CN103568452B - Multilayer object is exerted pressure applying method and device - Google Patents

Abstract

The invention provides a kind of multilayer object to exert pressure applying method, comprise pan feeding one multilayer object, and translation one contact assembly and this multilayer object at least one of them, make this contact assembly and this multilayer object close to each other and formed and press, and the pair of horns allowing this contact assembly press from one of them end angle of a pressure surface of this multilayer object to this end angle presses to the whole face completing this pressure surface.The present invention also provides a kind of laminating apparatus of exerting pressure of multilayer object, in order to implement above-mentioned applying method of exerting pressure, gets rid of the gas bubbles left in multilayer object.

Description

Multilayer object is exerted pressure applying method and device

[technical field]

The present invention has the technology about a kind of laminating, particularly a kind of exert pressure applying method and device of multilayer object.

[background technology]

The multilayer object of general common name, refers to by the objects such as thin plate, glue-line, film form bonded to each other.Contact panel common at present, touch control display device, solar panels etc., all belong to the one in multilayer object.For contact panel, this contact panel can be such as the multilayer object be made up of a cover glass (Coverglass) and a touch base plate.Wherein, be fit through a pressure sensitive solid (PressureSensitiveAdhesives, PSA, hereinafter referred to as pressure-sensing glue) further between cover glass and touch base plate.

Please refer to Fig. 1, is the schematic top plan view of the applying method of traditional multilayer object.The applying method of tradition multilayer object 200, normally first pressure-sensing glue is placed in multilayer object 200 appoint two-layer between, exert pressure facility 100 with side 211 position of the opposing parallel pressure surface in multilayer object 200 (upper surface) via one to property again afterwards, start to carry out along the Y direction pressing to another parallel opposite side 212 to complete laminating.In this laminating process, can bubble be produced unavoidably and make those laminating bubbles residue in multilayer object 200 in a large number, and then affecting laminating quality and product yield.

Therefore, on the coating technique of multilayer object, how will effectively to get rid of laminating bubble, effectively to promote laminating quality and product yield, be the problem that present value obtains in addition research and development.

[summary of the invention]

Exert pressure applying method and device of the present invention change the configuration between multilayer object and contact assembly, make to be first form oblique configuration then to press again between multilayer object and contact assembly, use and solve multilayer object generates laminating bubble problem when fitting, effectively promote laminating quality and the yield of multilayer object.

In view of this, the invention provides a kind of multilayer object and to exert pressure applying method, comprising: pan feeding one multilayer object; And translation one contact assembly and this multilayer object at least one of them, make this contact assembly and this multilayer object close to each other and formed and press, and the pair of horns allowing this contact assembly press from one of them end angle of a pressure surface of this multilayer object to this end angle presses to the whole face completing this pressure surface.

Further, above-mentioned multilayer object comprises at least two grounds, and comprises an adhesion between this two ground.

Further, above-mentioned adhesion is a shaped as frame pressure-sensitive glued membrane.

Further, at least one of them the binding face of above-mentioned two grounds is formed with a frame-shaped construction further, and this adhesion is pressure-sensitive glued membrane or a shaped as frame pressure-sensitive glued membrane of a whole plane.

Further, above-mentioned multilayer object comprises at least two grounds, and one of them this ground is the ground of a whole plane, and another this ground is wherein a shaped as frame adhesion ground.

Further, a pair linea angulata of perpendicular or parallel this pressure surface in this multilayer object of a contact wire of being formed when pressing this pressure surface of this multilayer object of above-mentioned contact assembly.

Further, above-mentioned contact assembly is a cylinder or a pressing plate.

Further, the kenel of above-mentioned multilayer object is a polygonized structure.

Said method can obtain realization through a kind of device technique, for this reason, the invention provides a kind of multilayer object and to exert pressure laminating apparatus, comprising: a platform, carry a multilayer object; One contact assembly, is configured at the side of this platform; And a driver, this platform of translation and this contact assembly at least one of them, make this contact assembly and this multilayer object close to each other and formed and press, and the pair of horns allowing this contact assembly press from one of them end angle of a pressure surface of this multilayer object to this end angle presses to the whole face completing this pressure surface.

Further, above-mentioned multilayer object comprises at least two grounds, and comprises an adhesion between this two ground.

Further, above-mentioned adhesion is a shaped as frame pressure-sensitive glued membrane.

Further, at least one of them the binding face of above-mentioned two grounds is formed with a frame-shaped construction further, and this adhesion is pressure-sensitive glued membrane or a shaped as frame pressure-sensitive glued membrane of a whole plane.

