CN103722739A

CN103722739A - Manufacturing method of three-dimensional explosion-proof glass

Info

Publication number: CN103722739A
Application number: CN201210387552.3A
Authority: CN
Inventors: 洪胜忠
Original assignee: Ai Yuan Good Fortune Science And Technology Co Ltd
Current assignee: Ai Yuan Good Fortune Science And Technology Co Ltd
Priority date: 2012-10-12
Filing date: 2012-10-12
Publication date: 2014-04-16

Abstract

The invention discloses a manufacturing method of three-dimensional explosion-proof glass. According to the manufacturing method, three-dimensional explosion-proof glass and plastic slices are delivered onto a second mould and a first mould of a high-pressure and vacuum moulding device; mould assembly of the first mould and the second mould is performed so as to form a sealed mould cavity composed of a first side surface and a second side surface of the plastic sheets, and the first side surface and the second side surface of the plastic sheets are vacuumized at the same time, so that the plastic sheets will attach onto the first mould because of vacuum suction; the plastic sheets are heated and softened because of the temperature of the first mould, then vacuumizing of the first side surface of the plastic sheets is stopped, high-pressure air is inserted into the first side surface of the plastic sheets successively, and the second side surface is vacuumized continuously. The plastic sheets will be pushed against the second side surface because of pressure difference, and will attach onto the three-dimensional changing curved surface of the glass smoothly and completely, so that safe explosion resistance is obtained, and applicability and application range of the three-dimensional explosion-proof glass are improved greatly.

Description

The manufacture method of the three-dimensional implosion guard of 3D

Technical field

The present invention relates to the manufacture method of the three-dimensional implosion guard of a kind of 3D, relate to especially and can be covered on any size, shape or change the 3D solid of curved surface on glass by fast smoothly complete plastic tab, to reach quick manufacture, there is the three-dimensional implosion guard of 3D of explosion-proof effect.

Background technology

Along with the arriving of information age, 3C Product has become in people's daily life can not obtain scarce some, the trend of staff one machine, allow mobile phone dealer constantly weed out the old and bring forth the new, and create the i agitation that from generation to generation intelligent mobile phone is sold fast, therefore, for mobile phone, the even casing of tablet PC or shell, enclosing cover its only traditional 2D plate glass of protective effect no longer satisfy the demands of consumers, to such an extent as to some mobile phone dealer releases the 2.5D glass outer-cover with graceful arc curve in the recent period, and start once again the upsurge of selling greatly, simultaneously, also because the technology of the three-dimensional glass of 3D can make this glass still can reach the thickness evenness of high precision after bending at present, and its thinness even can reach 0.1mm, as can be seen here, the three-dimensional glass of 3D is widely used in mobile phone enclosing cover, shell or tablet PC casing have become following main flow trend, but, how to make the three-dimensional glass of 3D of graceful curve possess explosion-proof characteristic simultaneously, can accidentally drop mobile phone or tablet PC and while making the three-dimensional glass breakage of 3D in consumer, can not allow glass fragment disperse completely everywhere, avoid causing the dangerous situation of incised wound to occur, be must be in the three-dimensional rupture pressure disc that pastes on glass of 3D, the glass fragment breaking is sticked on this rupture pressure disc, but, conventional art is to use cylinder that rupture pressure disc is covered on flat glass, but because the rolling pressing of cylinder is only limited to plane position, for vicissitudinous curved surface or degree of depth position, cannot be suitable for laminating at all, and in pasting process, usually because the power inequality of using, and cause bubble to residue between plastic sheeting and glass, cause the high puzzlement of fraction defective, and process consuming time, manufacturing cost is high again, really do not meet economic benefit, by learning above, still there is many disappearances in conventional art, be with, in view of this, as how fast method plastic tab is covered on to have the 3D solid of different sizes, shape or Curved arc deformation on glass, reach explosion-proof effect really, and can be simultaneously in the three-dimensional needed pattern of formation on glass of 3D or lines, improving value attractive in appearance, reduce manufacturing cost, is current technology and the problem that this relevant dealer desires most ardently research and development and breaks through of being engaged in.

