DE202015006665U1 - Image display device - Google Patents

Abstract

An image display apparatus comprising a first substrate (12) and a second substrate (14) parallel to and spaced from each other, the first substrate (12) and the second substrate (14) having a first inner surface (121) and a second substrate (14) second inner surface (141) facing each other, a first transparent conductive layer (16) formed on the first inner surface (121) and having at least a first transparent pattern zone (20) through a first pattern cutting zone (18), wherein the first pattern cutting zone (18) is a groove pattern exposing the first inner surface (121), a second transparent conductive layer (22) formed on the second inner surface (141), whereby the second transparent conductive layer (22) and the first transparent layer (16) facing each other, wherein, when the first transparent layer (16) and the second transparent layer (22) are energized, between the first transparent n pattern zone (20) opposite part of the second transparent conductive layer (22) and the first transparent pattern zone (20) at least one local current field is generated; and a first light control layer (24) located between the first transparent conductive layer (16) and the second transparent conductive layer (22) and changing the transparent state of the local zone according to the state of the local electric field.

Description

Technical area

The invention relates to an image display device which has both the function of image display and the function of a controllable curtain.

State of the art

With the development of technology, in addition to functionality, aesthetics also plays an important role for the display devices. The displays are getting bigger and thinner. The large display unit has a large space requirement and is difficult to relocate. If the display device can be combined with the room decoration, the application of the display device becomes more flexible.

To shield the sunshine, use a curtain, colored glass or heat-insulating stickers. The curtain has a larger space requirement and must be cleaned regularly. The colored glass and the heat insulating sticker can not change the transparency. The heat insulation sticker is glued to the window glass and can be easily dirtied and damaged.

Object of the invention

The invention has for its object to provide an image display device that has both the function of image display and the function of a controllable curtain and can be combined with the room decoration to increase the visual aesthetics.

This object is achieved by the image display device according to the invention, comprising: a first substrate and a second substrate that are parallel to each other and spaced from each other, wherein the first substrate and the second substrate have a first inner surface and a second inner surface facing each other; a first transparent conductive layer formed on the first inner surface and having at least a first transparent pattern zone through a first pattern cutting zone, the first pattern cutting zone being a groove pattern exposing the first inner surface; a second transparent conductive layer formed on the second inner surface, whereby the second transparent conductive layer and the first transparent layer face each other, wherein when the first transparent layer and the second transparent layer are energized, between the first transparent pattern zone opposite portion at least one local current field is generated in the second transparent conductive layer and the first transparent pattern zone; and a first light control layer located between the first transparent conductive layer and the second transparent conductive layer and changing the transparent state of the local zone according to the state of the local electric field. This allows the display device to be used as a curtain and combined with the room decoration to enhance visual aesthetics.

Brief description of the drawings

1 a sectional view of the embodiment of the invention,

2 a representation of the application of the embodiment of the invention,

3 a sectional view of another embodiment of the invention,

4 a representation of the application of the further embodiment of the invention,

5 a sectional view of yet another embodiment of the invention.

Ways to carry out the invention

1 shows the first embodiment of the image display device according to the invention 10 comprising: a first substrate 12 and a second substrate 14 which are parallel to each other and spaced from each other, the first substrate 12 and the second substrate 14 a first inner surface 121 and a second inner surface 141 have, which face each other; a first transparent conductive layer 16 on the first inner surface 121 is formed and by a first pattern cutting zone 18 at least a first transparent pattern zone 20 wherein the first pattern cutting zone 18 a groove pattern is the first inner surface 121 exposing; the invention is not limited thereto, it is also possible to fill in the groove pattern an insulating material; a second transparent conductive layer 22 on the second inner surface 141 is formed, whereby the second transparent conductive layer 22 and the first transparent layer 16 facing each other, wherein, when the first transparent layer 16 and the second transparent layer 22 be energized between the first transparent pattern zone 20 opposite part of the second transparent conductive layer 22 and the first transparent pattern zone 20 at least one local power field is generated; and a first light control layer 24 extending between the first transparent conductive layer 16 and the second transparent conductive layer 22 and changes the transparent state of the local zone according to the state of the local power field.

The image display device 10 further comprises a control electrode for the first pattern 28 and a common electrode 30 , In one embodiment, the control electrode is for the first pattern 28 on one side of the first transparent pattern zone 20 and is with the first transparent conductive layer 16 electrically connected. The common electrode 30 is on the second transparent conductive layer 22 arranged. The invention is not limited thereto. The control electrode for the first pattern 28 and the common electrode 30 can also be arranged on the same inner surface, on the same side or on different sides. The control electrode for the first pattern 28 and the common electrode 30 are each by an electrical line 32 connected to an external power source (not shown) and may be controlled by a control module (not shown).

