CN108288630A - OLED pixel arrangement architecture and vapor deposition mask plate - Google Patents

Abstract

The present invention provides a kind of OLED pixel arrangement architecture, the OLED pixel arrangement architecture includes：Multiple double-colored pixel columns and multiple monochromatic pixel columns, the double-colored pixel column and the monochromatic pixel column are intervally arranged；The double-colored pixel column includes multiple red sub-pixel groups and multiple blue subpixels groups, and the red sub-pixel group and the blue subpixels group are intervally arranged；The monochrome pixel column includes multiple green sub-pixels groups；The sub-pixel group of at least one color includes two sub-pixels and is deposited by a fluting in the red sub-pixel group, the blue subpixels group and the green sub-pixels group.Thus, it is possible to reduce the gap between sub-pixel, to improve the aperture opening ratio and pixel resolution that are formed by OLED display.

Description

OLED pixel arrangement architecture and vapor deposition mask plate

Technical field

The present invention relates to OLED display manufacturing technology field, more particularly to a kind of OLED pixel arrangement architecture and vapor deposition are covered Diaphragm plate.

Background technology

OLED, i.e. Organic Light Emitting Diode (Organic Light-Emitting Diode), also known as organic electroluminescence are sent out Light is shown (Organic Electroluminesence Display).OLED display technologies and traditional LCD display modes are not Together, be not necessarily to backlight, the very thin coating of organic material of use and glass-base, when have electric current by when, these organic materials It will shine.And OLED display can be made lighter and thinner, visible angle bigger, and electric energy can be saved significantly on. OLED display is composed of a light emitting pixel units of M*N (M be natural number with N) according to matrix structure, for coloured silk The each light emitting pixel of color OLED display includes red sub-pixel (R), green sub-pixels (G) and blue subpixels (B) again.OLED Display is divided into active driving (active matrix driving) OLED (AMOLED) according to type of drive and passive type drives (passive drive) OLED(PMOLED)。

Higher and higher with the pixel resolution of OLED display, traditional IGNIS pixel arrangements have been unable to meet high PPI The design requirement of product.It is therefore proposed that some novel OLED pixel arrangement architectures with improve OLED display aperture opening ratio and Pixel resolution, a technical problem for needing to solve at those skilled in the art.

Invention content

The purpose of the present invention is to provide a kind of OLED pixel arrangement architecture and vapor deposition mask plates, are formed by with improving The aperture opening ratio and pixel resolution of OLED display.

Based on above-mentioned purpose, the present invention provides a kind of OLED pixel arrangement architecture, and the OLED pixel arrangement architecture includes： Multiple double-colored pixel columns and multiple monochromatic pixel columns, the double-colored pixel column and the monochromatic pixel column are intervally arranged；It is described double Color pixel row include multiple red sub-pixel groups and multiple blue subpixels groups, the red sub-pixel group and the sub- picture of blue Plain group is intervally arranged；The monochrome pixel column includes multiple green sub-pixels groups；The red sub-pixel group, the sub- picture of blue The sub-pixel group of at least one color includes two sub-pixels and is opened by one in element group and the green sub-pixels group Slot is deposited.

Optionally, in the OLED pixel arrangement architecture, the double-colored pixel column include the first double-colored pixel column and Second double-colored pixel column, the first double-colored pixel column and the second double-colored pixel column are intervally arranged, first two-colour image The arrangement mode of red sub-pixel group and blue subpixels group and red sub-pixel group in the second double-colored pixel column in element row It is identical or opposite with the arrangement mode of blue subpixels group.

Optionally, in the OLED pixel arrangement architecture, the red sub-pixel group includes two red sub-pixels And the red sub-pixel group is deposited by a fluting, and the blue subpixels group includes at least one sub- picture of blue The plain and described blue subpixels group is deposited by a fluting, and the monochrome pixel column is by a slit is deposited At.

Optionally, in the OLED pixel arrangement architecture, the red sub-pixel group includes two red sub-pixels And the red sub-pixel group is deposited by a fluting, and the blue subpixels group includes at least one sub- picture of blue The plain and described blue subpixels group is deposited by a fluting, and the green sub-pixels group includes at least one green The pixel and green sub-pixels group is deposited by a fluting.

The present invention also provides a kind of vapor deposition mask plate, the vapor deposition mask plate includes first substrate and second substrate, described Multiple first kind openings are provided on first substrate, the first kind opening is a fluting, and the fluting is for being deposited one Two sub-pixels of color, the first substrate is for being deposited red sub-pixel and/or blue subpixels；On the second substrate Multiple second class openings are provided with, the second class opening is for being deposited a row pixel, and the first substrate is for being deposited green Sub-pixel.

Optionally, in the vapor deposition mask plate, the second class opening is a slit, and the slit is for being deposited One row green sub-pixels.

Optionally, in the vapor deposition mask plate, the second class opening includes multiple flutings, and the fluting is for steaming A green sub-pixels group is plated, the green sub-pixels group includes at least one green sub-pixels.

The present invention also provides a kind of vapor deposition mask plate, the vapor deposition mask plate includes first substrate, second substrate and third Substrate is provided with multiple first kind openings on the first substrate, and the first kind opening is a fluting, and the fluting is used for Two sub-pixels of a color are deposited, the first substrate is for being deposited red sub-pixel；It is provided on the second substrate Multiple second class openings, the second class opening is for being deposited a row pixel, and the second substrate is for being deposited green sub-pixels； Multiple third class openings are provided on the third substrate, the third class opening is a fluting, and the fluting is for being deposited One sub-pixel of one color, the third substrate is for being deposited blue subpixels.

Optionally, in the vapor deposition mask plate, the second class opening is a slit, and the slit is for being deposited One row green sub-pixels.

Optionally, in the vapor deposition mask plate, the second class opening includes multiple flutings, and the fluting is for steaming A green sub-pixels group is plated, the green sub-pixels group includes at least one green sub-pixels.

