CN204462493U - Aligning structure, light-splitting device, display panel, 3 d display device and touch liquid crystal lens - Google Patents

Abstract

The utility model is applicable to technique of counterpoint field, provide a kind of aligning structure, the first device of being oppositely arranged and the second device contraposition can be made to fit, described aligning structure comprises the solid state optics glue-line and liquid optical cement layer that are oppositely arranged, described liquid optical cement layer is covered in the surface of described solid state optics glue-line, described liquid optical cement layer for adjusting the relative position of described first device and described second device, to realize the contraposition of described first device and described second device.Because liquid optical cement layer is before uncured, the adjustment of the relative position of the first device and the second device can be carried out, thus, the accurate contraposition of the first device and the second device can be realized, again liquid optical cement layer is cured process, to realize the laminating of the first device and the second device, easy to operate, guarantee the first device and the second device accurate contraposition in laminating process.

Description

Aligning structure, light-splitting device, display panel, 3 d display device and touch liquid crystal lens

Technical field

The utility model belongs to technique of counterpoint field, particularly relate to aligning structure and comprise this aligning structure light-splitting device, comprise this aligning structure display panel, comprise the 3 d display device of this aligning structure and comprise the touch liquid crystal lens of this aligning structure.

Background technology

Optical cement, has colourless, and light transmission rate is more than 90%, and consolidation strength is good, and can be cured under room temperature or middle temperature, optical cement has the features such as cure shrinkage is little.Optical cement is mainly used in cementing transparent optical element, and is applicable to laminating polycarbonate etc. plastic material and glass material due to the superperformance of optical cement, and therefore, optical cement is widely used in baseplate-laminating technical field.

Usual employing optical cement, the first device be oppositely arranged and the second device are fitted, as in 3 d display device, first device can be spectrophotometric unit, second device can be display unit, in laminating process, ensure spectrophotometric unit and display unit accurate contraposition, so just avoiding the 3 d display device formed of fitting, occurring the problems such as crosstalk when showing.

But prior art, when fitting, adopts solid state optics glue usually, first device and the second device are fitted, due to solid state optics glue by the first device and the second device glued together, cannot relative position be adjusted, cause the first device and the second device not to realize accurate contraposition.

Utility model content

The object of the utility model embodiment is to provide a kind of aligning structure, be intended to solve prior art adopt solid state optics glue by the first device and the second device glued together, cause the first device and the second device can not accurate contraposition problem.

The utility model embodiment provides aligning structure, the first device of being oppositely arranged and the second device contraposition can be made to fit, described aligning structure comprises solid state optics glue-line and the liquid optical cement layer of stacked setting, described liquid optical cement layer is covered in the surface of described solid state optics glue-line, described liquid optical cement layer for adjusting the relative position of described first device and described second device, to realize the contraposition of described first device and described second device.

Particularly, described liquid optical cement layer is arranged between described first device and described solid state optics glue-line, and/or described liquid optical cement layer is arranged between described second device and described solid state optics glue-line.

Preferably, the thickness of described liquid optical cement layer is less than 1mm.

Further, described solid state optics glue-line is provided with filling part, and described liquid optical cement layer is filled in described filling part, and extends to the outside of described filling part.

Preferably, described filling part is arranged at the center of described solid state optics glue-line, and the cross sectional shape of described solid state optics glue-line is concave shape.

Preferably, described filling part is provided with multiple, and is arranged in array, and the cross sectional shape of described solid state optics glue-line is comb teeth shape or serrate.

Preferably, the height of described filling part is h ₁, the height of described solid state optics glue-line is h ₂, and $h_1\≤\frac{2}{3}{h}_2.$

The aligning structure that the utility model embodiment provides, comprise solid state optics glue-line and liquid optical cement layer, because liquid optical cement layer is before uncured, the adjustment of the relative position of the first device and the second device can be carried out, thus, the accurate contraposition of the first device and the second device can be realized, again liquid optical cement layer is cured process, to realize the laminating of the first device and the second device, easy to operate, guarantee the first device and the second device accurate contraposition in laminating process.

The utility model embodiment also provides light-splitting device, comprise the first device and the second device that are oppositely arranged, also comprise above-mentioned aligning structure, described aligning structure is arranged between described first device and described second device, described first device is the first substrate of described light-splitting device, and described second device is the second substrate of described light-splitting device

The light-splitting device that the utility model embodiment provides, because liquid optical cement layer is before uncured, the adjustment of the relative position of first substrate and second substrate can be carried out, thus, the accurate contraposition of first substrate and second substrate can be realized, then liquid optical cement layer is cured process, to realize the laminating of first substrate and second substrate, easy to operate, first substrate and second substrate accurate contraposition in laminating process, guarantees that the light-splitting device of having fitted normally uses.

