CN103765301A - Adhesion device - Google Patents

Abstract

The present invention relates to an adhesion device and a method for manufacturing a laminate by using same. An example of the adhesion device according to one example of the present invention can couple various parts with high accuracy. For example, the adhesion device provides a stereo image display device in which a cross-talk phenomenon is minimized by coupling a liquid crystal panel and an optical filter for displaying a stereo image with high accuracy.

Description

Adhering apparatus

Technical field

The present invention relates to a kind of adhering apparatus and a kind of method of using this adhering apparatus prepared layer laminate.

Background technology

For example, in preparing the process of display (, liquid crystal display) or other electronic product, the step that usually makes plural parts mutually adhere to.An example of this step can be the step that LCD panel and blooming (for example, light polarizing film or phase shift films) are adhered to mutually.For example, as schematically illustrated in Fig. 1, in order to manufacture 3 d image display, should make liquid crystal panel 100 and optical filter 200 adhering to each other, on described liquid crystal panel 100, divided and formed generation eye image signal and the left-eye image signal region (1001 of (being hereinafter called " R signal " and " L signal "), 1002), on described optical filter 200, formed for differently regulating the figure (2001,2002) of the polarization state of R signal and L signal.In described 3 d image display, from producing the region 1001(of the liquid crystal panel 100 of R signal, be hereinafter called " UR region ") signal that sends is hereinafter called " FR region " through overregulating the region 2001(of optical filter of the polarization state of R signal).Similarly, from producing the region 1002(of the liquid crystal panel 100 of L signal, be hereinafter called " UL region ") signal that sends is hereinafter called " FL region " through overregulating the region 2002(of optical filter of the polarization state of L signal), and R signal and L signal are separated from one another, then arrive spectators.Therefore, need to make the FR Region Matching of liquid crystal panel and the optical filter UR of making adhering to each other region and optical filter, and UL region is accurately mated with the FL region height of optical filter.As the UR region of the liquid crystal panel of fruit part adheres to the FL region of optical filter, R signal can not enter right eye but enter left eye.Therefore, in 3 d image display, crosstalking to increase makes spectators be difficult to watch 3-D view, described in crosstalk and be expressed as the R signal that enters left eye and the number percent that enters the L signal of left eye.Therefore,, in preparing the method for 3 d image display, need to use and can make liquid crystal panel and optical filter adhering apparatus adhering to each other accurately.

Summary of the invention

Technical matters

The invention provides a kind of adhering apparatus and a kind of method of using this adhering apparatus prepared layer laminate.

Technical scheme

An embodiment of the invention are intended to a kind of adhering apparatus, it comprises: the first support portion, described the first support portion comprises: support member, described support member is configured to make first component can be held and have at least one hole forming thereon, and stationary installation, described stationary installation is arranged for when described first component is remained on described support member, by utilizing the aspiration procedure in described hole that described first component is fixed to described support member; The second support portion, described the second support portion is arranged for second component is fixed thereon; And transport part, the relative position that described transport part is arranged for described the first support portion of control and the second support portion is laminated to each other with first component and the second component that allows to be fixed.

When in this manual, described statement " is configured to make first component to be held " to be illustrated in described adhering apparatus to carry out adhering step, first component can be maintained on support member.The adhering apparatus in running status can not comprise first component.In addition described statement, " is configured to make second component to be held " can have same implication.

In the term " first component " using in this manual, " second component ", " the first support portion " and " the second support portion ", described ordinal number be provide arbitrarily for two kinds of parts and two kinds of support portions are described.Therefore, described first component can be placed on the second support portion, and described second component can be placed on the first support portion.

In an example, described the second support portion can be configured to make described second component can be fixed to the second support portion by suction.The same with the first support portion, for example, the second support portion can comprise: support member, described support member is configured to make second component can be held and have at least one hole forming thereon, and stationary installation, described stationary installation is arranged for when described second component is remained on described support member, by utilizing the aspiration procedure in described hole that described second component is fixed to described support member.

In an example, for prevent first or second component because the suction of the first or second support portion is to the first or second support portion deflection, the suction of the center in the first or second support portion can be adjusted to the value being less than in edge.

