CN201945701U - Optical plate - Google Patents

Abstract

The utility model relates to an optical plate, which includes a surface, an optical elements array and a score line. The surface is provided a first direction and a second direction and an angle is formed by the two directions. The optical elements array is arranged on the surface of the optical plate and extends in the first direction. The score line is arranged on the surface of the optical plate and extends in the second direction. The surface is chosen from the upper surface, the lower surface and a combination of the upper surface and the lower surface. The optical plate has the advantage of being provided with the optical elements array and the score line, wherein the score line can provide the optical effect of light atomization. Additionally, the optical elements array is capable of including a plurality of optical microstructures. The identical or different blocks arranged in a plurality of distribution areas of the optical plate can produce required optical effects of light spread, light collection and brightness improvement and the like.

Description

Optical sheet

Technical field

The utility model relates to a kind of optical sheet, relates in particular to the structure of this optical sheet.

Background technology

Optical sheet with precision optics effect has become many technical products of being attracted attention.Optical sheet can be applicable in the optical correlation miscellaneous field.For example, in the field of LCD, can use the diffuser plate that light is spread, the prismatic lens that can collect light or promote the optical sheet of the blast sheet etc. of area source brightness.

Generally be on the surface of above-mentioned optical sheet (diffusion sheet, prismatic lens or blast sheet), to make optical microstructures miscellaneous, to reach required optical effect.Technology in the past is to utilize the mode of hot padding to make optical microstructures on the surface of optical sheet.Yet such way has following shortcoming: at first, hot padding needs to carry out under hot environment, generally speaking need heat for processing procedure, can increase the complicacy and the danger of processing procedure.Moreover via the formed optical microstructures of hot padding, the influence in temperature cooling back because of rising-heat contracting-cold will cause the size between the optical microstructures to produce the difference that can't expect.Thus, the precision size degree of optical microstructures meeting deterioration, and cause bad optical effect.

Summary of the invention

The utility model technical issues that need to address have provided a kind of optical sheet, are intended to solve the above problems.

In order to solve the problems of the technologies described above, the utility model is achieved through the following technical solutions:

A kind of optical sheet of the present utility model comprises: have a surface, this surface has a first direction and a second direction, folder one angle between this first direction and this second direction, and this optical sheet comprises: an array of optical elements; Described array of optical elements is arranged on this surface of this optical sheet and extends in this first direction; And line at a moment; Described delineation line is arranged on this surface of this optical sheet and extends in this second direction; This surface is the upper surface that is selected from this optical sheet, the lower surface and the combination thereof of this optical sheet.

Another kind of optical sheet of the present utility model comprises: have a surface, this optical sheet comprises: a plurality of optical microstructures; Described a plurality of optical microstructures is distributed on this surface of this optical sheet; And line at a moment; Described delineation line is distributed on this surface of this optical sheet; This surface comprises: the upper surface of this optical sheet or the lower surface of this optical sheet.

Compared with prior art, the beneficial effects of the utility model are: have array of optical elements and delineation line, wherein, the delineation line can provide the optical effect of atomizing light; In addition, array of optical elements can comprise a plurality of optical microstructures, is arranged on the block identical or inequality of a plurality of distributed areas of optical sheet; That is to say, can produce required optical effect, as diffusion light, collect light, promote brightness etc. according to the kind of set optical microstructures and optical microstructures the position being set.

Description of drawings

Fig. 1 is the synoptic diagram of the schematic perspective view of a kind of optical sheet of the utility model embodiment, the array of optical elements that reaches the optical sheet surface and delineation line.

Fig. 2 is the making schematic flow sheet of method for making of a kind of optical sheet of the utility model embodiment.

Fig. 3 is the synoptic diagram of a kind of cutting tool of the utility model embodiment.

Fig. 4 is the synoptic diagram of the another kind of cutting tool of the utility model embodiment.

Fig. 5 is the synoptic diagram of another cutting tool of the utility model embodiment.

Fig. 6 is the synoptic diagram of microstructure of the cutting tool of the utility model one embodiment.

Fig. 7 is the synoptic diagram of microstructure of the cutting tool of another embodiment of the utility model.

Fig. 8 carries out the surface-treated synoptic diagram for utilizing the described cutting tool of the utility model embodiment for optical sheet.

Fig. 9 carries out the surface-treated synoptic diagram for utilizing the described cutting tool of the utility model embodiment for another optical sheet.

Figure 10 is the synoptic diagram of a kind of cutting tool module of the utility model embodiment.

