CN105984745A - Device and method for manufacturing film laminate - Google Patents
Device and method for manufacturing film laminate Download PDFInfo
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- CN105984745A CN105984745A CN201510066548.0A CN201510066548A CN105984745A CN 105984745 A CN105984745 A CN 105984745A CN 201510066548 A CN201510066548 A CN 201510066548A CN 105984745 A CN105984745 A CN 105984745A
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Abstract
The invention relates to a device and method for manufacturing a film laminate. The device (1) for manufacturing the film laminate comprises a film supply device (100), a transmission device (200) and a film lamination device (300), wherein the film supply device (100) is used for sending out a first band film (F11) on which a first protective film (F11P) is laminated and sending out the first protective film (F11P) together; after the first protective film (F11P) is released from the first band film (F11), the first band film (F11) is cut off so as to supply a film (F16) of the first band film (F11); the transmission device (200) is used for transmitting the film (F16) supplied by the film supply device (100); the film lamination device (300) is used for sending out a second band film (F21) on which a second protective film (F21P) is laminated and sending out the second protective film (F21P) together; and after the second protective film (F21P) is released from the second band film (F21), the film (F16) transmitted by the transmission device (200) and is laminated to the second band film (F21) so as to form a film laminate (F30) on which the second band film (F21) and the film (F16) are laminated.
Description
Technical field
The present invention relates to the manufacture method manufacturing device and film laminated body of a kind of film laminated body.
Background technology
As on the film at strip laminating sheet diaphragm to manufacture the device of film laminated body, it is known to patent document 1 is remembered
The device carrying.The device of patent document 1 is to be coiled in the carrier film circularizing mounting diaphragm, separating film by having peeled off
The film of strip is fitted in the device on the multiple diaphragms being fed continuously by carrier film.
Prior art literature
Patent document
Patent document 1 Japanese Unexamined Patent Publication 2002-331583 publication
Content of the invention
Invention problem to be solved
The surface of diaphragm is laminated with diaphragm.After being placed in diaphragm in carrier film, diaphragm is peeled off by operator.
But, peel off diaphragm one by one from diaphragm very bothersome, also expend the time.Therefore, it is impossible to carry out laminating process efficiently.
It is an object of the invention to, manufacture device and the film layer of a kind of film laminated body that can carry out laminating process efficiently is provided
The manufacture method of stack.
Means for solving the above
The manufacture device of the film laminated body involved by one mode of the present invention includes: diaphragm feedway, and described diaphragm supplies
The first belt type film being laminated with the first diaphragm is released together with described first diaphragm by device, from described first belt type film stripping
After described first diaphragm, described first belt type film is cut, to supply the diaphragm of described first belt type film;
Conveying device, the conveying of described conveying device is by the described diaphragm of described diaphragm feedway supply;And
Film laminating apparatus, described film laminating apparatus will be laminated with the second belt type film of the second diaphragm and described second diaphragm one
Rise and release, after described second belt type film has peeled off described second diaphragm, the described diaphragm that will be carried by described conveying device
Conform to described second belt type film, to form the film laminated body being laminated with described second belt type film and described diaphragm.
Described conveying device may include that the described diaphragm of holding the diaphragm maintaining part that can rotate;And make described diaphragm protect
Hold the mobile device that portion moves to described film laminating apparatus.
Described diaphragm maintaining part may include that the first adsorption section, and its absorption is parallel with the length direction of described first belt type film
First edge part of described diaphragm;And second adsorption section, its absorption institute parallel with the length direction of described first belt type film
State the second edge part of diaphragm.
Described diaphragm maintaining part can include the first guiding mechanism, described first guiding mechanism by make described first adsorption section and
The relative movement on direction close to each other or direction away from each other of described second adsorption section, adjusts the described first absorption
Portion and the interval of described second adsorption section.
Described first adsorption section and described second adsorption section can include multiple adsorption element respectively, and described adsorption element is by silicon tree
Fat is constituted.
Described first adsorption section and described second adsorption section can include multiple adsorption element, described first adsorption section and institute respectively
State the second adsorption section to be connected with suction device, described suction device to by with the described adsorption element of described film contact and described
The space decompression that diaphragm surrounds.
Described first adsorption section and described second adsorption section can include multiple adsorption element, described first adsorption section and institute respectively
Stating the second adsorption section to be connected with gases at high pressure feedway, described gases at high pressure feedway is to by the institute with described film contact
State adsorption element and gases at high pressure are sent in the space of described diaphragm encirclement.
Described first adsorption section and described second adsorption section can include respectively: multiple adsorption elements of configuration adjacent one another are;?
Hold the supporting member of the plurality of adsorption element;And lowering or hoisting gear, it makes described supporting member in the side near described diaphragm
To and away from the direction of described diaphragm on lifting.
Described diaphragm maintaining part can include the second guiding mechanism, and described second guiding mechanism makes described first adsorption section and described
The relative movement on the direction parallel with the length direction of described first belt type film of second adsorption section, to adjust the described first absorption
Portion and the described second adsorption section relative position on the direction parallel with described length direction.
Described conveying device can include the 3rd guiding mechanism, described 3rd guiding mechanism make described diaphragm maintaining part with described
The side that the width of the first belt type film is parallel moves up, and adjusts described diaphragm maintaining part parallel with described width
Position on direction.
The manufacture device of described film laminated body can include the devices for taking-up batching described film laminated body.
The manufacture method of the film laminated body involved by one mode of the present invention includes: diaphragm supplying step, will be laminated with first
First belt type film of diaphragm is released together with described first diaphragm, has peeled off the described first protection from described first belt type film
After film, described first belt type film is cut, to supply the diaphragm of described first belt type film;Supplying step, conveying is by institute
State the described diaphragm of diaphragm supplying step supply;And film laminating step, by be laminated with the second belt type film of the second diaphragm with
Described second diaphragm is released together, after described second belt type film has peeled off described second diaphragm, and will be by described conveying step
The described diaphragm of rapid conveying conforms to described second belt type film, to form the film being laminated with described second belt type film and described diaphragm
Duplexer.
Described supplying step can carry described diaphragm in the state of adsorbing above described diaphragm and support described diaphragm.
The face being laminated with described first diaphragm of described first belt type film is bonding plane, and described diaphragm has described bonding plane,
In described supplying step, can adsorb and support the described viscous of described diaphragm in the state of making described bonding plane upward
Face, and carry diaphragm with this state.
In described manufacture method, in described supplying step, can use and make described diaphragm adsorb with described film contact
Adsorption element, makes the described diaphragm of described adsorption element contact, and subtracts the space being surrounded by described adsorption element and described diaphragm
Pressure, so that the absorption of described diaphragm.
Described manufacture method can be after being delivered to target location by the described diaphragm of absorption, to pressurization in described space, so that
Described diaphragm departs from.
Described manufacture method can make after described diaphragm is positioned by described target location relative to described second belt type film
The described diaphragm of absorption departs from.
Invention effect
In accordance with the invention it is possible to provide manufacture device and the film stacking of a kind of film laminated body that can carry out laminating process efficiently
The manufacture method of body.
Brief description
Fig. 1 is the figure of the schematic configuration of the manufacture device of the film laminated body involved by the first embodiment illustrating the present invention.
Fig. 2 is conveying device included by device for the manufacture of the film laminated body involved by the first embodiment illustrating the present invention
The stereogram of structure.