In an example, for the suction of the center in the first or second support portion being adjusted to the value that is less than edge, described support member comprises a plurality of holes, and the density in the hole forming on the edge of described support member can be greater than the density in the hole forming in the heart in described support member.At this, the density in hole represents the surface area in described a plurality of holes and the ratio of per surface area.For example, be understood that if on the edge of described support member and in a plurality of holes of forming in the heart there is identical surface area, highdensity hole means and in unit area, forms a lot of holes.In addition, with reference to Fig. 2, when in the horizontal the whole region of described support member being divided into and having three regions of the same area, and be divided in the vertical while having three regions of the same area, the edge 1111 of described support member can represent to be positioned at the region at edge.Correspondingly, the center 1112 of described support member can represent the region at the center that is positioned at described support member except the edge of described support member.

If described support member has thereon the hole forming, can adopt the structure that adopts and unrestricted in this area.For example, the plate of mesh can be used as support member.

In one embodiment, described adhering apparatus can be provided with many vision systems (multi-vision system) of the position that can identify described the first and second parts.For example, described many vision systems can comprise: be provided for observing by light signal the First look camera of the state of described first component, be provided for observing by light signal the second vision camera of the state of described second component, and total reflection lens.At this, the implication of " observing the state of described parts " can be interpreted as " identifying the position of described parts ".

According to many vision systems of an embodiment, can build visual structure with following state: wherein, described first component and second component are placed on quite closely in structure.In described tight structure, for example, the distance between described first component and second component can be for below 10mm, below 9mm, below 8mm, below 7mm, below 6mm, below 5mm, below 4mm, below 3mm, below 2mm or below 1mm.In addition, if described first component and second component are closely placed, can improve the adhesion degree of accuracy of the first and second parts, therefore the lower limit of the distance between the first and second parts in described tight structure is unrestricted.For example, the distance between described first and second parts can be 0(zero) more than.

Described total reflection lens can be the lens of printing opacity, or is according to incident angle, the lens that light is totally reflected.Particularly, the light that enters into described total reflection lens can see through described total reflection lens and not refraction, or can on described total reflection lens, reflect, and then sees through described total reflection lens, or can be by described total reflection lens total reflection.

In one embodiment, described total reflection lens can be arranged for and allow the light signal sending from described First look camera or the light signal sending from described the second vision camera through described total reflection lens, then arrives first component or second component.

For example, can arrange described total reflection lens make a kind of in light signal can see through described total reflection lens and of arriving in described the first and second parts upper, and another kind of signal can be totally reflected lens total reflection or refraction and arrive on another of described the first and second parts.See through described total reflection lens and arrive first component or the signal of second component can see through and can not reflect, or then refraction sees through.

Described total reflection lens can be configured such that the light signal that sees through described total reflection lens and arrive one of first and second parts and by described total reflection lens total reflection or refraction and arrive the same position that light signal on another in the first and second parts can arrive the first and second parts.

At this, same position about described first component and second component, under the state of first component and the overlapping arrangement of second component, contact with the dotted line that penetrates a position of first component and perpendicular to the position of described second component that penetrates surface of first component, can be interpreted as a position that position is identical with first component.Yet, consider actual error, described same position can be included in the area in the radius of the some 5mm, 3mm, 1mm or the 0.5mm that contact with described second component of the described dotted line of distance.

By the same position of observing described the first and second parts via described many vision systems, can be with required arrangement stacked described first component and second component.

In one embodiment, in order to observe the same position of the first and second parts by described many vision systems, position that total reflection lens makes to see through a kind of signal and total reflection can be set or reflect the position of another kind of signal identical.

In addition, described total reflection lens can be configured to allow to see through the light signal of total reflection lens and on total reflection lens the light signal of refraction or total reflection with equidirectional, advance.

Correspondingly, the position that described total reflection lens is configured such that to see through a kind of signal and total reflection or to reflect the position of another signal identical, and two kinds of signals advance with identical direction, so can observe the same position of the first and second parts.

In one embodiment, described First look camera, the second vision camera and total reflection lens can be assembled in the first support portion or the second support portion.

In one embodiment, described adhering apparatus may further include adhesive roll, and described adhesive roll is arranged for exerting pressure to the layered product of the first component being laminated to each other by transport part and second component.