Further, above-mentioned multilayer object comprises at least two grounds, and one of them this ground is the ground of a whole plane, and another this ground is wherein a shaped as frame adhesion ground.

Further, above-mentioned contact assembly is a cylinder, presses this multilayer object with roll mode.

Further, above-mentioned contact assembly is a pressing plate, presses this multilayer object in sliding manner.

Further, above-mentioned multilayer object laminating apparatus of exerting pressure also comprises a tool, is arranged on this platform, is used for this multilayer object accommodating.

Further, above-mentioned tool also comprises a fixture, is used for fixing this multilayer object.

Further, above-mentioned platform also comprises a detent mechanism, is used for adjusting and fix the position of this tool.

Further, a pair linea angulata of perpendicular or parallel this pressure surface in this cladding assembly of a contact wire of being formed when pressing this pressure surface of this multilayer object of above-mentioned contact assembly.

Further, the kenel of above-mentioned multilayer object is a polygonized structure.

In sum, exert pressure applying method and device of multilayer object provided by the present invention is got rid of the residual of laminating bubble effectively, and then increases laminating quality and product yield.

The technological means of the method and apparatus of the above and produce the concrete implementation detail of usefulness, please refer to the following example and to be graphicly illustrated.

[accompanying drawing explanation]

Fig. 1 is the schematic top plan view of the applying method of traditional multilayer object;

Fig. 2 a is the embodiment generalized section before multilayer object of the present invention is pressed;

Fig. 2 b is the embodiment generalized section after multilayer object of the present invention is pressed;

Fig. 3 is that multilayer object of the present invention is exerted pressure the flow chart of applying method;

Fig. 4 a is that the present invention is in order to perform the schematic diagram dynamically overlooking configuration of step shown in Fig. 3;

Fig. 4 b be configuration shown in Fig. 4 a overlook key diagram, the surface width details of pressurized in multilayer object is described;

Fig. 5 a to Fig. 5 c is the schematic top plan view that the present invention configures the various embodiments of multilayer object;

Fig. 6 is that multilayer object of the present invention is exerted pressure the schematic perspective view of the first embodiment of laminating apparatus;

Fig. 7 is the side-looking fragmentary sectional view of Fig. 6;

Fig. 8 is that multilayer object of the present invention is exerted pressure the side-looking fragmentary sectional view of the second embodiment of laminating apparatus;

Fig. 9 is that multilayer object of the present invention is exerted pressure the schematic perspective view of the third embodiment of laminating apparatus; And

Figure 10 is the side-looking fragmentary sectional view of Fig. 8.

Wherein description of reference numerals is as follows:

(1) the accompanying drawing part of prior art:

100 exert pressure facility 200 multilayer object

211 side 212 opposite side

(2) accompanying drawing part of the present invention:

10 multilayer object 10a first grounds

10b second ground 10c adhesion

10d frame-shaped construction 101,102 binding face

103 frame groove 11 pressure surfaces

11b first side district, 11a first end angle

District 11d second end angle, 11c second side

11e the 3rd end angle 11f quadripolar corners

11g central area 12 side

13 centroidal lines 14 derive line

20 contact assembly 21 contacts wire

30,30a driver (the first driver) 31,31a ball guide screw

32,52 second driver 33,53 guide rails

34 slideways 40,40a platform

41 guide seat 42 detent mechanisms

43 bolt 50 slide units

51 guide seat 60 tools

61 fixture 61a adsorption tanks

61b negative tube 64 bolt hole

θ angle a1, a2 diagonal

R triangular paths R1 adjacent side path

R3 hypotenuse path, R2 opposite side path

S space plane

W1, w2, w3, w4, w5 surface width

The step explanation of S1 to S3 flow chart of the present invention

[detailed description of the invention]

Embodiment of the present invention illustrates to utilize multilayer object to exert pressure applying method and device thereof to realize the laminating of multilayer object, and by changing the configuration between multilayer object and contact assembly, make to be first form oblique configuration then to carry out again pressing laminating between multilayer object and contact assembly, and then the laminating air bubble problem that solution multilayer object generates when fitting.

In addition, multilayer object kenel mentioned in embodiment of the present invention, can be polygonal structure, particularly a kind of quadrilateral structure, such as rectangle, parallelogram, rhombus, class rectangle etc. by four edges (line segment) the form that connects, wherein class rectangle more can comprise the deformation forms such as chamfering rectangle, round rectangle, arc limit rectangle further.