The utility model embodiment also provides display panel, comprise the first device and the second device that are oppositely arranged, also comprise above-mentioned aligning structure, described aligning structure is arranged between described first device and described second device, described first device is the first panel of described display panel, and described second device is the second panel of described display panel.

The display panel that the utility model embodiment provides, because liquid optical cement layer is before uncured, the adjustment of the relative position of the first panel and the second panel can be carried out, thus, the accurate contraposition of the first panel and the second panel can be realized, then liquid optical cement layer is cured process, to realize the laminating of the first panel and the second panel, easy to operate, the first panel and the second panel accurate contraposition in laminating process, guarantees that the display panel that laminating is formed normally uses.

The utility model embodiment also provides 3 d display device, comprise the first device and the second device that are oppositely arranged, also comprise above-mentioned aligning structure, described aligning structure is arranged between described first device and described second device, described first device is the beam splitter of described 3 d display device, and described second device is the display element of described 3 d display device.

Further, described beam splitter comprises the 3rd substrate and the tetrabasal be oppositely arranged, and the second aligning structure be arranged between described 3rd substrate and described tetrabasal, described second aligning structure can make described 3rd substrate that is oppositely arranged and described tetrabasal contraposition fit.

Particularly, described second aligning structure comprises the second solid state optics glue-line and the second liquid optical cement layer that are oppositely arranged, described second liquid optical cement layer is arranged between described 3rd substrate and described second solid state optics glue-line, and/or described second liquid optical cement layer is arranged between described tetrabasal and described second solid state optics glue-line.

Further, described display element comprises the 3rd panel and fourth face plate that are oppositely arranged, and the 3rd aligning structure be arranged between described 3rd panel and described fourth face plate, described 3rd aligning structure can make described 3rd panel that is oppositely arranged and the contraposition of described fourth face plate fit.

Particularly, described 3rd aligning structure comprises the 3rd solid state optics glue-line and the 3rd liquid optical cement layer that are oppositely arranged, described 3rd liquid optical cement layer is arranged between described 3rd panel and described 3rd solid state optics glue-line, and/or described 3rd liquid optical cement layer is arranged between described fourth face plate and described 3rd solid state optics glue-line

The 3 d display device that the utility model embodiment provides, by aligning structure, beam splitter and display element contraposition are fitted, in laminating process, the relative position of adjustable beam splitter and display element, guarantee the accurate contraposition realizing beam splitter and display element, avoid occurring the bad displays such as crosstalk, liquid optical cement layer is applied at solid state optics glue-line, use existing gluing technology, easy to operate, alleviate the work load of operating personnel, after contraposition has adjusted, again liquid optical cement layer is solidified, guarantee that beam splitter and display element glue together firmly.

The present embodiment provides touch liquid crystal lens, comprise the first device and the second device that are oppositely arranged, comprise above-mentioned aligning structure, described aligning structure is arranged between described first device and described second device, described first device is the upper substrate of described touch liquid crystal lens, and described second device is the infrabasal plate of described touch liquid crystal lens.

The touch liquid crystal lens that the present embodiment provides, because liquid optical cement layer is before uncured, the adjustment of the relative position of upper substrate and infrabasal plate can be carried out, thus, the accurate contraposition of upper substrate and infrabasal plate can be realized, then liquid optical cement layer is cured process, to realize the laminating of upper substrate and infrabasal plate, easy to operate, upper substrate and infrabasal plate accurate contraposition in laminating process, guarantees that the touch liquid crystal lens that laminating is formed normally use.

Accompanying drawing explanation

Fig. 1 is the use schematic diagram of the aligning structure that the utility model embodiment one provides;

Fig. 2 is the another use schematic diagram of the aligning structure that the utility model embodiment one provides;

Fig. 3 is another use schematic diagram of the aligning structure that the utility model embodiment one provides;

Fig. 4 is the structural representation of the solid state optics glue-line that the utility model embodiment one provides;

Fig. 5 is the structural representation of filling part in Fig. 4;

Fig. 6 is another structural representation of filling part in Fig. 4;

Fig. 7 is the light-splitting device structural representation that the utility model embodiment two provides;

Fig. 8 is the structural representation of the display panel that the utility model embodiment three provides;

Fig. 9 is the structural representation of the 3 d display device that the utility model embodiment four provides;

Figure 10 is the structural representation of the touch liquid crystal lens that the utility model embodiment five provides.