Fig. 3 is the schematic configuration of the diaphragm maintaining part included by the conveying device involved by the first embodiment illustrating the present invention
Stereogram.
Fig. 4 is the schematic configuration of the adsorption section included by diaphragm maintaining part involved by the first embodiment illustrating the present invention
Stereogram.
Fig. 5 is the schematic diagram of the absorption layer that the adsorption section involved by the first embodiment of the present invention is comprised, this schematic diagram pair
Described absorption layer is adsorbed to the mechanism of diaphragm and illustrates from the mechanism that diaphragm departs from.
Fig. 6 is the first banding being laminated with surface protection film (the first diaphragm) involved by first embodiment of the present invention
The profile of film.
Fig. 7 is the second belt type film being laminated with separation film (the second diaphragm) involved by first embodiment of the present invention
Profile.
Fig. 8 is the first belt type film being laminated with separation film (the first diaphragm) involved by second embodiment of the present invention
Profile.
Fig. 9 is the second banding being laminated with surface protection film (the second diaphragm) involved by second embodiment of the present invention
The profile of film.
Figure 10 be shown in involved by second embodiment of the present invention with separate after film (the first diaphragm) separates the
The schematic diagram of the absorption layer absorption position on one belt type film.
Figure 11 is the figure that the manufacture method to the present invention illustrates.
Detailed description of the invention
[the first embodiment]
Hereinafter, Fig. 1 to Fig. 7 and Figure 11 is utilized, the manufacture to the film laminated body involved by first embodiment of the present invention
The manufacture method of device and film laminated body illustrates.
(the manufacture device of film laminated body)
Fig. 1 is the manufacture device 1 (hereinafter simply referred to as " manufacturing device 1 ") illustrating the film laminated body involved by present embodiment
The figure of schematic configuration.As it is shown in figure 1, the manufacture device 1 of present embodiment includes that the 100th, diaphragm feedway carries dress
Put the 200th, film laminating apparatus 300 and devices for taking-up 400.
In the manufacture device 1 of present embodiment, diaphragm feedway 100 processes the first belt type film F11 to make the film of slabbing
Piece F16, diaphragm F16 is delivered to downstream by conveying device 200.Then, film laminating apparatus 300 is by continuous for diaphragm F16
Fit in the second belt type film F21, to make the film laminated body F30 that becomes band, devices for taking-up 400 batches and reclaims film stacking
Body F30.
Hereinafter, each structure manufacturing device 1 is sequentially illustrated.
(diaphragm feedway)
Diaphragm feedway 100 will be laminated with the first belt type film F11 of the first diaphragm F11P and the first diaphragm F11P mono-
Rise and release, after the first belt type film F11 peels off the first diaphragm F11P, the first belt type film F11 is cut, supply
The diaphragm F16 of the first belt type film F11.Diaphragm feedway 100 includes the first belt type film supply unit 110 and cutting part 120.
First belt type film supply unit 110 will be laminated with the first belt type film F11 of the first diaphragm F11P and the first diaphragm F11P
Release together, peel off the first diaphragm F11P from the first belt type film F11, to supply the first belt type film F11.First belt type film
Supply unit 110 includes unreeling the 102nd, stripper roll portion 105 of the 101st, niproll portion of portion and reeling end 106.In addition, by stripper roll
Portion 105 and reeling end 106 are generically and collectively referred to as the first stripping portion.
Unreel the coiled material R1 to the film F10 having wound strip for the portion 101 to keep.Unreeling portion 101 makes coiled material R1 rotate,
Unreel film F10 from coiled material R1.
Fig. 6 is the profile of the first belt type film being laminated with surface protection film (the first diaphragm) involved by present embodiment.
As shown in Figure 6, film F10 e.g. comprises the first belt type film F11a (F11) and surface protection film F12a (the first diaphragm
F11P) film F10a.First belt type film F11a is to have such as polarizing coating, phase-contrast film, brightness enhancement film etc. to possess optics
The blooming of the film main part F13a of function.First belt type film F11a sequentially wraps on the thickness direction of film main part F13a
Include such as film main part F13a, adhesion coating F14a and separate film F15a.Surface protection film F12a is arranged at film main part
On first face of F13a, and this surface protection film F12a can be stripped.Separate film F15a across adhesion coating F14a, quilt
It is arranged on second face of film main part F13a, and this separation film F15a can be stripped.Adhesion coating F14a is for example used for
Film main part F13a is fitted on the display surface of the optics such as liquid crystal panel or organic EL panel display part.Film F10a's
Size such as width is more than 1000mm, and thickness is more than 0.1mm.The thickness of surface protection film F12a is for example at 0.02mm
Above.The thickness of film main part F13a is for example at more than 0.01mm.The thickness of adhesion coating F14a for example 0.001mm with
On.Separate the thickness of film F15a for example at more than 0.02mm.
Return to Fig. 1, niproll portion 102 include rotary shaft be parallel to each other configuration the first niproll 103 and the second niproll 104.
First niproll 103 and the second niproll 104 by with the portion that unreels 101 synchronous rotary, downstream side releases film F10.
The first diaphragm F11P that film F10 is comprised is reeved in stripper roll portion 105, is shelled from the first belt type film F11
From described stripper roll portion 105 is arranged at the downstream in niproll portion 102.First diaphragm F11P is the film of banding.The
One diaphragm F11P keeps zonally being peeled off from the first belt type film F11.The first protection peeled off from the first belt type film F11
Film F11P is taken up portion 106 and batches.The the first belt type film F11 being separated with the first diaphragm F11P by stripper roll portion 105
Being supplied to cutting part 120, described cutting part 120 is arranged at the downstream in stripper roll portion 105.
Fig. 2 is a part of structure and conveying device 200 illustrating and manufacturing the diaphragm feedway 100 that device 1 is comprised
The stereogram of structure.Cutting part 120 is to the first belt type film F11 cutting being supplied by the first belt type film supply unit 110, shape
Become diaphragm F16.As in figure 2 it is shown, cutting part 120 includes turntable the 121st, cutter housing the 122nd, cutter 123 (reference
Fig. 1), lowering or hoisting gear 124 and platform driving means 125.In figure, represent the first banding with the block arrow shown in symbol X
Film F11 is sent to the direction of cutting part 120.
Turntable 121 is supported under the first belt type film F11 after being separated with the first diaphragm F11P by stripper roll portion 105
Surface (with the face that the side being provided with the first diaphragm F11P is opposition side).Turntable 121 is to have supporting the first band
The circular platform of the bearing-surface of the level of shape film F11.The width than the first belt type film F11 for the diameter of turntable 121 is big.Rotate
Platform 121 passes through platform driving means 125, with the rotary shaft at the center that is set in turntable 121 as pivot, is rotating
The circumferencial direction of platform 121 carries out rotating driving.
Cutter housing 122 is configured to stride across the top of turntable 121.Cutter housing 122 is along the diameter of turntable 121
By straight line configuration.For example under the original state before manufacturing device 1 operating, cutter housing 122 is configured to make the first banding
The direction (length direction of the first belt type film F11) that film F11 is sent is vertical with the length direction of cutter housing 122.?