Embodiment

Below in conjunction with accompanying drawing and embodiment the utility model is described in further detail:

The utility model provides a kind of optical sheet, has array of optical elements, and also has the delineation line of the optical effect that can promote optical sheet.

The utility model proposes a kind of optical sheet, have a surface, this surface has first direction and second direction, folder one angle between this first direction and this second direction.This optical sheet comprises: array of optical elements and delineation line.Array of optical elements is arranged on the surface of optical sheet and extends in first direction.The delineation line is arranged on the surface of optical sheet and extends in second direction, and wherein, the surface is the upper surface that is selected from optical sheet, the lower surface and the combination thereof of optical sheet.

In an embodiment of the present utility model, it is online that above-mentioned delineation line is distributed in the online or different horizontal/vertical benchmark of the same horizontal/vertical benchmark on this surface.

In an embodiment of the present utility model, above-mentioned angle is 90 ± 10 degree.

In an embodiment of the present utility model, above-mentioned array of optical elements comprises: a plurality of optical microstructures protrude in the surface of optical sheet, and the shape of optical microstructures are to be selected from semicircle, V font, R ditch and combination thereof.

In an embodiment of the present utility model, above-mentioned array of optical elements comprises: a plurality of optical microstructures, indent are in the surface of optical sheet, and the shape of optical microstructures is to be selected from semicircle, V font, R ditch and combination thereof.

In an embodiment of the present utility model, above-mentioned array of optical elements comprises: a plurality of optical microstructures, these optical microstructures are of a size of identical or inequality each other.

In an embodiment of the present utility model, above-mentioned array of optical elements comprises: a plurality of optical microstructures, the spacing of adjacent two optical microstructures are identical or inequality.

In an embodiment of the present utility model, this above-mentioned optical sheet comprises: diffuser plate, prismatic lens or blast sheet.

The utility model proposes a kind of optical sheet again, has a surface.Optical sheet comprises: a plurality of optical microstructures and line at a moment.Optical microstructures is distributed on the surface of optical sheet.The delineation line is distributed on the surface of optical sheet, and wherein, the surface comprises: the upper surface of optical sheet or the lower surface of optical sheet.

In an embodiment of the present utility model, above-mentioned optical sheet has a plurality of distributed areas, and optical microstructures is arranged in the distributed areas regularly or brokenly.

In an embodiment of the present utility model, it is online that above-mentioned delineation line is distributed in the online or different horizontal/vertical benchmark of surperficial same horizontal/vertical benchmark.

In an embodiment of the present utility model, above-mentioned optical microstructures protrudes in the surface of optical sheet, and the shape of optical microstructures is to be selected from semicircle, V font, R ditch and combination thereof.

In an embodiment of the present utility model, above-mentioned optical microstructures indent is in the surface of optical sheet, and the shape of optical microstructures is to be selected from semicircle, V font, R ditch and combination thereof.

In an embodiment of the present utility model, above-mentioned optical microstructures is of a size of identical or inequality each other.

In an embodiment of the present utility model, the spacing of above-mentioned adjacent two optical microstructures is identical or inequality.

In an embodiment of the present utility model, above-mentioned optical sheet comprises: diffuser plate, prismatic lens or blast sheet.

Based on above-mentioned, optical sheet of the present utility model has array of optical elements and delineation line, and wherein, the delineation line can provide the optical effect of atomizing light.In addition, array of optical elements can comprise a plurality of optical microstructures, is arranged on the block identical or inequality of a plurality of distributed areas of optical sheet.That is to say, can produce required optical effect, as diffusion light, collect light, promote brightness etc. according to the kind of set optical microstructures and optical microstructures the position being set.Particularly, above-mentioned optical sheet utilizes the cutting tool made, so have the optical signature structure of delineation line.Moreover compared to the production method of prior art hot padding, the optical microstructures of above-mentioned optical sheet does not have the influence of rising-heat contracting-cold, so the controllable size of optical microstructures is built in quite high optical precision degree.

[optical sheet]

Fig. 1 is the synoptic diagram of the schematic perspective view of a kind of optical sheet of the utility model embodiment, the array of optical elements that reaches the optical sheet surface and delineation line.Please refer to Fig. 1, optical sheet OP has a surperficial S1 or a S2, and this surface S1 or S2 can have first direction D1 and press from both sides the second direction D2 of an angle θ with first direction D1.As shown in Figure 1, the surperficial S1 of optical sheet OP can be a upper surface, and the surperficial S2 of optical sheet OP can be a lower surface.In addition, this angle θ can be 90 ± 10 degree, is preferably 90 degree.