Embodiment

In order to make the technical problems to be solved in the utility model, technical scheme and beneficial effect clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Embodiment one

As shown in Figure 1, the aligning structure 13 that the present embodiment provides, the first device 11 of being oppositely arranged and the second device 12 contraposition can be made to fit, aligning structure 13 comprises the liquid optical cement layer 131 and solid state optics glue-line 132 that are oppositely arranged, liquid optical cement layer 131 is covered in the surface of solid state optics glue-line 132, because liquid optical cement layer 131 is before uncured, there is mobility, first device 11 and/or the second device 12 contact with liquid optical cement layer 131, therefore, under certain External Force Acting, by adjusting the relative position of the first device 11 and the second device 12, realize the first device 11 and the second device 12 accurate contraposition.Solving prior art only adopts solid state optics glue-line 131 to fit the first device 11 and the second device 12, the relative position of the first device 11 and the second device 12 cannot be regulated, cause the first device 11 and the second device 12 can not accurate contraposition, affect the Anawgy accuracy of the first device 11 and the second device 12.

The liquid optical cement layer 131 that the present embodiment provides is less than 0.2 with the refractive index difference of solid state optics glue-line 132, and transmittance is all more than 99%, and like this, aligning structure 13 can not affect the normal use of the first device 11, second device 12.

The liquid optical cement layer 131 that the present embodiment provides can be acrylic resin systems, epoxy-resin systems or silicone grease resinoid system.

The solidification process that the present embodiment provides adopts ultraviolet light or adopts thermal treatment, easy to operate, easy to implement.

As shown in Figure 1, in the present embodiment, the set-up mode of liquid optical cement layer 131 has multiple, and liquid optical cement layer 131 can be arranged between solid state optics glue-line 132 and the first device 11, and the first device 11 contacts with liquid optical cement layer 131.Adjusted the bonding position of the first device 11 by external force, guarantee the accurate contraposition of the first device 11 and display panel 12.Again liquid optical cement layer 131 is solidified process, realize the laminating of the first device 11 and the second device 12, not only can realize the accurate contraposition of the first device 11 and the second device 12, and solidification process is simply easy to operation, alleviates the work load of operating personnel.

As shown in Figure 2, liquid optical cement layer 131 can be arranged between solid state optics glue-line 132 and the second device 12, liquid optical cement layer 131 is near the side of the second device 12, second device 12 contacts with liquid optical cement layer 131, by adjusting the bonding position of the second device 12, guarantee the second device 12 and the first device 11 accurate contraposition, ensure the Anawgy accuracy of the first device 11 and the second device 12, again liquid optical cement layer 131 is solidified process, the solidification realizing the first device 11 and the second device 12 is fitted, simple to operate.

As shown in Figure 3, liquid optical cement layer 131 can also be provided with in the both sides of solid state optics glue-line 132, adjusted the bonding position of the first device 11 and the second device 12 by external force simultaneously, realize the accurate contraposition of the first device 11 and the second device 12, guarantee the Anawgy accuracy of the first device 11 and the second device 12.

In the present embodiment, the thickness of liquid optical cement layer 131 is less than 1mm.There is liquid optical cement layer 131 between first device 11 and solid state optics glue-line 132, because liquid optical cement layer 131 has mobility, therefore, the bonding position of adjustable first device 11, realizes the relative position of adjustment first device 11 and the second device 12 then.

As shown in Figure 1, the thickness of liquid optical cement layer 131 is 0.1mm.The Main Function of liquid optical cement layer 131 is, the first device 11 and/or the second device 12 is avoided directly to contact with solid state optics glue-line 132, and cause the first device 11 and/or the second device 12 cannot adjust bonding position, then the accurate contraposition of the first device 11 and the second device 12 cannot be ensured, the liquid optical cement layer 131 be coated with is before uncured, there is mobility, thus, before liquid optical cement layer 131 solidifies, adjust the bonding position of the first device 11 and/or the second device 12, thus realize the accurate contraposition of the first device 11 and the second device 12.