In one embodiment, described the first and second parts can adhere to each other by the mode adopting in the field under the present invention.For example, described the first and second parts can be adhered to each other by bonding agent or contact adhesive.Correspondingly, in one embodiment, at described bonding agent or contact adhesive, be arranged under the state between described the first and second parts, described adhesive roll can apply pressure on layered product to adhere to the first and second parts.

In one embodiment, described first component can be liquid crystal panel.In addition, in one embodiment, described second component can be blooming.Can adhere to that all films on liquid crystal panel can be used as described blooming and unrestricted.For example, described blooming can be for Polarizer, phase shift films, diaphragm with for showing the optical filter of 3-D view.

In one embodiment, described first component can be for being formed with the liquid crystal panel in UR region and UL region on it, and described second component can, for for showing the optical filter of 3-D view, form FR region and FL region on described optical filter.Therefore, described adhering apparatus can be the manufacturing installation of 3 d image display, or a part for the manufacturing installation of 3 d image display.

An embodiment of the invention relate to a kind of method of the layered product for the preparation of first component and second component, and it comprises the steps: described first component to be placed on it and to be formed with on the support member at least one hole; By utilizing the suction in described hole that described first component is fixed to described support member; Be laminated to each other with the second component that allows fixing first component and be fixed to the second support portion with the relative position of mobile described first component and second component.

In one embodiment, the method for the described layered product for the preparation of described first component and second component can be by being used above-mentioned adhering apparatus to carry out.

Absorption through suction can make described second component be fixed to the second support portion.

In one embodiment, in order to prevent that described the first and second parts are because the suction of the first and second support portions is to the first or second support portion deflection, can by described first or the suction of the second center, support portion be adjusted to the value less than the value of edge.

In one embodiment, for make described first or the suction of the second center, support portion be less than the suction in edge, the suction that can regulate the hole by the edge at described support member to apply makes to be greater than the suction in described support member center at the above-mentioned suction at described support member edge.The edge of described support member and center can be understood with reference to accompanying drawing 2.

In one embodiment, described first component can have figure, described figure comprises first area and the second area that has different qualities and form thereon, and described second component can have figure, described figure comprises the 3rd region and the 4th region that has different qualities and form thereon.In addition, can carry out the stacked of described first component and second component and make first area and the 3rd region overlapping in layered product, and in layered product second area and the 4th region overlapping.

In one embodiment, described first component can be for for showing the liquid crystal panel of 3-D view, and it comprises as the UR region of first area with as the UL region of second area.In addition, described second component can be for for showing the optical filter of 3-D view, and it comprises as the FR region in the 3rd region with as four-range FL region.Therefore, can carry out for showing the liquid crystal panel of 3-D view and for showing that the stacked of optical filter of 3-D view makes at layered product UR region and FR region overlapping, and in layered product UL region and FL region overlapping.

In one embodiment, the described method for the preparation of layered product can further be used many vision systems, and it can identify the position of described the first and second parts under the state of described first component and second component formation tight structure.

As mentioned above, for example, described many vision systems can comprise First look camera, the second vision camera and total reflection lens.In other words, described total reflection lens can be set and make the light signal sending from described First look camera or the light signal sending from described the second vision camera through described total reflection lens, then arrive first component or second component.The operation of described many vision systems can be with described identical before.

In one embodiment, the method for described prepared layer laminate may further include: by adhesive roll, to the layered product of described the first and second parts, exert pressure.In addition, as implied above, in the layered product of described the first and second parts, conventional bonding agent or contact adhesive can be arranged between described the first and second parts.Therefore the layered product that, is provided with described first and second parts of bonding agent or contact adhesive therebetween can adhere to by adhesive roll applied pressure.

In one embodiment, the method for the described layered product of described preparation can be for preparing the method for described 3 d image display or preparing the part of the method for described three dimensional display.

Beneficial effect

Exemplary adhering apparatus of the present invention can highly precisely adhere to various parts.For example, described adhering apparatus can highly precisely adhere to for showing that liquid crystal panel and the optical filter of 3-D view wherein produces the minimum 3-D view of crosstalking to provide.