Summary of the invention

All the shortcoming that the inventor pastes for the explosion-proof film of aforementioned glass, and being studied intensively, more positive research and development, creation, engage in professional experiences and the gains in depth of comprehension of this industry, so create the invention of this case through for many years.

Main purpose of the present invention is to be to provide a kind of 3D manufacture method of three-dimensional implosion guard, this manufacture method can smoothly paste in any size, shape or to change the 3D solid of curved surface on glass by complete plastic tab fast, not only processing is quick, fine ratio of product is high, more can reach effectively explosion-proof effect, improve the three-dimensional superiority of implosion guard of 3D and the value of related industry.

Another main purpose of the present invention is to be to provide a kind of 3D manufacture method of three-dimensional implosion guard, this manufacture method is pasting in process, be by the method for operating vacuumizing, avoid bubble to remain between plastic tab and the three-dimensional glass of 3D, reduce fraction defective, improve plastic tab and be covered on 3D quality and economic benefit three-dimensional on glass.

Secondary objective of the present invention is to be to provide a kind of 3D manufacture method of three-dimensional implosion guard, that needed pattern color or lines are directly covered on to 3D solid is on glass pasting in process simultaneously for this manufacture method, not only can increase the attractive in appearance and value of the three-dimensional implosion guard of 3D, more can save processing cost, improve the efficiency of volume production.

For reaching above-mentioned purpose, the invention provides the manufacture method of the three-dimensional implosion guard of a kind of 3D, its method comprises following steps: step 1: three-dimensional 3D glass is inserted to the second template of high pressure and vacuum forming device; Step 2: the first template of plastic tab being inserted to high pressure and vacuum forming device; Step 3: by the first template of high pressure and vacuum forming device and the second template matched moulds; Step 4: the first side of plastic tab and the second side are vacuumized simultaneously; Step 5: the first side that stops plastic tab vacuumizing; Step 6: pressure-air is injected in the first side of plastic tab, and the second side of plastic tab continues to vacuumize; Step 7: the first template and second template of opening high pressure and vacuum forming device; Step 8: take out the three-dimensional implosion guard of the 3D having pasted; Above step completes the manufacture method of the three-dimensional implosion guard of 3D; The present invention provides a kind of 3D manufacture method of three-dimensional implosion guard in addition, and its method comprises following steps: step 1: the first template of plastic tab being inserted to high pressure and vacuum forming device; Step 2: three-dimensional 3D glass is inserted to the second template of high pressure and vacuum forming device; Step 3: by the first template of high pressure and vacuum forming device and the second template matched moulds; Step 4: the first side of plastic tab and the second side are vacuumized simultaneously; Step 5: the first side that stops plastic tab vacuumizing; Step 6: pressure-air is injected in the first side of plastic tab, and the second side of plastic tab continues to vacuumize; Step 7: the first template and second template of opening high pressure and vacuum forming device; Step 8: take out the three-dimensional implosion guard of the 3D having pasted; Above step completes the manufacture method of the three-dimensional implosion guard of 3D; Wherein, step 3, by after the first template of high pressure and vacuum forming device and the second template matched moulds, makes plastic tab the first side and the second side form the die cavity of sealing; Wherein, step 4 vacuumizes the first side of plastic tab and the second side simultaneously, and this plastic tab can be drawn by pull of vacuum and be attached to the first template, by the temperature of the first template, plastic tab is heated and softens; Wherein, after reach-150mmHg of the vacuum values of step 4 is above, carry out step 5, the first side that stops plastic tab vacuumizing, and the action of subsequent steps 6 is injected pressure-air in the first side of plastic tab, and the second side of plastic tab continues to vacuumize, this plastic tab is pushed to its second side because of pressure reduction strength, be covered on accordingly 3D solid on glass; Wherein, the first template has the temperature of softening plastic tab; Wherein, plastic tab is provided with dope layer by a film bottom surface, and this dope layer forms in contrast to being provided with then glue on the another side of film; Wherein, plastic tab is by being provided with dope layer above a film, and this film forms in contrast to being provided with then glue on the another side of dope layer; Wherein, plastic tab is provided with dope layer above by undermost then glue, and this dope layer arranges the release layer with isolation effect on the another side of then glue, and release layer forms in contrast to being provided with film on the another side of dope layer; Wherein, dope layer is printed layers, and this printed layers is needed color, pattern or lines; Wherein, the one side of the three-dimensional glass gluing of plastic tab and 3D is to be provided with the then one side of glue; Wherein, film and release layer can be covered on after the manufacture processing method of the three-dimensional glass of 3D in completing plastic tab, are torn and depart from the three-dimensional glass of 3D; By above technological means and implementation method, learnt, the manufacture method of the three-dimensional implosion guard of 3D of the present invention can by complete plastic tab be smoothly covered on any size, shape or change the 3D solid of curved surface on glass, to reach explosion-proof, safe effect, and manufacture process can avoid bubble to remain between plastic tab and the three-dimensional glass of 3D really, improves the value of industry.