On the face relative with turntable 121 of cutter housing 122, expose the point of a knife of cutter 123 (with reference to Fig. 1).At cutter
It on the face relative with turntable 121 of housing 122, is provided with the groove for the linearity making cutter 123 move back and forth
(omitting diagram).Groove is for example arranged to cross the central shaft of turntable 121.Cutter 123 are while cutting is supported by
In the first belt type film F11 of turntable 121, an edge groove moves.Thus, the whole width along the first belt type film F11
Degree cutting the first belt type film F11.As the cutter cutting the first belt type film F11, in addition to cutter 123, it is possible to so that
With the known cutter of such as rotating knife or chopper etc..Here, in the case of using chopper, then do not need for making cutter reciprocal
The groove of the linearity of movement and travel mechanism.
It is connected with lowering or hoisting gear 124 at the both ends of the length direction of cutter housing 122.Lowering or hoisting gear 124 is for example configured
For clamping turntable 121 from the diametric(al) of turntable 121.Lowering or hoisting gear 124 makes cutter housing 122 and cutter 123
Near turntable 121 direction and away from the direction of turntable 121 on lifting.Lowering or hoisting gear 124 is fixed in turntable
121.With the rotation of turntable 121, lowering or hoisting gear 124 also rotates in the circumferential direction of turntable 121.Thus, cut
(cutter 123 are along the ditch being arranged at cutter housing 122 for the cut direction for the first belt type film F11 of cutter 123
The direction that groove moves back and forth) change.
The angle that the length direction of the cut direction for the first belt type film F11 of cutter 123 and the first belt type film F11 is constituted
(value is acute angle to degree.Hereinafter, sometimes this angle is referred to as the cutting angle of the first belt type film F11) by control turntable 121
The anglec of rotation controlled.
For example, it is contemplated that polarizer and λ/4 plate are fitted into the situation that optical axis each other is 45 °.For example, the first belt type film F11
For polarizer, the second belt type film F21 is λ/4 plates, optical axis (for example, absorbing axle) and first band of the first belt type film F11
The length direction of shape film F11 is parallel, the optical axis (for example, slow axis) of the second belt type film F21 and the length of the second belt type film F21
Degree direction is parallel.In this case, the cutting angle of the first belt type film F11 is set to relative to the first belt type film F11
Length direction be the direction of 45 °.
In addition, as it is explained in detail hereinafter, in conveying device 200, adsorb and lift the diaphragm F16 cutting out from the first belt type film F11,
To carry.Therefore, in the case of two kinds of different films being used as the first belt type film F11 and the second belt type film F21,
It in order to make conveying easy, is preferably there is of a relatively high rigid film as the first belt type film F11, by film relatively low for rigidity
As the second belt type film F21.
In the case of examples detailed above, multilayer film that polarizer is generally laminated with multi-layer resinous layer and is formed.On the other hand,
λ/4 plate is general resin film.Therefore, Polarizer has higher rigidity than λ/4 plate.In this case, excellent
The film electing the raw material by becoming polarizer as is used as the first belt type film F11, and the film becoming the raw material of λ/4 plate is used as
Two belt type film F21.
Also, be transmission the first polarised light at the first belt type film F11, reflect the reflection type polarizer (brightness enhancement film) of the second polarised light,
Second belt type film F21 is transmission the first polarised light, absorbs the absorption-type polarizer of the second polarised light, the first belt type film F11's
Optical axis (for example, the axis of homology) is parallel with the length direction of the first belt type film F11, and the optical axis of the second belt type film F21 is (for example,
Absorb axle) parallel with the length direction of the second belt type film F21 in the case of, the cutting angle of the first belt type film F11 is set
It is the direction of 90 ° for the length direction relative to the first belt type film F11.
(conveying device)
As in figure 2 it is shown, conveying device 200 includes diaphragm maintaining part the 210th, mobile device 220 and diaphragm transfer station 230.
Fig. 3 is the stereogram of the schematic configuration of the diaphragm maintaining part 210 illustrating that conveying device 200 comprised.As it is shown on figure 3,
Diaphragm maintaining part 210 includes main part the 211st, the first adsorption section 212a, the second adsorption section 212b, rotating driving device 217
With base plate 218.
Main part 211 is to have the first orbit portion 213 and the second orbit portion in lower face side (with diaphragm F16 opposite side)
The rectangular-shaped component of 214.Lower face side at main part 211 is provided with the first orbit portion 213.At the first orbit portion 213
Lower face side the second orbit portion 214 is installed.Lower face side at the second orbit portion 214 is provided with the first adsorption section 212a
With the second adsorption section 212b.
The of the first adsorption section 212a absorption diaphragm F16 parallel with the length direction of the first belt type film F11 (reference Fig. 1)
One edge part.The second adsorption section 212b absorption diaphragm F16 parallel with the length direction of the first belt type film F11 (with reference to Fig. 1)
The second edge part.
First adsorption section 212a and the second adsorption section 212b has same structure.Therefore, in this manual, by first
Adsorption section 212a and the second adsorption section 212b is generically and collectively referred to as " adsorption section 212 ".
Fig. 4 is the stereogram of the schematic configuration illustrating the adsorption section 212 included by diaphragm maintaining part 210.As shown in Figure 4,
Adsorption section 212 includes multiple adsorption element the 262nd, supporting member 261 and lowering or hoisting gear 269.
Supporting member 261 is the bar-shaped metal parts for supporting multiple adsorption element 262.Supporting member 261 is with first
The side that the length direction of orbit portion 213 is orthogonal upwardly extends.Supporting member 261 has for supporting multiple adsorption element 262
Multiple through holes.It is disposed adjacent to each other multiple through hole along the length direction of supporting member 261.Multiple adsorption elements
262 are supported by component 261 with the state being respectively inserted through hole is supported.
Adsorption element 262 includes absorption layer the 263rd, suction tube 264 and cylindrical tube 265.Absorption layer 263 and suction tube 264
One end be connected.
Absorption layer 263 is the component of the taper of the hemispherical of hollow or hollow, in the face of the side i.e. absorption layer 263 of diaphragm F16
Lower ending opening.Absorption layer 263 is for example formed with silicones.For example a diameter of more than the 10mm of the size of absorption layer 263.
More than 5 adsorption elements 262 are had in for example, each supporting member 261 of the number of adsorption element 262.
Fig. 5 is to adsorb the mechanism of diaphragm F16 to absorption layer 263 and mechanism that absorption layer 263 makes diaphragm F16 depart from enters
The schematic diagram of row explanation.As it is shown in figure 5, the one end of suction tube 264 is connected with suction device 275 by conduit 2751.
The other end of suction tube 264 is connected with gases at high pressure feedway 276 by conduit 2761.
It is provided with the valve (omitting diagram) for switching conduit 2751 on conduit 2751.It is provided with use on conduit 2761
Valve (omitting diagram) in switch conduit 2761.Utilize the valve of conduit 2751 and the valve of conduit 2761, can
The state communicate with suction device 275 to suction tube 264 and suction tube 264 communicate with gases at high pressure feedway 276
State switches over.
Suction device 275 contacts with diaphragm F16 at absorption layer 263 and forms the sky being surrounded by absorption layer 263 and diaphragm F16
Between after 2631, attract the gas in space 2631.Thus, the pressure step-down in space 2631.Its result, diaphragm F16
It is reliably adsorbed in absorption layer 263.
Gases at high pressure feedway 276 gas of high pressure is delivered to be adsorbed in the absorption layer 263 of diaphragm F16 and diaphragm F16 it
Between space 2631 in.Thus, the pressure in space 2631 uprises.Its result, diaphragm F16 departs from from absorption layer 263.
