CN208896496U - A kind of 3D bend glass convex surface synchronizes transfer assembly - Google Patents

A kind of 3D bend glass convex surface synchronizes transfer assembly Download PDF

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Publication number
CN208896496U
CN208896496U CN201821070222.0U CN201821070222U CN208896496U CN 208896496 U CN208896496 U CN 208896496U CN 201821070222 U CN201821070222 U CN 201821070222U CN 208896496 U CN208896496 U CN 208896496U
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China
Prior art keywords
mounting rack
straight line
sucker
guide rail
line guide
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CN201821070222.0U
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Chinese (zh)
Inventor
吴加富
缪磊
蔡建明
王炫铭
刘景博
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Suzhou RS Technology Co Ltd
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Suzhou RS Technology Co Ltd
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Abstract

The utility model discloses a kind of synchronous transfer assembly in 3D bend glass convex surface, comprising: second straight line guide rail extending in a straight line;With the second mounting rack of second straight line guide rail sliding mating;And it is arranged at intervals at the second absorption migration mould group and transfer rotating module on the second mounting rack, wherein, the side of second straight line guide rail is equipped with for drive second straight line driver of second mounting rack along second straight line guide rail toward polyslip, and the second absorption migration mould group and transfer rotating module can selectivity synchronization liftings in perpendicular.According to the utility model, feeding and blanking action are integrated into an entirety by it, not only reduce structural volume, also enable feeding operation to cooperate with blanking operation and synchronizes operation, the process that originally act progress in two steps, which is integrated into, only needs a movement that can reach equivalent effect, feeding and blanking efficiency are substantially increased, the overlay film efficiency and compound film quality of 3D convex are finally improved.