For making auditor can further understand structure of the present invention, manufacture method, feature and effect place, be hereby accompanied by preferred embodiment and coordinate graphic being described in detail as follows.

Accompanying drawing explanation

Fig. 1 is preferred embodiment summary schematic flow sheet of the present invention;

Fig. 2 is the three-dimensional glass schematic diagram of preferred embodiment 3D of the present invention;

Fig. 3 is preferred embodiment plastic tab schematic diagram of the present invention;

Fig. 4 is preferred embodiment plastic tab schematic diagram of the present invention;

Fig. 5 is preferred embodiment plastic tab schematic diagram of the present invention;

Fig. 6 is the manufacturing process schematic diagram of preferred embodiment of the present invention;

Fig. 7 is the manufacturing process schematic diagram of preferred embodiment of the present invention;

Fig. 8 is schematic diagram before preferred embodiment mould matched moulds of the present invention;

Fig. 9 is schematic diagram after preferred embodiment mould matched moulds of the present invention;

Figure 10 A is schematic diagram after preferred embodiment mould matched moulds of the present invention;

Figure 10 B is schematic diagram after preferred embodiment mould of the present invention die sinking;

Figure 10 C is the three-dimensional implosion guard schematic diagram of 3D that preferred embodiment of the present invention does not cut plastic tab;

Figure 10 D is the three-dimensional implosion guard schematic diagram of 3D that preferred embodiment of the present invention has cut plastic tab.

Description of reference numerals

(10) the first template (S20) that three-dimensional implosion guard (20) plastic tab of three-dimensional glass (100) 3D of 3D (201) first side (202) second side (21) film (22) dope layers (23) the second template (S12) that then glue (25) release layer (50) high pressure and vacuum forming device (51) the first template three-dimensional glass tools of (52) second template (521) 3D (S11) are inserted high pressure and vacuum forming device by three-dimensional 3D glass is inserted plastic tab high pressure and vacuum forming device vacuumizes the first side of plastic tab and the second side the first template of high pressure and vacuum forming device and the second template matched moulds (S30) the first side that (S40) stop plastic tab simultaneously and vacuumizes the first side injection pressure-air of (S50) plastic tab, and the second side of plastic tab is continued to vacuumize the first template that (S60) open high pressure and vacuum forming device and is taken out with the second template (S70) the 3D solid implosion guard having pasted

The specific embodiment

Be below special construction of the present invention and manufacture method:

Refer to shown in Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, the summary schematic flow sheet of preferred embodiment of the present invention, mainly by high pressure and vacuum forming device (60), heat, vacuumize and again forced air promote plastic tab (20), utilize the strength of pressure reduction, with by smoothly complete pasting at the three-dimensional glass of 3D (10) above of plastic tab (20), make this 3D solid glass (10) become the three-dimensional implosion guard of 3D (100) with explosion-proof effect; The three-dimensional glass of this 3D (10) is for having the glass of curved surface variation or various shapes; Wherein, plastic tab (20) is mainly comprised of transparent film (21), dope layer (22), then glue (23) or release layer (25); Plastic tab of the present invention (20) can be comprised of following 3 kinds of different stratiform orders: the first (as shown in Figure 3): film (21) bottom surface is provided with a dope layer (22), this dope layer (22) is provided with then glue (23) in contrast to adhering on the another side of film (21), make then glue (23) be arranged at orlop, by above 3 kinds of layer structures and order, form the first plastic tab (20); The second (as shown in Figure 4): film (21) is provided with a dope layer (22) above, this film (21) is provided with then glue (23) in contrast to adhering on the another side of dope layer (22), make film (21) be positioned at dope layer (22) and follow between glue (23) layer, and then glue (23) is also arranged at orlop, by above 3 kinds of layer structures and order, form the second plastic tab (20); The third: above undermost then glue (23), be provided with a dope layer (22), dope layer (22) is provided with the release layer (25) with isolation effect on the another side of then glue (23), release layer (25) is provided with film (21) on the another side of dope layer (22), by above 3 kinds of layer structures and order, forms the third plastic tab (20); Dope layer of the present invention (22) is printed layers, and this printed layers can be various coloured patterns or lines according to needs, and release layer (25) is for there to be the mould release of buffer action, and is preferably silica gel.