As shown in Figure 4, the solid state optics glue-line 132 that the present embodiment provides is provided with filling part 133, because liquid optical cement layer 131 has mobility, liquid optical cement layer 131 is filled in filling part 133, and extend to the outside of filling part 133, both ensured that the first device 11 and/or the second device 12 contacted with liquid optical cement layer 131, by adjusting the bonding position of the first device 11 and/or the second device 12, realize the accurate contraposition of light-splitting device 11 and display panel 12, simultaneously owing to arranging filling part 133 on the surface of solid state optics glue-line 132, namely rough surface process is carried out to solid state optics glue-line 132, to strengthen the cohesive force of liquid optical cement layer 131 and solid state optics glue-line 132, guarantee that the liquid optical cement layer 131 after solidifying bonds firmly with solid state optics glue-line 132, in use, disengaging is there will not be between first device 11 and the second device 12.

Be understandable that, the solid state optics glue-line 132 that the present embodiment provides arranges filling part 133, also can arrange other coarse structures on the surface of solid state optics glue-line 132, to increase the cohesive force of liquid optical cement layer 131 and solid state optics glue-line 132.

As shown in Figure 4, the filling part 133 that the present embodiment provides is arranged at the center of solid state optics glue-line 132, and the cross sectional shape of solid state optics glue-line 132 is concave shape.In the present embodiment, filling part 133 is opening, point gum machine can be adopted to inject in filling part 133 by liquid optical cement layer 131, and make liquid optical cement extend to the outside of filling part 133, contact with the first device 11 and/or the second device 12 to make liquid optical cement, be convenient to the bonding position of adjustment first device 11 and/or the second device 12, guarantee the accurate contraposition of the first device 11 and the second device 12.Operating personnel directly can arrange filling part 133 on solid state optics glue-line 132, easy to operate, and the profile rule of filling part 133, easy to implement.

As shown in Figure 4, the height of filling part 133 is h ₁, the height of solid state optics glue-line 132 is h ₂, and at solid state optics glue-line 132, filling part 133 is set, the surface exhibits of solid state optics glue-line 132 is uneven, like this, the cohesive force between liquid optical cement layer 131 and solid state optics glue-line 132 can be increased, in the present embodiment, the degree of depth of setting filling part 133, can guarantee that the liquid optical cement layer 131 after solidifying bonds firmly with solid state optics glue-line 132.

As shown in Figure 5, the cross sectional shape of the filling part 133 that the present embodiment provides is square, filling part 133 is provided with multiple, and be arranged in array, the cross sectional shape of solid state optics glue-line 132 is comb teeth shape, increase the surfaceness of solid state optics glue-line 132, then strengthen the cohesive force of liquid optical cement layer 131 and solid state optics glue-line 132.Because liquid optical cement layer 131 has mobility, liquid optical cement layer 131 can fill up filling part 133 completely, and extend to the outside of filling part 133, both ensured that the first device 11 and/or the second device 12 contacted with liquid optical cement layer 131, the bonding position of the first device 11 and/or the second device 12 can be adjusted, realize the accurate contraposition of the first device 11 and the second device 12, simultaneously owing to arranging filling part on the surface of solid state optics glue-line 132, namely rough surface process is carried out to solid state optics glue-line 132, to strengthen the cohesive force of liquid optical cement layer 131 and solid state optics glue-line 132, guarantee that the liquid optical cement layer 131 after solidifying bonds firmly with solid state optics glue-line 132, in use, disengaging is there will not be between first device 11 and the second device 12.

As shown in Figure 6, be understandable that, the filling part 133 that the present embodiment provides is not limited to said structure, the cross sectional shape of filling part 133 can also be triangle, filling part 133 is provided with multiple and is arranged in array, the cross sectional shape of solid state optics glue-line 132 is serrate, increases the surfaceness of solid state optics glue-line 132, then strengthens the cohesive force of liquid optical cement layer 131 and solid state optics glue-line 132.Because liquid optical cement layer 131 has mobility, liquid optical cement layer 131 can fill up filling part 133 completely, and extend to the outside of filling part 133, both ensured that light-splitting device 11 contacted with liquid optical cement layer 131 with/display panel 12, the bonding position of light-splitting device 11 and/or display panel 12 can be adjusted, realize the accurate contraposition of light-splitting device 11 and display panel 12, simultaneously owing to arranging filling part 133 on the surface of solid state optics glue-line 132, namely rough surface process is carried out to solid state optics glue-line 132, to strengthen the cohesive force of liquid optical cement layer 131 and solid state optics glue-line 132, guarantee that the liquid optical cement layer 131 after solidifying bonds firmly with solid state optics glue-line 132, in use, disengaging is there will not be between discrete device 11 and display panel 12.