Description

A kind of 3D bend glass convex surface synchronizes transfer assembly
Technical field
The utility model relates to 3D bend glass overlay film fields, the in particular to a kind of synchronous transfer group in 3D bend glass convex surface Part.
Background technique
The glass cover-plate used on smart terminal product display on existing market can be divided into: 2D glass, 2.5D glass and 3D bend glass, wherein the pure flat surface glass of 2D glass, that is, common, without any cambered design;It is flat that 2.5D glass is then intermediate Face design, edge use cambered design;Then intermediate and marginal portion may be designed to curved arc to 3D bend glass.3D is bent Surface glass mainly be bent using hot-bending machine, can achieve higher crooked radian, some physics of 3D bend glass Characteristic is substantially better than 2D and 2.5D glass.3D bend glass has frivolous, transparent cleaning, anti-fingerprint, anti-dazzle, hard, scratch resistance Wound, the advantages that weatherability is good, can not only promote the novel appearance of smart terminal product, can also bring outstanding touch-control hand Sense brings preferably display and touch experience.
The technique of 3D bend glass production at present mainly has: sawing sheet, CNC, grinding and polishing, baking, plated film, hot bending etc., In one of coating technique is also connect after hot bending process, i.e., the 3D bend glass bumps two sides (also referred to as positive and negative two after hot bending Face) protective film is enclosed, this technique is more crucial, restricts the height of yields to a certain extent.In general, to 3D curved surface In the convex surface film coating operation of glass, generally require to use the mould group of blanking after feeding and overlay film before overlay film, in the market common place Reason mode is that feeding step and blanking step are divided into two mould groups to carry out operation, this results in two mould groups that cannot accomplish completely So as to cause feeding and blanking inefficiency, or even there is the accident of delay machine, directly affects covering for 3D convex in work compound Membrane efficiency and compound film quality.
In view of this, it is really necessary to develop a kind of synchronous transfer assembly in 3D bend glass convex surface, to solve the above problems.
Utility model content
For the shortcomings of the prior art, the purpose of the utility model is to provide a kind of 3D bend glass convex surfaces Synchronous transfer assembly, is integrated into an entirety for feeding and blanking action, not only reduces structural volume, also feeding is made Industry can cooperate with blanking operation and synchronize operation, and the process that originally act progress in two steps, which is integrated into, only needs one to move Work can reach equivalent effect, substantially increase feeding and blanking efficiency, finally improve 3D convex overlay film efficiency and Compound film quality.
In order to realize above-mentioned purpose according to the present utility model and other advantages, it is same to provide a kind of 3D bend glass convex surface Walk transfer assembly, comprising:
Second straight line guide rail extending in a straight line;
With the second mounting rack of second straight line guide rail sliding mating;And
The the second absorption migration mould group and transfer rotating module being arranged at intervals on the second mounting rack,
Wherein, the side of second straight line guide rail is equipped with for driving the second mounting rack along second straight line guide rail toward polyslip Second straight line driver, the second absorption migration mould group and transfer rotating module can selective synchronization liftings in perpendicular.
Preferably, the second absorption migration mould group includes:
The third lifting cylinder being fixedly installed on the second mounting rack;
The third sucker mounting rack being sequentially connected with the power output end of third lifting cylinder;And
Several third suckers on third sucker mounting rack lower surface,
Wherein, the orientation of several third suckers is consistent with the extending direction of second straight line guide rail.
Preferably, third sucker mounting rack structure in T shape, the root of third sucker mounting rack and third lifting cylinder Power output end transmission connection, the left and right ends of third sucker mounting rack are respectively equipped with third sucker.
Preferably, the side of third sucker mounting rack is connected with the second bounce cylinder, the buffering end of the second bounce cylinder It is arranged straight down.
Preferably, the transfer rotating module includes:
The 4th lifting cylinder being fixedly installed on the second mounting rack;
The 4th sucker mounting rack being sequentially connected with the power output end of the 4th lifting cylinder;And
Several the 4th suckers on the 4th sucker mounting rack,
Wherein, the orientation of several the 4th suckers is parallel with the extending direction of second straight line guide rail, the 4th sucker Number it is consistent with the number of third sucker.
Preferably, the 4th sucker mounting rack is equipped with rotary cylinder, and the power output end of the rotary cylinder is straight down It is sequentially connected after extending across the 4th sucker mounting rack with the 4th sucker.
Preferably, the side of the 4th sucker mounting rack is connected with the 4th bounce cylinder, the buffering of the 4th bounce cylinder End is straight down.
The utility model compared with prior art, the beneficial effect is that: its by feeding and blanking action be integrated into one it is whole Body, not only reduces structural volume, also enables feeding operation to cooperate with blanking operation and synchronizes operation, will originally divide The process that two-step action carries out, which is integrated into, only needs a movement that can reach equivalent effect, substantially increases feeding and blanking effect Rate finally improves the overlay film efficiency and compound film quality of 3D convex.
Detailed description of the invention
Fig. 1 is the three-dimensional structure view according to the synchronous transfer assembly in 3D bend glass described in the utility model convex surface;
Fig. 2 is the front view according to the synchronous transfer assembly in 3D bend glass described in the utility model convex surface.
Specific embodiment
