CN206679362U - Diaphragm automatic feed mechanism - Google Patents
Diaphragm automatic feed mechanism Download PDFInfo
- Publication number
- CN206679362U CN206679362U CN201720281700.1U CN201720281700U CN206679362U CN 206679362 U CN206679362 U CN 206679362U CN 201720281700 U CN201720281700 U CN 201720281700U CN 206679362 U CN206679362 U CN 206679362U
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- China
- Prior art keywords
- diaphragm
- guide roller
- wound membrane
- microscope carrier
- squeeze
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Abstract
The utility model discloses diaphragm automatic feed mechanism, it is characterised in that including feed rolls, the first guide roller, squeeze-film mechanism, microscope carrier, the second guide roller and rewinding reel;The wound membrane for carrying diaphragm is arranged on described feed rolls, and wound membrane is wound on the rewinding reel after the first guide roller, squeeze-film mechanism, microscope carrier and the second guide roller successively;Second guide roller is arranged on the lower section of microscope carrier; in diaphragm reclaiming process; local pressed by the squeeze-film mechanism of wound membrane is fixed; under the guide effect of first guide roller and the second guide roller; the microscope carrier is acted to the movement of squeeze-film mechanism direction with performing dyestripping; diaphragm is set to be separated with wound membrane, the utility model has automatic charging, avoids diaphragm from deforming, and can imitate the effect of manual dyestripping.
Description
Technical field
It the utility model is related to industrial automation, more particularly to a kind of diaphragm automatic feed mechanism.
Background technology
Generally require to cover above the display screen of the electric terminals such as mobile phone, flat board or one block of sheet glass is installed.Sheet glass exists
Assembled after completing, it is necessary to be transported to mobile phone assembling producer again after to its two sides stick diaphragm.Due to protecting
Cuticula is soft, is easily deformed, produces fold, bubble etc., influences automatic charging and final fitting effect.To improve diaphragm
Automatic charging feeding speed and effect, existing automatic charging scheme, which still suffers from, more needs room for improvement.
The content of the invention
The purpose of this utility model is the diaphragm automatic feed mechanism provided, and it can realize the automatic quick of diaphragm
Feeding;Feeding process avoids the deformation of diaphragm;By simulating the process of artificial dyestripping, raising takes film effect.
The utility model purpose is realized by following scheme:
Diaphragm automatic feed mechanism of the present utility model, it is characterised in that including feed rolls, the first guide roller, pressure
Film mechanism, microscope carrier, the second guide roller and rewinding reel;The wound membrane for carrying diaphragm is arranged on described feed rolls, wound membrane
The rewinding reel is wound on after the first guide roller, squeeze-film mechanism, microscope carrier and the second guide roller successively;Second guide roller
It is arranged on the lower section of microscope carrier, in diaphragm reclaiming process, local pressed by the squeeze-film mechanism of wound membrane is fixed, described first
Under the guide effect of guide roller and the second guide roller, the microscope carrier, to perform dyestripping action, makes guarantor to the movement of squeeze-film mechanism direction
Cuticula separates with wound membrane.
Wherein:The squeeze-film mechanism is located between feed rolls and microscope carrier, for will be through overvoltage in diaphragm reclaiming process
The wound membrane of film mechanism is pushed down, and preventing feed rolls, feeding and/or prevention wound membrane retreat forward.
The microscope carrier is used to carry wound membrane, makes wound membrane in the horizontal forward mobile progress feeding in its surface;And diaphragm takes
During material, microscope carrier is to the movement of squeeze-film mechanism direction so that diaphragm separates with wound membrane.
First guide roller is located between feed rolls and microscope carrier, horizontal forward for making wound membrane be maintained at microscope carrier upper table
It is mobile;Second guide roller is below microscope carrier, and for the front/rear moving process of microscope carrier, the wound membrane above microscope carrier keeps depending on
In microscope carrier upper surface;The rewinding reel, for driving wound membrane feeding forward by its rotation, and the wound membrane after feeding is carried out
Recovery.
The wound membrane has continuous counterdie, and diaphragm is evenly arranged with above counterdie.
Preferably, in addition to vacuum material fetching mechanism, in diaphragm reclaiming process, vacuum material fetching mechanism is by the protection in wound membrane
Film vacuum suction is fixed, and the relative motion backward of microscope carrier is completed dyestripping action, and the diaphragm is transported into area to be fit.