Returning to Fig. 4, suction tube 264 is inserted into cylindrical tube 265.Cylindrical tube 265 is inserted into the through hole of supporting member 261,
It is fixed in supporting member 261.Suction tube 264 slides along the inwall of cylindrical tube 265, absorption layer 263 and diaphragm F16
Abut, relax mechanical shock during absorption diaphragm F16.
Lowering or hoisting gear 269 makes supporting member 261 in the direction near diaphragm F16 and the lifting of the direction away from diaphragm F16.Make
For lowering or hoisting gear 269, use known device.In present embodiment, for example, compressed-air actuated energy is converted to by employing
Linear motion is so that the cylinder of supporting member 261 movement in vertical is as lowering or hoisting gear 269.
Lowering or hoisting gear 269 includes base plate the 266th, cylinder main body portion 270 and piston portion 271.
Base plate 266 is the metal parts on the length direction of supporting member 261 in longitudinal L-shaped.Base plate 266 includes
The flat part 267 parallel with supporting member 261 and the bend 268 being bent into L-shaped from flat part 267.Base plate 266
It is relatively configured with the length direction central portion of supporting member 261.Base plate 266 on flat part 267 with supporting member 261
Connect.
Cylinder main body portion 270 is fixed in the base plate 266 of configuration above supporting member 261.Cylinder main body portion 270 quilt
It is fixed on the length direction central portion of flat part 267.Piston portion 271 protrudes from the lower section of flat part 267, and with supporting structure
Part 261 connects.
It is provided with a pair guiding bar 272 towards flat part 267 and protruding from top and a pair block 274 in supporting member 261.
Guide for a pair bar 272 to clip ground, cylinder main body portion 270 to insert respectively and be arranged at the length direction end side of flat part 267 and another
In a pair through hole of end side.The top ends of the guiding bar 272 of through through hole is provided with diameter bigger than through hole
Flange part 273.Block 274 is that aspect ratio guides the low bar-shaped component of bar 272.Block 274 compares guiding bar 272 quilt
It is arranged on the length direction central portion side of supporting member 261.Flat part 267 is guided bar 272 to guide by a pair, at block 274
And move between flange part 273.
As it is shown on figure 3, base plate 266 is installed in the second orbit portion 214 via bend 268, and can slide.Second
Orbit portion 214 includes the first track 215 and the second track 216.
Base plate (the first base plate 266a) in order to make the first adsorption section 212a have moves in the horizontal direction and arranges first
Track 215.First base plate 266a is installed in the first orbit portion 215 via bend, and can slide.Thus, first
Adsorption section 212a can slide along the first track 215.
Base plate (the second base plate 266b) in order to make the second adsorption section 212b have moves in the horizontal direction and arranges second
Track 216.Second base plate 266b is installed in the second orbit portion 216 via bend, and can slide.Thus, second
Adsorption section 212b can slide along the second track 216.
First orbit portion 213 presents rectangular-shaped outward appearance.The length direction (direction parallel with long limit) of the first orbit portion 213
It is set as the direction identical with the length direction of rectangular-shaped main part 211.
First track 215 is mounted with the posture of the width (direction parallel with minor face) along the first orbit portion 213
First end 2131a on the length direction of the first orbit portion 213.Second track 216 is with along the first orbit portion 213
The posture of width (direction parallel with minor face) be installed in the second end on the length direction of the first orbit portion 213
Portion 2131b.
At least one in first track 215 and the second track 216 moves along the length direction of the first orbit portion 213.Drive
Dynamic device (omitting diagram), along the length direction of the first orbit portion 213, makes the first track 215 and the second track 216 exist
Relative movement on direction close to each other or direction away from each other.Thus, it is installed in the first suction of the first track 215
Attached portion 212a and the second adsorption section 212b relative movement on direction away from each other being installed in the second track 216.First
Orbit portion 213 plays a role as first guiding mechanism at the interval adjusting the first adsorption section 212a and the second adsorption section 212b.
The interval of the first adsorption section 212a and the second adsorption section 212b is adjusted according to the width of the first belt type film F11.The
The interval of one adsorption section 212a and the second adsorption section 212b can be manually adjusted by user, it is possible to use sensing
The width of the detection first belt type film F11 such as device, based on this testing result, automatically adjusts the first adsorption section 212a and second
The interval of adsorption section 212b.
First adsorption section 212a, by sliding along the first track 215, is configured in the optional position on the first track 215.
Second adsorption section 212b, by sliding along the second track 216, is configured in the optional position on the second track 216.The
Two orbit portions 214 make the first adsorption section 212a and the second adsorption section 212b parallel with the length direction of the first belt type film F11
Direction on relative movement.Second orbit portion 214 is as the first adsorption section adjusting on the direction parallel with described length direction
Second guiding mechanism of the relative position of 212a and the second adsorption section 212b plays a role.
For example, in the case of utilizing cutting part 120 to cut the first belt type film F11 obliquely relative to the first belt type film F11,
Diaphragm F16 is shaped as parallelogram.In this case, the first adsorption section 212a and the second adsorption section 212b along
First track 215 and the second track 216 slide in directions opposite each other, are configured in the length at the first belt type film F11
On the position being offset from one another on degree direction.The relative position of the first adsorption section 212a and the second adsorption section 212b can be by making
User manually adjusts, it is possible to use first edge part of the detection first belt type film F11 such as sensor and the second edge part,
Based on this testing result, automatically adjust the first adsorption section 212a and the relative position of the second adsorption section 212b.
As it is shown on figure 3, be connected with rotation on the upper surface of main part 211 (face of the opposition side with diaphragm F16 opposite side)
Rotary driving device 217.Main part 211 is for example hung on base plate 218 by rotating driving device 217.Rotate and drive dress
Putting 217 makes main part 211 rotate around the rotary shaft vertical with the upper surface of main part 211.Thus, diaphragm maintaining part 210
Diaphragm F16 can be remain rotate.As rotating driving device 217, use known device.In present embodiment,
For example, the direct the driving directly revolving force of motor not being transferred to main part 211 by indirect mechanisms such as gear-boxes is used
Formula motor (DD motor) is as rotating driving device 217.
Rotating driving device 217 makes diaphragm F16 rotate, so that the optical axis of diaphragm F16 is relative to the second belt type film F21 described later
Optical axis be desired angle [alpha].In present embodiment, owing to the cutting angle of the first belt type film F11 is set to angle
α, therefore makes diaphragm F16 rotate by rotating driving device 217, thus the two of diaphragm F16 limits are (with the first belt type film
Two limits that the length direction of F11 intersects) it is arranged to and the limit parallel with the length direction of the second belt type film F21 coincidence ground.
Returning to Fig. 2, mobile device 220 makes diaphragm maintaining part 210 move towards film laminating apparatus 300.Such as Fig. 2 and Fig. 3
Shown in, mobile device 220 includes orbit portion the 221st, driving means the 227th, supporting member 228 and the 3rd guiding mechanism 224.
Orbit portion 221 is arranged between transmembrane chip supplying device 100 and film laminating apparatus 300.Orbit portion 221 includes
The first track 222 configuring in parallel with each other and the second track 223.By being configured in diaphragm feedway 100 and film patch
Supporting member 228 supporting track portion 221 between locking device 300.