Embodiment two

As shown in Figure 7, the first device that the present embodiment provides light-splitting device 20 to comprise to be oppositely arranged and the second device, also comprise aligning structure 20, aligning structure 20 is arranged between the first device and the second device.In the present embodiment, the second substrate 220 of the first device to be first substrate 210, second device of light-splitting device 20 be light-splitting device 20.Aligning structure 230 comprises liquid optical cement layer 231 and the solid state optics glue-line 232 of stacked setting, in the present embodiment, liquid optical cement layer 231 is arranged between first substrate 210 and solid state optics glue-line 232, first substrate 210 contacts with liquid optical cement layer 231, because liquid optical cement layer 231 is before uncured, there is flow characteristics, under the effect of external force, the bonding position of first substrate 210 and liquid optical cement layer 231 can be regulated, thus realize the relative position regulating first substrate 210 and second substrate 220, guarantee the Anawgy accuracy of first substrate 210 and second substrate 220, the aligning structure 230 that the present embodiment provides adopts liquid optical cement layer 231 and the solid state optics glue-line 232 of stacked setting, the first substrate 210 that laminating is oppositely arranged and second substrate 220, not only improve the Anawgy accuracy of first substrate 210 and second substrate 220, and laminating is convenient.

Be understandable that, liquid optical cement layer 231 is arranged between second substrate 220 and solid state optics glue-line 232, liquid optical cement layer 231 contacts with second substrate 220, under the effect of external force, the bonding position of second substrate 220 and liquid optical cement layer 231 can be regulated, thus realize regulating first substrate 210 and the relative position of second substrate 220, guarantee the Anawgy accuracy of first substrate 210 and second substrate 220.

Be understandable that, liquid optical cement layer 231 can also be provided with in the both sides of solid state optics glue-line 232, under the effect of external force, regulate the bonding position of second substrate 220 and liquid optical cement layer 231 simultaneously, thus realize regulating first substrate 210 and the relative position of second substrate 220, guarantee the Anawgy accuracy of first substrate 210 and second substrate 220.

Light-splitting device 21 can be the optical device that liquid crystal grating, liquid crystal lens, Lenticular screen, electrochromic device etc. have spectrophotometric result.

Embodiment three

As shown in Figure 8, the display panel 30 that the present embodiment provides comprises and is oppositely arranged the first device and the second device, and also comprise aligning structure 30, aligning structure 30 is arranged between the first device and the second device.In the present embodiment, the second panel 320 of the first device to be the first panel 310, second device of display panel 30 be display panel 30.Aligning structure 330 comprises liquid optical cement layer 331 and the solid state optics glue-line 332 of stacked setting, in the present embodiment, liquid optical cement layer 331 is arranged between the first panel 310 and solid state optics glue-line 332, first panel 310 contacts with liquid optical cement layer 331, because liquid optical cement layer 331 is before uncured, there is flow characteristics, under the effect of external force, the bonding position of the first panel 310 and liquid optical cement layer 331 can be regulated, thus realize the relative position of adjustment first panel 310 and the second panel 320, guarantee the Anawgy accuracy of the first panel 310 and the second panel 320.The aligning structure 330 that the present embodiment provides adopts liquid optical cement layer 331 and the solid state optics glue-line 332 of stacked setting, the first panel 310 and the second panel 320 that laminating is oppositely arranged, not only improve the Anawgy accuracy of the first panel 310 and the second panel 320, and laminating is convenient.

Be understandable that, liquid optical cement layer 331 is arranged between the second panel 320 and solid state optics glue-line 232, liquid optical cement layer 331 contacts with the second base plane 320, under the effect of external force, the bonding position of the second panel 320 and liquid optical cement layer 331 can be regulated, thus realize the relative position of adjustment first panel 310 and the second panel 320, guarantee the Anawgy accuracy of the first panel 310 and the second panel 320.

Be understandable that, liquid optical cement layer 331 can also be provided with in the both sides of solid state optics glue-line 332, under the effect of external force, regulate the bonding position of the second panel 320 and liquid optical cement layer 331 simultaneously, thus realize the relative position of adjustment first panel 310 and the second panel 320, guarantee the Anawgy accuracy of the first panel 310 and the second panel 320.

Display panel 32 can be display panels, touch-control display panel etc.