Further, in addition to S type guide roller components, S type guide rollers are passed through for changing the direction of wound membrane and adjusting wound membrane
Component it is elastic, make wound membrane after the second guide roller, by reverse-s shape track become be input to rewinding reel backward.Also include case
Body, the feed rolls, the first guide roller, squeeze-film mechanism, microscope carrier, the second guide roller, rewinding reel, vacuum material fetching mechanism and S
Type guide roller component is arranged on casing same side.
Preferably, in addition to feeding drive mechanism, the side of the casing are provided with horizontal displacement slot, the office of the microscope carrier
Portion is connected after passing through displacement slot with the feeding drive mechanism in casing;The rewinding reel and the motor electricity of feeding drive mechanism
Connection;The feed rolls are provided with retainer, and in diaphragm reclaiming process, the retainer is braked and forbids feed rolls to revolve
Turn.
Preferably, diaphragm automatic feed mechanism has the second guide roller that two front-back staggereds are set, and one of them the
Two guide rollers are fixedly mounted on microscope carrier bottom, and another second guide roller is fixedly mounted on body side;The S types guide roller group
Part includes support, two guide rollers and spring assembly, and the axle center of the rotating shaft of two guide rollers is located on same vertical plane;Groups of springs
Part one end is fixed on support, and the other end is connected with guide roller above.
In addition, to realize the two-sided pad pasting needs of sheet glass, described casing both sides are respectively symmetrically provided with two groups of protections
Film automatic feed mechanism, with by a machine simultaneously realize positive and negative two kinds of diaphragms while automatic charging.
Relative to prior art, the utility model effect includes but is not limited to:Pass through improved feeding structure and connection side
Formula and principle, realize the fast automatic feeding of diaphragm;Feeding process can effectively solve the problems, such as that diaphragm is easily deformed;Pass through
The process of artificial dyestripping is simulated, raising takes film effect etc..
Brief description of the drawings
Fig. 1 is the overall structural representation of diaphragm automatic feed mechanism;
Fig. 2 is Fig. 1 close-up schematic view;
Fig. 3 carries the schematic diagram of wound membrane annexation on the basis of being Fig. 2;
Fig. 4 is the structural representation of wound membrane;
Fig. 5 is the dimensional structure diagram of the equipment with diaphragm automatic feed mechanism;
Fig. 6 is Fig. 5 close-up schematic view.
Embodiment
Below in conjunction with drawings and embodiments, the utility model is described in further detail.
It should be noted that it is to express and understand for convenience below in relation to the description such as " Z axis ", " X-axis ", they can root
Change according to the definition difference of coordinate system;Description marks only for convenience of understanding according in diagram or figure as described in the orientation such as front and rear
Be defined, they can change according to the position and angle put.
With reference to figure 4, for the structural representation of wound membrane.Wound membrane 3, it has continuous counterdie 32, and counterdie 32 is uniformly set above
It is equipped with diaphragm 31.For convenience of feeding or transport, counterdie 32 is often rolled up together.Before taking film, diaphragm 31 and counterdie 32 are tightly
It is attached together, so, it is necessary to which diaphragm 31 is separated with counterdie 32 when taking film.
It is the overall structure diagram for some equipment for being provided with diaphragm automatic feed mechanism with reference to figure 1 and 5.Wherein,
Fig. 2 is Fig. 1 close-up schematic view.Fig. 6 is Fig. 5 close-up schematic view.As illustrated, diaphragm automatic feed mechanism
Including casing 2, feed rolls 11, the first guide roller 12, squeeze-film mechanism 13, microscope carrier 14, the second guide roller 15, S type guide roller groups
Part 16, rewinding reel 17 and vacuum material fetching mechanism 18.Wherein,
Feed rolls 11:For installing wound membrane 3.The rotation of rewinding reel 17 drives wound membrane 3 to move forward, and wound membrane 3 is transported forward
Move so as to drive the rotation of feed rolls 11 and feeding.The rotating shaft of feed rolls 11 is provided with retainer, during dyestripping, forbids sending
Material volume cylinder 11 rotates.