The first light control layer 24 may be formed by PDLC (Polymer Dispersed Liquid Crystal), electrochromic film or SPD (Suspended Particle Devices). When the first light control layer 24 PDLC can be powered by the current drive from the control electrode for the first pattern 28 and the common electrode 30 between a part of the second transparent conductive layer 22 and the first transparent pattern zone 20 a local power field can be generated. The first transparent pattern zone 20 corresponding zone 26 PDLC is converted from the non-transparent state to the transparent state. In the de-energized state (idle state), the zone changes 26 from PDLC back to the original non-transparent state. By transforming the zone 26 From PDLC between the transparent and non-transparent states, the image display device may display the first transparent pattern zone 20 Show. When the first light control layer 24 SPD is, the pausing particles from the current field between the part of the second transparent conductive layer 22 and the first transparent pattern zone 20 influenced, whereby the light transmission is changed, so that the first transparent pattern zone 20 is shown. When the first light control layer 24 is an electrochromic film, the color of the electrochromic film from the current field between the part of the second transparent conductive layer 22 and the first transparent pattern zone 20 changed, so that the color and transparency of the first transparent pattern zone 20 can be reversibly changed.

In addition to PDLC, electrochromic film and SPD, the first light control layer can also be produced by the photochromic or thermochromic technique.

2 shows an application of the invention. As shown, the first transparent pattern zone contains 20 through the first pattern cutting zone 18 a font pattern zone 201 and a blank zone 202 , The control electrode for the first pattern 28 includes a font control electrode 281 and blank zone control electrode 282 , The writing control electrode 281 is with the font pattern zone 201 electrically connected. The blank zone control electrode 282 is with the blank zone 202 electrically connected, in this embodiment, the font control electrode 281 on the bottom of the image display device 10 , The blank zone control electrode 282 and the common electrode 30 are located on top of the image display device 10 , The current and the energizing time for the writing control electrode 281 and the blank zone control electrode 282 may be the same or not the same.

To increase the fineness of the image of the display device as shown in 3 can be shown on the second transparent conductive layer 22 through a second pattern cutting zone 34 at least one second transparent pattern zone 36 be formed. The second pattern cutting zone 34 is a groove pattern that is the second inner surface 141 exposes. The second pattern cutting zone 34 lies partly the first transparent pattern zone 20 opposite, creating the first transparent pattern zone 20 and the second transparent pattern zone 36 are overlapped, so that the generated local current field is finer. Ie. only between the opposite parts of the first transparent pattern zone 20 and the second transparent pattern zone 36 a local power field can be generated. By changing the amperage or the current frequency of the local current field, the transparent state of the zone 26 the first light control layer 24 to be changed.

In the invention, the first substrate 12 and the second substrate 14 made of transparent or semitransparent material or mirror material. The material can be glass, PET, PC, OPP, PVC, TPU, PE, acrylic, plastic or their combination. The first substrate 12 and the second substrate 14 can be designed plan, crooked, flexible or foldable. In the present embodiment, the first substrate 12 and the second substrate 14 both are plan. The invention is not limited thereto. The first substrate 12 and the second substrate may also be formed crooked. The first and second conductive layers 16 . 22 can be made from ITO, electroconductive acrylic adhesive, IZO, ZnO, GZO, PEDOT, nanowire, CNT or other nanomaterials which are current conductive and have a certain transparency.

In one embodiment, the first substrate 12 and the second substrate 14 through a hollow glass or a laminated glass, wherein the first light control layer 24 is arranged in hollow glass or laminated glass.

4 shows a further embodiment of the invention, wherein the first transparent pattern zone 20 through the first pattern cutting zone 18 a variety of subzones 38 . 38 ' containing any shape. In 4 are the subzones 38 . 38 ' how slats of a blind are ranked. By the transparency or color change of the first light control layer 24 can shield the image display device 10 be adjusted. If the first substrate 12 ( 1 ) and the second substrate 14 ( 1 ) are transparent, the control module may be the control electrode for the first pattern 28 . 28 ' and the common electrode 30 ( 1 ) such that the light control layer 24 in the places of some straight subzones 38 is transparent and in places from the other straight parts 38 ' is not transparent, whereby the user can adjust the shield for the transparent substrates as needed, so that the display device 10 can be used as a blind. The subzones 38 . 38 ' can also have any other shape to the aesthetics of the image display device 10 to increase.

