CN203825337U - Color film substrate, display panel and display device - Google Patents

Abstract

The utility model discloses a color film substrate, a display panel and a display device. The color film substrate comprises a base substrate, and a plurality of separating objects which are arranged on the base substrate, wherein the separating objects are arranged in a plurality of sub regions of the base substrate, the base substrate is divided into the sub regions with the same areas by using a plurality of parallel lines of the set central axis of the base substrate; aiming at any sub region, the farther the distance from the sub region to the set central axis is, the smaller the sum of the contact areas between the separating objects in the sub regions and the base substrate is, or, the lower the height of each separating object in the sub region is. According to the scheme, as the distance between the central axis and the areas where the separating objects are located can be set, the heights of the separating objects in the sub regions or the sum of the contact areas between the separating objects in the sub regions and the base substrate can be set in a gradient way, so that the purpose that the consistency of the thickness of a display panel box can be kept when the display panel is bent can be achieved.

Description

A kind of color membrane substrates, display panel and display device

Technical field

The utility model relates to technical field of liquid crystal display, relates in particular to a kind of color membrane substrates, possesses display panel and the corresponding display device of described color membrane substrates.

Background technology

Liquid crystal indicator is by controlling luminous flux and then realizing corresponding picture disply using liquid crystal as light valve.Particularly, liquid crystal is relevant with the thickness of liquid crystal layer to the control of light under electric field action.In order to realize good display effect, need to keep thickness of liquid crystal layer in a stationary value.

Particularly, at present industry often adopts multiple being uniformly distributed and big or small, highly equal mode of consistent chock insulator matter is set on the color membrane substrates of display panels, carrys out box between color membrane substrates and the array base palte in maintenance medium LCD panel thick and then reach maintenance and be filled in the stable object of even thickness of the liquid crystal layer between color membrane substrates and array base palte.Wherein, described multiple chock insulator matters can be cylindrical spacer conventionally, and described multiple chock insulator matters can contact with described array base palte respectively; In addition, the size of chock insulator matter described herein is commonly referred to as the size of the contact area of described chock insulator matter and color membrane substrates.

But, as shown in Figure 1, in flexible flexible liquid crystal device, during due to the flexible liquid crystal panel bending of flexible liquid crystal device, the stressed difference on the center of curved surface and both sides, more less away from the suffered pressure in the region of the center of curved surface, therefore, multiple being uniformly distributed and size is set on the color membrane substrates of flexible liquid crystal panel if still adopt, highly all to maintain box thick for the mode of consistent chock insulator matter, due to the stressed maximum of the center position of curved surface, can cause the deformation of the chock insulator matter at this place also can be maximum, and then the thick minimum of the box that causes this place, the box of other positions is thick can be according to more away from center of surface position, the thick larger trend of box increases progressively, thereby thick homogeneity and the consistance of box can greatly reduce flexible liquid crystal panel bending time, and then affect the normal demonstration of flexible liquid crystal device.

Therefore, need badly a kind of new chock insulator matter method for designing applicable to flexible liquid crystal panel or flexible liquid crystal device is provided, to address the above problem.

Utility model content

The utility model embodiment provides a kind of color membrane substrates, possess display panel and the corresponding display device of described color membrane substrates, in order to solve the thick inconsistent lower problem of the thick homogeneity of box that causes of box of display panel when the display panel bending of current existence.

The utility model embodiment provides a kind of color membrane substrates, comprise underlay substrate and be arranged on the multiple chock insulator matters on described underlay substrate, wherein, described multiple chock insulator matter is arranged in multiple subregions of described underlay substrate, many the parallel lines that described multiple subregion utilization is parallel to the setting central axis of described underlay substrate are divided and obtain described underlay substrate, and described multiple subregions area is separately mutually the same:

For arbitrary subregion, the described setting central axis of described arbitrary subregion distance is far away, and the each chock insulator matter in described arbitrary subregion and the contact area sum of described underlay substrate are less; Or,

For arbitrary subregion, the described setting central axis of described arbitrary subregion distance is far away, and the height that the each chock insulator matter in described arbitrary subregion possesses is lower.