3rd guiding mechanism 224 makes diaphragm maintaining part 210 move on the direction parallel with the width of the first belt type film F11
Dynamic, adjust position on the direction parallel with described width for the diaphragm maintaining part 210.3rd guiding mechanism 224 includes
Framework 225 and driving means 226.
Diaphragm maintaining part 210 is installed in rectangular box-like framework 225, and described framework 225 is supported by orbit portion 221.
A pair frame material 2251a, 2251b as the minor face of framework 225 are mounted respectively in the first track 222 and the second track 223
On, and can slide.
Framework 225 passes through driving means 227, along orbit portion 221, at diaphragm feedway 100 and film laminating apparatus 300
Between move back and forth.As driving means 227, the known device using gear, motor etc. can be used.
The base plate 218 of diaphragm maintaining part 210 is installed in frame material 2252a, 2252b of a pair of the long limit as framework 225
On, and can slide.It is provided with the driving means 226 making base plate 218 move along the long limit of framework 225 on framework 225.
As driving means 226, use the known devices such as motor.
Diaphragm transfer station 230 supports the lower surface of the diaphragm F16 being cut out from the first belt type film F11 by cutting part 120 and hands over
It is connected to diaphragm maintaining part 210.The one end of diaphragm transfer station 230 is adjacent to be set with the turntable 121 of cutting part 120.
The one end of diaphragm transfer station 230 for example has a curve form corresponding with the shape of turntable 121, thus and turntable
121 do not disturb.Handed over across turntable 121 and diaphragm from the diaphragm F16 that the first belt type film F11 cuts out by cutting part 120
Connect platform 230 ground to be configured.
The other end of diaphragm transfer station 230 is positioned at the lower section of the orbit portion 221 of mobile device 220.Diaphragm maintaining part 210
Move to the top of diaphragm transfer station 230 along orbit portion 221, and adsorb the diaphragm F16 being supported in diaphragm transfer station 230
Upper surface.The size of diaphragm transfer station 230 is designed to suitable size according to the size of diaphragm F16.
(film laminating apparatus)
Returning to Fig. 1, film laminating apparatus 300 will be laminated with the second belt type film F21 of the second diaphragm F21P and the second diaphragm
F21P releases together.Film laminating apparatus 300 peels off the second diaphragm F21P from the second belt type film F21.Film laminating apparatus 300
The diaphragm F16 being carried by conveying device 200 is conformed to the second belt type film F21.Its result, is laminated with the second belt type film F21
Formed with the duplexer F30 of diaphragm F16.Film laminating apparatus 300 includes that the second belt type film supply unit the 310th, diaphragm moves
Send portion 320 and sticking part 330.
Second belt type film supply unit 310 is released being laminated with the second belt type film F21 separating film F22 together with separating film F22,
From the second belt type film F21 peel separation film F22, to supply the second belt type film F21.Second belt type film supply unit 310 includes
Unreel the 301st, stripper roll portion 302 of portion and reeling end 303.In addition, stripper roll portion 302 and reeling end 303 are generically and collectively referred to as
Two stripping portion.
Unreel the coiled material R2 to the film F20 having wound strip for the portion 301 to keep.Unreeling portion 301 makes coiled material R2 rotate,
Unreel film F20 from coiled material R2.
Fig. 7 is the second belt type film being laminated with separation film (the second diaphragm) involved by first embodiment of the present invention
Profile.As it is shown in fig. 7, film F20 e.g. comprises the second belt type film F21a (F21) and separates film F22a (the second guarantor
Cuticula F21P) film F20a.Second belt type film F21a is to have such as polarizing coating, phase retardation film, brightness enhancement film etc. to possess light
Learn the blooming of the film main part F23a of function.Second belt type film F21a on the thickness direction of film main part F23a sequentially
Including such as surface protection film F25a, film main part F23a and adhesion coating F24a.Surface protection film F25a is arranged at film
On first face of main part F23a, and this surface protection film F25a can be stripped.Film F22a is across adhesion coating F24a in separation,
It is arranged on second face of film main part F23a, and this separation film F22a can be stripped.Adhesion coating F24a for example uses
In film main part F23a is fitted in diaphragm F16.The size of film F20a such as width is more than 400mm, and thickness is 0.1mm
Above.The thickness of surface protection film F22a is for example at more than 0.02mm.The thickness of film main part F23a is for example at 0.01mm
Above.The thickness of adhesion coating F24a is for example at more than 0.001mm.Separate the thickness of film F25a for example at more than 0.02mm.
Returning to Fig. 1, the second diaphragm F21P that film F20 is comprised is reeved in stripper roll portion 302, by from the second banding
Film F21 peels off, and described stripper roll portion 302 is arranged at the downstream in the portion of unreeling 301.The peeling off from the second belt type film F21
Two diaphragm F21P are taken up portion 303 and batch.The second banding being separated with the second diaphragm F21P by stripper roll portion 302
Film F21 is supplied to sticking part 330, and described sticking part 330 is arranged at the downstream in stripper roll portion 302.
Diaphragm transferred unit 320 receives the diaphragm F16 being carried by conveying device 200, and transfers to sticking part 330.Diaphragm moves
Portion 320 is sent to include being formed as the carrier film 323 of annular.Carrier film 323 is around conveying roller the 321st, 322 and second doubling roller
332 are coiled circlewise.Carrier film 323 is rotated by the second doubling roller 332, rotates in a single direction.Such as Fig. 2 institute
Show, the upstream side of the conveying direction of the second doubling roller 332 is provided with supporting station 324.It is preferably in carrier film 323
With execution demoulding process on the surface of the second belt type film F21 and diaphragm F16 contact side.
The lower section of the orbit portion 221 in mobile device 220 for the one end part of diaphragm transferred unit 320.Diaphragm maintaining part 210 edge
Orbit portion 221 moves to the top of diaphragm transferred unit 320, and the diaphragm F16 being kept diaphragm maintaining part 210 supplies extremely
Diaphragm transferred unit 320.The size of diaphragm transferred unit 320 is designed to suitable size according to the size of diaphragm F16.
It in present embodiment, as diaphragm transferred unit 320, is shown with the example of the carrier film 323 of annular, but diaphragm moves
The structure sending portion 320 is not limited to this.For example, it may be from releasing coil carrier film 323, exist via sticking part 330
The structure that reeling end batches.
Sticking part 330 is by the second belt type film F21 being supplied by the second belt type film supply unit 310 and is moved by diaphragm transferred unit 320
The diaphragm F16 sending fits across adhesion coating F24a (with reference to Fig. 7).Sticking part 330 includes the first doubling roller 331 He
Second doubling roller 332.
First doubling roller 331 and the second doubling roller 332 make rotary shaft be set in parallel with each other.The first doubling roller 331 He
Being formed with the gap (space) of regulation between second doubling roller 332, the position in this gap is the bonding position of sticking part 330.
It is placed in the diaphragm F16 being carried and the second belt type film being supplied by the second belt type film supply unit 310 in carrier film 323
F21 is imported into the gap between the first doubling roller 331 and the second doubling roller 332 with overlaping.Sticking part 330 is by
The face that the surface protection film F12 of the face being provided with adhesion coating F24a of two belt type film F21 and diaphragm F16 has been stripped, every
Adhesion coating F24a to fit, form the film laminated body F30 of the strip being laminated with the second belt type film F21 and diaphragm F16.