First guide roller 12;For being oriented to, make wound membrane 3 be maintained at the upper surface identical horizontal plane of microscope carrier 14, and along load
The horizontal plane of the upper surface of platform 14 moves forward.
Squeeze-film mechanism 13:For vacuum adsorption plate 181 during diaphragm 31 is drawn, by by the volume of squeeze-film mechanism 13
Film 3 is pushed down, and prevents the feeding forward of feed rolls 11, also prevents wound membrane 3 from retreating.In preferred scheme, squeeze-film mechanism 13 includes fixing
Lower supporting plate 131 and the briquetting 132 that can move up and down.The upper surface of lower supporting plate 131 is in same level with microscope carrier 14
Face, wound membrane 3 pass through between lower supporting plate 131 and briquetting 132.
Microscope carrier 14:For carrying wound membrane 3, make wound membrane 3 in the horizontal forward moving feeding in its surface;For in reclaiming process,
After vacuum adsorption plate 181 adsorbs diaphragm 31, the horizontal movement backward under the effect of feeding drive mechanism of microscope carrier 14, complete to tear
Film acts, and diaphragm 31 is separated with the counterdie 32 of wound membrane 3.The side correspondence position of casing 2 is provided with horizontal displacement slot 21, microscope carrier
14 are connected locally through after displacement slot 21 with the feeding drive mechanism in casing 2.Under the effect of feeding drive mechanism, microscope carrier 14
Can be along the anterior-posterior horizontal displacement of displacement slot 21.The lower section of microscope carrier 14 is provided with the second guide roller 15.Wherein the second guide roller 151 is solid
Dingan County is mounted in the bottom of microscope carrier 14, and the second guide roller 152 is fixedly mounted on the side of casing 2 and is located at the front lower place of the second guide roller 151
Position.
S type guide rollers component 16:The side of casing 2 is also equipped with S types between the second guide roller 152 and rewinding reel 17 and led
To roll assembly 16.S type guide rollers component 16 is used for the direction for changing wound membrane 3, makes wound membrane 3 after the second guide roller 152, by anti-
S-shaped(That is S mirror image)Track become be input to rewinding reel 17 backward.S type guide rollers component 16 includes support 161, guide roller
162 and guide roller 163, support 161 be fixedly mounted on the side of casing 2.On guide roller 162 and the mounting bracket 161 of guide roller 163.
The axle center of the rotating shaft of guide roller 162 and guide roller 163 is located on same vertical plane.Guide roller 163 is above guide roller 162.Branch
Frame 161 is provided with spring assembly 164 in the top at the both ends of guide roller 163, by the way that hand adjustment 165 has been saved guide roller 162 and guide roller
Gap between 163 and after making wound membrane 3 be wrapped in S type guide rollers component 16 by movement locus, release hand adjustment spring assembly 164
Elastic force makes guide roller 162 and guide roller 163 keep good contact with wound membrane 3.
Rewinding reel 17:For rotary material collecting, the counterdie 32 of wound membrane 3 is reclaimed, while pulls wound membrane 3 by set track
Motion.Rewinding reel 17 and a motor connection of feeding drive mechanism, make active rotation under motor effect.
Vacuum material fetching mechanism 18:For by the vacuum suction of diaphragm 31 in wound membrane 3, making microscope carrier 14 complete dyestripping action;
After the completion of dyestripping, it will pick up and be transported to the top of area 184 to be fit, completion diaphragm 31 is bonded with sheet glass.Vacuum
The bottom of material fetching mechanism 18 has vacuum adsorption plate 181, and vacuum material fetching mechanism 18 is occurred by the vacuum outside built-in or connection
Device produces vacuum adsorption force in the bottom surface of vacuum adsorption plate 181.Vacuum material fetching mechanism 18 is connected with X-axis mechanical arm 182, in X-axis
Vacuum material fetching mechanism 18 can move forward and backward along X-axis under the driving effect of mechanical arm 182.Vacuum material fetching mechanism 18 drives with Z axis
Structure 183, vacuum adsorption plate 181 can move up and down in the case where the Z axis driving structure 183 of vacuum material fetching mechanism 18 drives along Z axis.
It is finally completed feeding, the action such as feeding to area 184 to be fit, diaphragm 31 is bonded with sheet glass.