In technical scheme described in the utility model embodiment, due to can be according to the distance distance of the setting central axis of the underlay substrate at its place of chock insulator matter region distance of living in, gradient arranges chock insulator matter in height or each region of the chock insulator matter in each region and the contact area sum of underlay substrate, thereby can reach the object that still can keep the consistance that display panel box is thick and then improve the display effect of display device when bending in the time that display panel is bending.

Further, the transverse axis center line that described setting central axis is described underlay substrate or the longitudinal axis center line of described underlay substrate.

Further, for arbitrary subregion, the height of any two chock insulator matters in described arbitrary subregion and identical respectively with the contact area of described underlay substrate.

Further, for arbitrary subregion, the described setting central axis of described arbitrary subregion distance is far away, and the each chock insulator matter in described arbitrary subregion and the contact area sum of described underlay substrate are less, comprising:

Chock insulator matter distribution density in all subregion is identical, and for arbitrary subregion, the described setting central axis of described arbitrary subregion distance is far away, and the arbitrary chock insulator matter in described arbitrary subregion and the contact area of described underlay substrate are less; Or,

Arbitrary chock insulator matter in all subregion is identical with the contact area of described underlay substrate, and for arbitrary subregion, the described setting central axis of described arbitrary subregion distance is far away, and the chock insulator matter distribution density in described arbitrary subregion is lower.

That is to say, in technical scheme described in the utility model embodiment, can be according to the distance distance of the setting central axis of the underlay substrate at its place of chock insulator matter region distance of living in, gradient arranges the mode of the contact area of arbitrary chock insulator matter in chock insulator matter distribution density or the each region in each region and underlay substrate, realize the object that gradient arranges the contact area sum of chock insulator matter in each region and underlay substrate, thereby also can reach the effect that improves the dirigibility that chock insulator matter arranges.

Further, the shape of any two chock insulator matters in described multiple chock insulator matter is identical.

Further, described multiple chock insulator matter is respectively cylindrical spacer.

Further, for arbitrary chock insulator matter, the cross-sectional area of the bottom of described chock insulator matter is more than or equal to the cross-sectional area on the top of described chock insulator matter, and the bottom of described chock insulator matter refers to one end that described chock insulator matter contacts with described underlay substrate.

Further, the xsect of each chock insulator matter be shaped as circle, rectangle or triangle.

Further, the material of any two chock insulator matters in described multiple chock insulator matter is identical.

Further, described underlay substrate is flexible base, board.

Further, the utility model embodiment also provides a kind of display panel, comprises color membrane substrates and array base palte, and wherein, described color membrane substrates is arbitrary described color membrane substrates in the utility model embodiment.

Further, the part or all of chock insulator matter in the described multiple chock insulator matters in described color membrane substrates contacts with described array base palte.

Further, described array base palte is flexible base, board.

Further, the utility model embodiment also provides a kind of display device, and described display device comprises arbitrary described display panel in claim the utility model embodiment.

The utility model beneficial effect is as follows:

The utility model embodiment provides a kind of color membrane substrates, possess display panel and the corresponding display device of described color membrane substrates, in technical scheme described in the utility model embodiment, due to can be according to the distance distance of the setting central axis of the underlay substrate at its place of chock insulator matter region distance of living in, gradient arranges chock insulator matter in height or each region of the chock insulator matter in each region and the contact area sum of underlay substrate, thereby can reach and in the time that display panel is bending, still can keep the consistance that display panel box is thick, and then improve the object of the display effect of display device when bending.

Brief description of the drawings

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, below the accompanying drawing of required use during embodiment is described is briefly introduced, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

While Figure 1 shows that in prior art flexible liquid crystal panel bending, the thick schematic diagram of box of each location;

Figure 2 shows that the structural representation one of color membrane substrates described in the utility model embodiment mono-;

Figure 3 shows that the structural representation two of color membrane substrates described in the utility model embodiment mono-;

Figure 4 shows that the structural representation three of color membrane substrates described in the utility model embodiment mono-.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing, the utility model is described in further detail, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making all other embodiment that obtain under creative work prerequisite, all belong to the scope of the utility model protection.