Please refer to Fig. 2 a and Fig. 2 b, it is respectively multilayer object of the present invention by pressing forward and backward embodiment generalized section.The multilayer object 10 of the present embodiment such as comprises at least two grounds (as the first ground 10a and the second ground 10b) and an adhesion 10c.Wherein, the first ground 10a is formed with a frame-shaped construction 10d further on the face near the second ground 10b, and described frame-shaped construction 10d essence is a frame body with thickness, as utilized the ink framework made by printing.In addition, the first ground 10a and the second ground 10b is in actual design and be unrestrictedly only single layer structure, more can be sandwich construction or coating structure.

Adhesion 10c is arranged between two ground 10a and 10b, and described ground 10a and 10b is referred to as binding face 101 and 102 in the face and correspondence that are contacted with adhesion 10c.In addition, the adhesion of the embodiment of the present invention such as adopts two-sided pressure-sensitive glued membrane (PressureSensitiveAdhesives, PSA) design, by this when actual apply pressure to described two ground 10a and 10b time, adhesion 10c produces stickiness to be attached to the binding face 101 and 102 of described two ground 10a and 10b because of indirect pressurized, thus completes the laminating of multilayer object 10.

As can be seen from Fig. 2 a and Fig. 2 b, the present embodiment is carry out overlapped forming by the second ground 10b of the first ground 10a of a tool frame-shaped construction 10d, an adhesion 10c and a whole plane on the laminated framework of multilayer object 10.Wherein, adhesion 10c is the design of the pressure-sensitive glued membrane such as adopting whole plane, and certainly in the application of other embodiments, adhesion 10c also can adopt the design of shaped as frame pressure-sensitive glued membrane.

In addition, do not drawing in the middle of other graphic embodiments, multilayer object also can carry out overlapped forming by the second ground of the first ground of a whole plane, a shaped as frame adhesion and a whole plane.And in a further embodiment, multilayer object more can carry out overlapped forming by the first ground of a whole plane, a shaped as frame adhesion and shaped as frame second ground.Moreover, in the embodiment of change further, multilayer object also can carry out overlapped forming by the first ground of a whole plane and a shaped as frame adhesion ground, and wherein said shaped as frame adhesion ground is except being used to as except ground, and it directly has pressure-sensitive stickiness especially on the face of the first ground.

Multilayer object 10 of the present invention is exerted pressure applying method and device thereof for convenience of description, in following embodiment, be illustrate in the pressurized multilayer object 10 being projected as rectangle axially with one further, but the multilayer object 10 of reality is not as limit, first chatted bright at this.

As shown in Fig. 2 a and Fig. 2 b, what represent multilayer object 10 in the present embodiment can be a contact panel, and this contact panel comprises a protective substrate and a touch base plate, corresponds to aforesaid first ground 10a and the second ground 10b respectively.Wherein, protective substrate (the first ground 10a) and touch base plate (the second ground 10b) provide a binding face 101 and 102 respectively; by arranging an adhesion 10c between binding face 101 and 102, make protective substrate and touch base plate can mutual laminating be integral by adhesion 10c.

More specifically, contact panel comprises the shielded area that a visible area and is located in visible area surrounding usually.Wherein, shielded area formed by a frame-shaped construction 10d; and the visible area that frame-shaped construction 10d surrounds is formed as a frame groove 103; in other words, will there be a difference in height in the region that frame-shaped construction 10d is formed with the binding face 101 of script protective substrate (the first ground 10a) and forms described frame groove 103.In addition; frame-shaped construction 10d is the medium by ink or other with bridging effect; be formed at the binding face 101 of protective substrate (the first ground 10a) with printing or other coating means, be used for covering the perimeter circuit (not shown) on touch base plate (the second ground 10b).

Supplementary notes, the adhesion 10c due to the present embodiment is the design adopting pressure-sensitive glued membrane, and the thickness of usual pressure-sensitive glued membrane itself can be greater than the height of frame-shaped construction 10d.Therefore as shown in Figure 2 a; adhesion 10c is positioned between protective substrate (the first ground 10a) and touch base plate (the second ground 10b) with lamellar morphology; but after contact panel is pressed; namely as shown in Figure 2 b, the part that adhesion 10c is positioned at visible area in correspondence can suffer oppression and be covered with the frame groove 103 surrounded in frame-shaped construction 10d.