Accompanying drawing explanation

Fig. 1 is for schematically illustrating wherein by adhering to for showing the liquid crystal panel of 3-D view and the view of the state that optical filter is prepared 3 d image display, (a) be the side view of prepared 3 d image display, and (b) be the front elevation of described 3 d image display;

Fig. 2 is for the edge of support member and the figure at center as an example is shown;

Fig. 3 is for schematically to show according to the figure of the side of the adhering apparatus of an embodiment;

Fig. 4 is the schematic vertical view that is shown in the adhering apparatus in Fig. 3;

Fig. 5 is the schematic upward view that is shown in the adhering apparatus in Fig. 3;

Fig. 6 is schematically illustrated in the figure that places the state of first component on the support portion of Fig. 3;

Fig. 7 forms the figure of the state of the first component of tight structure and the same position of second component for schematically showing wherein many vision systems observations of Fig. 3; And

Fig. 8 is for schematically to show according to the figure of the method for the preparation of layered product of an embodiment.

[Reference numeral]

11: the first support portions

111: support member 112: stationary installation 113: hole

1111: the edge 1112 of support member: the center of support member

12: the second support portions

13: many vision systems

131: 132: the second vision camera of First look camera

133: total reflection lens 134: optical element

14: adhesive roll

100: first component

1001: first area 1002: second area

200: second component

2002: the four regions, 2001: the three regions

300: layered product

Embodiment

Hereinafter, with reference to Fig. 3 to 5, illustrate preferred embodiment of the present invention.Yet scope of the present invention is not limited to embodiment below.

Fig. 3 is for schematically to show according to the figure of the side of the adhering apparatus of an embodiment, and Fig. 4 is the vertical view that is shown in the adhering apparatus in Fig. 3, and Fig. 5 is the upward view that is shown in the adhering apparatus in Fig. 3.When observing described adhering apparatus from above, first component 100 is covered by the first support portion 11, and therefore, described first component 100 indicates with dotted line in Fig. 4.In addition, when observing described adhering apparatus from below, can not observe second component 200, therefore, described second component 200 marks with dotted line in Fig. 5.In Fig. 3 to 5, identical Reference numeral represents identical element.

In one embodiment, as shown in FIG. 3, described adhering apparatus can comprise the first support portion 11, the second 12He transport part, support portion (not shown).Fig. 3 shows the state of the described adhering apparatus of locating on one point, and shows described the first support portion 11 and the second support portion 12 ground homeotropic alignment that faces with each other.Yet the configuration mode of described the first support portion 11 and the second support portion 12 can freely be changed by transport part.As shown in FIG. 3, described adhering apparatus can be for having the device that is arranged on many vision systems 13 wherein and is provided with adhesive roll 14.As illustrate as shown in Fig. 3 of an embodiment, described many vision systems 13 and adhesive roll 14 can be installed in described the second support portion 12.Especially, described many vision systems 13 can be arranged in described the first support portion or the second support portion to be identified in first component in tight structure and the position of second component.In this case, after the adhesion locations of the described first component of identification and second component, can carry out immediately adhering step and adhere to precision to improve.Yet Fig. 3 has only described an embodiment, and the position of many vision systems of described adhering apparatus is set, and the position of installation adhesive roll can easily be changed by those skilled in the art.

With reference to the Fig. 6 that shows an embodiment, show the first support portion of described adhering apparatus.Support portion 11 can comprise support member 111, can keep described first component 100 thereon.For example, described support member can have at least one hole 113 forming thereon.In the accompanying drawings, the hole 113 of support member 111 is illustrated large, and actual hole 113 can be for especially little.For example, the plate of mesh can be used as support member.

In addition, the first support portion 11 can comprise stationary installation 112, and it can be by utilizing the aspiration procedure in described hole to fix first component 100.In Fig. 6, it is shown by arrow that the hole 113 by support member 111 is pumped to the flow direction of gas of stationary installation 112.The first support portion 11 being shown in Fig. 6 comprises support member 111 and stationary installation 112.Optical element 134 is arranged on the region of support member 111, does not form hole to build first support portion with the structure identical with being shown in the first support portion 11 structures in Fig. 3 on this region.

Described second component can be fixed by the whole bag of tricks in described the second support portion.For example, the same with described the first support portion, described the second support portion comprises support member and stationary installation, thereby makes described second component can be fixed to described the second support portion.