Embodiment mono-:

The utility model embodiment mono-provides a kind of color membrane substrates, described color membrane substrates comprises underlay substrate 11 and is arranged on the multiple chock insulator matters 12 on described underlay substrate 11, described multiple chock insulator matter 12 is separately positioned in multiple subregions 13 of described underlay substrate 11, described multiple subregion 13 utilizes many parallel lines of the setting central axis that is parallel to described underlay substrate 11 that described underlay substrate 11 is divided and obtained, described multiple subregion area is separately mutually the same, wherein:

For arbitrary subregion 13, the described setting central axis of described arbitrary subregion 13 distance is far away, each chock insulator matter 12 in described arbitrary subregion 13 is less with the contact area sum of described underlay substrate 11, specifically can be as shown in Figure 2 or Figure 3 (wherein, Fig. 2, Fig. 3 respectively taking each chock insulator matter 12 with the cross sectional representation of the contact jaw of described underlay substrate 11 as example, the each chock insulator matter 12 in the chock insulator matter 12 and the arbitrary subregion 13 that comprise in arbitrary subregion 13 and the contact area sum of described underlay substrate 11 are schematically illustrated); Or,

For arbitrary subregion 13, the described setting central axis of described arbitrary subregion 13 distance is far away, the height that each chock insulator matter 12 in described arbitrary subregion 13 possesses is lower, specifically can be as shown in Figure 4 (wherein, Fig. 4, taking the longitudinal section schematic diagram of each chock insulator matter 12 as example, schematically illustrates the height of the each chock insulator matter 12 in the chock insulator matter 12 and the arbitrary subregion 13 that comprise in arbitrary subregion 13).

Wherein, described underlay substrate 11 can be flexible base, board, and as plastic base, the utility model embodiment is not limited in any way this.Certainly it should be noted that, described underlay substrate 11 also can be other flexible substrates, and as flexible glass substrate etc., the utility model embodiment is not also limited in any way this.

Further, described setting central axis can be the transverse axis center line of described underlay substrate 11 or the longitudinal axis center line of described underlay substrate 11 (now, described underlay substrate 11 can carry out corresponding bending along the horizontal stroke of described underlay substrate 11, vertical central shaft respectively), the utility model embodiment is not limited in any way this.It should be noted that in addition, described setting central axis also can be according to the flexible shape of the reality of described underlay substrate 11, other that are set to be positioned at described underlay substrate 11 other positions are different from straight line or the line segment of described transverse axis center line or described longitudinal axis center line, and the utility model embodiment is not also limited in any way this.

Further, it should be noted that, in embodiment described in the utility model, for described multiple chock insulator matters 12, when described multiple chock insulator matters 12 according to above-mentioned the first distribution mode (for arbitrary subregion 13, the described setting central axis of described arbitrary subregion 13 distance is far away, and the each chock insulator matter 12 in described arbitrary subregion 13 is less with the contact area sum of described underlay substrate 11) while distributing, the height of any two chock insulator matters 12 in described multiple chock insulator matters 12 can be mutually identical.That is to say, now, each chock insulator matter 12 in described multiple chock insulator matter 12 can contact with the array base palte corresponding with the color membrane substrates at described multiple chock insulator matters 12 places respectively, when not bending with the display panel at described color membrane substrates place, common realize the box maintaining between color membrane substrates and array base palte thick, to improve box thick homogeneity and the conforming object of display panel when bending, the utility model embodiment does not repeat this.

Further, it should be noted that, in the time that described multiple chock insulator matters 12 distribute according to above-mentioned the first distribution mode, because the each chock insulator matter 12 in all subregion 13 is different from the contact area sum of described underlay substrate 11, therefore, can make each chock insulator matter 12 in all subregion 13 under identical deformation, the pressure difference that can bear (particularly, under identical deformation, the pressure that each chock insulator matter 12 in the nearer subregion 13 of the described setting central axis of distance can bear is larger), thereby can in and display panel when bending, on the basis of the discontinuity equalization (the stressed maximum of the center position of display panel curved surface) of the each location of display panel, reach and in the time that display panel is bending, still can keep the consistance that display panel box is thick, and then improve the object of the display effect of display device when bending.