By this, based on the framework of the multilayer object 10 that above-mentioned contact panel presents, the present invention is when being fitted by contact panel and the design of relative position between a contact assembly (not shown) improves, to facilitate the spilling direction and position that control the laminating bubble produced between binding face 101 and 102 and adhesion 10c, effectively reduce gas bubbles left, and contact panel can not be subject to the difference in height that frame-shaped construction 10d and frame groove 103 formed and affect whole pressing in laminating process and cause accepted pressure inconsistent, and then after reducing laminating, generate the probability of regeneration bubble.

Next, please merge further and consult Fig. 3 and Fig. 4 a, illustrate that multilayer object of the present invention is exerted pressure the flow chart of applying method and the schematic diagram dynamically overlooking configuration in order to perform step shown in Fig. 3 respectively.Subsidiary one carry be, as shown in the X axis of the rectangular coordinate system in Fig. 4 a and Y-axis, the pressurized of the multilayer object 10 of the present embodiment is axially belong to Z-axis direction, can illustrate that the multilayer object 10 of the present embodiment is projected as rectangle on pressurized axially (Z-axis direction) thus, that is be the shape of the pressure surface 11 corresponding to multilayer object 10.

Present embodiments provide a kind of applying method of exerting pressure of multilayer object 10, the multilayer object 10 in the present embodiment also may correspond to the laminated aspect into aforementioned contact panel, to facilitate understanding.This applying method of exerting pressure comprises: this multilayer object 10 of pan feeding, then this contact assembly of translation 20 and this multilayer object 10 at least one of them, make this contact assembly 20 and this multilayer object 10 close to each other and formed and press, and the whole face allowing this contact assembly 20 carry out pressure surface 11 from one of them first end angle 11a of a pressure surface 11 of multilayer object 10 pair of horns (the second end angle 11d) pressed to this first end angle 11a presses.In other words, the contact wire 21 formed when arbitrary side 12 of the pressure surface 11 of multilayer object 10 all can press multilayer object 10 with this contact assembly 20 forms the angle theta of an on-right angle.

With reference to the implementation step shown in Fig. 3, the above-mentioned technological means of the present embodiment, specifically can implement to step S3 through step S1, wherein:

Step S1: relatively oblique configuration.

In the embodiment shown in Fig. 4 a, multilayer object 10 is the end of for the arbitrary outer surface in the first ground 10a and the second ground 10b, pan feeding is on a platform reposefully, and between the first ground 10a and the second ground 10b, put an adhesion 10c (such as: pressure-sensitive glued membrane).Alleged pan feeding, on platform, means multilayer object 10 and be fixedly arranged on platform by putting, and neighbor configuration is in the nearside of contact assembly 20.According to this, allow arbitrary side 12 of the pressure surface 11 of the multilayer object 10 of pan feeding on platform can form the angle theta of on-right angle with contact wire 21, and then form the relation of multilayer object 10 oblique configuration relative to contact assembly 20.

Specifically, the contact wire 21 on this contact assembly 20 and the pressure surface 11 in multilayer object 10 be position on identical space plane S, this angle theta is essentially a plane included angle θ; There is in fact the triangular paths R of a plane in this space plane S, it comprises and encloses group by an adjacent side path R1, a pair wing footpath R2 and a hypotenuse path R3 and form.Wherein, this adjacent side path R1 is formed by the center line of contact assembly 20 or contact wire 21; This hypotenuse path R3 is formed by the derivative line 14 of the centroidal line 13 of multilayer object 10 or arbitrary side 12 of its pressure surface 11; This opposite side path R2 be present in adjacent side path R1 and hypotenuse path R3 enclose group triangle space planar S among.

Further, this angle theta is between arbitrary side 12 of the pressure surface 11 being present in this contact wire 21 and multilayer object 10, and position mutually forms the corresponding relation of this angle theta on same level.In other words, above-mentioned angle theta also can refer to and be present between this contact wire 21 and centroidal line 13 of multilayer object 10, and mutually forms the corresponding relation of this angle theta on same level.But get rid of between this contact wire 21 and this opposite side path R2 and be parallel to each other, described eliminating is parallel to each other to comprise and gets rid of the situation mutually overlapped between this contact wire 21 and this opposite side path R2 and exist.

Usually know that the knowledgeable can understand in the rectangular coordinate system of a two dimension or three-dimensional by foregoing, no matter by tilting for multilayer object 10 and contact assembly 20 is flat in this coordinate system, or contact assembly 20 is inclined in this coordinate system by multilayer object 10 horizontal, all can make to keep between arbitrary side 12 of the pressure surface 11 of multilayer object 10 and the contact wire 21 of this contact assembly 20 the relative oblique configuration relation that is mutually the angle theta of plane on-right angle, and the opposite side path R2 described in existing.