Embodiment four

As shown in Figure 9, the 3 d display device 40 that the present embodiment provides comprises the first device and the second device that are oppositely arranged, and also comprise aligning structure 430, aligning structure 430 is arranged between the first device and the second device.In the present embodiment, the display element 420 of the first device to be beam splitter 410, second device of 3 d display device 40 be 3 d display device 40.Aligning structure 430 comprises liquid optical cement layer 431 and the solid state optics glue-line 432 of stacked setting.In the present embodiment, liquid optical cement layer 431 is arranged between beam splitter 410 and solid state optics glue-line 432, and beam splitter 410 contacts with liquid optical cement layer 431.Because liquid optical cement layer 431 is before uncured, there is flow characteristics, under the effect of external force, the bonding position of beam splitter 410 and liquid optical cement layer 431 can be regulated, thus realize regulating beam splitter 410 and the relative position of display element 420, guarantee the Anawgy accuracy of beam splitter 410 and display element 420.The aligning structure 430 that the present embodiment provides adopts liquid optical cement layer 431 and the solid state optics glue-line 432 of stacked setting, the beam splitter 410 that laminating is oppositely arranged and display element 420, not only improve the Anawgy accuracy of beam splitter 410 and display element 420, to avoid due to beam splitter 410 with display element 420 because contraposition is forbidden, and cause 3 d display device 40 to show bad problem, and aligning structure 430 structure that the present embodiment provides is simple, convenient operation personnel implement.By aligning structure 430, beam splitter 410 and display element 420 contraposition are fitted, in laminating process, the relative position of adjustable beam splitter 410 and display element 420, guarantee the accurate contraposition realizing beam splitter 410 and display element 420, there will not be the bad displays such as crosstalk, namely guarantee that left view that display element 420 shows enters the left eye of beholder, right view enters the right eye of beholder, improves the display quality of 3 d display device 40.After beam splitter 410 and display unit 420 have been fitted, then liquid optical cement layer 431 is solidified, guarantee that beam splitter 410 and display element 420 glue together firmly.What the present embodiment provided applies liquid optical cement layer 431 on solid state optics glue-line 432, uses existing gluing technology, easy to operate, alleviates the work load of operating personnel.

In the present embodiment, the thickness arranging liquid crystal optics glue-line 431 is less than 1mm, thickness due to aligning structure 430 depends on the viewing distance of beholder, and, if the coating thickness of liquid optical cement layer 431 is thicker, then can produce the defect such as bubble, out-of-flatness, affect the normal use of liquid optical cement layer 431.

In the present embodiment, beam splitter 410 can be the optical element that liquid crystal grating, liquid crystal lens, Lenticular screen, electrochromic device etc. have spectrophotometric result, and display element 420 can be the display element that display panels, touch-control display panel etc. have display effect.

As shown in Figure 9, beam splitter 410 comprises the 3rd substrate 411 and the tetrabasal 412 be oppositely arranged, light-splitting device 410 also comprises the second aligning structure 413, second aligning structure 413 is arranged between the 3rd substrate 411 and tetrabasal 412, and the second aligning structure 413 can make the 3rd substrate 411 and tetrabasal 412 contraposition fit.Second aligning structure 413 comprises the second liquid optical cement layer 414 and the second solid state optics glue-line 415 of stacked setting, in the present embodiment, second liquid optical cement layer 414 is arranged between the 3rd substrate 411 and the second solid state optics glue-line 415, 3rd substrate 411 contacts with the second liquid optical cement layer 414, because the second liquid optical cement layer 414 is before uncured, there is flow characteristics, under the effect of external force, the bonding position of the 3rd substrate 411 and the second liquid optical cement layer 414 can be regulated, thus realize the relative position of adjustment the 3rd substrate 411 and tetrabasal 412, guarantee the Anawgy accuracy of the 3rd substrate 411 and tetrabasal 412, the second aligning structure 413 that the present embodiment provides adopts the second liquid optical cement layer 414 and the second solid state optics glue-line 415 of stacked setting, the 3rd substrate 411 and the tetrabasal 412 that laminating is oppositely arranged, not only improve the Anawgy accuracy of the 3rd substrate 411 and tetrabasal 412, and laminating is convenient.

Be understandable that, second liquid optical cement layer 414 is arranged between tetrabasal 412 and the second solid state optics glue-line 415, second liquid optical cement layer 414 contacts with tetrabasal 412, under the effect of external force, the bonding position of tetrabasal 412 and the second liquid optical cement layer 414 can be regulated, thus realize the relative position of adjustment the 3rd substrate 411 and tetrabasal 412, guarantee the Anawgy accuracy of the 3rd substrate 411 and tetrabasal 412.

Be understandable that, the second liquid optical cement layer 414 can also be provided with in the both sides of the second solid state optics glue-line 415, under the effect of external force, regulate the bonding position of tetrabasal 412 and the second liquid optical cement layer 414 simultaneously, thus realize the relative position of adjustment the 3rd substrate 411 and tetrabasal 412, guarantee the Anawgy accuracy of the 3rd substrate 411 and tetrabasal 412.