In OLED pixel arrangement architecture provided by the invention and vapor deposition mask plate, pass through the red sub-pixel group, institute State at least one color in blue subpixels group and the green sub-pixels group sub-pixel group include two sub-pixels and It is deposited by a fluting, thus, it is possible to reduce the gap between sub-pixel, OLED display is formed by improve Aperture opening ratio and pixel resolution.

Description of the drawings

Fig. 1 is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention one；

Fig. 2 is the knot of the first substrate for red sub-pixel and/or blue subpixels to be deposited of the embodiment of the present invention one Structure schematic diagram；

Fig. 3 is the structural schematic diagram of the second substrate for green sub-pixels to be deposited of the embodiment of the present invention one；

Fig. 4 is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention two；

Fig. 5 is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention three；

Fig. 6 is the structural schematic diagram of the second substrate for green sub-pixels to be deposited of the embodiment of the present invention three；

Fig. 7 is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention four；

Fig. 8 is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention five；

Fig. 9 is the structural schematic diagram of the second substrate for green sub-pixels to be deposited of the embodiment of the present invention five；

Figure 10 is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention six；

Figure 11 is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention seven；

Figure 12 is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention eight；

Figure 13 is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention nine；

Figure 14 is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention ten；

Figure 15 is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention 11；

Figure 16 is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention 12.

Specific implementation mode

OLED pixel arrangement architecture proposed by the present invention and vapor deposition mask plate are made below in conjunction with the drawings and specific embodiments It is further described.According to following explanation and claims, advantages and features of the invention will become apparent from.It should be noted That attached drawing is all made of very simplified form and uses non-accurate ratio, only to it is convenient, lucidly aid in illustrating this hair The purpose of bright embodiment.

Core of the invention thought is, provides a kind of OLED pixel arrangement architecture, the OLED pixel arrangement architecture packet It includes：Multiple double-colored pixel columns and multiple monochromatic pixel columns, the double-colored pixel column and the monochromatic pixel column are intervally arranged；It is described Double-colored pixel column includes multiple red sub-pixel groups and multiple blue subpixels groups, and the red sub-pixel group and the blue are sub Pixel groups are intervally arranged；The monochrome pixel column includes multiple green sub-pixels groups；The red sub-pixel group, blue The sub-pixel group of at least one color includes two sub-pixels and passes through one in pixel groups and the green sub-pixels group Fluting is deposited.Thus, it is possible to reduce the gap between sub-pixel, to improve be formed by OLED display aperture opening ratio and Pixel resolution.

【Embodiment one】

Referring to FIG. 1, its structural schematic diagram for the OLED pixel arrangement architecture of the embodiment of the present invention one.As shown in Figure 1, In the embodiment of the present application, the OLED pixel arrangement architecture 1 includes：Multiple double-colored pixel columns 10 and multiple monochromatic pixel columns 11, the double-colored pixel column 10 and the monochromatic pixel column 11 are intervally arranged, i.e., the double-colored pixel column 10 of one row, a list color pixel Row 11；Further arrange that double-colored pixel column 10, the rest may be inferred for a list color pixel row 11 ....

Wherein, the double-colored pixel column 10 includes multiple red sub-pixel groups 12 and multiple blue subpixels groups 13, described Red sub-pixel group 12 and the blue subpixels group 13 are intervally arranged, i.e. 12, sub- pictures of blue of a red sub-pixel group Element group 13；The rest may be inferred for 12, blue subpixels groups 13 ... of another red sub-pixel group.The monochrome pixel column 11 wraps Include multiple green sub-pixels groups 14.

In the embodiment of the present application, the red sub-pixel group 12 in multiple double-colored pixel columns 10 and the sub- picture of blue Element group 13 uses identical arrangement mode, i.e., is a first red sub-pixel group 12, another blue subpixels group 13.

Further, the red sub-pixel group 12 includes two red sub-pixels 120 and the red sub-pixel group 12 form (i.e. two red sub-pixels 120 are deposited by a fluting) by a fluting vapor deposition, the sub- picture of blue Element group 13 includes two blue subpixels 130 and the blue subpixels group 13 forms (i.e. two by a fluting vapor deposition Blue subpixels 130 are deposited by a fluting), the monochrome pixel column 11 is deposited by a slit.

Correspondingly, the present embodiment also provides a kind of vapor deposition mask plate.In the embodiment of the present application, the vapor deposition mask plate master Include the first substrate for red sub-pixel and/or blue subpixels to be deposited, and for green sub-pixels to be deposited Two substrates.Specifically, please referring to Fig.2 and Fig. 3, wherein Fig. 2 is the structural schematic diagram of first substrate, and Fig. 3 is the knot of second substrate Structure schematic diagram.

As shown in Fig. 2, being provided with multiple first kind openings 150 on first substrate 15.Here, the first kind opening 150 For a fluting (using slot types herein), described slot is used to be deposited two sub-pixels of a color, one herein Fluting is for being deposited a red sub-pixel group 12 or a blue subpixels group 13.Wherein, when using the first substrate When 15 vapor deposition red sub-pixels and use 15 blue subpixels of first substrate, in use, there are certain offsets.Use When red sub-pixel is deposited in the first substrate 15 so that 150 alignment red sub-pixel group position of first kind opening；Using When 15 blue subpixels of first substrate so that 150 alignment blue subpixels group position of first kind opening.As a result, both It can realize the vapor deposition for red sub-pixel and blue subpixels, and manufacturing cost can be saved.

Then, as shown in figure 3, being provided with multiple second class openings 160 on second substrate 16.Here, second class is opened Mouth 160 is a slit (using slit types herein), the slit passes through one for a row green sub-pixels to be deposited Second class opening 160 can complete the vapor deposition of a monochromatic pixel column 11.