Please continue with reference to Fig. 1, optical sheet OP can comprise: array of optical elements OPA and delineation line CL.Array of optical elements OPA can be arranged at the surperficial S1 of optical sheet OP or S2 and go up and extend in first direction D1.

More specifically, array of optical elements OPA can comprise: a plurality of optical microstructures OM, indent is in the surface of optical sheet OP, and the shape of optical microstructures OM is to be selected from semicircle, V font, R ditch and combination thereof (being complementary to the follow-up microstructure that protrudes in cutting part 120 130 shown in Figure 6).

In addition, array of optical elements OPA also can comprise: a plurality of optical microstructures OM, protrude in the surface of optical sheet OP, and the shape of optical microstructures OM can be selected from semicircle, V font, R ditch and combination thereof (being complementary to follow-up indent shown in Figure 7 in the microstructure 130 of cutting part 120).Moreover the size each other of a plurality of optical microstructures OM can be identical or inequality, and the area that is meant wherein measure-alike or inequality is identical or inequality, or volume is identical or inequality.Array of optical elements OPA is arranged on the surperficial S1 or S2 of optical sheet OP regularly or randomly, and end is seen required optical effect.In addition, in these optical microstructures OM, the spacing of adjacent two optical microstructures OM (not illustrating) also can be identical or inequality.

Referring again to Fig. 1, delineation line CL can be arranged at the surperficial S1 of optical sheet OP or S2 and go up and extend in second direction D2.More specifically, can be at least one surperficial S1 or the S2 of optical sheet OP, perhaps all surfaces S1, S2 form array of optical elements OPA and delineation line CL.

Delineation line CL can be distributed on this surface S1 or the S2 randomly, that is, the same horizontal/vertical datum line (not illustrating) that delineation line CL can be distributed in surperficial S1 (or S2) go up or different horizontal/vertical benchmark online.Particularly, surface S1 (or S2) can have many horizontal datums, and horizontal datum turn 90 degrees promptly can be considered many vertical reference lines, and delineation line CL can be positioned at the position (rule setting) of same horizontal datum, or be positioned at the position (at random be provided with) of not same horizontal datum, make the optical effect that can cause cloudy surface by the setting of delineation line CL.

The kind of above-mentioned optical microstructures OM can be selected according to required optical effect.In one embodiment, can adopt optical microstructures OM in irregular shape and light is spread, but optical sheet OP this moment becomes the diffuser plate of scattered beam; Perhaps, also can select pyramidal optical microstructures for use, and reach the effect of refracted ray, this moment, optical sheet OP became prismatic lens; Perhaps, can select semicircular column optical microlens for use, and can reach the light harvesting effect, this moment, optical sheet OP became the blast sheet.Optical sheet OP can be diffusion sheet, diffuser plate, prismatic lens or blast sheet.

Below, will further specify the method for making of the above-mentioned optical sheet of the utility model.

[method for making of optical sheet]

Fig. 2 is the making schematic flow sheet of method for making of a kind of optical sheet of the utility model embodiment.Fig. 3 is the synoptic diagram of a kind of cutting tool of the utility model embodiment.Please understand the method for making M100 of optical sheet of the present utility model the while with reference to Fig. 1, Fig. 2 and Fig. 3.As shown in Figure 2, the method for making M100 of optical sheet comprises step S110～S130.

At first, in step S110, provide at least one optical sheet OP as shown in Figure 1, this optical sheet OP has a surperficial S1 or a S2, and this surface S1 or S2 have first direction D1 and press from both sides the second direction D2 of an angle θ with first direction D1.

Come, in step S120, provide at least one cutting tool 100 as shown in Figure 3, wherein, each cutting tool 100 comprises: base portion 110, at least one cutting part 120 and a plurality of microstructure 130.Base portion 110 has a turning axle 110a.Cutting part 120 is arranged on the base portion 110, along the bearing of trend L of turning axle 110a and arrange.Microstructure 130 is arranged on the cutting part 120.The quantity of cutting part 120, length, the position etc. that is arranged in base portion 110 all can change, that is design according to the required optical effect of optical sheet OP.

Afterwards, in step S130, cutting tool 100 is rotated and cuts optical sheet OP, wherein, the optical sheet OP as shown in Figure 1 after being cut comprises: array of optical elements OPA and delineation line CL.Array of optical elements OPA is arranged at this surface S1 of optical sheet OP or S2 and goes up and extend in first direction D1.Delineation line CL is arranged at this surface S1 of optical sheet OP or S2 and goes up and extend in second direction D2.