Further, it should be noted that, in embodiment described in the utility model, for described multiple chock insulator matters 12, when described multiple chock insulator matters 12 according to above-mentioned the second distribution mode (for arbitrary subregion 13, the described setting central axis of described arbitrary subregion 13 distance is far away, and the height that the each chock insulator matter 12 in described arbitrary subregion 13 possesses is lower) while distributing, any two chock insulator matters 12 in described multiple chock insulator matters 12 can be mutually identical with the contact area of described underlay substrate 11.Simultaneously, now, part chock insulator matter 12(in described multiple chock insulator matter 12 be generally near described setting central axis or with each chock insulator matter 12 in the nearest subregion 13 of described setting central axis) can and the array base palte corresponding with the color membrane substrates at described multiple chock insulator matters 12 places contact, one end not contacting with described underlay substrate 11 of remaining other chock insulator matters 12 can be in vacant state, when not bending with the display panel at described color membrane substrates place, realize by described part chock insulator matter 12 box maintaining between color membrane substrates and array base palte thick, and, in the time of the display panel bending at described color membrane substrates place, realize and keep the thick consistance of display panel box, and then improve the object of the display effect of display device when bending, the utility model embodiment does not also repeat this.

That is to say, in embodiment described in the utility model, can be according to the distance distance of the setting central axis of the underlay substrate 11 at its place of chock insulator matter 12 region distance of living in, gradient arranges the contact area sum of chock insulator matter 12 in height or each region of the chock insulator matter 12 in each region and underlay substrate 11, thereby can reach the object that still can keep the consistance that display panel box is thick and then improve the display effect of display device when bending in the time that display panel is bending.

Further, in embodiment described in the utility model, for arbitrary subregion 13, the height of any two chock insulator matters 12 in described arbitrary subregion 13 and with the contact area of described underlay substrate 11 can be identical respectively, to reach the object that improves technique property simple for production.

Further, in embodiment described in the utility model, for arbitrary subregion 13, the described setting central axis of described arbitrary subregion 13 distance is far away, each chock insulator matter 12 in described arbitrary subregion 13 is less with the contact area sum of described underlay substrate 11, specifically can comprise following two kinds of forms:

Chock insulator matter distribution density in all subregion 13 is identical, and for arbitrary subregion 13, the described setting central axis of described arbitrary subregion 13 distance is far away, arbitrary chock insulator matter 12 in described arbitrary subregion 13 is less with the contact area of described underlay substrate 11, specifically can be as shown in Figure 2; Or,

Arbitrary chock insulator matter 12 in all subregion 13 is identical with the contact area of described underlay substrate 11, and for arbitrary subregion 13, the described setting central axis of described arbitrary subregion 13 distance is far away, chock insulator matter distribution density in described arbitrary subregion 13 is lower, specifically can be as shown in Figure 3.

That is to say, in embodiment described in the utility model, can be according to the distance distance of the setting central axis of the underlay substrate 11 at its place of chock insulator matter 12 region distance of living in, gradient arranges the mode of arbitrary chock insulator matter in chock insulator matter distribution density or the each region in each region 12 and the contact area of underlay substrate 11, realize the object that gradient arranges chock insulator matter in each region 12 and the contact area sum of underlay substrate 11, thereby also can reach the effect that improves the dirigibility that chock insulator matter 12 arranges.

Further, in embodiment described in the utility model, the shape of any two chock insulator matters 12 in described multiple chock insulator matters 12 can be identical.And, further, because cylindrical spacer has, size is easy to control, contrast is high, homogeneity is good, high durability degree, be not prone to the advantages such as smearing compared with spherical chock insulator matter or bar-shaped chock insulator matter, therefore, in embodiment described in the utility model, described multiple chock insulator matter 12 can be respectively cylindrical spacer conventionally, and the utility model embodiment does not repeat this.