The image display device 10 can continue a third substrate 40 include that of the first substrate 12 or the second substrate 14 has a distance. 5 shows a still further embodiment of the invention. In this embodiment, the third substrate 40 parallel to the first substrate 12 and has from the first substrate 12 a distance. The invention is not limited thereto. The third substrate 40 and the first substrate 12 have a third inner surface 401 and a fourth inner surface 122 on, who are facing each other. On the third inner surface 401 and the fourth inner surface are a third transparent conductive layer 42 and a fourth transparent conductive layer 44 educated. The third transparent conductive layer 42 and the fourth transparent conductive layer 44 have at least a third transparent pattern zone 46 and a third pattern cutting zone 48 , Between the third transparent conductive layer 42 and the fourth transparent conductive layer 44 is a second light control layer 50 intended. When the third transparent conductive layer 42 and the fourth transparent conductive layer 44 can be energized between the second transparent pattern zone 46 opposite part of the fourth transparent pattern zone 44 and the third transparent pattern zone 46 a local power field can be generated. The second light control layer 50 may change the transparent state of the local zone according to the state of the local power field. Through the first light control layer 24 and the second light control layer 50 owns the image display device 10 a double-sided display function. The invention is not limited thereto. The invention may also comprise a plurality of light control layers, whereby a multilayer effect can be achieved.

In the invention, a local electric field is generated between the transparent conductive layer and the transparent pattern zone. By changing the current intensity or the current frequency of the local current field, the transparent state of the local zone of the first light control layer can be changed. By converting the light control layer between the transparent and non-transparent states or the colored and decolorized state for the transparent pattern zone, the image display device can control the display of the transparent pattern zone. In addition, the image display device according to the invention can be used as a curtain and combined with the room decoration.

The foregoing description represents only the preferred embodiments of the invention and is not intended to serve as a definition of the limits and scope of the invention. All equivalent changes and modifications are within the scope of this invention.

The invention relates to an image display device, comprising: a first substrate ( 12 ) and a second substrate ( 14 ) which are parallel to each other and spaced from each other, the first substrate ( 12 ) and the second substrate ( 14 ) has a first inner surface ( 121 ) and a second inner surface ( 141 ) facing each other; a first transparent conductive layer ( 16 ) located on the first inner surface ( 121 ) is formed by a first pattern cutting zone ( 18 ) at least one first transparent pattern zone ( 20 ), wherein the first pattern cutting zone ( 18 ) is a groove pattern forming the first inner surface ( 121 ) uncovered; a second transparent conductive layer ( 22 ) located on the second inner surface ( 141 ), whereby the second transparent conductive layer ( 22 ) and the first transparent layer ( 16 ), wherein when the first transparent layer ( 16 ) and the second transparent layer ( 22 ) between the first transparent pattern zone ( 20 ) opposite part of the second transparent conductive layer ( 22 ) and the first transparent pattern zone ( 20 ) at least one local electric field is generated; and a first light control layer ( 24 ) extending between the first transparent conductive layer ( 16 ) and the second transparent conductive layer ( 22 ) and changes the transparent state of the local zone according to the state of the local power field. This allows the display device to be used as a curtain and combined with the room decoration to enhance visual aesthetics.

LIST OF REFERENCE NUMBERS

10

Image display device

12

first substrate

121

first inner surface

122

fourth inner surface

14

second substrate

141

second inner surface

16

first transparent conductive layer

18

first pattern cutting zone

20

first transparent pattern zone

201

Specimen zone

202

blank zone

22

second transparent conductive layer

24

first light control layer

26

Zone

28, 28 '

first control electrode for the first pattern

281

Font-control electrode

282

Blank Zone control electrode

30

common electrode

32

electrical line

34

second pattern cutting zone

36

second transparent pattern zone

38, 38 '

subzone

40

third substrate

42

third transparent conductive layer

44

fourth transparent conductive layer

46

third transparent pattern

48

third pattern cutting zone

50

second light control layer

Claims (15)