Again as shown in figure 3, carrying the schematic diagram of wound membrane annexation on the basis of Fig. 2.As shown in FIG., wound membrane 3 is arranged on
After feed rolls 11, wound membrane 3 is pulled out, makes to have the one side of diaphragm 31 upward.Wound membrane 3 passes through leading for the first guide roller 12 successively
To, from passed through between the lower supporting plate 131 and briquetting 132 of squeeze-film mechanism 13, be placed in the upper surface of microscope carrier 14, around microscope carrier 14 before
After holding termination, bypassing the second guide roller 152 around the second guide roller 151, forward backward, back into S type guide rollers component 16,
Guide roller 163 is first wound on backward, is then wound on guide roller 162 forward, is finally wound on backward on rewinding reel 17.During feeding, move
Make step includes successively:Rewinding reel 17 rotates under the motor driving of feeding drive mechanism, and rewinding reel 17 drives wound membrane 3 to move
It is dynamic;When the diaphragm 31 that probe is identified in wound membrane 3 is reached when 14 ad-hoc location of feeding area or microscope carrier, the pressure of squeeze-film mechanism 13
Block 132, which moves down, is pressed together on lower supporting plate 131, part of the wound membrane 3 behind squeeze-film mechanism 13 is stopped movement, feed rolls
11 also stop feeding forward;The vacuum adsorption plate 181 of vacuum material fetching mechanism 18 is moved along the x-axis to the top of diaphragm 31 of microscope carrier 14
Afterwards, it is displaced downwardly to that vacuum adsorption plate 181 is contacted with diaphragm 31, diaphragm 31 is adsorbed fixation by vacuum adsorption plate 181 along Z axis;Carry
Platform 14 moves horizontally backward under the driving effect of feeding drive mechanism along displacement slot 21, and rewinding reel 17 continues rewinding, until
The diaphragm 31 that vacuum adsorption plate 181 is adsorbed is kept completely separate with counterdie 32, completes dyestripping action;Vacuum material fetching mechanism 18 it is true
Together with diaphragm 31 along after moving on to ad-hoc location along Z axis, vacuum material fetching mechanism 18 moves forward to along X-axis to be treated suction attached plate 181
Conformable region 184, last vacuum material fetching mechanism 18 is by the glass in the diaphragm 31 under vacuum adsorption plate 181 and area 184 to be fit
Piece is bonded.
Some or some preferred embodiments of the present utility model are the foregoing is only, is not thereby limited of the present utility model
The scope of the claims, every equivalent structure or equivalent transformation made using the utility model specification and accompanying drawing content, or directly or
Other related technical fields are used in indirectly, all should be similarly included in scope of patent protection of the present utility model.In addition, with
Part can also not go to implement upper word description referring to figs. 1 to 6 direct expression and conventional understanding to the greatest extent.
Claims (10)
1. diaphragm automatic feed mechanism, it is characterised in that including feed rolls, the first guide roller, squeeze-film mechanism, microscope carrier,
Two guide rollers and rewinding reel;The wound membrane for carrying diaphragm is arranged on described feed rolls, and wound membrane is led by first successively
The rewinding reel is wound on after to roller, squeeze-film mechanism, microscope carrier and the second guide roller;Second guide roller is arranged under microscope carrier
Square, in diaphragm reclaiming process, local pressed by the squeeze-film mechanism of wound membrane is fixed, and is led in first guide roller and second
To under the guide effect of roller, the microscope carrier, to perform dyestripping action, makes diaphragm be separated with wound membrane to the movement of squeeze-film mechanism direction.
2. diaphragm automatic feed mechanism according to claim 1, it is characterised in that the squeeze-film mechanism is rolled up located at feeding
Between cylinder and microscope carrier, for will be pushed down in diaphragm reclaiming process by the wound membrane of squeeze-film mechanism, feed rolls are prevented to send forward
Material and/or prevention wound membrane retreat.
3. diaphragm automatic feed mechanism according to claim 2, it is characterised in that the microscope carrier is used to carry wound membrane,
Make wound membrane in the horizontal forward mobile progress feeding in its surface;And in diaphragm reclaiming process, microscope carrier moves to squeeze-film mechanism direction
Move so that diaphragm separates with wound membrane.