Further, due to the impact of chock insulator matter manufacture craft, while carrying out etching to forming the material of chock insulator matter 12, the etching degree on the top of chock insulator matter 12 is larger, therefore, the cylindrical spacer that the described multiple chock insulator matters 12 that obtain not are standard, but from the bottom of described chock insulator matter 12 to the top of described chock insulator matter 12, be deflated state gradually.Therefore, in embodiment described in the utility model, for arbitrary chock insulator matter 12, the cross-sectional area of the bottom of described chock insulator matter 12 is more than or equal to the cross-sectional area on the top of described chock insulator matter 12 conventionally, wherein, the bottom of described chock insulator matter 12 refers to one end that described chock insulator matter 12 contacts with described underlay substrate 11, and the utility model embodiment is not limited in any way this.

Further, in embodiment described in the utility model, the shape of the xsect of each chock insulator matter 12 can be the arbitrary shapes such as circle, rectangle or triangle, and the utility model embodiment is not also limited in any way this.

It should be noted that in addition, in embodiment described in the utility model, the material of any two chock insulator matters 12 in described multiple chock insulator matter 12 can be identical, and as all can be same inorganic material or same organic material etc., the utility model embodiment is not limited in any way this.

It should be noted that again, similarly to the prior art, described multiple chock insulator matter 12 specifically can be arranged on the black-matrix layer being formed on described underlay substrate 11, and, also can be corresponding with the thin film transistor (TFT) in corresponding array base palte respectively, the utility model embodiment does not repeat this.

The utility model embodiment mono-provides a kind of color membrane substrates, in technical scheme described in the utility model embodiment mono-, due to can be according to the distance distance of the setting central axis of the underlay substrate at its place of chock insulator matter region distance of living in, gradient arranges chock insulator matter in height or each region of the chock insulator matter in each region and the contact area sum of underlay substrate, thereby can reach the object that still can keep the consistance that display panel box is thick and then improve the display effect of display device when bending in the time that display panel is bending.

Embodiment bis-:

The utility model embodiment bis-provides a kind of display panel, described display panel can comprise color membrane substrates and array base palte, wherein, described color membrane substrates is the color membrane substrates described in the utility model embodiment mono-, and the utility model embodiment repeats no more this.That is to say, in display panel described in the utility model embodiment bis-, chock insulator matter in described display panel can be arranged in the color membrane substrates of described display panel according to the first distribution mode described in the utility model embodiment mono-or the second distribution mode, to reach the object that still can keep the consistance that display panel box is thick and then improve the display effect of display device when bending in the time that display panel is bending.

Further, in embodiment bis-described in the utility model, the part or all of chock insulator matter in the described multiple chock insulator matters in described color membrane substrates can contact with described array base palte respectively.

Particularly, in the time that the described multiple chock insulator matters in described color membrane substrates are arranged in described color membrane substrates according to the first distribution mode described in the utility model embodiment mono-, because described multiple chock insulator matter now can possess identical height, therefore, now, described multiple chock insulator matter can contact with described array base palte respectively.And in the time that the described multiple chock insulator matters in described color membrane substrates are arranged in described color membrane substrates according to the second distribution mode described in the utility model embodiment mono-, due to now, described multiple chock insulator matter can possess different height, therefore, now, in described multiple chock insulator matter, only exist part chock insulator matter to contact with described array base palte, the utility model embodiment repeats no more this.

Further, similar with the underlay substrate of the color membrane substrates described in the utility model embodiment mono-or described color membrane substrates, in embodiment bis-described in the utility model, described array base palte also can be flexible base, board, as plastic base, or other flexible substrates, as flexible glass substrate etc., the utility model embodiment also repeats no more this.

Further, the utility model embodiment bis-also provides a kind of display device, and described display device can comprise the display panel described in the utility model embodiment bis-, and the utility model embodiment repeats no more this.Further, described display device can be display panels, Electronic Paper, OLED(Organic Light-Emitting Diode, Organic Light Emitting Diode) any product or parts that possess Presentation Function such as panel, mobile phone, panel computer, televisor, display, notebook computer, digital album (digital photo frame), navigating instrument, the utility model embodiment is not limited in any way this.

The utility model embodiment bis-provides a kind of display panel and corresponding display device, due in described display panel and corresponding display device, can be according to the distance distance of the setting central axis of the underlay substrate at its place of chock insulator matter region distance of living in, gradient arranges chock insulator matter in height or each region of the chock insulator matter in each region and the contact area sum of underlay substrate, thereby can reach the object that still can keep the consistance that display panel box is thick and then improve the display effect of display device when bending in the time that display panel is bending.