Although transport part is not shown in Fig. 3 to 5, it is for the relative position of the first support portion and the second support portion can be changed that transport part is set, and can use the structure of the transport part of using in field under the present invention and not restriction.

Described many vision systems make described adhering apparatus can adhere to accurately described the first and second parts.

In one embodiment, described first and second parts that adhere to accurately can refer to: on making it, be formed with and comprise having and on the first component 100 of the first area of different qualities and the figure of second area and its, be formed with while comprising that having the 3rd region of different qualities and the second component 200 of four-range figure adheres to form layered product 300, in the layered product of described first component and second component, overlapping between the overlapping and second area between first area and the 3rd region and the 4th region almost do not have error.Above-mentioned error comprises the foozle that can produce in practice, for example, can comprise that 100 μ m are following, 50 μ m are following, 30 μ m are following or the tolerance below 10 μ m.

As shown, as shown in Fig. 7 of an embodiment, described many vision systems can be configured to be placed on below first component 100 and second component 200.As mentioned above, many vision systems 13 can comprise First look camera 131, the second vision camera 132 and total reflection lens 133.For example, as mentioned above, according to the incident angle that enters into the light of total reflection lens, described total reflection lens can see through light and not refraction, or can reflect, and then sees through light, or can total reflection light.

As show as shown in Fig. 7 of an embodiment, total reflection lens 133 can be configured such that the light signal of First look camera 131 can be totally reflected lens 133 refraction and of arriving in described the first and second parts is upper, and the light signal of the second vision camera 132 can see through described total reflection lens and arrive on another of described the first and second parts.In addition, as shown in Figure 7, described total reflection lens can be configured to make light signal in the identical portions office of total reflection lens, to be refracted and to transmit and advance along equidirectional, thereby can observe the same position of the first and second parts.Above-mentioned " same position " can be understood as implication as above.

If the configuration mode of wherein said the first and second parts can be similar to the structure of the layered product of described the first and second parts by the structure of described many vision system identifications, can highly precisely adhere to described first component and second component.Why under the state that the described structure that the configuration mode of wherein said the first and second parts can be identified if Here it is is closely placed in described the first and second parts, can be with the minimum mobile reason that adheres to described the first and second parts under the state of configuration mode that keeps described the first and second parts.If the structure that the configuration mode of wherein said the first and second parts can be identified be wherein said first component at a certain distance with the separated structure of described second component, although the configuration mode of described the first and second parts can accurately be adjusted, but when the relative position that changes described the first and second parts is when adhering to described the first and second parts, described first component or second component may depart from the configuration mode of initial setting.Therefore, the adhesion degree of accuracy of described the first and second parts may decline.

As shown that the many vision systems 13 that configure as shown in Fig. 7 of an embodiment can be identified in wherein first component 100 and second component 200 and are placed on the position under the state on operating adhering apparatus just with structure quite closely.For example, now, the described first component and the distance between second component that form described tight structure can be for below 10mm, below 9mm, below 8mm, below 7mm, below 6mm, below 5mm, below 4mm, below 3mm, below 2mm or below 1mm.Therefore,, by using described many vision systems, can improve the adhesion degree of accuracy of described the first and second parts.

In one embodiment, described many vision systems may further include optical element.For example, optical element 134 can used described vision camera to play a role in identifying the step of position of described parts.In addition, for example, as shown in FIG. 3, optical element 134 can be configured to towards described the first and second vision camera.

In one embodiment, adhesive roll 14 can be arranged for to the layered product of first component 100 and second component 200 and exert pressure.Now, the state of relative position that described first component and second component can be in changing described first component and second component with transport part is to allow described first component and second component to be laminated to each other.

For example, as shown in Fig. 3 and 5, adhesive roll 14 can be arranged in the second support portion 12.In one embodiment, when described adhering apparatus does not move, the distance that adhesive roll 14 can be certain with described support member interval.In addition, although described adhering apparatus in operation, except when outside the time while adhering to described first component and second component, the distance that adhesive roll 14 can be certain with described support member interval.Yet, when exerting pressure to described the first and second parts, mobile adhesive roll 14 and it is contacted with described support member so that the state downforce contacting with described support member at described adhesive roll can be applied on described the first and second parts.