Refer to shown in Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10 A, Figure 10 B, Figure 10 C, Figure 10 D, the manufacturing process schematic diagram of preferred embodiment of the present invention, its implementation method comprises following steps:

Step (S11): the three-dimensional glass tool of 3D (521) interior (shown in Fig. 8) of the three-dimensional glass of 3D (10) being inserted to second template (52) of high pressure and vacuum forming device (50); High pressure of the present invention and vacuum forming device (50) are mainly consisted of the first template (51) and the second template (52);

Step (S12): the first template (51) of plastic tab (20) being inserted to high pressure and vacuum forming device (50); Shown in Fig. 8 and Fig. 9, plastic tab of the present invention (20) is attached with the then one side of glue (23) towards the one side of the three-dimensional glass of 3D (10) for arranging; This first template (51) has the proper temperature that can soften plastic tab (20); Shown in Fig. 7, another manufacturing process schematic diagram of preferred embodiment of the present invention, can first plastic tab (20) be inserted to first template (51) of high pressure and vacuum forming device (50), the more three-dimensional glass of 3D (10) be inserted in the three-dimensional glass tool of 3D (521) of the second template (52) of high pressure and vacuum forming device (50); Complete after above step (S 11) and (S 12), can carry out step (S20);

Step (S20): by first template (51) of high pressure and vacuum forming device (50) and the second template (52) matched moulds, make plastic tab (20) first sides (201) and the second side (202) form the die cavity (shown in Fig. 9) of sealing;

Step (S30): first side (201) of plastic tab (20) and the second side (202) are vacuumized simultaneously; Now, plastic tab (20) can upwards be inhaled by pull of vacuum, and is attached to the first template (51), by the temperature of the first template (51), plastic tab (20) is heated and softens;

Step (S40): the first side (201) that stops plastic tab (20) vacuumizes; When vacuum values reach-more than 150mmHg after, the first side (201) that stops plastic tab (20) vacuumizes;

Step (S50): pressure-air is injected in first side (201) of plastic tab (20), and second side (202) of plastic tab (20) continues to vacuumize; By first side (201) of plastic tab (20), used the mode of air pressurized, simultaneously, second side (202) of this plastic tab (20) continues to vacuumize, and then allow plastic tab (20) two sides produce pressure reduction, this pressure reduction strength is pushed to the second side (202), makes plastic tab (20) paste on the variation curved surface of glass 3D solid (shown in Figure 10 A) because of the strength of pressure reduction; In manufacture process of the present invention, because second side (202) of plastic tab (20) continues to vacuumize, to such an extent as to, between the three-dimensional glass of plastic tab (20) and 3D (10), complete and there is no residual unnecessary bubble, allow on the smooth-going variation curved surface that is intactly covered on the three-dimensional glass of 3D (10) of plastic tab (20);

Step (S60): first template (51) and the second template (52) (as shown in Figure 10 B) of opening high pressure and vacuum forming device (50);

Step (S70): take out the three-dimensional implosion guard of 3D (100) having pasted; First template (51) of unlatching high pressure and vacuum forming device (50) and the second template (52) are afterwards, can take out the three-dimensional implosion guard (100) of 3D (as shown in Figure 10 C) having pasted, through processing, cut again, unnecessary plastic tab (20) is cut, further to complete as shown in Figure 10 D, the more complete three-dimensional implosion guard of 3D (100).