As shown in Figure 9, the display element 420 that the present embodiment provides comprises the 3rd panel 421 and fourth face plate 422 that are oppositely arranged, also comprises the 3rd aligning structure the 423, three aligning structure 423 and the 3rd panel 421 can be made to fit with fourth face plate 422 contraposition.3rd aligning structure 423 is arranged between the 3rd panel 421 and fourth face plate 422, 3rd aligning structure 423 comprises the 3rd liquid optical cement layer 424 and the 3rd solid state optics glue-line 425 of stacked setting, in the present embodiment, 3rd liquid optical cement layer 424 is arranged between the 3rd panel 421 and the 3rd solid state optics glue-line 425, 3rd panel 421 contacts with the 3rd liquid optical cement layer 424, because the 3rd liquid optical cement layer 424 is before uncured, there is flow characteristics, under the effect of external force, the bonding position of the 3rd panel 421 and the 3rd liquid optical cement layer 424 can be regulated, thus realize the relative position of adjustment the 3rd panel 421 and fourth face plate 422, guarantee the Anawgy accuracy of the 3rd panel 421 and fourth face plate 422.The 3rd aligning structure 423 that the present embodiment provides adopts the 3rd liquid optical cement layer 424 and the 3rd solid state optics glue-line 425 of stacked setting, the 3rd panel 421 that laminating is oppositely arranged and fourth face plate 422, not only improve the Anawgy accuracy of the 3rd panel 421 and fourth face plate 422, and laminating is convenient.

Be understandable that, 3rd liquid optical cement layer 424 is arranged between fourth face plate 422 and solid state optics glue-line 232,3rd liquid optical cement layer 424 contacts with the second base plane 320, under the effect of external force, the bonding position of fourth face plate 422 and the 3rd liquid optical cement layer 424 can be regulated, thus realize adjustment the 3rd panel 421 and the relative position of fourth face plate 422, guarantee the Anawgy accuracy of the 3rd panel 421 and fourth face plate 422.

Be understandable that, the 3rd liquid optical cement layer 424 can also be provided with in the both sides of the 3rd solid state optics glue-line 425, under the effect of external force, regulate the bonding position of fourth face plate 422 and the 3rd liquid optical cement layer 424 simultaneously, thus realize adjustment the 3rd panel 421 and the relative position of fourth face plate 422, guarantee the Anawgy accuracy of the 3rd panel 421 and fourth face plate 422.

Embodiment five

As shown in Figure 10, the first device that the present embodiment provides touch liquid crystal lens 50 to comprise to be oppositely arranged and the second device, also comprise aligning structure 530, aligning structure 530 is arranged between the first device and the second device.In the present embodiment, the infrabasal plate 520 of the first device to be upper substrate 510, second device of touch liquid crystal lens 50 be touch liquid crystal lens 50.Aligning structure 530 comprises liquid optical cement layer 531 and the solid state optics glue-line 532 of stacked setting, in the present embodiment, liquid optical cement layer 531 is arranged between upper substrate 510 and solid state optics glue-line 532, upper substrate 510 contacts with liquid optical cement layer 531, because liquid optical cement layer 531 is before uncured, there is flow characteristics, under the effect of external force, the bonding position of upper substrate 510 and liquid optical cement layer 531 can be regulated, thus realize regulating upper substrate 510 and the relative position of infrabasal plate 520, guarantee the Anawgy accuracy of upper substrate 510 and infrabasal plate 520.The aligning structure 530 that the present embodiment provides adopts liquid optical cement layer 531 and the solid state optics glue-line 532 of stacked setting, the upper substrate 510 that laminating is oppositely arranged and infrabasal plate 520, not only improve upper substrate 510 and the Anawgy accuracy of infrabasal plate 520, ensure the normal use of touch liquid crystal lens 50 and fit conveniently.

Be understandable that, liquid optical cement layer 531 is arranged between infrabasal plate 520 and solid state optics glue-line 232, liquid optical cement layer 531 contacts with the second base plane 320, under the effect of external force, the bonding position of infrabasal plate 520 and liquid optical cement layer 531 can be regulated, thus realize regulating upper substrate 510 and the relative position of infrabasal plate 520, guarantee the Anawgy accuracy of upper substrate 510 and infrabasal plate 520, to ensure the normal use of touch liquid crystal lens 50.