Although described preferred embodiment of the present utility model, once those skilled in the art obtain the basic creative concept of cicada, can make other change and amendment to these embodiment.So claims are intended to be interpreted as comprising preferred embodiment and fall into all changes and the amendment of the utility model scope.

Obviously, those skilled in the art can carry out various changes and modification and not depart from spirit and scope of the present utility model the utility model.Like this, if these amendments of the present utility model and within modification belongs to the scope of the utility model claim and equivalent technologies thereof, the utility model is also intended to comprise these changes and modification interior.

Claims (14)

1. a color membrane substrates, comprise underlay substrate and be arranged on the multiple chock insulator matters on described underlay substrate, it is characterized in that, described multiple chock insulator matter is arranged in multiple subregions of described underlay substrate, many the parallel lines that described multiple subregion utilization is parallel to the setting central axis of described underlay substrate are divided and obtain described underlay substrate, and described multiple subregions area is separately mutually the same:

For arbitrary subregion, the described setting central axis of described arbitrary subregion distance is far away, and the each chock insulator matter in described arbitrary subregion and the contact area sum of described underlay substrate are less; Or,

For arbitrary subregion, the described setting central axis of described arbitrary subregion distance is far away, and the height that the each chock insulator matter in described arbitrary subregion possesses is lower.

2. color membrane substrates as claimed in claim 1, is characterized in that, the transverse axis center line that described setting central axis is described underlay substrate or the longitudinal axis center line of described underlay substrate.

3. color membrane substrates as claimed in claim 1, is characterized in that, for arbitrary subregion, and the height of any two chock insulator matters in described arbitrary subregion and identical respectively with the contact area of described underlay substrate.

4. color membrane substrates as claimed in claim 3, is characterized in that, for arbitrary subregion, the described setting central axis of described arbitrary subregion distance is far away, and the each chock insulator matter in described arbitrary subregion and the contact area sum of described underlay substrate are less, comprising:

Chock insulator matter distribution density in all subregion is identical, and for arbitrary subregion, the described setting central axis of described arbitrary subregion distance is far away, and the arbitrary chock insulator matter in described arbitrary subregion and the contact area of described underlay substrate are less; Or,

Arbitrary chock insulator matter in all subregion is identical with the contact area of described underlay substrate, and for arbitrary subregion, the described setting central axis of described arbitrary subregion distance is far away, and the chock insulator matter distribution density in described arbitrary subregion is lower.

5. color membrane substrates as claimed in claim 1, is characterized in that, the shape of any two chock insulator matters in described multiple chock insulator matters is identical.

6. color membrane substrates as claimed in claim 5, is characterized in that, described multiple chock insulator matters are respectively cylindrical spacer.

7. color membrane substrates as claimed in claim 6, it is characterized in that, for arbitrary chock insulator matter, the cross-sectional area of the bottom of described chock insulator matter is more than or equal to the cross-sectional area on the top of described chock insulator matter, and the bottom of described chock insulator matter refers to one end that described chock insulator matter contacts with described underlay substrate.

8. color membrane substrates as claimed in claim 7, is characterized in that, the xsect of each chock insulator matter be shaped as circle, rectangle or triangle.

9. color membrane substrates as claimed in claim 1, is characterized in that, the material of any two chock insulator matters in described multiple chock insulator matters is identical.

10. color membrane substrates as claimed in claim 1, is characterized in that, described underlay substrate is flexible base, board.

11. 1 kinds of display panels, comprise color membrane substrates and array base palte, it is characterized in that, described color membrane substrates is the arbitrary described color membrane substrates of claim 1～10.

12. display panels as claimed in claim 11, is characterized in that, the part or all of chock insulator matter in the described multiple chock insulator matters in described color membrane substrates contacts with described array base palte.

13. display panels as claimed in claim 11, is characterized in that, described array base palte is flexible base, board.

14. 1 kinds of display device, is characterized in that, described display device comprises the arbitrary described display panel of claim 11～13.