【Embodiment two】

Referring to FIG. 4, its structural schematic diagram for the OLED pixel arrangement architecture of the embodiment of the present invention two.As shown in figure 4, In the embodiment of the present application, the OLED pixel arrangement architecture 2 includes：Multiple double-colored pixel columns 20 and multiple monochromatic pixel columns 21, the double-colored pixel column 20 and the monochromatic pixel column 21 are intervally arranged, i.e., the double-colored pixel column 20 of one row, a list color pixel Row 21；Further arrange that double-colored pixel column 20, the rest may be inferred for a list color pixel row 21 ....

Wherein, the double-colored pixel column 20 includes multiple red sub-pixel groups 22 and multiple blue subpixels groups 23, described Red sub-pixel group 22 and the blue subpixels group 23 are intervally arranged, i.e. 22, sub- pictures of blue of a red sub-pixel group Element group 23；The rest may be inferred for 22, blue subpixels groups 23 ... of another red sub-pixel group.The monochrome pixel column 21 wraps Include multiple green sub-pixels groups 24.

In the embodiment of the present application two, the double-colored pixel column 20 includes the first double-colored pixel column 20a and the second two-colour image Element row 20b, the first double-colored pixel column 20a and the second double-colored pixel column 20b are intervally arranged, the first double-colored pixel Arrange the arrangement mode of red sub-pixel group 22 and blue subpixels group 23 and red in the described second double-colored pixel column 20b in 20a Sub-pixel group 22 is opposite with the arrangement mode of blue subpixels group 23.Here, in the first double-colored pixel column 20a, first red sub- picture Element group 22, then blue subpixels group 23；And in the second double-colored pixel column 20b, first blue subpixels group 23, then red sub-pixel group 22.That is, the red sub-pixel group 22 in two neighboring double-colored pixel column 20 and the dislocation arrangement of blue subpixels group 23.

Further, the red sub-pixel group 22 includes two red sub-pixels 220 and the red sub-pixel group 22 form (i.e. two red sub-pixels 220 are deposited by a fluting) by a fluting vapor deposition, the sub- picture of blue Element group 23 includes two blue subpixels 230 and the blue subpixels group 23 forms (i.e. two by a fluting vapor deposition Blue subpixels 230 are deposited by a fluting), the monochrome pixel column 21 is deposited by a slit.

Correspondingly, the present embodiment also provides a kind of vapor deposition mask plate.In the embodiment of the present application, the vapor deposition mask plate master Include the first substrate for red sub-pixel and/or blue subpixels to be deposited, and for green sub-pixels to be deposited Two substrates.Wherein, the first substrate can be partly with reference to figure 2, and difference is only that, in the present embodiment two, the of adjacent two row One kind opening is no longer proper alignment, but Heterogeneous Permutation, red sub-pixel or blue subpixels to be deposited with needs Position correspond to.The second substrate can refer to Fig. 3.To this, this embodiment is not repeated.

【Embodiment three】

Referring to FIG. 5, its structural schematic diagram for the OLED pixel arrangement architecture of the embodiment of the present invention three.As shown in figure 5, In the embodiment of the present application, the OLED pixel arrangement architecture 3 includes：Multiple double-colored pixel columns 30 and multiple monochromatic pixel columns 31, the double-colored pixel column 30 and the monochromatic pixel column 31 are intervally arranged, i.e., the double-colored pixel column 30 of one row, a list color pixel Row 31；Further arrange that double-colored pixel column 30, the rest may be inferred for a list color pixel row 31 ....

Wherein, the double-colored pixel column 30 includes multiple red sub-pixel groups 32 and multiple blue subpixels groups 33, described Red sub-pixel group 32 and the blue subpixels group 33 are intervally arranged, i.e. 32, sub- pictures of blue of a red sub-pixel group Element group 33；The rest may be inferred for 32, blue subpixels groups 33 ... of another red sub-pixel group.The monochrome pixel column 31 wraps Include multiple green sub-pixels groups 34.

In the embodiment of the present application, the red sub-pixel group 32 in multiple double-colored pixel columns 30 and the sub- picture of blue Element group 33 uses identical arrangement mode, i.e., is a first red sub-pixel group 32, another blue subpixels group 33.

Further, the red sub-pixel group 32 includes two red sub-pixels 320 and the red sub-pixel group 32 form (i.e. two red sub-pixels 320 are deposited by a fluting) by a fluting vapor deposition, the sub- picture of blue Element group 33 includes two blue subpixels 330 and the blue subpixels group 33 forms (i.e. two by a fluting vapor deposition Blue subpixels 330 are deposited by a fluting), the green sub-pixels group 34 includes a green sub-pixels and institute Green sub-pixels group 34 is stated to be deposited by a fluting.

Correspondingly, the present embodiment also provides a kind of vapor deposition mask plate.In the embodiment of the present application, the vapor deposition mask plate master Include the first substrate for red sub-pixel and/or blue subpixels to be deposited, and for green sub-pixels to be deposited Two substrates.Wherein, the first substrate can refer to Fig. 2, and to this, this embodiment is not repeated.

Wherein, the second substrate referring to FIG. 6, its for the embodiment of the present invention three for green sub-pixels to be deposited the The structural schematic diagram of two substrates.As shown in fig. 6, being provided with multiple second class openings 350 on second substrate 35.Here, described Two classes opening 350 includes multiple flutings, and the fluting is for being deposited a green sub-pixels group 34, the green sub-pixels group 34 Including a green sub-pixels, i.e., one herein fluting one green sub-pixels of vapor deposition.

【Example IV】

Referring to FIG. 7, its structural schematic diagram for the OLED pixel arrangement architecture of the embodiment of the present invention four.As shown in fig. 7, In the embodiment of the present application, the OLED pixel arrangement architecture 4 includes：Multiple double-colored pixel columns 40 and multiple monochromatic pixel columns 41, the double-colored pixel column 40 and the monochromatic pixel column 41 are intervally arranged, i.e., the double-colored pixel column 40 of one row, a list color pixel Row 41；Further arrange that double-colored pixel column 40, the rest may be inferred for a list color pixel row 41 ....