(devices for taking-up)
Devices for taking-up 400 batches film laminated body F30 and reclaims.Devices for taking-up 400 includes batching batching of film laminated body F30
Portion 401.The coiled material R3 being taken up the film laminated body F30 batching in portion 401 as film laminated body F30 is by output.
In present embodiment, the part manufacturing device 1 is arranged in clean shed 500.Thereby, it is possible to make manufacture device
1 operates under clean environment.It is as a result, it is possible to the first belt type film F11, the film of the first diaphragm F11P are being peeled off in suppression
It is attached with dust or dust etc. miscellaneous in the release surface of piece F16 and the second belt type film F21 having peeled off the second diaphragm F21P
Matter, it is possible to increase the quality of film laminated body F30.
It is provided with air supply opening 501 on the ceiling of clean shed 500.HEPA filter is installed on air supply opening 501 and (saves sketch map
Show).HEPA filter suppression impurity flows into clean shed 500 from air supply opening 501.Formed by the gas of air supply opening 501
From air supply opening 501 air-flow FL downward.Utilize air-flow FL, impurity can be suppressed to disperse in clean shed 500.Its knot
Really, impurity can be suppressed to be attached in the release surface of the first belt type film F11, diaphragm F16 and the second belt type film F21.
It is provided with exhaust outlet on the ceiling of clean shed 500.Thus, the impurity that air-flow FL carries downwards is to clean shed 500
Outside discharge.Its result, can suppress impurity again to fly up and be attached to the first belt type film F11, diaphragm F16 and the second banding
In the release surface of film F21.
In the manufacture device 1 of present embodiment described above, from the first belt type film F11 peeled off surface protection film F12 it
After, cut the first belt type film F11, to supply the diaphragm F16 of the first belt type film F11.Therefore, operator is saved from film
Piece F16 peels off the time of diaphragm one by one.Accordingly, because shorten the time required for diaphragm supply, therefore, it is possible to
Carry out laminating process efficiently.
Also, in present embodiment, the diaphragm F16 that tunicle chip supplying device 100 is supplied by conveying device 200 is delivered to film patch
Locking device 300.Therefore, it is no longer necessary to diaphragm F16 is transported to film laminating apparatus 300 from diaphragm feedway 100 by operator.
Accordingly, because diaphragm supply, conveying, film laminating can be carried out continuously, batch this series of steps, therefore, it is possible to efficiently
Ground carries out laminating process.
Also, in the manufacture device 1 of present embodiment, conveying device 200 includes diaphragm maintaining part 210 and mobile device 220.
Diaphragm maintaining part 210 can remain diaphragm F16 and rotate.Mobile device 220 makes diaphragm maintaining part 210 paste towards film
Locking device 300 moves.Utilize this structure, two limits (length direction with the first belt type film F11 of diaphragm F16 can be made
Two limits intersecting) with and the parallel limit of the length direction of the second belt type film F21 with overlapping, diaphragm F16 is configured at film and pastes
On locking device 300.Therefore, it is possible to make diaphragm F16 and the second belt type film F21 be that desired angle is handed over optical axis each other
The state of fork is fitted.
Also, in the manufacture device 1 of present embodiment, diaphragm maintaining part 210 includes the first adsorption section 212a, the second adsorption section
212b, the first guiding mechanism 213.The first adsorption section 212a absorption diaphragm parallel with the length direction of the first belt type film F11
First edge part of F16.The second adsorption section 212b absorption diaphragm F16's parallel with the length direction of the first belt type film F11
Second edge part.First guiding mechanism 213 makes the first adsorption section 212a and the second adsorption section 212b in direction close to each other
Or relative movement on direction away from each other, to adjust the interval of the first adsorption section 212a and the second adsorption section 212b.Logical
Cross this structural change the first adsorption section 212a and the distance of the second adsorption section 212b, so that the first adsorption section 212a can
Adsorb first edge part of diaphragm F16, and the second adsorption section 212b can adsorb the second edge part.Therefore, no matter first
How wide the width of belt type film F11 is, and diaphragm maintaining part 210 also can keep diaphragm F16.
Also, in the manufacture device 1 of present embodiment, diaphragm maintaining part 210 includes the second guiding mechanism 214.Second adjusts
Mechanism 214 makes the first adsorption section 212a and the second adsorption section 212b in the side parallel with the length direction of the first belt type film F11
Upwards relative movement, to adjust the first adsorption section 212a and the second adsorption section 212b in the direction parallel with described length direction
On relative position.According to this structure, make the first adsorption section 212a and the second adsorption section 212b along the first track 215 and
Second track 216 slides in directions opposite each other such that it is able to be configured on the length direction of the first belt type film F11 that
On the position of this skew.Therefore, though in the case of being shaped as parallelogram of diaphragm F16, it is also possible to configuration first suction
Attached portion 212a and the second adsorption section 212b, makes the entirety of first edge part of the first adsorption section 212a absorption diaphragm F16, and
The entirety of second edge part of the second adsorption section 212b absorption diaphragm F16.Its result, diaphragm maintaining part 210 can be reliable
Ground keeps diaphragm F16.
Also, in the manufacture device 1 of present embodiment, conveying device 200 includes the 3rd guiding mechanism 224, and the described 3rd adjusts
Complete machine structure 224 makes diaphragm maintaining part 210 move up in the side parallel with the width of the first belt type film F11, adjusts film
Position on the direction parallel with described width for the piece maintaining part 210.According to this structure, adjust diaphragm F16 relative to
Diaphragm F16 is fitted on the second belt type film F21 by the relative position of the described width of the second belt type film F21.Therefore,
Make diaphragm F16 and the second belt type film F21 exactly after aligned position on described width, diaphragm F16 is fitted in
On second belt type film F21.
Also, in the manufacture device 1 of present embodiment, the first adsorption section 212a and the second adsorption section 212b includes respectively: that
This multiple adsorption elements 262 being adjacent to, support the supporting member 261 of multiple adsorption element 262, and make supporting structure
Part 261 near diaphragm F16 direction and away from the direction of diaphragm F16 on lifting lowering or hoisting gear 269.According to this structure,
May utilize the absorption affinity of multiple adsorption elements 262, positively keep and carry diaphragm F16.
Also, the manufacture device 1 of present embodiment includes devices for taking-up 400, described devices for taking-up 400 batches film laminated body F30.
According to this structure, film laminated body F30 can be batched and reclaimed, making film laminated body F30 as coiled material R3 by output.
(manufacture method of film laminated body)
Hereinafter, utilize Figure 11, the manufacture method of the film laminated body F30 of present embodiment is illustrated.
Figure 11 is the figure that the manufacture method to the present invention illustrates.As shown in figure 11, the film laminated body F30 of present embodiment
Manufacture method include diaphragm supplying step S1, supplying step S2, film laminating step S3, batch step S4.
In diaphragm supplying step S1, the first belt type film F11 of the first diaphragm F11P and the first diaphragm F11P will be laminated with
Release together, peel off the first diaphragm F11P from the first belt type film F11.Thereafter, the first belt type film F11 is cut off, supply the
The diaphragm F16 of one belt type film F11.
In supplying step S2, the diaphragm F16 being supplied by diaphragm supplying step S1 is delivered to the diaphragm of film laminating apparatus 300
Transferred unit 320.
