CN202177750U - 3D (three-dimensional) liquid crystal glasses and polarizing films thereof - Google Patents

Abstract

The utility model relates to the technical field of the stereo display and provides a pair of 3D (three-dimensional) liquid crystal glasses and polarizing films thereof. The 3D liquid crystal glasses comprise a left glasses lens and a right glasses lens, wherein the left glasses lens or the right glasses lens comprise an upper polarizing film, a lower polarizing film and a liquid crystal box adhered between the inner side of the upper polarizing film and the inner side of the lower polarizing film. The left glasses lens or the right glasses lens further comprises an anti-dazzle thin film covered at the outer side of the upper polarizing film. Based on the prior art, the 3D liquid crystal glasses are coated with the anti-dazzle thin films at the outer sides of the upper polarizing films, so that purposes of shielding ultraviolet rays and eliminating dazzles are achieved, thereby being beneficial to the application of the 3D liquid crystal glasses in the field of outdoor media.

Description

A kind of 3D liquid crystal glasses and polaroid thereof

Technical field

The utility model belongs to the stereo display technique field, relates in particular to a kind of 3D liquid crystal glasses and polaroid thereof.

Background technology

In recent years, 3D shows that market sharply enlarges, and the 3D display technique is increasingly mature.Usually, 3D shows and to be divided into eyes formula and two kinds of bore hole formulas that the hardware device of spectacle display technique wherein comprises the display of a 3D liquid crystal glasses and timesharing demonstration right and left eyes image.The 3D liquid crystal glasses is a kind of wear-type LCD, and people receive the right and left eyes anaglyph that the display timesharing shows through the 3D liquid crystal glasses, and the right and left eyes anaglyph is melted picture through brain, promptly forms three-dimensional image.

Can see, at present 3D show product range of application more and more widely, from the 3D movie theatre to 3D family TV, PC, palm PC, amusement equipment even vehicle-mounted demonstration field.As the future development trend of 3D display technique, 3D show product will more applications in outdoor medium field, for example: the fields such as various interactive information display techniques that are applied to the public place.And the 3D liquid crystal glasses that prior art provides can't shield ultraviolet ray, can't eliminate dazzle, to the 3D liquid crystal glasses out of doors the application in medium field played restriction.

Disclosed above-mentioned information only is used to increase the understanding to the utility model background technology in this background technology this part, so it possibly comprise those of ordinary skills' known systems that does not constitute this state.

The utility model content

The purpose of the utility model embodiment is to provide a kind of 3D liquid crystal glasses, and the 3D liquid crystal glasses that being intended to solve prior art provides can't shield ultraviolet ray, can't eliminate the problem of dazzle.

The utility model embodiment realizes like this; A kind of 3D liquid crystal glasses; Comprise a left eyeglass lens and a right eye eyeglass; Said left eyeglass lens or right eye eyeglass comprise polaroid on, polaroid and fit in the said inboard and said liquid crystal cell between the polaroid inboard down of polaroid of going up once, and said left eyeglass lens or right eye eyeglass also comprise:

Be coated on the said anti-dazzle film of going up the polaroid outside.

The noncontact side surface with said last polaroid of said anti-dazzle film can have concaveconvex structure.

Said left eyeglass lens or right eye eyeglass can also comprise:

That fit in said anti-dazzle film and said first functional layer that goes up polaroid noncontact side; And/or

Fit in second functional layer in the said polaroid down outside.

Further, said first functional layer and/or second functional layer can be the combinations of anti scuffing thin layer, anti-reflection film layer or anti scuffing thin layer and anti-reflection film layer.

Said upward polaroid and/or following polaroid can also comprise:

It is inboard to be coated on said upward polaroid, and/or inboard coloured compensate film or the optical compensation films of said polaroid down.

Said upward polaroid or following polaroid can be the polaroids with single face insulation course or double-sided insulation layer.

Said liquid crystal cell may further include:

One top glass substrate, fit with the said polaroid of going up in the said top glass substrate outside;

One lower glass substrate, fit with said polaroid down in the said lower glass substrate outside;

Be separately fixed at two frames at two ends between said top glass substrate inboard and the lower glass substrate inboard;

Be coated on said top glass substrate inboard first conductive film and first oriented layer in order;

Be coated on said lower glass substrate inboard second conductive film and second oriented layer in order; And

Be filled in said first oriented layer, second oriented layer and two liquid crystal that the frame enclosed space is interior.