Be understandable that, liquid optical cement layer 531 can also be provided with in the both sides of solid state optics glue-line 532, under the effect of external force, regulate the bonding position of infrabasal plate 520 and liquid optical cement layer 531 simultaneously, thus realize the relative position regulating upper substrate 510 and infrabasal plate 520, guarantee the Anawgy accuracy of upper substrate 510 and infrabasal plate 520, to ensure the normal use of touch liquid crystal lens 50.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (15)

1. aligning structure, the first device of being oppositely arranged and the second device contraposition can be made to fit, it is characterized in that: described aligning structure comprises solid state optics glue-line and the liquid optical cement layer of stacked setting, described liquid optical cement layer is covered in the surface of described solid state optics glue-line, described liquid optical cement layer for adjusting the relative position of described first device and described second device, to realize the contraposition of described first device and described second device.

2. aligning structure as claimed in claim 1, it is characterized in that: described liquid optical cement layer is arranged between described first device and described solid state optics glue-line, and/or described liquid optical cement layer is arranged between described second device and described solid state optics glue-line.

3. aligning structure as claimed in claim 2, is characterized in that: the thickness of described liquid optical cement layer is less than 1mm.

4. aligning structure as claimed in claim 1, it is characterized in that: described solid state optics glue-line is provided with filling part, described liquid optical cement layer is filled in described filling part, and extends to the outside of described filling part.

5. aligning structure as claimed in claim 4, it is characterized in that: described filling part is arranged at the center of described solid state optics glue-line, the cross sectional shape of described solid state optics glue-line is concave shape.

6. aligning structure as claimed in claim 4, it is characterized in that: described filling part is provided with multiple, and is arranged in array, the cross sectional shape of described solid state optics glue-line is comb teeth shape or serrate.

7. the aligning structure as described in claim 5 or 6, is characterized in that: the height of described filling part is h ₁, the height of described solid state optics glue-line is h ₂, and

8. light-splitting device, comprise the first device and the second device that are oppositely arranged, it is characterized in that: also comprise the aligning structure according to any one of claim 1 to 7, described aligning structure is arranged between described first device and described second device, described first device is the first substrate of described light-splitting device, and described second device is the second substrate of described light-splitting device.

9. display panel, comprise the first device and the second device that are oppositely arranged, it is characterized in that: also comprise the aligning structure according to any one of claim 1 to 7, described aligning structure is arranged between described first device and described second device, described first device is the first panel of described display panel, and described second device is the second panel of described display panel.

10. 3 d display device, comprise the first device and the second device that are oppositely arranged, it is characterized in that: also comprise the aligning structure according to any one of claim 1 to 7, described aligning structure is arranged between described first device and described second device, described first device is the beam splitter of described 3 d display device, and described second device is the display element of described 3 d display device.

11. 3 d display devices as claimed in claim 10, it is characterized in that: described beam splitter comprises the 3rd substrate and the tetrabasal be oppositely arranged, and the second aligning structure be arranged between described 3rd substrate and described tetrabasal, described second aligning structure can make described 3rd substrate that is oppositely arranged and described tetrabasal contraposition fit.

12. 3 d display devices as claimed in claim 11, it is characterized in that: described second aligning structure comprises the second solid state optics glue-line and the second liquid optical cement layer that are oppositely arranged, described second liquid optical cement layer is arranged between described 3rd substrate and described second solid state optics glue-line, and/or described second liquid optical cement layer is arranged between described tetrabasal and described second solid state optics glue-line.

13. 3 d display devices as claimed in claim 10, it is characterized in that: described display element comprises the 3rd panel and fourth face plate that are oppositely arranged, and the 3rd aligning structure be arranged between described 3rd panel and described fourth face plate, described 3rd aligning structure can make described 3rd panel that is oppositely arranged and the contraposition of described fourth face plate fit.

14. 3 d display devices as claimed in claim 13, it is characterized in that: described 3rd aligning structure comprises the 3rd solid state optics glue-line and the 3rd liquid optical cement layer that are oppositely arranged, described 3rd liquid optical cement layer is arranged between described 3rd panel and described 3rd solid state optics glue-line, and/or described 3rd liquid optical cement layer is arranged between described fourth face plate and described 3rd solid state optics glue-line.

15. touch liquid crystal lens, comprise the first device and the second device that are oppositely arranged, it is characterized in that: also comprise the aligning structure according to any one of claim 1 to 7, described aligning structure is arranged between described first device and described second device, described first device is the upper substrate of described touch liquid crystal lens, and described second device is the infrabasal plate of described touch liquid crystal lens.