During conveying, the 3rd guiding mechanism 224 is utilized to carry out positioning it relative to diaphragm transferred unit 320 by diaphragm maintaining part 210
After, utilize gases at high pressure feedway 276 to carry out the disengaging of diaphragm F16.Thereby, it is possible to defeated by diaphragm transferred unit 320
The diaphragm F16 sending aligns with the second belt type film F21 being supplied by the second belt type film supply unit 310 shape of position of width
Under state, fit.
Also, preferably utilize lowering or hoisting gear 269, adjust the height of diaphragm maintaining part 210, be held in diaphragm maintaining part
The diaphragm F16 of 210 carries out the disengaging of diaphragm F16 in the state of being positioned at the height of 2~3cm from diaphragm transferred unit 320.
By the upper limit of the suitable height setting diaphragm F16, when carrying out the disengaging of diaphragm F16, diaphragm F16 falls to film
The moment of piece transferred unit 320, diaphragm F16 can be suppressed to offset or diaphragm F16 relative to the position of diaphragm transferred unit 320
In unfavorable conditions such as in-plane rotations.
It also, by the lower limit of the suitable height setting diaphragm F16, is prevented from multiple adsorption elements 262 from diaphragm F16
When departing from successively, the part first departing from diaphragm F16 contacts with diaphragm transferred unit 320, diaphragm F16 during disengaging
A part is by the such unfavorable condition of conveying.
It produces fold or destroyed unfavorable condition as a result, it is possible to reduce diaphragm F16.
In film laminating step S3, the second belt type film F21 of the second diaphragm F21P and the second diaphragm F21P will be laminated with
Release together, peel off the second diaphragm F21P from the second belt type film F21.Thereafter, the diaphragm that will be carried by supplying step S2
F16 fits in the second belt type film F21, forms the film laminated body F30 being laminated with the second belt type film F21 and diaphragm F16.
Batch in step S4, batch film laminated body F30, obtain coiled material R3.
The diaphragm F16 having cut can automatically be carried, position by the manufacture method of present embodiment from the description above
After alignment, conform to the second belt type film.Therefore, it is possible to carry out laminating process efficiently.
In addition, the manufacture device 1 of present embodiment includes devices for taking-up 400, the system of the film laminated body F30 of present embodiment
The method of making includes batching step S4, but is not limited to this embodiment.For example, it is also possible to arrange cutter sweep to replace volume
Fetching puts 400, does not batch film laminated body F30, and cuts each diaphragm F16, reclaims with sheet.
[the second embodiment]
Hereinafter, Fig. 8 to Figure 10 is utilized, the manufacture device of the film laminated body involved by second embodiment of the present invention and film
The manufacture method of duplexer illustrates.
In present embodiment, the first diaphragm F11P peeling off from the first belt type film F11 is separation film, from the second belt type film
The first diaphragm F11P that F21 peels off is surface protection film.Above-mentioned aspect is different from the first embodiment.Hereinafter, to
One embodiment is commonly constructed key element and gives same-sign, and omits the description.
Fig. 8 is the profile being laminated with the first belt type film separating film (the first diaphragm) involved by present embodiment.This
In embodiment, as shown in Figure 8, film F10 (with reference to Fig. 1) e.g. comprises the first belt type film F11b (F11) and separates
The film F10b of film F115b (the first diaphragm F11P).First belt type film F11b be have for example polarizing coating, phase retardation film,
Brightness enhancement film etc. possess the blooming of the film main part F13b of optical function.First belt type film F11b is film main part F13b's
Such as surface protection film F12b, film main part F13b and adhesion coating F14b is sequentially included on thickness direction.Surface protection film F12a
It is arranged on first face of film main part F13a, and this surface protection film F12a can be stripped.Separate film F15b every
Adhesion coating F14b, be arranged on second face of film main part F13a, and this separation film F15b can be stripped.Adhesion
Layer F14b is for example for fitting in the second belt type film F21b by film main part F13b.The size of film F10b such as width is
More than 1000mm, thickness is more than 0.1mm.The thickness of surface protection film F12b is for example at more than 0.02mm.Film main part
The thickness of F13b is for example at more than 0.01mm.The thickness of adhesion coating F14b is for example at more than 0.001mm.Separate film F15b
Thickness for example at more than 0.02mm.
In present embodiment, the face that the first belt type film F11b is laminated with the first diaphragm F11P is the surface of adhesion coating F14b
(bonding plane).From the upper surface of the diaphragm F16 of the first belt type film F11b generation, there is bonding plane.
In conveying device 200 (with reference to Fig. 1), the first adsorption section 212a and the second adsorption section 212b of diaphragm maintaining part 210
The face being provided with adhesion coating F14b side of absorption diaphragm F16, keeps to diaphragm F16.Accordingly, there exist multiple absorption
The situation of component 262 (with reference to Fig. 4) contact adhesion coating F14b.Therefore, multiple adsorption elements 262 are preferably to be easy to from viscous
The material formation that layer F14b departs from.Multiple adsorption elements 262 are for example formed with silicones.
In order to suppress multiple adsorption element 262 to contact with adhesion coating F14b, as shown in Figure 8, preferably adhesion coating F14b's
The narrow width of width ratio film main part F13b.The width of adhesion coating F14b is for example at more than 900mm.Film main part F13b
The second face on exist and be not provided with two regions A1, A2 of adhesion coating F14b.Region A1, A2 are respectively along film main part F13b
Upper two relative edges extend.The width of region A1, A2 is for example all at substantially more than 2mm.
In this case, as shown in Figure 10, diaphragm maintaining part 210 is controlled, so that multiple adsorption element 262a, 262b
All or part be adsorbed in region A1, A2 respectively.Figure 10 be shown in involved by present embodiment, by with point
The schematic diagram of the absorption layer absorption position on diaphragm F16 that the first belt type film after film (the first diaphragm) separates generates.
Thus, the area that multiple adsorption elements 262 contact with adhesion coating F14b reduces, and makes diaphragm F16 easily from multiple absorption structures
Part 262 departs from.
Fig. 9 is cuing open of the second belt type film being laminated with surface protection film (the second diaphragm) involved by embodiment of the present invention
Face figure.As it is shown in figure 9, film F20 e.g. comprises the second belt type film F21b (F21) and surface protection film F25b (second
Diaphragm F21P) film F20b.Second belt type film F21b is to have such as polarizing coating, phase retardation film, brightness enhancement film etc. to possess
The blooming of the film main part F23b of optical function.Second belt type film F21b depends on the thickness direction of film main part F23b
Sequence includes such as film main part F23a, adhesion coating F24a and separates film F22b.Surface protection film F25b is arranged at film master
On first face of body F23b, and this surface protection film F25b can be stripped.Film F22b is across adhesion coating F24b in separation,
It is arranged on second face of film main part F23b, and this separation film F22b can be stripped.Adhesion coating F24b is used for example
As film main part F23b fitted on the display surface of the optics such as liquid crystal panel or organic EL panel display part.Film F20b
Size such as width be more than 400mm, thickness is more than 0.1mm.The thickness of surface protection film F22b is for example at 0.02mm
Above.The thickness of film main part F23b is for example at more than 0.01mm.The thickness of adhesion coating F24b for example 0.001mm with
On.Separate the thickness of film F25b for example at more than 0.02mm.