It should be noted that and to utilize at least one surperficial S1 or the S2 of cutting tool 100, perhaps cut or surface treatment on all surfaces S1, the S2, and form array of optical elements OPA and delineation line CL at optical sheet OP.As seen, when utilizing cutting tool 100 to carry out the making of optical sheet OP, optical sheet OP will have the such optical signature structure of delineation line CL.

Fig. 3 has illustrated three cutting parts 120, yet the quantity of cutting part 120 can be adjusted along with the user demand of reality, is not only to be defined in three.And each cutting part 120 shown in Figure 3 is the continuous structure of strip, yet cutting part 120 also can be a plurality of discontinuous construction; And, the microstructure 130 of mutually the same or the form that differs from one another can be set respectively on each cutting part 120, with the cutting tool 100 of the combination of producing microstructure 130, and cut out the optical microstructures OM of multiple difference in functionality with specific modality.

Above-mentioned cutting tool 100 is by being provided with microstructure 130 on cutting part 120, make when cutting tool 100 when carrying out high speed rotating, microstructure 130 can be on the tangent line of the sense of rotation R of cutting tool 100, to the surperficial S1 of the optical sheet OP that contacts with microstructure 130 or S2 cuts or delineation work.The result is, in cutting optical sheet OP simultaneously, can on the cut surface of optical sheet OP, form array of optical elements OPA and delineation line CL naturally, and the shape of the microstructure 130 of the shape of the optical microstructures OM of array of optical elements OPA and cutting tool 100 is complementary each other.

Referring again to Fig. 3, cutting part 120 can be along the bearing of trend L of turning axle 110a and arranged in co-axial alignment.In another embodiment, cutting part 120 also can adopt other arrangement mode.Fig. 4 is the synoptic diagram of the another kind of cutting tool of the utility model embodiment.Please refer to Fig. 4, the cutting tool 100 identical assemblies of this cutting tool 102 and Fig. 3 indicate with identical symbol.It may be noted that in this embodiment cutting part 120 is along the bearing of trend of turning axle 110a and helical arrangement.By the mode of arranged in co-axial alignment or helical arrangement, can make the effect that many places microstructure 130 all can be cut or delineate on the surface on the cutting part 120, make cutting tool 100 be suitable for having the cutting or the surface treatment of large-area workpiece.

Referring again to Fig. 3, base portion 110 is formed in one with cutting part 120, that is to say, can utilize precision optical machinery processing or electromachining cutting, directly goes up at a right cylinder (not illustrating) and forms cutting part 120, and making cutting part 120 and base portion 110 is that one is connected.

In another embodiment, base portion 110 and cutting part 120 also can adopt other connected mode.Fig. 5 is the synoptic diagram of another cutting tool of the utility model embodiment.Please refer to Fig. 5, the cutting tool 100 identical assemblies of this cutting tool 104 and Fig. 3 indicate with identical symbol.It may be noted that in this embodiment base portion 110 is assembling each other with cutting part 120.More specifically, base portion 110 is to separate to make with cutting part 120, and, can utilize gluing or special modes such as embedded structure that cutting part 120 is fixed on the base portion 110, so that cutting tool 104 is when high speed rotating, cutting part 120 can not break away from from base portion 110.

Fig. 6 is the synoptic diagram of microstructure of the cutting tool of the utility model one embodiment.Please refer to Fig. 6, after the regional A of cutting part 120 is amplified, can see the shape of microstructure 130.Please continue with reference to Fig. 6, in one embodiment, above-mentioned microstructure 130 can protrude in cutting part 120, and the shape of microstructure 130 can be to be selected from semicircle, V font, R ditch and combination thereof, that is, as semicircle microstructure 130a, V font microstructure 130b, R ditch microstructure 130c, the 130d that Fig. 6 illustrated.Utilize the microstructure that protrudes in cutting part 120 130 shown in Figure 6, can on the surface of optical sheet OP, cut out the optical microstructures OM of indent in optical sheet OP surface.

Fig. 7 is the synoptic diagram of microstructure of the cutting tool of another embodiment of the utility model.Please refer to Fig. 7, in another embodiment, after the area B of cutting part 120 amplified, can see that microstructure 130 is that indent is in cutting part 120, and the shape of microstructure 130 can be to be selected from semicircle, inverted v-shaped, R ditch and combination thereof, that is, as semicircle microstructure 130a, V font microstructure 130b, R ditch microstructure 130c, the 130d that Fig. 7 illustrated.Utilize indent shown in Figure 7 microstructure 130, can on the surface of optical sheet OP, cut out the optical microstructures OM that protrudes in optical sheet OP surface in cutting part 120.

