driven shaft are each provided on fixed block, and described driven shaft is from up to
Under run through fixed block.
4. glass plate through hole buffing machine as claimed in claim 1, it is characterised in that described second drives assembly to be located at board
On, described second drives assembly to include, and the second motor, eccentric gearing wheel and roller, described eccentric gearing wheel are fixed on the second motor
Output shaft on, described second motor by eccentric gearing wheel drive roller rotates around the second motor output shaft, described roller and
The bottom surface of one subframe is mutually supported, and described object stage is located on described subframe.
5. glass plate through hole buffing machine as claimed in claim 4, it is characterised in that the described 3rd drives assembly to include the 3rd electricity
Machine, described 3rd motor is located under object stage, and the output shaft of described 3rd motor is fixing with the loading end of object stage to be connected, described
3rd motor is located on subframe.
6. glass plate through hole buffing machine as claimed in claim 4, it is characterised in that described eccentric gearing wheel include cylindrical portion and
Eccentric shaft, the centre bore of described cylindrical portion is fixed on the output shaft being inserted in the second motor, and described eccentric shaft is located in cylindrical portion, institute
The axis of the output shaft stating eccentric shaft axis and the second motor is parallel to each other and both distances are more than 0, described roller fixed cover
Enter on described eccentric shaft.
7. glass plate through hole buffing machine as claimed in claim 1, it is characterised in that the described 4th drives assembly to include the 4th electricity
Machine, eccentric gearing wheel and waling stripe, described 4th motor is fixed on board, and described waling stripe is fixed with described object stage
Connecting, described 4th driven by motor eccentric gearing wheel rotates, and described eccentric gearing is taken turns by waling stripe driving objective table at water
Linear reciprocating motion in plane.
8. glass plate through hole buffing machine as claimed in claim 7, it is characterised in that be fixed with on described eccentric gearing wheel
Individual sleeve, described waling stripe is provided with a through hole, and described sleeve is placed in described through hole, the horizontal size etc. of described through hole
In the external diameter of sleeve, the vertical dimension of described through hole is not less than sleeve outer diameter and sleeve upper and lower amplitude of oscillation sum.
9. glass plate through hole buffing machine as claimed in claim 8, it is characterised in that described eccentric gearing wheel include cylindrical portion and
Eccentric shaft, the centre bore of described cylindrical portion is fixed on the output shaft being inserted in the 4th motor, and described eccentric shaft is located in cylindrical portion, institute
The axis of the output shaft stating eccentric shaft axis and the 4th motor is parallel to each other and both distances are more than 0, described sleeve fixed cover
Enter on eccentric shaft.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620789649.0U CN205852484U (en) | 2016-07-25 | 2016-07-25 | A kind of glass plate through hole buffing machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620789649.0U CN205852484U (en) | 2016-07-25 | 2016-07-25 | A kind of glass plate through hole buffing machine |
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Publication Number | Publication Date |
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CN205852484U true CN205852484U (en) | 2017-01-04 |
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ID=57648676
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CN201620789649.0U Expired - Fee Related CN205852484U (en) | 2016-07-25 | 2016-07-25 | A kind of glass plate through hole buffing machine |
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CN (1) | CN205852484U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106064341A (en) * | 2016-07-25 | 2016-11-02 | 印杰 | A kind of glass plate through hole polishing machine |
-
2016
- 2016-07-25 CN CN201620789649.0U patent/CN205852484U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106064341A (en) * | 2016-07-25 | 2016-11-02 | 印杰 | A kind of glass plate through hole polishing machine |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170104 Termination date: 20190725 |