Because plastic tab of the present invention (20) has the layer structure order of 3 kinds of various combinations, when plastic tab (20) is provided with a dope layer (22) by film (21) bottom surface, this dope layer (22) is attached with then glue (23) in contrast to arranging on the another side of film (21), or above film (21), be provided with a dope layer (22), this film (21) is attached with then glue (23) in contrast to arranging on the another side of dope layer (22), 2 kinds is to be all arranged at orlop by following glue (23), with strengthening, be covered on the steadiness on the three-dimensional glass of 3D (10), and after 2 kinds of plastic tabs (20) are covered on the three-dimensional glass of 3D (10) with the above-mentioned manufacture method of the present invention above, together with film (21), be all to stay the three-dimensional glass of 3D (10) above as explosion-proof purposes, therefore, when the three-dimensional implosion guard of the 3D of completion of processing (100) not only can improve the hardness of glass, more can be when accidentally breaking, this glass fragment is still attached on plastic tab (20), effectively prevent that glass fragment from dispersing everywhere, and work as plastic tab (20) for being provided with dope layer (22) above undermost then glue (23), dope layer (22) is provided with release layer (25) on the another side of then glue (23), release layer (25) is when being provided with the plastic tab (20) that film (21) forms on the another side of dope layer (22), then glue (23) is still and is arranged at orlop, and after being covered on the three-dimensional glass of 3D (10) with this kind of plastic tab (20) by the above-mentioned method of the present invention, by release layer (25), there is the effect of isolation, film (21) and release layer (25) can be torn simultaneously, only leave dope layer (22) and follow glue (23) on the three-dimensional glass of 3D (10), this dope layer (22) and the then intensity of glue (23) still can be used as explosion-proof purposes, therefore, the three-dimensional implosion guard of 3D (100) of completion of processing not only can improve the hardness of glass equally, also can be when accidentally breaking, effectively prevent that glass fragment from dispersing everywhere, more therefore reduce the thickness pasting, reach the thinness of better state, after the present invention is covered on the three-dimensional glass of 3D (10) by above-mentioned manufacture method by plastic tab (20), no matter whether film (21) or release layer (25) are torn, still in pasting process, the dope layer of needed colour pattern or lines (22) is covered on to the three-dimensional glass of 3D (10) upper, to improve the attractive in appearance and superiority of the three-dimensional implosion guard of 3D (100) simultaneously.

Comprehensive above-mentioned manufacture method is learnt, novelty of the present invention, progressive and creativeness have: (one) manufacture method of the present invention with high pressure and vacuum forming device, heat, vacuumize and again forced air promote plastic tab, utilize the strength of pressure reduction, by fast smoothly complete plastic tab, paste having that curved surface changes or the 3D solid of various shapes is on glass accordingly, make this 3D solid glass become the three-dimensional implosion guard of 3D with explosion-proof effect, to improve the security of product, and the applicability of product and range of application more greatly promote; (2) action that manufacture method utilization of the present invention vacuumizes, to avoid bubble to remain between plastic tab and glass, not only reduces loss, the saving manufacturing cost of manufacture process, more can improve the output of quality and production line; (3) manufacture method of the present invention pastes in process simultaneously at plastic tab that needed pattern color or lines are directly covered on to 3D solid is on glass, not only can beautify the appearance and modeling of the three-dimensional implosion guard of 3D, variation diversity that more can improving product visual effect; (4) plastic tab of the present invention completes and pastes after 3D process three-dimensional on glass, utilize the release layer of plastic tab to there is the effect of isolation, again film and release layer are torn, only leave dope layer and follow glue on glass, this dope layer and the then intensity of glue still can reach explosion-proof effect, more therefore reduce the thickness pasting, be enough to promote the superiority of the three-dimensional implosion guard of 3D.

The above; it is only the preferred embodiment wherein of the technology of the present invention thought and feature; not be used for limiting practical range of the present invention; other is such as according under same spirit of the present invention and any variation done of claim scope and the arrangement of modification or isotropism, and the category and the claim scope that are all the present invention's protection contain.

The present invention is based on above feature and be a quite outstanding and excellent design; It does not see publication or open use, meets the application important document of patent of invention, files an application in accordance with the law.