Above-mentioned various microstructure 130a～130d size each other can be identical or inequality, for example, can adopt R ditch microstructure 130c, 130d with different size, or a plurality of measure-alike semicircle microstructure 130a etc.Spacing between two adjacent microstructure 130a～130d also can be identical or inequality.Those skilled in the art can be according to the kind that designs needs combination microstructure 130a～130d, size etc.Thus, the optical microstructures OM that can directly in the processing procedure of once cutting, go up the multiple shape of making easily in surperficial S1 or the S2 of optical sheet OP in combination microstructure 130 miscellaneous on the cutting part 120.

Fig. 8 carries out the surface-treated synoptic diagram for utilizing the described cutting tool of the utility model embodiment for optical sheet.Please refer to Fig. 8, can make cutting tool 100 high speed rotating, optical sheet OP is gone up at conveying belt (not illustrating) to be transmitted on throughput direction D, microstructure 130 on the cutting part 120 can contact with surperficial S1 (upper surface) or the S2 (lower surface) of optical sheet OP, and depicts array of optical elements OPA and delineation line CL.Formed array of optical elements OPA for example is the little array of lens (lens array), and required optical effect can be provided, and delineation line CL can be used for the light that atomizes.

In addition, dimensional image display also little by little grows up.Visual characteristic according to human eye, when but images of left and right eyes is watched identical presentation content is respectively had two images of different parallaxes (parallax), human eye can be observed, two images are overlapped is interpreted to a stereopsis, also can utilize above-mentioned cutting tool 100 to make and can form the stereopsis optical microstructures.

Fig. 9 carries out the surface-treated synoptic diagram for utilizing the described cutting tool of the utility model embodiment for another optical sheet.Please refer to Fig. 9, this optical sheet OP ' has a surperficial S1 or a S2.Optical sheet OP ' comprising: a plurality of optical microstructures OM and the CL that rules a moment.Optical microstructures OM is distributed on the surperficial S1 or S2 of optical sheet OP '.Delineation line CL is distributed on the surperficial S1 or S2 of optical sheet OP ', and wherein, surperficial S1 or S2 comprise: the lower surface of the upper surface of optical sheet OP ' or optical sheet OP '.

This optical sheet OP ' is similar with above-mentioned optical sheet OP, and relevant explanation does not repeat at this.It should be noted that optical sheet OP ' as shown in Figure 9 can have a plurality of distributed areas G, this optical microstructures OM and this delineation line CL are arranged among the G of distributed areas regularly or brokenly.In other words, array of optical elements OPA can be distributed in identical or different block (being distributed areas G) with delineation line CL.

Referring again to Fig. 9, the distributed areas G of part can be manufactured with this optical microstructures OM and this delineation line CL, and the distributed areas G of another part can not have optical microstructures OM and delineation line CL.The design of microstructure 130 that can be by cutting tool 100 makes microstructure 130 contacts or not surperficial S1 or the S2 of contact optical plate OP ', and cuts out above-mentioned optical sheet OP '.

Figure 10 is the synoptic diagram of a kind of cutting tool module of the utility model embodiment.Please refer to Figure 10, cutting tool module 200 comprises: a plurality of above-mentioned cutting tools 100, wherein, these cutting tools 100 are arranged on the bearing of trend L of turning axle 110a.

As Fig. 8 or shown in Figure 9, only illustrate a cutting tool 100 and carry out the surface-treated synoptic diagram, yet the utility model is not limited in and uses a cutting tool 100.More specifically, when the area of optical sheet OP increases, can utilize the cutting tool module 200 that constitutes by a plurality of cutting tools 100 as shown in figure 10 to cut or surface treatment for large-area optical sheet OP easily.

In addition, but assembly unit goes out the cutting tool module 200 corresponding to the optical sheet OP of this specific dimensions, cuts or surface treatment with the optical sheet OP for this specific dimensions.Moreover, when any cutting tool 100 in the cutting tool module 200 damages, can directly substitute the cutting tool 100 of this damage, help the lifting of maintenance efficiency.

Particularly, but the also cutting tool 100～104 of combination in any with various microstructure 130 forms cutting tool module 200.Thus, can make the optical microstructures OM of various forms.