An image display device comprising a first substrate ( 12 ) and a second substrate ( 14 ) which are parallel to each other and spaced from each other, the first substrate ( 12 ) and the second substrate ( 14 ) has a first inner surface ( 121 ) and a second inner surface ( 141 ), which face each other, a first transparent conductive layer ( 16 ) located on the first inner surface ( 121 ) is formed by a first pattern cutting zone ( 18 ) at least one first transparent pattern zone ( 20 ), wherein the first pattern cutting zone ( 18 ) is a groove pattern forming the first inner surface ( 121 ) exposes a second transparent conductive layer ( 22 ) located on the second inner surface ( 141 ), whereby the second transparent conductive layer ( 22 ) and the first transparent layer ( 16 ), wherein when the first transparent layer ( 16 ) and the second transparent layer ( 22 ) between the first transparent pattern zone ( 20 ) opposite part of the second transparent conductive layer ( 22 ) and the first transparent pattern zone ( 20 ) at least one local electric field is generated; and a first light control layer ( 24 ) extending between the first transparent conductive layer ( 16 ) and the second transparent conductive layer ( 22 ) and changes the transparent state of the local zone according to the state of the local power field. Image display device according to claim 1, characterized in that the image display device ( 10 ) further comprises a control electrode for the first pattern ( 28 ) and a common electrode ( 30 ), wherein the control electrode for the first pattern ( 28 ) on one side of the first transparent pattern zone ( 20 ) and with the first transparent conductive layer ( 16 ) is electrically connected, wherein the common electrode ( 30 ) on the second transparent conductive layer ( 22 ) is arranged. Image display device according to claim 2, characterized in that the first transparent pattern zone ( 20 ) through the first pattern cutting zone ( 18 ) a font pattern zone ( 201 ) and a blank zone ( 202 ), wherein the control electrode for the first pattern ( 28 ) a writing control electrode ( 281 ) and a blank zone control electrode ( 282 ), wherein the writing control electrode ( 281 ) with the font pattern zone ( 201 ), wherein the blank zone control electrode ( 282 ) with the blank zone ( 202 ) is electrically connected. Image display device according to claim 3, characterized in that the current and the energization time for the writing control electrode ( 281 ) and the blank zone control electrode ( 282 ) are equal or not equal. Image display device according to claim 2, characterized in that on the second transparent conductive layer ( 22 ) through a second pattern cutting zone ( 34 ) at least one second transparent pattern zone ( 36 ), wherein the second pattern cutting zone ( 34 ) is a groove pattern forming the second inner surface ( 141 ), the second transparent pattern zone ( 36 ) is electrically connected to the common electrode. Image display device according to claim 5, characterized in that the second pattern cutting zone ( 34 ) partially the first transparent pattern zone ( 20 ) is opposite. An image display apparatus according to claim 1, characterized in that the first transparent pattern zone comprises a plurality of sub-zones ( 38 . 38 ' ) of any shape, such as straight or crooked shape, the sub-zones ( 38 . 38 ' ) like slats of a blind are ranked. Image display device according to claim 1, characterized in that the first light control layer ( 24 ) by PDLC (Polymer Dispersed Liquid Crystal), electrochromic film, photochromic film, thermochromic film or SPD (Suspended Particle Devices) is formed. Image display device according to claim 1, characterized in that the first substrate ( 12 ) and the second substrate ( 14 ) are made of transparent or semitransparent material or mirror material. Image display device according to claim 1, characterized in that the first substrate ( 12 ) and the second substrate ( 14 ) are designed plan, crooked, flexible or foldable. Image display device according to claim 1, characterized in that the material of the first substrate ( 12 ) and the second substrate ( 14 ) Glass, PET, PC, OPP, PVC, TPU, PE, acrylic, plastic or their combination. An image display device according to claim 1, characterized in that the image display device further comprises a third substrate ( 40 ) formed by the first substrate ( 12 ) / the second substrate ( 14 ) has a distance, wherein the third substrate ( 40 ) and the second substrate ( 14 ) / the first substrate ( 12 ) a third inner surface ( 401 ) and a fourth inner surface ( 122 ) facing each other, wherein on the third inner surface ( 401 ) and the fourth inner surface ( 122 ) a third transparent conductive layer ( 42 ) and a fourth transparent conductive layer ( 44 ), wherein the third transparent conductive layer ( 42 ) and the fourth transparent conductive layer ( 44 ) at least one third transparent pattern zone ( 46 ) and a third pattern cutting zone ( 48 ), wherein between the third transparent conductive layer ( 42 ) and the fourth transparent conductive layer ( 44 ) a second light control layer ( 50 ) is provided. Image display device according to claim 1, characterized in that the first substrate ( 12 ) and the second substrate ( 14 ) are formed by a laminated glass, wherein the first light control layer ( 24 ) is arranged in the laminated glass. Image display device according to claim 1, characterized in that the first substrate ( 12 ) and the second substrate ( 14 ) are formed by a hollow glass, wherein the first light control layer ( 24 ) is arranged in the hollow glass. Image display device according to claim 1, characterized in that the transparent state of the local zone of the first light control layer (16) is determined by the change in the current intensity or the current frequency of the local current field. 24 ) can be changed.

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