Wherein, the double-colored pixel column 40 includes multiple red sub-pixel groups 42 and multiple blue subpixels groups 43, described Red sub-pixel group 42 and the blue subpixels group 43 are intervally arranged, i.e. 42, sub- pictures of blue of a red sub-pixel group Element group 43；The rest may be inferred for 42, blue subpixels groups 43 ... of another red sub-pixel group.The monochrome pixel column 41 wraps Include multiple green sub-pixels groups 44.

In the embodiment of the present application four, the double-colored pixel column 40 includes the first double-colored pixel column 40a and the second two-colour image Element row 40b, the first double-colored pixel column 40a and the second double-colored pixel column 40b are intervally arranged, the first double-colored pixel Arrange the arrangement mode of red sub-pixel group 42 and blue subpixels group 43 and red in the described second double-colored pixel column 40b in 40a Sub-pixel group 42 is opposite with the arrangement mode of blue subpixels group 43.Here, in the first double-colored pixel column 40a, first red sub- picture Element group 42, then blue subpixels group 43；And in the second double-colored pixel column 40b, first blue subpixels group 43, then red sub-pixel group 42.That is, the red sub-pixel group 42 in two neighboring double-colored pixel column 40 and the dislocation arrangement of blue subpixels group 43.

Further, the red sub-pixel group 42 includes two red sub-pixels 420 and the red sub-pixel group 42 form (i.e. two red sub-pixels 420 are deposited by a fluting) by a fluting vapor deposition, the sub- picture of blue Element group 43 includes two blue subpixels 430 and the blue subpixels group 43 forms (i.e. two by a fluting vapor deposition Blue subpixels 430 are deposited by a fluting), the green sub-pixels group 44 includes a green sub-pixels and institute Green sub-pixels group 44 is stated to be deposited by a fluting.

Correspondingly, the present embodiment also provides a kind of vapor deposition mask plate.In the embodiment of the present application, the vapor deposition mask plate master Include the first substrate for red sub-pixel and/or blue subpixels to be deposited, and for green sub-pixels to be deposited Two substrates.Wherein, the first substrate can be partly with reference to figure 2 (identical as first substrate in embodiment two), the second substrate Fig. 6 is can refer to, this embodiment is not repeated to this.

【Embodiment five】

Referring to FIG. 8, its structural schematic diagram for the OLED pixel arrangement architecture of the embodiment of the present invention five.As shown in figure 8, In the embodiment of the present application, the OLED pixel arrangement architecture 5 includes：Multiple double-colored pixel columns 50 and multiple monochromatic pixel columns 51, the double-colored pixel column 50 and the monochromatic pixel column 51 are intervally arranged, i.e., the double-colored pixel column 50 of one row, a list color pixel Row 51；Further arrange that double-colored pixel column 50, the rest may be inferred for a list color pixel row 51 ....

Wherein, the double-colored pixel column 50 includes multiple red sub-pixel groups 52 and multiple blue subpixels groups 53, described Red sub-pixel group 52 and the blue subpixels group 53 are intervally arranged, i.e. 52, sub- pictures of blue of a red sub-pixel group Element group 53；The rest may be inferred for 52, blue subpixels groups 53 ... of another red sub-pixel group.The monochrome pixel column 51 wraps Include multiple green sub-pixels groups 54.

In the embodiment of the present application, the red sub-pixel group 52 in multiple double-colored pixel columns 50 and the sub- picture of blue Element group 53 uses identical arrangement mode, i.e., is a first red sub-pixel group 52, another blue subpixels group 53.

Further, the red sub-pixel group 52 includes two red sub-pixels 520 and the red sub-pixel group 52 form (i.e. two red sub-pixels 520 are deposited by a fluting) by a fluting vapor deposition, the sub- picture of blue Element group 53 includes two blue subpixels 530 and the blue subpixels group 53 forms (i.e. two by a fluting vapor deposition Blue subpixels 530 are deposited by a fluting), the green sub-pixels group 54 include two green sub-pixels 540 simultaneously And the green sub-pixels group 54 is deposited by a fluting into (i.e. two green sub-pixels 540 pass through a fluting and are deposited Into).

Correspondingly, the present embodiment also provides a kind of vapor deposition mask plate.In the embodiment of the present application, the vapor deposition mask plate master Include the first substrate for red sub-pixel and/or blue subpixels to be deposited, and for green sub-pixels to be deposited Two substrates.Wherein, the first substrate can refer to Fig. 2, and to this, this embodiment is not repeated.

Wherein, the second substrate referring to FIG. 9, its for the embodiment of the present invention five for green sub-pixels to be deposited the The structural schematic diagram of two substrates.As shown in figure 9, being provided with multiple second class openings 550 on second substrate 55.Here, described Two classes opening 550 includes multiple flutings, and the fluting is for being deposited a green sub-pixels group 54, the green sub-pixels group 54 Including two green sub-pixels 540, i.e., one herein fluting two green sub-pixels of vapor deposition.

【Embodiment six】

Referring to FIG. 10, its structural schematic diagram for the OLED pixel arrangement architecture of the embodiment of the present invention six.Such as Figure 10 institutes Show, in the embodiment of the present application, the OLED pixel arrangement architecture 6 includes：Multiple double-colored pixel columns 60 and multiple monochromatic pixels Row 61, the double-colored pixel column 60 and the monochromatic pixel column 61 are intervally arranged, i.e., the double-colored pixel column 60 of one row, a list colour Plain row 61；Further arrange that double-colored pixel column 60, the rest may be inferred for a list color pixel row 61 ....

Wherein, the double-colored pixel column 60 includes multiple red sub-pixel groups 62 and multiple blue subpixels groups 63, described Red sub-pixel group 62 and the blue subpixels group 63 are intervally arranged, i.e. 62, sub- pictures of blue of a red sub-pixel group Element group 63；The rest may be inferred for 62, blue subpixels groups 63 ... of another red sub-pixel group.The monochrome pixel column 61 wraps Include multiple green sub-pixels groups 64.