The contact assembly 20 of the present embodiment is the design of employing one cylinder, and this cylinder is a free cylinder free to rotate, presses the pressure surface 11 of multilayer object 10 with roll mode.The mode that arbitrary cusp position on roll circumference surface all can form tangent line by point of contact forms this contact wire 21, and this contact wire 21 is parallel to each other with the center line of cylinder, therefore this contact wire 21 can be preset is the arbitrary tangent position being seated roll circumference surface, and is specifically formed when cylinder presses multilayer object 10.In another embodiment of the invention, contact assembly 20 also can adopt the design of a pressing plate, and the direct edges of boards by pressing plate are as the position pressing multilayer object 10, press the pressure surface 11 of multilayer object 10 in sliding manner and form contact wire 21.

Step S2: translation close to each other.

In the embodiment shown in Fig. 4 a, the allocation position of this contact assembly 20 can be fixed, the above-mentioned platform having carried multilayer object 10 can move through the driving of a driver, make multilayer object 10 on this platform along opposite side path R2 towards contact assembly 20 translation, make to produce between multilayer object 10 and contact assembly 20 translation close to each other (as in Fig. 4 a with shown in the dotted line of arrow).Described translation, mean multilayer object 10 and contact assembly 20 at least one of them is seated in described space plane S to move.

In addition, usually know that the knowledgeable can be understood by foregoing, when platform being fixed and makes contact panel 10 motionless, also this contact assembly 20 can be driven to move along opposite side path R2 towards multilayer object 10 through driver, or drive multilayer object 10 and contact assembly 20 along the R2 relative movement of opposite side path at the same time or separately through identical or different driver, all can make to produce translation close to each other between multilayer object 10 and contact assembly 20.

Step S3: mutually press to separation.

In the embodiment shown in Fig. 4 a, the pressure surface 11 of multilayer object 10 mutually can press with the contact wire 21 of contact assembly 20 in translation motion close to each other, and then allows contact assembly 20 be press from the first end angle 11a of the pressure surface 11 of multilayer object 10 the whole face completing pressure surface 11 to the second end angle 11d to press.

Should be noted that, when contact assembly 20 is cylinder, falls into the phenomenon of shape because cylinder surface can produce slightly elasticity when pressing multilayer object 10, above-mentioned contact wire 21 also can be presented with the form of contact surface.Mutually pressing described in the present embodiment, means one of them of this multilayer object 10 and contact assembly 20, must apply a predetermined force (F) produce pressure (P) when contacting with each other on this pressure surface 11.

In sum, the present embodiment is by configuration relatively oblique between multilayer object 10 and contact assembly 20 and press, described binding face 101 and 102 can be controlled respectively and the spilling direction of the laminating bubble produced between adhesion 10c and position, allow laminating bubble overflow from the second 11d place, end angle completely, and then effectively reduce the residual of laminating bubble.

In addition, according to the theorem of active force (F)=pressure (P) × lifting surface area (A), when this active force (F) maintains certain value, pressure surface 11 moment stressed area (A) is larger, and pressure (P) is just less; Contrary, stressed area (A) is less, and pressure (P) is just larger.The present embodiment is exerted pressure in laminating process whole, maintained in a specific scope by be allowed the lifting surface area (A) (as being relatively set with the region of frame-shaped construction 10d) on this pressure surface 11 be unlikely to produce excessive change, so when active force (F) maintains definite value output, the present embodiment just easily obtains suitable pressure (P), and maintains the stable of this pressure (P).And know that maintaining suitable and stable pressure (P) contributes to reducing the probability generating regeneration bubble after multilayer object 10 is fitted.

Please continue to refer to Fig. 4 b, be the surface width detailed schematic of Fig. 4 a, be used for further illustrating the advantage that the present invention can reach.

Contact assembly 20 mutually presses in relative oblique translation motion with the pressure surface 11 of multilayer object 10 with contact wire 21, and apply predetermined force (F) by contact wire 21 position and act on this pressure surface 11.Further:

Pressing the first stage of laminating process, contact assembly 20 is the first end angle 11a pressing pressure surface 11, forms the surface width w1 being acted on first end angle 11a by contact wire 21; Subsequently, pressing the second stage of laminating process, contact assembly 20 is first side district 11b, the second side district 11c and the central area 11g that press pressure surface 11 simultaneously, and formed respectively by contact wire 21 act on first side district 11b surface width w2, form the surface width w3 being acted on second side district 11c by contact wire 21, and form the surface width w5 being acted on central area 11g by contact wire 21; Finally, pressing the phase III of laminating process, contact assembly 20 is the second end angle 11d (i.e. the diagonal angle of first end angle 11a) pressing pressure surface 11, form the surface width w4 being acted on the second end angle 11d by contact wire 21, and after the phase III completes, namely contact assembly 20 is separated with multilayer object 10.