In sum, optical sheet of the present utility model and preparation method thereof has the following advantages at least:

Utilize the described cutting tool of the utility model embodiment to cut or surface treatment for optical sheet, can form the optical microstructures and delineation line of variform on the surface of optical sheet, wherein, the delineation line can provide the optical effect of atomizing light.

When cutting or during surface treatment, a plurality of microstructures that are provided with on cutting part can be delineated for optical sheet, can promote cutting tool process velocity, prolong life-span of cutting tool.And, utilize the mode of hot padding compared to prior art, utilize cutting tool to make the mode of optical sheet, optical microstructures can not be subjected to the influence of rising-heat contracting-cold, and can promote the precision size degree of optical microstructures.

By on cutting part, forming microstructure miscellaneous, and the optical microstructures of required form can be on optical sheet, formed, and optical sheet can be accessed with diffusion effect, light harvesting effect or brightening effect.

Though the utility model discloses as above with embodiment; right its is not in order to limit the utility model; has common knowledge under any in the technical field; in the spirit and scope that do not break away from the utility model; when can doing a little change and retouching, so the protection domain of the utility model is when looking being as the criterion that the appended claim protection domain defined.

Claims (16)

1. optical sheet, it is characterized in that comprising: have a surface, this surface has a first direction and a second direction, folder one angle between this first direction and this second direction, this optical sheet comprises:

One array of optical elements; Described array of optical elements is arranged on this surface of this optical sheet and extends in this first direction; And line at a moment; Described delineation line is arranged on this surface of this optical sheet and extends in this second direction; This surface is the upper surface that is selected from this optical sheet, the lower surface and the combination thereof of this optical sheet.

2. optical sheet according to claim 1 is characterized in that: it is online that this delineation line is distributed in the online or different horizontal/vertical benchmark of the same horizontal/vertical benchmark on this surface.

3. optical sheet according to claim 1 is characterized in that: this angle is 90 ± 10 degree.

4. optical sheet according to claim 1 is characterized in that: this array of optical elements comprises: a plurality of optical microstructures; Described a plurality of optical microstructures protrudes in this surface of this optical sheet, and the shape of those optical microstructures is to be selected from semicircle, V font, R ditch and combination thereof.

5. optical sheet according to claim 1 is characterized in that: this array of optical elements comprises: a plurality of optical microstructures; Described a plurality of optical microstructures indent is in this surface of this optical sheet, and the shape of those optical microstructures is to be selected from semicircle, V font, R ditch and combination thereof.

6. optical sheet according to claim 1 is characterized in that: this array of optical elements comprises: a plurality of optical microstructures, those optical microstructures are of a size of identical or inequality each other.

7. optical sheet according to claim 1 is characterized in that: this array of optical elements comprises: a plurality of optical microstructures, a spacing of adjacent two those optical microstructures is identical or inequality.

8. optical sheet according to claim 1 is characterized in that: this optical sheet comprises: diffusion sheet, diffuser plate, prismatic lens or blast sheet.

9. optical sheet, it is characterized in that comprising: have a surface, this optical sheet comprises: a plurality of optical microstructures; Described a plurality of optical microstructures is distributed on this surface of this optical sheet; And line at a moment; Described delineation line is distributed on this surface of this optical sheet; This surface comprises: the upper surface of this optical sheet or the lower surface of this optical sheet.

10. optical sheet according to claim 9 is characterized in that: this optical sheet has a plurality of distributed areas, and those optical microstructures and this delineation line are arranged in those distributed areas regularly or brokenly.

11. optical sheet according to claim 9 is characterized in that: it is online that this delineation line is distributed in the online or different horizontal/vertical benchmark of the same horizontal/vertical benchmark on this surface.

12. optical sheet according to claim 9 is characterized in that: those optical microstructures protrude in this surface of this optical sheet, and the shape of those optical microstructures is to be selected from semicircle, V font, R ditch and combination thereof.

13. optical sheet according to claim 9 is characterized in that: those optical microstructures indents are in this surface of this optical sheet, and the shape of those optical microstructures is to be selected from semicircle, V font, R ditch and combination thereof.

14. optical sheet according to claim 9 is characterized in that: those optical microstructures are of a size of identical or inequality each other.

15. optical sheet according to claim 9 is characterized in that: a spacing of adjacent two those optical microstructures is identical or inequality.

16. optical sheet according to claim 9 is characterized in that: this optical sheet comprises: diffusion sheet, diffuser plate, prismatic lens or blast sheet.

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