In the embodiment of the present application six, the double-colored pixel column 60 includes the first double-colored pixel column 60a and the second two-colour image Element row 60b, the first double-colored pixel column 60a and the second double-colored pixel column 60b are intervally arranged, the first double-colored pixel Arrange the arrangement mode of red sub-pixel group 62 and blue subpixels group 63 and red in the described second double-colored pixel column 60b in 60a Sub-pixel group 62 is opposite with the arrangement mode of blue subpixels group 63.Here, in the first double-colored pixel column 60a, first red sub- picture Element group 62, then blue subpixels group 63；And in the second double-colored pixel column 60b, first blue subpixels group 63, then red sub-pixel group 62.That is, the red sub-pixel group 62 in two neighboring double-colored pixel column 60 and the dislocation arrangement of blue subpixels group 63.

Further, the red sub-pixel group 62 includes two red sub-pixels 620 and the red sub-pixel group 62 form (i.e. two red sub-pixels 620 are deposited by a fluting) by a fluting vapor deposition, the sub- picture of blue Element group 63 includes two blue subpixels 630 and the blue subpixels group 63 forms (i.e. two by a fluting vapor deposition Blue subpixels 630 are deposited by a fluting), the green sub-pixels group 64 include two green sub-pixels 640 simultaneously And the green sub-pixels group 64 is deposited by a fluting into (i.e. two green sub-pixels 640 pass through a fluting and are deposited Into).

Correspondingly, the present embodiment also provides a kind of vapor deposition mask plate.In the embodiment of the present application, the vapor deposition mask plate master Include the first substrate for red sub-pixel and/or blue subpixels to be deposited, and for green sub-pixels to be deposited Two substrates.Wherein, the first substrate can be partly with reference to figure 2 (identical as first substrate in embodiment two), the second substrate Fig. 9 is can refer to, this embodiment is not repeated to this.

【Embodiment seven】

1 is please referred to Fig.1, is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention seven.Such as Figure 11 institutes Show, in the embodiment of the present application, the OLED pixel arrangement architecture 1-1 includes：Multiple double-colored pixel column 10-1 and multiple monochromes Pixel column 11-1, the double-colored pixel column 10-1 and the monochrome pixel column 11-1 are intervally arranged, i.e., the one double-colored pixel column 10- of row 1, a list color pixel row 11-1；Further arrange that double-colored pixel column 10-1, the rest may be inferred by a list color pixel row 11-1 ....

Wherein, the double-colored pixel column 10-1 includes multiple red sub-pixel group 12-1 and multiple blue subpixels group 13- 1, the red sub-pixel group 12-1 and the blue subpixels group 13-1 are intervally arranged, i.e. a red sub-pixel group 12-1, One blue subpixels group 13-1；Another red sub-pixel group 12-1, the rest may be inferred by a blue subpixels group 13-1 .... The monochrome pixel column 11-1 includes multiple green sub-pixels group 14-1.

In the embodiment of the present application, the red sub-pixel group 12-1 in multiple double-colored pixel column 10-1 and the blue Sub-pixel group 13-1 uses identical arrangement mode, i.e., is a first red sub-pixel group 12-1, another blue subpixels Group 13-1.

Further, the red sub-pixel group 12-1 includes two red sub-pixel 120-1 and the sub- picture of red Element group 12-1 is deposited by a fluting, and the blue subpixels group 13-1 includes a blue subpixels and the indigo plant Sub-pixels group 13-1 is deposited by a fluting, and the monochrome pixel column 11-1 is deposited by a slit.

Correspondingly, the present embodiment also provides a kind of vapor deposition mask plate.In the embodiment of the present application, the vapor deposition mask plate packet Include first substrate, second substrate and third substrate, wherein it is provided with multiple first kind opening on the first substrate, described the One kind opening is a fluting, two sub-pixels of the fluting for a color to be deposited, here, the first substrate is used for Red sub-pixel is deposited；Multiple second class openings are provided on the second substrate, the second class opening is for being deposited a row Pixel, here, the second substrate is for being deposited green sub-pixels；Multiple third class openings are provided on the third substrate, The third class opening is a fluting, a sub-pixel of the fluting for a color to be deposited, here, the third base Plate is for being deposited blue subpixels.Wherein, the first substrate can refer to Fig. 2, and described second can refer to Fig. 3 substantially, and described Three substrates can be partly with reference to figure 2 (the difference is that one sub-pixel of a fluting vapor deposition on the third substrate), the present embodiment This is repeated no more.

【Embodiment eight】

2 are please referred to Fig.1, is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention eight.Such as Figure 12 institutes Show, in the embodiment of the present application, the OLED pixel arrangement architecture 2-1 includes：Multiple double-colored pixel column 20-1 and multiple monochromes Pixel column 21-1, the double-colored pixel column 20-1 and the monochrome pixel column 21-1 are intervally arranged, i.e., the one double-colored pixel column 20- of row 1, a list color pixel row 21-1；Further arrange that double-colored pixel column 20-1, the rest may be inferred by a list color pixel row 21-1 ....

Wherein, the double-colored pixel column 20-1 includes multiple red sub-pixel group 22-1 and multiple blue subpixels group 23- 1, the red sub-pixel group 22-1 and the blue subpixels group 23-1 are intervally arranged, i.e. a red sub-pixel group 22-1, One blue subpixels group 23-1；Another red sub-pixel group 22-1, the rest may be inferred by a blue subpixels group 23-1 .... The monochrome pixel column 21-1 includes multiple green sub-pixels group 24-1.