It can thus be appreciated that the present embodiment is by the relatively oblique configuration of multilayer object 10 and contact assembly 20, and contact assembly 20 presses by the first end angle 11a of multilayer object 10, and press rear separation from the second end angle 11d.So the whole laminating process of exerting pressure of the present embodiment is controlled spilling direction and the position of laminating bubble effectively, allow laminating bubble be finally concentrate on a bit on (the second end angle 11d) to overflow, get rid of the residual of laminating bubble.

Moreover, because first end angle 11a, first side district 11b, second side district 11c and the second end angle 11d are the positions corresponding to frame-shaped construction 10d, make pressure surface 11 when being pressed, the region of first end angle 11a, first side district 11b, second side district 11c and the second end angle 11d is obtained larger reaction force, and the region of central area 11g then obtains less reaction force.Therefore when in the second stage pressing laminating process, when first side district 11b, central area 11g and second side district 11c are subject to exerting pressure simultaneously, the set active force (F) that contact assembly 20 applies can major part be born by first side district 11b and second side district 11c.Thus, the pressure surface 11 of multilayer object 10 presses in laminating process whole, what each stage was mainly subject to exert pressure, and namely width is sequentially surface width w1, surface width w2+w3 and surface width w4, change width between each stage compared to conventional art the laminating process that presses (as Fig. 1) obviously comparatively convergence one more among a small circle within, and then obtain desirable lifting surface area (A).This is because of the multilayer object 200 shown by Fig. 1, at it under the framework that should have ink framework 220, the pressure surface of its first stage is whole side 211 area, the pressure surface of second stage only has two side ends 213,214, the pressure surface of phase III is again whole opposite side 212 area, because the pressure surface of multilayer object 200 has a greater change in different phase, the pressure therefore suffered by different positions also changes greatly.By this, exert pressure in laminating process whole, the present embodiment relatively easily stable maintenance contact assembly 20 acts on the pressure (P) in multilayer object 10, makes multilayer object 10 in the dry run of exerting pressure laminating relief adhesion 10c, is comparatively not easy to generate regeneration bubble.

Framework please based on Fig. 4 a consults Fig. 5 a to Fig. 5 c, discloses the schematic top plan view of contact assembly of the present invention and the different embodiments of the relatively oblique configuration of multilayer object respectively.

The contact wire 21 that Fig. 5 a explanation contact assembly 20 is formed when pressing the pressure surface 11 of multilayer object 10 is perpendicular to a pair linea angulata a1 of the pressure surface 11 of multilayer object 10.Wherein, the diagonal a1 of Fig. 5 a is between the first end angle 11a of the pressure surface 11 being formed at multilayer object 10 and the second end angle 11d, and diagonal a1 is parallel to each other with opposite side path R2, described in be parallel to each other and comprise overlapping.

The contact wire 21 that Fig. 5 b explanation contact assembly 20 is formed when pressing the pressure surface 11 of multilayer object 10 is parallel to a pair linea angulata a2 of the pressure surface 11 of multilayer object 10.Wherein, the diagonal a2 of Fig. 5 b be formed at multilayer object 10 the 3rd end angle 11e and quadripolar corners 11f between, and diagonal a2 is parallel to each other with adjacent side path R1, described in be parallel to each other and comprise overlapping.

Fig. 5 c illustrates that getting rid of between arbitrary diagonal a1, a2 on the pressure surface 11 of multilayer object 10 and the contact wire 21 that contact assembly 20 is formed when pressing multilayer object 10 is parallel to each other and also gets rid of mutual vertical.In particular, described arbitrary diagonal a1, a2 are distributed between adjacent side path R1 and opposite side path R2; In other words, the first end angle 11a of the pressure surface 11 of multilayer object 10, the second end angle 11d, the 3rd end angle 11e and quadripolar corners 11f are distributed among four quadrants that adjacent side path R1 and opposite side path R2 intersects to form separately.