Said liquid crystal cell can also comprise:

Be coated between said first conductive film and said first oriented layer first insulation course and/or

Be coated on second insulation course between said second conductive film and said second oriented layer.

Another purpose of the utility model has been to provide a kind of polaroid of 3D liquid crystal glasses, and the inboard of said polaroid fits in a liquid crystal cell, and the outside of said polaroid is coated with an anti-dazzle film.

Further, noncontact side surface said anti-dazzle film and said polaroid can have concaveconvex structure.

The 3D liquid crystal glasses that the utility model provides is coated with anti-dazzle film in the last polaroid outside on the prior art basis, thereby reached ultraviolet ray is shielded, and eliminates the purpose of dazzle, helps the application in medium field out of doors of 3D liquid crystal glasses.

Description of drawings

Fig. 1 is in the 3D liquid crystal glasses that provides of prior art, the structural drawing of left eyeglass lens and right eye eyeglass;

Fig. 2 is in the 3D liquid crystal glasses that provides of the utility model, the structural drawing of left eyeglass lens and right eye eyeglass.

Embodiment

For the purpose, technical scheme and the advantage that make the utility model is clearer,, the utility model is further elaborated below in conjunction with accompanying drawing and embodiment.Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

Usually, the 3D liquid crystal glasses comprises a left eyeglass lens and a right eye eyeglass, shows in the 3D liquid crystal glasses that prior art provides the structure of left eyeglass lens and right eye eyeglass like Fig. 1.

In the prior art, the left eyeglass lens of 3D liquid crystal glasses or right eye eyeglass comprise: polaroid on, polaroid and fit in the liquid crystal cell between the inboard and following polaroid inboard of polaroid once; This liquid crystal cell further comprises: a top glass substrate, and fit with last polaroid in its outside; One lower glass substrate, fit with following polaroid in its outside; Be separately fixed at two frames at two ends between top glass substrate inboard and the lower glass substrate inboard; Be coated on top glass substrate inboard first conductive film and first oriented layer in order; Be coated on lower glass substrate inboard second conductive film and second oriented layer in order; And be filled in the liquid crystal in first oriented layer, second oriented layer and two the frame enclosed spaces.

For fear of the problem that prior art exists, the 3D liquid crystal glasses that the utility model provides is coated with an anti-dazzle film in the polaroid outside of incident light side.

Particularly; Is example for the incident light side of 3D liquid crystal glasses, the following polaroid outside for the emergent light side of 3D liquid crystal glasses like the above polaroid of Fig. 2 outside; Show in the 3D liquid crystal glasses that the utility model provides, the structure of left eyeglass lens and right eye eyeglass, at this moment; Left-eye image that display sends or eye image incide the 3D liquid crystal glasses through the last polaroid outside, and are received by the human eye that places down the polaroid outside.

The 3D liquid crystal glasses that the utility model provides is on the prior art basis; Also comprise: be coated on the anti-dazzle film 21 in the polaroid outside, it will be understood by those skilled in the art that anti-dazzle film 21 can be the film that adopts existing various viable process to process; And noncontact side surface anti-dazzle film 21 and last polaroid can have concaveconvex structure; Thereby reached ultraviolet ray is shielded, eliminate the purpose of dazzle, help the application in medium field out of doors of 3D liquid crystal glasses.

In addition, different with prior art shown in Figure 1, the 3D liquid crystal glasses that the utility model provides can also comprise: fit in anti-dazzle film 21 and first functional layer 22 last polaroid noncontact side and/or fit in down second functional layer 23 in the polaroid outside; First functional layer 22 and/or second functional layer 23 can be the combinations of anti scuffing thin layer, anti-reflection film layer or anti scuffing thin layer and anti-reflection film layer, can certainly increase the thin layer with other function according to the actual requirements.

In addition, last polaroid and/or following polaroid can also comprise according to the product function demand: be coated on the polaroid inboard, and/or inboard coloured compensate film or the optical compensation films of following polaroid.

In addition, last polaroid or following polaroid can be the polaroids with single face insulation course or double-sided insulation layer.

In addition; Different with prior art shown in Figure 1; Among this embodiment of the utility model, liquid crystal cell can also further comprise on the prior art basis: be coated on first insulation course 24 between first conductive film and first oriented layer and/or be coated on second conductive film and second oriented layer between second insulation course 25.