The following describes the utility model in further detail with reference to the accompanying drawings, the aforementioned and other mesh of the utility model , features, aspects and advantages will be apparent, to enable those skilled in the art's refer to the instruction text real accordingly It applies.In the accompanying drawings, for clarity, shape and size can be amplified, and identical attached drawing mark will be used in all figures Note is to indicate the same or similar component.In the following description, such as center, thickness, height, length, front, back, rear portion, The words such as the left side, the right, top, bottom, top, lower part are to be based on the orientation or positional relationship shown in the drawings.Particularly, " high Degree " is equivalent to size from the top to the bottom, and " width " is equivalent to size from left to right, and " depth " is equivalent to be arrived in the past Size afterwards.These relative terms are to be not intended to need specifically to be orientated for convenience and usually.Be related to attachment, Connection etc. term (for example, " connection " and " attachment ") refer to these structures pass through intermediate structure directly or indirectly to one another fixation or The relationship of attachment and movable or rigidly attached or relationship, unless otherwise clearly stating.
Referring to FIG. 1 and FIG. 2, the synchronous transfer assembly 12 in 3D bend glass convex surface includes:
Second rack 122;
Second straight line guide rail 123 in the second rack 122, along linear extension;
With the second mounting rack 124 of the sliding mating of second straight line guide rail 123;And
The the second absorption migration mould group 125 and transfer rotating module 126 being arranged at intervals on the second mounting rack 124,
Wherein, the side of second straight line guide rail 123 is equipped with for driving the second mounting rack 124 along second straight line guide rail 123 Toward the second straight line driver 127 of polyslip, the second absorption migration mould group 125 can put down vertically with transfer rotating module 126 Selective synchronization lifting in face.
Referring to Fig.1, the second absorption migration mould group 125 includes:
The third lifting cylinder 1251 being fixedly installed on the second mounting rack 124;
The third sucker mounting rack 1252 being sequentially connected with the power output end of third lifting cylinder 1251;And
Several third suckers 1253 on 1252 lower surface of third sucker mounting rack,
Wherein, the orientation of several third suckers 1253 is consistent with the extending direction of second straight line guide rail 123.
Further, the structure in T shape of third sucker mounting rack 1252, the root of third sucker mounting rack 1252 and the The power output end of three lifting cylinders 1251 is sequentially connected, and the left and right ends of third sucker mounting rack 1252 are respectively equipped with third Sucker 1253.
Further, the side of third sucker mounting rack 1252 is connected with the second bounce cylinder 1254, the second bounce cylinder 1254 buffering end is arranged straight down.
Referring to Fig.1, the transfer rotating module 126 includes:
The 4th lifting cylinder 1261 being fixedly installed on the second mounting rack 124;
The 4th sucker mounting rack 1262 being sequentially connected with the power output end of the 4th lifting cylinder 1261;And
Several the 4th suckers 1265 on the 4th sucker mounting rack 1262,
Wherein, the orientation of several the 4th suckers 1265 is parallel with the extending direction of second straight line guide rail 123, the The number of four suckers 1265 is consistent with the number of third sucker 1253.
Further, the 4th sucker mounting rack 1262 is equipped with rotary cylinder 1263, and the power of the rotary cylinder 1263 is defeated Outlet is sequentially connected after extending across the 4th sucker mounting rack 1262 straight down with the 4th sucker 1265.
Further, the side of the 4th sucker mounting rack 1262 is connected with the 4th bounce cylinder 1264, the 4th buffering gas The buffering end of cylinder 1264 is straight down.
When work, 3D bend glass to overlay film at feeding station convex surface upward, concave surface downward, after the completion of overlay film, 3D Bend glass is placed on blanking conveyer belt and sends out.Work step:
S1, second straight line driver 127 drive the second mounting rack 124 to be moved to second straight line along second straight line guide rail 123 The front end of guide rail 123 is so that the second absorption migration mould group 125 is moved at feeding station, and third sucker 1253 is by first 3D Bend glass picks up;
S2, second straight line driver 127 drive the second mounting rack 124 be moved to second straight line guide rail 123 end so that The second absorption migration mould group 125 is moved to the surface of concave surface jig, third sucker 1253 is by first 3D curved surface of absorption Glass is put into concave surface jig and waits overlay film;
S3, after the completion of first 3D bend glass overlay film, second straight line driver 127 drives 124 edge of the second mounting rack Second straight line guide rail 123 is moved to the front end of second straight line guide rail 123 so that the second absorption migration mould group 125 and transfer rotation Mould group 126 is moved to the surface of at feeding station and concave surface jig respectively, at this point, third sucker 1253 is by second batch 3D curved surface Glass picks up, and the 4th sucker 1265 picks up first 3D bend glass;
S4, second straight line driver 127 drive the second mounting rack 124 be moved to second straight line guide rail 123 end so that It obtains the second absorption migration mould group 125 and transfer rotating module 126 is moved to respectively at surface and the discharge station of concave surface jig, The second batch 3D bend glass of absorption is put into concave surface jig and waits overlay film by third sucker 1253, and the 4th sucker 1265 is in rotary pneumatic First 3D bend glass put to blanking conveyer belt etc. after being rotated by 90 ° under the driving of cylinder 1263 to be transmitted;
S5, step S1~S4 is repeated, until completing the convex surface film coating operation of all 3D bend glasses.
Number of devices and treatment scale described herein are the explanations for simplifying the utility model.To the utility model Application, modifications and variations will be readily apparent to persons skilled in the art.
Although the embodiments of the present invention have been disclosed as above, it is not limited in institute in specification and embodiments Column use, it can be applied to various fields suitable for the present invention completely, for those skilled in the art, can Easily realize other modification, therefore without departing from the general concept defined in the claims and the equivalent scope, this is practical It is novel to be not limited to specific details and legend shown and described herein.