Please refer to Fig. 6 and Fig. 7, the multilayer object disclosing the present invention the first embodiment is respectively exerted pressure the schematic perspective view of laminating apparatus and the fragmentary sectional view of side-looking.As shown in the figure, this laminating apparatus of exerting pressure comprises platform 40, contact assembly 20 and a driver 30.Wherein, platform 40 is used for carrying multilayer object 10, and contact assembly 20 is the sides being configured at platform 40; This driver 30 be used to this platform of translation 40 and this contact assembly 20 at least one of them, make this contact assembly 20 and multilayer object 10 close to each other and formed and press, and the whole face allowing this contact assembly 20 press the pair of horns (the second end angle 11d) to first end angle 11a from the first end angle 11a of the pressure surface 11 of multilayer object 10 and complete pressure surface 11 presses.In other words, the contact wire 21 that arbitrary side 12 of the pressure surface 11 of multilayer object 10 that this platform 40 carries is formed when pressing the pressure surface 11 of multilayer object 10 with this contact assembly 20 forms the angle theta of an on-right angle.Further illustrate, in above-mentioned, the angle theta of alleged on-right angle, meaning this angle theta eliminating in equal circumference angle is a right angle.

In particular, Fig. 6 and embodiment illustrated in fig. 7 in, multilayer object 10 is fixed on this platform 40.Contact assembly 20 is the designs such as adopting cylinder, also can adopt the design as pressing plate in addition.Contact assembly 20 is placed in the side of this platform 40 by suspension frame, and the width that contact assembly 20 can press multilayer object 10 must be greater than the oblique bearing width of multilayer object 10.Driver 30 can be a motor, and is configured at this laminating apparatus inside of exerting pressure, and rotate in order to link driving one ball guide screw 31, this ball guide screw 31 links a guide seat 41, this guide seat 41 is the one end being integrally formed at platform 40.By this, driver 30 can be with moving platform 40 translation through ball guide screw 31 and guide seat 41, and the multilayer object 10 of ordering about on platform 40 produces relatively near the translation of contact assembly 20.

In further implementing, above-mentioned driver 30 is one first drivers, and the laminating apparatus of exerting pressure of the present embodiment also comprises the guide rail 33 of one second driver 32 and two relative configurations.This contact assembly 20 be sliding group between described guide rail 33 and then be configured at the side of platform 40, be used for the driving of acceptance second driver 32 and the multilayer object 10 that contacts on platform 40 enter the opposite side path R2 of described angle theta.This second driver 32 can be a pneumatic cylinder, provides contact assembly 20 to apply set active force (F) in multilayer object 10.

Refer to Fig. 8, the multilayer object disclosing the second embodiment of the present invention is exerted pressure the side-looking fragmentary sectional view of laminating apparatus.The present embodiment is used to illustrate that the platform 40a of carrying multilayer object 10 is actionless, and the next translation relative along this opposite side path R2 of driving of a driver 30a is accepted by contact assembly 20, multilayer object 10 can oblique pressing then be separated mutually with contact assembly 20.

Further, the slide unit 50 of laminating apparatus of exerting pressure is arranged on the slideways 34 of two relative configurations in laminating apparatus of exerting pressure, and be used for unsettledly mounting this contact assembly 20, make contact assembly 20 be configured at this platform 40 side and along the R2 translation of opposite side path.Driver 30a can be a motor, and is configured at this laminating apparatus inside of exerting pressure, and is used for linking driving one ball guide screw 31a and rotates.Ball guide screw 31a links the guide seat 51 in this slide unit 50; By this, driver 30a can drive the contact assembly 20 on slide unit 50 to produce relatively close to the translation of multilayer object 10 through ball guide screw 31a and guide seat 51.

In further implementing, above-mentioned driver 30a is one first driver, and the laminating apparatus of exerting pressure of the present embodiment also comprises the guide rails 53 that is set up in the second driver 52 on this slide unit 50 and two relative configurations.Contact assembly 20 be sliding group between described guide rail 53, and accept the driving of the second driver 52 and the multilayer object 10 that contacts on platform 40.Second driver 52 can be a pneumatic cylinder, provides contact assembly 20 in displacement process, to apply set active force (F) in multilayer object 10.

Refer to Fig. 9 and Figure 10, the multilayer object disclosing the present invention the third embodiment is respectively exerted pressure the schematic perspective view of laminating apparatus and side-looking fragmentary sectional view thereof.The present embodiment is roughly identical with the first embodiment shown in Fig. 6 and Fig. 7, and discrepancy is, the laminating apparatus of exerting pressure of the present embodiment also comprises one and is fixedly arranged on tool 60 on platform 40, in order to accommodating multilayer object 10.