Claims

1. a manufacture method for the three-dimensional implosion guard of 3D, its method comprises following steps:

Step 1: three-dimensional 3D glass is inserted to the second template of high pressure and vacuum forming device;

Step 2: the first template of plastic tab being inserted to high pressure and vacuum forming device;

Step 3: by the first template of high pressure and vacuum forming device and the second template matched moulds;

Step 4: the first side and second side of plastic tab vacuumize simultaneously;

Step 5: the first side that stops plastic tab vacuumizing;

Step 6: pressure-air is injected in the first side of plastic tab, and the second side of plastic tab continues to vacuumize;

Step 7: the first template and second template of opening high pressure and vacuum forming device;

Step 8: take out the three-dimensional implosion guard of the 3D having pasted;

Above step completes the manufacture method of the three-dimensional implosion guard of 3D.

2. a manufacture method for the three-dimensional implosion guard of 3D, its method comprises following steps:

Step 1: the first template of plastic tab being inserted to high pressure and vacuum forming device;

Step 2: three-dimensional 3D glass is inserted to the second template of high pressure and vacuum forming device;

Step 4: the first side and second side of plastic tab vacuumize simultaneously;

Step 5: the first side that stops plastic tab vacuumizing;

Step 8: take out the three-dimensional implosion guard of the 3D having pasted;

3. the manufacture method of the three-dimensional implosion guard of 3D as claimed in claim 1 or 2, is characterized in that, step 3, by after the first template of high pressure and vacuum forming device and the second template matched moulds, makes plastic tab the first side and the second side form the die cavity of sealing.

4. the manufacture method of the three-dimensional implosion guard of 3D as claimed in claim 1 or 2, it is characterized in that, step 4 vacuumizes the first side of plastic tab and the second side simultaneously, this plastic tab can be drawn by pull of vacuum and be attached to the first template, by the temperature of the first template, plastic tab is heated and softens.

5. the manufacture method of the three-dimensional implosion guard of 3D as claimed in claim 1 or 2, is characterized in that, after reach-150mmHg of the vacuum values of step 4 is above, carry out step 5, and the first side that stops plastic tab vacuumizing; And the action of subsequent steps 6 injects pressure-air by the first side of plastic tab, and the second side of plastic tab continues to vacuumize, and this plastic tab is pushed to the second side because of pressure reduction strength, is covered on accordingly 3D solid on glass.

6. the manufacture method of the three-dimensional implosion guard of the 3D as described in 1 or 2 of claims, is characterized in that, the first template has the temperature of softening plastic tab.

7. the manufacture method of the three-dimensional implosion guard of 3D as claimed in claim 1 or 2, is characterized in that, plastic tab is provided with dope layer by a film bottom surface, and this dope layer forms in contrast to being provided with then glue on the another side of film; Wherein, dope layer is printed layers, and this printed layers is needed color, pattern or lines; Wherein, the one side of the three-dimensional glass gluing of plastic tab and 3D is to be provided with the then one side of glue.

8. the manufacture method of the three-dimensional implosion guard of 3D as claimed in claim 1 or 2, is characterized in that, plastic tab is by being provided with dope layer above a film, and this film forms in contrast to being provided with then glue on the another side of dope layer; Wherein, dope layer is printed layers, and this printed layers is needed color, pattern or lines; Wherein, the one side of the three-dimensional glass gluing of plastic tab and 3D is to be provided with the then one side of glue.

9. the manufacture method of the three-dimensional implosion guard of 3D as claimed in claim 1 or 2, it is characterized in that, plastic tab is by being provided with dope layer above undermost then glue, this dope layer arranges the release layer with isolation effect on the another side of then glue, and release layer forms in contrast to being provided with film on the another side of dope layer; Wherein, dope layer is printed layers, and this printed layers is needed color, pattern or lines; Wherein, the one side of the three-dimensional glass gluing of plastic tab and 3D is to be provided with the then one side of glue.

10. the manufacture method of the three-dimensional implosion guard of 3D as claimed in claim 9, is characterized in that, film and release layer can be covered on after the manufacture processing method of the three-dimensional glass of 3D in completing plastic tab, is torn and departs from the three-dimensional glass of 3D.