In the embodiment of the present application eight, the double-colored pixel column 20-1 includes the first double-colored pixel column 20-1a and second pair Color pixel row 20-1b, the first double-colored pixel column 20-1a and the second double-colored pixel column 20-1b are intervally arranged, and described The arrangement mode of red sub-pixel group 22-1 and blue subpixels group 23-1 and described second double-colored in a pair of color pixel row 20-1a The arrangement mode of red sub-pixel group 22-1 and blue subpixels group 23-1 are opposite in pixel column 20-1b.Here, the first two-colour image In element row 20-1a, first red sub-pixel group 22-1, then blue subpixels group 23-1；And in the second double-colored pixel column 20-1b, first Blue subpixels group 23-1, then red sub-pixel group 22-1.That is, the red sub-pixel group in two neighboring double-colored pixel column 20-1 22-1 and the 23-1 dislocation arrangements of blue subpixels group.

Further, the red sub-pixel group 22-1 includes two red sub-pixel 220-1 and the sub- picture of red Element group 22-1 is deposited by a fluting, and the blue subpixels group 23-1 includes a blue subpixels and the indigo plant Sub-pixels group 23-1 is deposited by a fluting, and the monochrome pixel column 21-1 is deposited by a slit.

Correspondingly, the present embodiment also provides a kind of vapor deposition mask plate.In the embodiment of the present application, the vapor deposition mask plate packet Include first substrate, second substrate and third substrate, wherein it is provided with multiple first kind opening on the first substrate, described the One kind opening is a fluting, two sub-pixels of the fluting for a color to be deposited, here, the first substrate is used for Red sub-pixel is deposited；Multiple second class openings are provided on the second substrate, the second class opening is for being deposited a row Pixel, here, the second substrate is for being deposited green sub-pixels；Multiple third class openings are provided on the third substrate, The third class opening is a fluting, a sub-pixel of the fluting for a color to be deposited, here, the third base Plate is for being deposited blue subpixels.Wherein, the first substrate can refer to Fig. 2, and described second can refer to Fig. 3 substantially, and described Three substrates can be partly with reference to figure 2 (the difference is that one sub-pixel of a fluting vapor deposition on the third substrate), the present embodiment This is repeated no more.

【Embodiment nine】

3 are please referred to Fig.1, is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention nine.Such as Figure 13 institutes Show, in the embodiment of the present application, the OLED pixel arrangement architecture 3-1 includes：Multiple double-colored pixel column 30-1 and multiple monochromes Pixel column 31-1, the double-colored pixel column 30-1 and the monochrome pixel column 31-1 are intervally arranged, i.e., the one double-colored pixel column 30- of row 1, a list color pixel row 31-1；Further arrange that double-colored pixel column 30-1, the rest may be inferred by a list color pixel row 31-1 ....

Wherein, the double-colored pixel column 30-1 includes multiple red sub-pixel group 32-1 and multiple blue subpixels group 33- 1, the red sub-pixel group 32-1 and the blue subpixels group 33-1 are intervally arranged, i.e. a red sub-pixel group 32-1, One blue subpixels group 33-1；Another red sub-pixel group 32-1, the rest may be inferred by a blue subpixels group 33-1 .... The monochrome pixel column 31-1 includes multiple green sub-pixels group 34-1.

In the embodiment of the present application, the red sub-pixel group 32-1 in multiple double-colored pixel column 30-1 and the blue Sub-pixel group 33-1 uses identical arrangement mode, i.e., is a first red sub-pixel group 32-1, another blue subpixels Group 33-1.

Further, the red sub-pixel group 32-1 includes two red sub-pixel 320-1 and the sub- picture of red Element group 32-1 is deposited by a fluting, and the blue subpixels group 33-1 includes a blue subpixels and the indigo plant Sub-pixels group 33-1 is deposited by a fluting, the green sub-pixels group 34-1 include a green sub-pixels and The green sub-pixels group 34-1 is deposited by a fluting.

Correspondingly, the present embodiment also provides a kind of vapor deposition mask plate.In the embodiment of the present application, the vapor deposition mask plate packet Include first substrate, second substrate and third substrate, wherein it is provided with multiple first kind opening on the first substrate, described the One kind opening is a fluting, two sub-pixels of the fluting for a color to be deposited, here, the first substrate is used for Red sub-pixel is deposited；Multiple second class openings are provided on the second substrate, the second class opening is for being deposited a row Pixel, here, the second substrate is for being deposited green sub-pixels；Multiple third class openings are provided on the third substrate, The third class opening is a fluting, a sub-pixel of the fluting for a color to be deposited, here, the third base Plate is for being deposited blue subpixels.Wherein, the first substrate can refer to Fig. 2, and described second can refer to Fig. 6 substantially, and described Three substrates can be partly with reference to figure 2 (the difference is that one sub-pixel of a fluting vapor deposition on the third substrate), the present embodiment This is repeated no more.

【Embodiment ten】

4 are please referred to Fig.1, is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention ten.Such as Figure 14 institutes Show, in the embodiment of the present application, the OLED pixel arrangement architecture 4-1 includes：Multiple double-colored pixel column 40-1 and multiple monochromes Pixel column 41-1, the double-colored pixel column 40-1 and the monochrome pixel column 41-1 are intervally arranged, i.e., the one double-colored pixel column 40- of row 1, a list color pixel row 41-1；Further arrange that double-colored pixel column 40-1, the rest may be inferred by a list color pixel row 41-1 ....

Wherein, the double-colored pixel column 40-1 includes multiple red sub-pixel group 42-1 and multiple blue subpixels group 43- 1, the red sub-pixel group 42-1 and the blue subpixels group 43-1 are intervally arranged, i.e. a red sub-pixel group 42-1, One blue subpixels group 43-1；Another red sub-pixel group 42-1, the rest may be inferred by a blue subpixels group 43-1 .... The monochrome pixel column 41-1 includes multiple green sub-pixels group 44-1.