4. diaphragm automatic feed mechanism according to claim 3, it is characterised in that first guide roller is located at feeding
Between reel and microscope carrier, for making wound membrane be maintained at the horizontal forward movement of microscope carrier upper table;Second guide roller is located under microscope carrier
Side, for the front/rear moving process of microscope carrier, the wound membrane above microscope carrier keeps being attached to microscope carrier upper surface;The rewinding reel, is used for
Wound membrane feeding forward is driven by its rotation, and the wound membrane after feeding is reclaimed.
5. diaphragm automatic feed mechanism according to any one of claims 1 to 4, it is characterised in that also including vacuum feeding
Mechanism, in diaphragm reclaiming process, vacuum material fetching mechanism fixes the diaphragm vacuum suction in wound membrane, make microscope carrier relative to
Dyestripping action is completed in motion afterwards, and the diaphragm is transported into area to be fit.
6. diaphragm automatic feed mechanism according to claim 5, it is characterised in that also including S type guide roller components, use
In the direction for changing wound membrane and wound membrane is adjusted by the elastic of S type guide roller components, makes wound membrane after the second guide roller, by anti-
The track of S-shaped becomes is input to rewinding reel backward.
7. diaphragm automatic feed mechanism according to claim 6, it is characterised in that also including casing, the feeding volume
Cylinder, the first guide roller, squeeze-film mechanism, microscope carrier, the second guide roller, rewinding reel, vacuum material fetching mechanism and S type guide rollers component peace
On casing same side.
8. diaphragm automatic feed mechanism according to claim 5, it is characterised in that the wound membrane has continuous bottom
Film, diaphragm is evenly arranged with above counterdie.
9. diaphragm automatic feed mechanism according to claim 7, it is characterised in that also including feeding drive mechanism, institute
The side for stating casing is provided with horizontal displacement slot, the microscope carrier locally through after displacement slot with the feeding drive mechanism in casing
Connection;The rewinding reel electrically connects with a motor of feeding drive mechanism;The feed rolls are provided with retainer, and diaphragm takes
During material, the retainer is braked and forbids feed rolls to rotate.
10. diaphragm automatic feed mechanism according to claim 7, it is characterised in that there are two front-back staggereds to set
The second guide roller, one of them second guide roller is fixedly mounted on microscope carrier bottom, and another second guide roller is fixedly mounted on
Body side;The S types guide roller component includes support, two guide rollers and spring assembly, the axle of the rotating shaft of two guide rollers
The heart is located on same vertical plane;Spring assembly one end is fixed on support, and the other end is connected with guide roller above.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720281700.1U CN206679362U (en) | 2017-03-22 | 2017-03-22 | Diaphragm automatic feed mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720281700.1U CN206679362U (en) | 2017-03-22 | 2017-03-22 | Diaphragm automatic feed mechanism |
Publications (1)
Publication Number | Publication Date |
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CN206679362U true CN206679362U (en) | 2017-11-28 |
Family
ID=60390763
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201720281700.1U Expired - Fee Related CN206679362U (en) | 2017-03-22 | 2017-03-22 | Diaphragm automatic feed mechanism |
Country Status (1)
Country | Link |
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CN (1) | CN206679362U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108639429A (en) * | 2018-07-06 | 2018-10-12 | 苏州富强科技有限公司 | A kind of concave surface film covering device of 3D bend glasses |
CN109384063A (en) * | 2018-12-05 | 2019-02-26 | 深圳市高帝科技有限公司 | A kind of full-automatic membrane material UV transfer interpreter |
-
2017
- 2017-03-22 CN CN201720281700.1U patent/CN206679362U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108639429A (en) * | 2018-07-06 | 2018-10-12 | 苏州富强科技有限公司 | A kind of concave surface film covering device of 3D bend glasses |
CN108639429B (en) * | 2018-07-06 | 2023-08-22 | 苏州富强科技有限公司 | Concave surface laminating device of 3D curved glass |
CN109384063A (en) * | 2018-12-05 | 2019-02-26 | 深圳市高帝科技有限公司 | A kind of full-automatic membrane material UV transfer interpreter |
CN109384063B (en) * | 2018-12-05 | 2024-01-26 | 深圳市卡西实业有限公司 | Full-automatic film UV transfer printing machine |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20171128 Termination date: 20210322 |
|
CF01 | Termination of patent right due to non-payment of annual fee |