The utility model also provides a kind of polaroid of 3D liquid crystal glasses; The inboard of this polaroid fits in liquid crystal cell; The outside of this polaroid is coated with an anti-dazzle film, and this anti-dazzle film can be the film that adopts existing various viable process to process, and noncontact side surface this anti-dazzle film and last polaroid can have concaveconvex structure; Thereby reached ultraviolet ray is shielded, eliminate the purpose of dazzle.

In addition, this polaroid can also comprise: fit in this anti-dazzle film and first functional layer last polaroid noncontact side and/or fit in down second functional layer in the polaroid outside; This first functional layer and/or second functional layer can be the combinations of anti scuffing thin layer, anti-reflection film layer or anti scuffing thin layer and anti-reflection film layer, can certainly increase the thin layer with other function according to the actual requirements.

In addition, this polaroid can also comprise: be coated on this polaroid inboard coloured compensate film or optical compensation films.

In addition, this polaroid can be the polaroid with single face insulation course or double-sided insulation layer.

The 3D liquid crystal glasses that the utility model provides is coated with anti-dazzle film in the last polaroid outside on the prior art basis, thereby reached ultraviolet ray is shielded, and eliminates the purpose of dazzle, helps the application in medium field out of doors of 3D liquid crystal glasses.

The above is merely the preferred embodiment of the utility model; Not in order to restriction the utility model; Any modification of being done within all spirit and principles at the utility model, be equal to replacement and improvement etc., all should be included within the protection domain of the utility model.

Claims (10)

1. 3D liquid crystal glasses; Comprise a left eyeglass lens and a right eye eyeglass; Said left eyeglass lens or right eye eyeglass comprise polaroid on, polaroid and fit in the said inboard and said liquid crystal cell between the polaroid inboard down of polaroid of going up once; It is characterized in that said left eyeglass lens or right eye eyeglass also comprise:

Be coated on the said anti-dazzle film of going up the polaroid outside.

2. 3D liquid crystal glasses as claimed in claim 1 is characterized in that, the noncontact side surface with said last polaroid of said anti-dazzle film has concaveconvex structure.

3. 3D liquid crystal glasses as claimed in claim 1 is characterized in that, said left eyeglass lens or right eye eyeglass also comprise:

That fit in said anti-dazzle film and said first functional layer that goes up polaroid noncontact side; And/or

Fit in second functional layer in the said polaroid down outside.

4. 3D liquid crystal glasses as claimed in claim 3 is characterized in that, said first functional layer and/or second functional layer are the combinations of anti scuffing thin layer, anti-reflection film layer or anti scuffing thin layer and anti-reflection film layer.

5. 3D liquid crystal glasses as claimed in claim 1 is characterized in that, said upward polaroid and/or following polaroid also comprise:

It is inboard to be coated on said upward polaroid, and/or inboard coloured compensate film or the optical compensation films of said polaroid down.

6. 3D liquid crystal glasses as claimed in claim 1 is characterized in that, said upward polaroid or following polaroid are the polaroids with single face insulation course or double-sided insulation layer.

7. 3D liquid crystal glasses as claimed in claim 1 is characterized in that, said liquid crystal cell comprises:

One top glass substrate, fit with the said polaroid of going up in the said top glass substrate outside;

One lower glass substrate, fit with said polaroid down in the said lower glass substrate outside;

Be separately fixed at two frames at two ends between said top glass substrate inboard and the lower glass substrate inboard;

Be coated on said top glass substrate inboard first conductive film and first oriented layer in order;

Be coated on said lower glass substrate inboard second conductive film and second oriented layer in order; And

Be filled in said first oriented layer, second oriented layer and two liquid crystal that the frame enclosed space is interior.

8. 3D liquid crystal glasses as claimed in claim 7 is characterized in that, said liquid crystal cell also comprises:

Be coated between said first conductive film and said first oriented layer first insulation course and/or

Be coated on second insulation course between said second conductive film and said second oriented layer.

9. the polaroid of a 3D liquid crystal glasses is characterized in that, the inboard of said polaroid fits in a liquid crystal cell, and the outside of said polaroid is coated with an anti-dazzle film.

10. the polaroid of 3D liquid crystal glasses as claimed in claim 9 is characterized in that, noncontact side surface said anti-dazzle film and said polaroid has concaveconvex structure.

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