In the embodiment of the present application ten, the double-colored pixel column 40-1 includes the first double-colored pixel column 40-1a and second pair Color pixel row 40-1b, the first double-colored pixel column 40-1a and the second double-colored pixel column 40-1b are intervally arranged, and described The arrangement mode of red sub-pixel group 42-1 and blue subpixels group 43-1 and described second double-colored in a pair of color pixel row 40-1a The arrangement mode of red sub-pixel group 42-1 and blue subpixels group 43-1 are opposite in pixel column 40-1b.Here, the first two-colour image In element row 40-1a, first red sub-pixel group 42-1, then blue subpixels group 43-1；And in the second double-colored pixel column 40-1b, first Blue subpixels group 43-1, then red sub-pixel group 42-1.That is, the red sub-pixel group in two neighboring double-colored pixel column 40-1 42-1 and the 43-1 dislocation arrangements of blue subpixels group.

Further, the red sub-pixel group 42-1 includes two red sub-pixel 420-1 and the sub- picture of red Element group 42-1 is deposited by a fluting, and the blue subpixels group 43-1 includes a blue subpixels and the indigo plant Sub-pixels group 43-1 is deposited by a fluting, the green sub-pixels group 44-1 include a green sub-pixels and The green sub-pixels group 44-1 is deposited by a fluting.

Correspondingly, the present embodiment also provides a kind of vapor deposition mask plate.In the embodiment of the present application, the vapor deposition mask plate packet Include first substrate, second substrate and third substrate, wherein it is provided with multiple first kind opening on the first substrate, described the One kind opening is a fluting, two sub-pixels of the fluting for a color to be deposited, here, the first substrate is used for Red sub-pixel is deposited；Multiple second class openings are provided on the second substrate, the second class opening is for being deposited a row Pixel, here, the second substrate is for being deposited green sub-pixels；Multiple third class openings are provided on the third substrate, The third class opening is a fluting, a sub-pixel of the fluting for a color to be deposited, here, the third base Plate is for being deposited blue subpixels.Wherein, the first substrate can refer to Fig. 2, and described second can refer to Fig. 6 substantially, and described Three substrates can be partly with reference to figure 2 (the difference is that one sub-pixel of a fluting vapor deposition on the third substrate), the present embodiment This is repeated no more.

【Embodiment 11】

5 are please referred to Fig.1, is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention five.Such as Figure 15 institutes Show, in the embodiment of the present application, the OLED pixel arrangement architecture 5-1 includes：Multiple double-colored pixel column 50-1 and multiple monochromes Pixel column 51-1, the double-colored pixel column 50-1 and the monochrome pixel column 51-1 are intervally arranged, i.e., the one double-colored pixel column 50- of row 1, a list color pixel row 51-1；Further arrange that double-colored pixel column 50-1, the rest may be inferred by a list color pixel row 51-1 ....

Wherein, the double-colored pixel column 50-1 includes multiple red sub-pixel group 52-1 and multiple blue subpixels group 53- 1, the red sub-pixel group 52-1 and the blue subpixels group 53-1 are intervally arranged, i.e. a red sub-pixel group 52-1, One blue subpixels group 53-1；Another red sub-pixel group 52-1, the rest may be inferred by a blue subpixels group 53-1 .... The monochrome pixel column 51-1 includes multiple green sub-pixels group 54-1.

In the embodiment of the present application, the red sub-pixel group 52-1 in multiple double-colored pixel column 50-1 and the blue Sub-pixel group 53-1 uses identical arrangement mode, i.e., is a first red sub-pixel group 52-1, another blue subpixels Group 53-1.

Further, the red sub-pixel group 52-1 includes two red sub-pixel 520-1 and the sub- picture of red Element group 52-1 is deposited by a fluting, and the blue subpixels group 53-1 includes a blue subpixels and the indigo plant Sub-pixels group 53-1 is deposited by a fluting, and the green sub-pixels group 54-1 includes two green sub-pixels 540- The 1 and green sub-pixels group 54-1 is deposited by a fluting.

Correspondingly, the present embodiment also provides a kind of vapor deposition mask plate.In the embodiment of the present application, the vapor deposition mask plate packet Include first substrate, second substrate and third substrate, wherein it is provided with multiple first kind opening on the first substrate, described the One kind opening is a fluting, two sub-pixels of the fluting for a color to be deposited, here, the first substrate is used for Red sub-pixel is deposited；Multiple second class openings are provided on the second substrate, the second class opening is for being deposited a row Pixel, here, the second substrate is for being deposited green sub-pixels；Multiple third class openings are provided on the third substrate, The third class opening is a fluting, a sub-pixel of the fluting for a color to be deposited, here, the third base Plate is for being deposited blue subpixels.Wherein, the first substrate can refer to Fig. 2, and described second can refer to Fig. 9 substantially, and described Three substrates can be partly with reference to figure 2 (the difference is that one sub-pixel of a fluting vapor deposition on the third substrate), the present embodiment This is repeated no more.

【Embodiment 12】

6 are please referred to Fig.1, is the structural schematic diagram of the OLED pixel arrangement architecture of the embodiment of the present invention 12.Such as Figure 16 Shown, in the embodiment of the present application, the OLED pixel arrangement architecture 6-1 includes：Multiple double-colored pixel column 60-1 and multiple lists Color pixel row 61-1, the double-colored pixel column 60-1 and the monochrome pixel column 61-1 are intervally arranged, i.e., the one double-colored pixel column of row 60-1, a list color pixel row 61-1；Further arrange that double-colored pixel column 60-1, the rest may be inferred by a list color pixel row 61-1 ....

Wherein, the double-colored pixel column 60-1 includes multiple red sub-pixel group 62-1 and multiple blue subpixels group 63- 1, the red sub-pixel group 62-1 and the blue subpixels group 63-1 are intervally arranged, i.e. a red sub-pixel group 62-1, One blue subpixels group 63-1；Another red sub-pixel group 62-1, the rest may be inferred by a blue subpixels group 63-1 .... The monochrome pixel column 61-1 includes multiple green sub-pixels group 64-1.