Described adhering apparatus is for making described first component and second component device adhering to each other, and for example, the first component that need to be adhered to and second component can be the accurately parts of the optical devices of adhesion of needs.In one embodiment, one in described first component and second component can be liquid crystal panel, and another can be blooming.In addition, described blooming can be for Polarizer, phase shift films, diaphragm or for showing the optical filter of 3-D view.

In one embodiment, described adhering apparatus can be for the device for the preparation of described 3 d image display or for the preparation of the part of the device of described three dimensional display.

With reference to Fig. 8, it shows the method for using above-mentioned adhering apparatus to prepare the layered product of described the first and second parts.

With reference to the Fig. 8 that shows an embodiment, first component 100 can be placed thereon in the support member (not shown) that is formed with at least one hole.First component 100 can be by utilizing the aspiration procedure in described hole to be fixed to the support member of the first support portion 11.In addition, second component 200 can be fixed to the second support portion 12.Can be with identical for first component being fixed to the method for the first support portion for second component 200 being fixed to the method for the second support portion 12.Thereby by transport part (not shown), moving the relative position that is fixed to the first component 100 of the first support portion 11 and is fixed to the second component 200 of the second support portion 12 makes described first component and described second component can be laminated to each other to provide layered product.

Now, for described layered product can highly precisely be adhered to, by many vision systems, can adjust the configuration mode of described the first and second parts.In addition, for described the first and second parts can be adhered to well, by adhesive roll, can on the layered product of described the first and second parts, exert pressure.

In one embodiment, described first component can be for being formed with the parts of figure on it, described figure comprises first area and the second area with different qualities, and described second component can be for being formed with the parts of figure on it, described figure comprises the 3rd region and the 4th region with different qualities.As implied above, for example, described first component can be for having the figure forming thereon and comprising UR region and the liquid crystal panel in UL region, and described second component can be for for showing the optical filter of 3-D view, described optical filter has the figure forming thereon and comprises FR region and FL region.In other words, the first area of described liquid crystal panel and second area can be respectively UR region and UL region, and for showing that the 3rd region and the 4th region of the optical filter of 3-D view can be respectively FR region and FL region.Therefore, therein for showing the liquid crystal panel of 3-D view and the state that optical filter is laminated to each other, described many vision systems can identify described UR region whether with FR Region Matching, and described UL region whether with FL Region Matching.Above-mentioned coupling represents that described UR does not have and FL region overlapping, but accurately overlapping with FR region.Yet above-mentioned coupling can comprise in fact issuable foozle.Foozle can the scope below 100 μ m as above, below 50 μ m, below 30 μ m or below 10 μ m in.

If above-mentioned coupling is incorrect, can adjust the relative position of described the first and second parts to be mated accurately.By above-mentioned steps, described the first and second parts can highly precisely be adhered to.As an example, in the situation that described layered product is 3 d image display therein, the UR region of described liquid crystal panel and described for showing that the FR region of the optical filter of 3-D view can mate each other exactly, and described UL region and FL region can be mated each other exactly.Therefore, in the 3 d image display of preparing by above-mentioned preparation method, produce the probability of crosstalking extremely low, thereby produce, there is high-quality 3-D view.

In one embodiment, can in tight structure as above, carry out the identification of the phase place of described the first and second parts of being obtained by described many vision systems.At described the first and second parts, be configured to provide under the state of coupling of two parts, correspondingly, only with minimum movement, just can make described the first and second stacking parts.

Described the first and second parts by described many vision system configurations can be wherein to keep the state of the configuration mode of two parts to be laminated to each other.If the tight structure of described many vision systems is the state operations that contact with each other at described the first and second parts, can omit the operation for the relative position of described the first and second parts of the needed adjustment of stacked described the first and second parts.

By being set between described first component and second component, conventional bonding agent or contact adhesive can form the layered product of described the first and second parts.Now, by exerting pressure described first component and second component adhered to the layered product of described the first and second parts via described adhesive roll.

The layered product of described the first and second parts of preparing by above-mentioned steps is removed and transports as product, or can be sent in follow-up technique.