Sided corona treatment can be implemented on first face of film main part F23b.Thus, diaphragm F16 and the second belt type film F21
Laminating more firm.
Present embodiment from the description above, it is also possible to the diaphragm F16 having cut automatically is carried, after aligned in position,
Conform to the second belt type film.Therefore, it is possible to carry out laminating process efficiently.
Above, referring to the drawings suitable embodiment example involved in the present invention is illustrated, but the present invention is certainly not
It is limited to involved example.Each shape of each structural elements illustrating in the above example or combination etc. are cases, without departing from
In the range of the purport of the present invention, numerous variations can be carried out based on design requirement etc..
Symbol description
1: the manufacture device of film laminated body, 100: diaphragm feedway, 200: conveying device, 210: diaphragm maintaining part,
212a: the first adsorption section, the 212b: the second adsorption section, 213: the first orbit portions (the first guiding mechanism), 214: the second
Orbit portion (the second guiding mechanism), 220: mobile device, 224: the three guiding mechanisms, 261: supporting member, 262:
Adsorption element, 269: lowering or hoisting gear, 275: suction device, 276: gases at high pressure feedway, 300: film laminating apparatus,
400: devices for taking-up, the F11: the first belt type film, the F11P: the first diaphragm, F16: diaphragm, the F21: the second belt type film,
F21P: the second diaphragm, F30: film laminated body, S1: diaphragm supplying step, S2: supplying step, S3: film laminating step
Suddenly.
Claims (17)
1. the manufacture device of a film laminated body, it is characterised in that include:
Diaphragm feedway, described diaphragm feedway will be laminated with the first belt type film of the first diaphragm and described first protection
Film is released together, after described first belt type film has peeled off described first diaphragm, cuts described first belt type film,
Diaphragm with described first belt type film of supply;
Conveying device, the conveying of described conveying device is by the described diaphragm of described diaphragm feedway supply;And
Film laminating apparatus, described film laminating apparatus will be laminated with the second belt type film of the second diaphragm and described second diaphragm one
Rise and release, after described second belt type film has peeled off described second diaphragm, the described diaphragm that will be carried by described conveying device
Conform to described second belt type film, to form the film laminated body being laminated with described second belt type film and described diaphragm.
2. the manufacture device of film laminated body according to claim 1, it is characterised in that
Described conveying device includes: keep described diaphragm the diaphragm maintaining part that can rotate;And make described diaphragm maintaining part
The mobile device moving to described film laminating apparatus.
3. the manufacture device of film laminated body according to claim 2, it is characterised in that
Described diaphragm maintaining part includes: the first adsorption section, and its absorption is parallel with the length direction of described first belt type film described
First edge part of diaphragm;And second adsorption section, its absorption described film parallel with the length direction of described first belt type film
Second edge part of piece.
4. the manufacture device of film laminated body according to claim 3, it is characterised in that
Described diaphragm maintaining part includes the first guiding mechanism, and described first guiding mechanism is by making described first adsorption section and described
The relative movement on direction close to each other or direction away from each other of second adsorption section, adjust described first adsorption section and
The interval of described second adsorption section.
5. the manufacture device of film laminated body according to claim 3, it is characterised in that
Described first adsorption section and described second adsorption section include multiple adsorption element respectively, and described adsorption element is by silicones structure
Become.
6. the manufacture device of film laminated body according to claim 3, it is characterised in that
Described first adsorption section and described second adsorption section include multiple adsorption element, described first adsorption section and described respectively
Two adsorption sections are connected with suction device, and described suction device is to by the described adsorption element and described diaphragm with described film contact
The space decompression surrounded.
7. the manufacture device of film laminated body according to claim 3, it is characterised in that
Described first adsorption section and described second adsorption section include multiple adsorption element, described first adsorption section and described respectively
Two adsorption sections are connected with gases at high pressure feedway, and described gases at high pressure feedway is to by the described suction with described film contact
Gases at high pressure are sent in the space that attached component and described diaphragm surround.
8. the manufacture device of film laminated body according to claim 3, it is characterised in that
Described first adsorption section and described second adsorption section include respectively: multiple adsorption elements of configuration adjacent one another are;Supporting institute
State the supporting member of multiple adsorption element;And lowering or hoisting gear, its make described supporting member near described diaphragm direction and
Away from lifting on the direction of described diaphragm.
9. the manufacture device of film laminated body according to claim 3, it is characterised in that
Described diaphragm maintaining part includes the second guiding mechanism, and described second guiding mechanism makes described first adsorption section and described second
Adsorption section relative movement on the direction parallel with the length direction of described first belt type film, with adjust described first adsorption section and
Relative position on the direction parallel with described length direction for described second adsorption section.
10. the manufacture device of film laminated body according to claim 3, it is characterised in that
Described conveying device includes the 3rd guiding mechanism, and described 3rd guiding mechanism makes described diaphragm maintaining part with described first
The side that the width of belt type film is parallel moves up, and adjusts described diaphragm maintaining part in the direction parallel with described width
On position.
The manufacture device of 11. film laminated bodies according to any one of claim 1 to 10, it is characterised in that
The manufacture device of described film laminated body includes the devices for taking-up batching described film laminated body.
The manufacture method of 12. 1 kinds of film laminated bodies, it is characterised in that include:
The first belt type film being laminated with the first diaphragm is released, from institute together with described first diaphragm by diaphragm supplying step
State after the first belt type film peeled off described first diaphragm, described first belt type film is cut, to supply the described first band
The diaphragm of shape film;
Supplying step, conveying is by the described diaphragm of described diaphragm supplying step supply;And
Film is fitted step, releases the second belt type film being laminated with the second diaphragm, from described together with described second diaphragm
After second belt type film has peeled off described second diaphragm, the described diaphragm being carried by described supplying step is conformed to described second
Belt type film, to form the film laminated body being laminated with described second belt type film and described diaphragm.
The manufacture method of 13. film laminated bodies according to claim 12, it is characterised in that
Described supplying step carries described diaphragm in the state of adsorbing above described diaphragm and support described diaphragm.
The manufacture method of 14. film laminated bodies according to claim 13, it is characterised in that
The face being laminated with described first diaphragm of described first belt type film is bonding plane, and described diaphragm has described bonding plane,
In described supplying step, adsorb in the state of making described bonding plane upward and support the described viscous of described diaphragm
Face, and carry diaphragm with this state.
The manufacture method of 15. film laminated bodies according to claim 13, it is characterised in that
In described supplying step, use and described film contact and the adsorption element that makes described diaphragm adsorb,
Make the described diaphragm of described adsorption element contact, and is reduced pressure in the space being surrounded by described adsorption element and described diaphragm, with
Described diaphragm is made to adsorb.
The manufacture method of 16. film laminated bodies according to claim 15, it is characterised in that
After the described diaphragm of absorption is delivered to target location, to pressurization in described space, so that described diaphragm departs from.
The manufacture method of 17. film laminated bodies according to claim 16, it is characterised in that
After described diaphragm is positioned by described target location relative to described second belt type film, the described diaphragm of absorption is made to take off
From.
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CN103192557A (en) * | 2012-01-04 | 2013-07-10 | 淀川惠德株式会社 | Membrane adhering device |
CN203806681U (en) * | 2014-03-27 | 2014-09-03 | 广州市番禺科腾工业有限公司 | Material reclaiming device on heating system for producing automobile interior material |
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