In the embodiment of the present application 12, the double-colored pixel column 60-1 includes the first double-colored pixel column 60-1a and second Double-colored pixel column 60-1b, the first double-colored pixel column 60-1a and the second double-colored pixel column 60-1b are intervally arranged, described In first double-colored pixel column 60-1a the arrangement mode of red sub-pixel group 62-1 and blue subpixels group 63-1 with described second pair The arrangement mode of red sub-pixel group 62-1 and blue subpixels group 63-1 are opposite in color pixel row 60-1b.Here, first is double-colored In pixel column 60-1a, first red sub-pixel group 62-1, then blue subpixels group 63-1；And in the second double-colored pixel column 60-1b, First blue subpixels group 63-1, then red sub-pixel group 62-1.That is, the red sub-pixel in two neighboring double-colored pixel column 60-1 Group 62-1 and the 63-1 dislocation arrangements of blue subpixels group.

Further, the red sub-pixel group 62-1 includes two red sub-pixel 620-1 and the sub- picture of red Element group 62-1 is deposited by a fluting, and the blue subpixels group 63-1 includes a blue subpixels and the indigo plant Sub-pixels group 63-1 is deposited by a fluting, and the green sub-pixels group 64-1 includes two green sub-pixels 640- The 1 and green sub-pixels group 64-1 is deposited by a fluting.

Correspondingly, the present embodiment also provides a kind of vapor deposition mask plate.In the embodiment of the present application, the vapor deposition mask plate packet Include first substrate, second substrate and third substrate, wherein it is provided with multiple first kind opening on the first substrate, described the One kind opening is a fluting, two sub-pixels of the fluting for a color to be deposited, here, the first substrate is used for Red sub-pixel is deposited；Multiple second class openings are provided on the second substrate, the second class opening is for being deposited a row Pixel, here, the second substrate is for being deposited green sub-pixels；Multiple third class openings are provided on the third substrate, The third class opening is a fluting, a sub-pixel of the fluting for a color to be deposited, here, the third base Plate is for being deposited blue subpixels.Wherein, the first substrate can refer to Fig. 2, and described second can refer to Fig. 9 substantially, and described Three substrates can be partly with reference to figure 2 (the difference is that one sub-pixel of a fluting vapor deposition on the third substrate), the present embodiment This is repeated no more.

Foregoing description is only the description to present pre-ferred embodiments, not to any restriction of the scope of the invention, this hair Any change, the modification that the those of ordinary skill in bright field does according to the disclosure above content, belong to the protection of claims Range.

Claims (10)

1. a kind of OLED pixel arrangement architecture, which is characterized in that the OLED pixel arrangement architecture includes：Multiple double-colored pixel columns With multiple monochromatic pixel columns, the double-colored pixel column and the monochromatic pixel column are intervally arranged；The double-colored pixel column includes more A red sub-pixel group and multiple blue subpixels groups, the red sub-pixel group and the blue subpixels group are intervally arranged； The monochrome pixel column includes multiple green sub-pixels groups；The red sub-pixel group, the blue subpixels group and described green The sub-pixel group of at least one color includes two sub-pixels and is deposited by a fluting in sub-pixels group.

2. OLED pixel arrangement architecture as described in claim 1, which is characterized in that the double-colored pixel column includes first double-colored Pixel column and the second double-colored pixel column, the first double-colored pixel column and the second double-colored pixel column are intervally arranged, and described The arrangement mode of red sub-pixel group and blue subpixels group and red in the second double-colored pixel column in a pair of color pixel row Sub-pixel group is identical or opposite with the arrangement mode of blue subpixels group.

3. OLED pixel arrangement architecture as claimed in claim 1 or 2, which is characterized in that the red sub-pixel group includes two A red sub-pixel and red sub-pixel group is deposited by a fluting, the blue subpixels group include at least The one blue subpixels and blue subpixels group is deposited by a fluting, the monochrome pixel column pass through one Slit is deposited.

4. OLED pixel arrangement architecture as claimed in claim 1 or 2, which is characterized in that the red sub-pixel group includes two A red sub-pixel and red sub-pixel group is deposited by a fluting, the blue subpixels group include at least The one blue subpixels and blue subpixels group is deposited by a fluting, the green sub-pixels group include extremely Lack a green sub-pixels and the green sub-pixels group is deposited by a fluting.

5. a kind of vapor deposition mask plate, which is characterized in that the vapor deposition mask plate includes first substrate and second substrate, and described first Multiple first kind openings are provided on substrate, the first kind opening is a fluting, and the fluting is for being deposited a color Two sub-pixels, the first substrate is for being deposited red sub-pixel and/or blue subpixels；It is arranged on the second substrate There are multiple second classes to be open, the second class opening is for being deposited a row pixel, and the first substrate is for being deposited the sub- picture of green Element.

6. vapor deposition mask plate as claimed in claim 5, which is characterized in that the second class opening is a slit, described narrow Seam is for being deposited a row green sub-pixels.

7. vapor deposition mask plate as claimed in claim 5, which is characterized in that the second class opening includes multiple flutings, described For fluting for a green sub-pixels group to be deposited, the green sub-pixels group includes at least one green sub-pixels.

8. a kind of vapor deposition mask plate, which is characterized in that the vapor deposition mask plate includes first substrate, second substrate and third base Plate is provided with multiple first kind openings on the first substrate, and the first kind opening is a fluting, and the fluting is for steaming Two sub-pixels of a color are plated, the first substrate is for being deposited red sub-pixel；It is provided on the second substrate more A second class opening, the second class opening is for being deposited a row pixel, and the second substrate is for being deposited green sub-pixels；Institute It states and is provided with multiple third class openings on third substrate, the third class opening is a fluting, and the fluting is for being deposited one One sub-pixel of a color, the third substrate is for being deposited blue subpixels.

9. vapor deposition mask plate as claimed in claim 8, which is characterized in that the second class opening is a slit, described narrow Seam is for being deposited a row green sub-pixels.

10. vapor deposition mask plate as claimed in claim 8, which is characterized in that the second class opening includes multiple flutings, described For fluting for a green sub-pixels group to be deposited, the green sub-pixels group includes at least one green sub-pixels.