Further, this tool 60 also comprises a fixture 61, is used for fixing multilayer object 10; During enforcement, fixture 61 comprises one and on tool 60, forms the adsorption tank 61a and of an accommodating multilayer object 10 be installed in negative tube 61b in adsorption tank 61a, in adsorption tank 61a, produce negative-pressure sucking through negative tube 61b, and then fix multilayer object 10 with suction type.In addition, fixture 61 also can be adopt lock, button, embedding, folder or other be enough to the equivalent object that multilayer object 10 is fixed on tool 60.

In addition, the platform 40 of the present embodiment also comprises a detent mechanism 42, is used for adjusting and fix the position of this tool 60.Wherein, this detent mechanism 42 can be such as the design adopting multiple lockhole, is drilled with on platform 40 in the mode distributed between grade.Thus, in practical operation, can by bolt 43 and in the bolt hole 64 that the side of tool 60 surrounding is drilled with respectively carry out adjusting and fixed jig 60 in actual laminating desired position of exerting pressure.In addition, usually know that the knowledgeable should understand, this detent mechanism 42 also can be adopt button, embedding, folder or other be enough to for adjustment and fix this tool 60 in the combination of the equivalent object of the position of platform 40.

Via the detailed description of above-described embodiment, usually know that the knowledgeable can utilize multilayer object to exert pressure laminating apparatus to perform the laminating step of exerting pressure of multilayer object, and then solution is present in because pressing the laminating bubble that laminating causes and the problem regenerating bubble in multilayer object, to promote the laminating quality of multilayer object.

Moreover, above-described embodiment illustrational contact panel be only multilayer object wherein one example, multilayer object broad sense more comprises by thin plate, glue-line, film etc. that object ground is bonded to each other forms, as: touch control display device, solar panels etc., as long as any in the pressurized multilayer object being projected as quadrangle axially, the improvement of binding yield all can be obtained because of the present invention.

Generally, as long as the angled relationships of the on-right angle of plane can be formed between arbitrary side of the pressure surface of multilayer object and the contact wire of contact assembly, and allow between multilayer object and contact assembly is that translation is close mutually along the opposite side path in angled relationships formed each other, and then the process that presses presses pair of horns to this end angle from one of them end angle of the pressure surface of multilayer object to complete the whole face person of pressing of pressure surface, effectively can remove the laminating bubble that multilayer object generates in laminating process, and effectively can avoid the generation regenerating bubble in the dry run after laminating.

To sum up institute is old, and above embodiment is only and have expressed several embodiment of the present invention, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for persond having ordinary knowledge in the technical field of the present invention, without departing from the inventive concept of the premise, can also make complex deformation and improvement, these all belong to protection scope of the present invention.Therefore, the present invention should be as the criterion with the claims content limited in claim.

Claims (8)

1. multilayer object is exerted pressure an applying method, it is characterized in that, comprising:

Pan feeding one multilayer object; And

Translation one contact assembly and this multilayer object at least one of them, make this contact assembly and this multilayer object close to each other and formed and press, and the pair of horns allowing this contact assembly press from one of them end angle of a pressure surface of this multilayer object to this end angle presses to the whole face completing this pressure surface, the mode that arbitrary side of the contact wire formed when namely pressing this multilayer object with this contact assembly and this pressure surface of this multilayer object is formed the angle (θ) of an on-right angle presses to the whole face completing this pressure surface.

2. multilayer object according to claim 1 is exerted pressure applying method, and it is characterized in that, this multilayer object comprises at least two grounds, and comprises an adhesion between this two ground.

3. multilayer object according to claim 2 is exerted pressure applying method, and it is characterized in that, this adhesion is a shaped as frame pressure-sensitive glued membrane.

4. multilayer object according to claim 2 is exerted pressure applying method, it is characterized in that, at least one of them the binding face of this two ground is formed with a frame-shaped construction further, and this adhesion is pressure-sensitive glued membrane or a shaped as frame pressure-sensitive glued membrane of a whole plane.

5. multilayer object according to claim 1 is exerted pressure applying method, and it is characterized in that, this multilayer object comprises at least two grounds, and one of them this ground is the ground of a whole plane, and another this ground is wherein a shaped as frame adhesion ground.

6. multilayer object according to claim 1 is exerted pressure applying method, it is characterized in that, a pair linea angulata of perpendicular or parallel this pressure surface in this multilayer object of the contact wire that this contact assembly is formed when pressing this pressure surface of this multilayer object.

7. multilayer object according to claim 1 is exerted pressure applying method, and it is characterized in that, this contact assembly is a cylinder or a pressing plate.

8. multilayer object according to claim 1 is exerted pressure applying method, and it is characterized in that, the kenel of this multilayer object is a polygonized structure.