Claims (7)

1. a kind of 3D bend glass convex surface is synchronous transfer assembly (12) characterized by comprising
Second straight line guide rail (123) extending in a straight line;
With the second mounting rack (124) of second straight line guide rail (123) sliding mating;And
The the second absorption migration mould group (125) and transfer rotating module (126) being arranged at intervals on the second mounting rack (124),
Wherein, the side of second straight line guide rail (123) is equipped with for driving the second mounting rack (124) along second straight line guide rail (123) toward the second straight line driver (127) of polyslip, the second absorption migration mould group (125) and transfer rotating module (126) are equal It can selective synchronization lifting in perpendicular.
2. 3D bend glass as described in claim 1 convex surface is synchronous transfer assembly (12), which is characterized in that the second absorption migration Mould group (125) includes:
The third lifting cylinder (1251) being fixedly installed on the second mounting rack (124);
The third sucker mounting rack (1252) being sequentially connected with the power output end of third lifting cylinder (1251);And
Several third suckers (1253) on third sucker mounting rack (1252) lower surface,
Wherein, the orientation of several third suckers (1253) is consistent with the extending direction of second straight line guide rail (123).
3. 3D bend glass as claimed in claim 2 convex surface is synchronous transfer assembly (12), which is characterized in that the installation of third sucker Frame (1252) structure in T shape, the root of third sucker mounting rack (1252) and the power output of third lifting cylinder (1251) End transmission connection, the left and right ends of third sucker mounting rack (1252) are respectively equipped with third sucker (1253).
4. 3D bend glass as claimed in claim 2 convex surface is synchronous transfer assembly (12), which is characterized in that the installation of third sucker The side of frame (1252) is connected with the second bounce cylinder (1254), and the buffering end of the second bounce cylinder (1254) is set straight down It sets.
5. 3D bend glass as claimed in claim 2 convex surface is synchronous transfer assembly (12), which is characterized in that the transfer rotation Mould group (126) includes:
The 4th lifting cylinder (1261) being fixedly installed on the second mounting rack (124);
The 4th sucker mounting rack (1262) being sequentially connected with the power output end of the 4th lifting cylinder (1261);And
Several the 4th suckers (1265) on the 4th sucker mounting rack (1262),
Wherein, the orientation of several the 4th suckers (1265) is parallel with the extending direction of second straight line guide rail (123), the The number of four suckers (1265) is consistent with the number of third sucker (1253).
6. 3D bend glass as claimed in claim 5 convex surface is synchronous transfer assembly (12), which is characterized in that the installation of the 4th sucker Frame (1262) is equipped with rotary cylinder (1263), and the power output end of the rotary cylinder (1263) extends across the straight down Four sucker mounting racks (1262) are sequentially connected with the 4th sucker (1265) afterwards.
7. 3D bend glass as claimed in claim 5 convex surface synchronizes transfer assembly, which is characterized in that the 4th sucker mounting rack (1262) side is connected with the 4th bounce cylinder (1264), and the buffering end of the 4th bounce cylinder (1264) is straight down.
CN201821070222.0U 2018-07-06 2018-07-06 A kind of 3D bend glass convex surface synchronizes transfer assembly Active CN208896496U (en)

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Application Number Priority Date Filing Date Title
CN201821070222.0U CN208896496U (en) 2018-07-06 2018-07-06 A kind of 3D bend glass convex surface synchronizes transfer assembly

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Application Number Priority Date Filing Date Title
CN201821070222.0U CN208896496U (en) 2018-07-06 2018-07-06 A kind of 3D bend glass convex surface synchronizes transfer assembly

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108859090A (en) * 2018-07-06 2018-11-23 苏州富强科技有限公司 A kind of 3D bend glass convex surface synchronizes transfer assembly

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108859090A (en) * 2018-07-06 2018-11-23 苏州富强科技有限公司 A kind of 3D bend glass convex surface synchronizes transfer assembly

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