Claims (19)

1. an adhering apparatus, it comprises:

The first support portion, described the first support portion comprises: support member, described support member is configured to make first component can be held and have at least one hole forming thereon, and stationary installation, described stationary installation is arranged for when described first component is remained on described support member, by utilizing the aspiration procedure in described hole that described first component is fixed to described support member;

The second support portion, described the second support portion is arranged for second component is fixed thereon; With

Transport part, the relative position that described transport part is arranged for described the first support portion of control and the second support portion is laminated to each other with the first and second parts that allow to be fixed.

2. adhering apparatus according to claim 1, wherein, described the second support portion is configured to make described second component can be fixed to the second support portion by suction.

3. adhering apparatus according to claim 1, it further comprises: First look camera, described First look camera is arranged for the state of observing described first component by light signal; The second vision camera, described the second vision camera is arranged for the state of observing described second component by light signal; And total reflection lens, described total reflection lens is arranged for and allows the light signal sending from described First look camera or the light signal sending from described the second vision camera through described total reflection lens, then arrives described first component or second component.

4. adhering apparatus according to claim 3, wherein, described total reflection lens is provided so that a kind of in the light signal of described First look camera and the light signal of described the second vision camera sees through described total reflection lens and arrive in described the first and second parts, and another kind of signal is totally reflected lens total reflection or refraction and arrive another in described the first and second parts.

5. adhering apparatus according to claim 4, wherein, the position that described total reflection lens is configured to allow light signal to be refracted or the position that is totally reflected sees through with light signal is identical.

6. adhering apparatus according to claim 5, wherein, described total reflection lens is configured to allow to see through the light signal of total reflection lens and the light signal that is refracted on total reflection lens or is totally reflected advances with equidirectional.

7. adhering apparatus according to claim 3, wherein, described First look camera, described the second vision camera and described total reflection lens are assembled in described the first support portion or the second support portion.

8. adhering apparatus according to claim 1, it further comprises adhesive roll, described adhesive roll is arranged for to the layered product of the first and second parts that are laminated to each other by transport part and exerts pressure.

9. adhering apparatus according to claim 1, wherein, described support member is the plate of mesh.

10. adhering apparatus according to claim 1, wherein, described support member comprises a plurality of holes that form thereon, the density in the hole forming on the edge of described support member is greater than the density in the hole forming in the heart in described support member.

11. adhering apparatus according to claim 1, wherein, described first component is liquid crystal panel, and described second component is blooming.

12. adhering apparatus according to claim 11, wherein, described blooming is Polarizer, phase shift films or for showing the optical filter of 3-D view.

13. 1 kinds of methods for the preparation of the layered product of first component and second component, it comprises the steps:

Described first component is placed on it and is formed with on the support member at least one hole;

By utilizing the suction in described hole that described first component is fixed to described support member; With

The relative position of mobile described first component and second component is laminated to each other with the first component that allows to be fixed and the second component that is fixed to the second support portion.

14. preparation methods according to claim 13, wherein, are fixed to described the second support portion via the absorption of aspirating by described second component.

15. preparation methods according to claim 13, wherein, described first component is fixed to described support member and further comprises that the suction that the suction in the hole at the edge by via at described support member is produced is adjusted to the suction being greater than at the center of described support member.

16. preparation methods according to claim 13, wherein, described first component has figure, described figure comprises first area and the second area that has different qualities and form thereon, and described second component has figure, described figure comprises the 3rd region and the 4th region that has different qualities and form thereon, the movement of carrying out the relative position of described first component and second component makes at first area described in layered product and described the 3rd region overlapping, and at second area described in layered product and described the 4th region overlapping.

17. preparation methods according to claim 16, wherein, described first component is for for showing the liquid crystal panel of 3-D view, and described liquid crystal panel comprises: as the eye image signal formation region of first area, and as the left-eye image signal formation region of second area; And described second component is for showing the optical filter of 3-D view, described optical filter comprises: as the 3rd region for regulating the region of the polarization of described eye image signal, and as four-range for regulating the region of polarization of described left-eye image signal.

18. preparation methods according to claim 13, wherein, it further comprises: at described first component and second component, form under the state of tight structure, the position that comprises the first and second parts described in the system identification of First look camera, the second vision camera and total reflection lens by use, to allow the light signal sending from described First look camera or the light signal sending from described the second vision camera through described total reflection lens, then arrive described first component or second component.

19. preparation methods according to claim 13, it further comprises by adhesive roll exerts pressure to the layered product of described the first and second parts.

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