JP2015206934A - image display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress degradation of an image possibly occurring when observing an image from one space side toward other space side in an image display device used along with a partition member partitioning two spaces, and capable of observing an image to be displayed from any side of two spaces.SOLUTION: An image display device 10 comprises an image display plate 11 that is used by being assembled, for example, in a wall 2 partitioning an indoor S1 and an outdoor S2. The image display plate 11 has: a dual-side image display panel 20 that has mutually opposite first plane 21 and second plane 22; and a light control sheet 40 that is laminated on the dual-side image display panel 20. The dual-side image display panel 20 has a visible light transmission property, and an image to be displayed by the dual-side image display panel 20 is configured to be observed from both sides of a first plane 21 side and a second plane 22 side. The light control sheet 40 is configured to be switchable between a high haze state and a low haze state.

Description

  The present invention relates to an image display device used together with a partition member that partitions two spaces.

  For example, Patent Documents 1 and 2 describe examples in which a display is installed in a show window that partitions indoors and outdoors. Among these, Patent Document 1 discloses a liquid crystal display or a plasma display that can be observed only from the outside of the store. On the other hand, Patent Document 2 discloses an organic EL display (OLED: Organic Electro-Luminescence) in which electrodes disposed on both sides of an organic light emitting layer are transparent.

JP 2011-133715 A Special table 2009-531811 gazette

  However, in the show window described in Patent Document 1, the inside of the store cannot be observed through the display from the outside of the store, so that it is inferior in appearance and obstructs the display function of products mainly required for the show window. End up.

  On the other hand, in the show window described in Patent Document 2, by making each electrode of the organic EL display transparent, it is possible to observe the inside of the store from the outside of the store or the outside of the store from the inside of the store. However, when an outdoor observer observes an image displayed on the organic EL display at night, the image is greatly deteriorated because a bright indoor can be seen through as the background of the image.

  The present invention has been made in consideration of the above points, and is used with a partition member that partitions two spaces, and in an image display apparatus that can observe a displayed image from either side of the two spaces. It is an object to suppress image degradation that may occur when an image is observed from one of the two spaces toward the other.

An image display device according to the present invention includes an image display plate used by being incorporated in a partition member that partitions two spaces,
The image display board has a first surface and a second image display panel having a second surface facing the first surface;
A light control sheet laminated on the both-side image display panel,
The both-side image display panel has visible light transparency, and an image displayed by the both-side image display panel is observed from both the first surface side and the second surface side,
The light control sheet can be switched between a high haze state and a low haze state.

  In the image display device according to the present invention, the first surface of the double-sided image display panel faces the indoor side partitioned by the partition member, and the second surface of the double-sided image display panel is partitioned by the partition member. The image display plate may be incorporated in the partition member so as to face the outdoor side, and the light control sheet may be laminated on the first surface of the both-side image display panel.

  In the image display device according to the present invention, the first surface of the double-sided image display panel faces the indoor side partitioned by the partition member, and the second surface of the double-sided image display panel is partitioned by the partition member. The image display plate may be incorporated in the partition member so as to face the outdoor side, and the light control sheet may be laminated on the second surface of the both-side image display panel.

  The image display device according to the present invention further includes an additional light control sheet laminated on the both-side image display panel, and the both-side image display panel is disposed between the light control sheet and the additional light control sheet. Also good.

  In the image display device according to the present invention, the light control sheet may be in a low haze state when no voltage is applied, and may be in a high haze state when a voltage is applied.

  In the image display device according to the present invention, the light control sheet includes a polymer network made of a resin formed in a three-dimensional network, liquid crystal molecules located in a void formed in the polymer network, and dichroism. And a pigment.

  In the image display device according to the present invention, the double-sided image display panel includes an organic light emitting layer, a first electrode formed using a transparent conductor on one side of the organic light emitting layer, and the other of the organic light emitting layer. And a second electrode formed using a transparent conductor on the side.

In the image display device according to the present invention, the light control sheet is laminated on the first surface of the both-side image display panel,
The double-sided image display panel further includes a video projector that projects video light from the second surface side of the double-sided image display panel,
The double-sided image display panel reflects and transmits video light projected from the video projector, and an image displayed by the video light is observed from both the first surface side and the second surface side. It may come to be.

  According to the present invention, it is possible to suppress image degradation that may occur when an image is observed from one space side toward another space side.

The perspective view which shows the show window in which the image display apparatus by one embodiment of this invention was installed. Sectional drawing of the image display board of the image display apparatus shown in FIG. Sectional drawing which shows an example of the both-sides image display panel which can be integrated in the image display board shown in FIG. It is sectional drawing which shows an example of the light control sheet which can be integrated in the image display board shown in FIG. 2, Comprising: It is a figure which shows the light control sheet of the state which has not applied the voltage. It is sectional drawing which shows the light control sheet | seat of FIG. 4 in the state which is applying the voltage. It is sectional drawing which shows the other example of the light control sheet which can be integrated in the image display board of FIG. 2, Comprising: It is a figure which shows the light control sheet of the state which has not applied the voltage. It is sectional drawing which shows the light control sheet | seat of FIG. 6 in the state which is applying the voltage. It is a figure for demonstrating the effect | action of the image display apparatus shown in FIG. 1, Comprising: It is a figure which shows a show window when a light control sheet is maintained in a low haze state. It is a figure for demonstrating the effect | action of the image display apparatus shown in FIG. 1, Comprising: It is a figure which shows a show window when a light control sheet is maintained in a high haze state. It is a figure for demonstrating the other example of arrangement | positioning of a light control sheet | seat, Comprising: It is a figure which shows a show window when maintaining a light control sheet in a high haze state. It is a figure which shows a show window when the light control sheet | seat of the image display apparatus shown in FIG. 10 is maintained in a low haze state. It is a figure for demonstrating the example further provided with the additional light control sheet | seat which the image display apparatus shown in FIG. 2 maintains, Comprising: When a light control sheet is maintained in a high haze state, and an additional light control sheet is maintained in a low haze state It is a figure which shows a show window. It is a figure which shows a show window when maintaining the light control sheet of the image display apparatus shown in FIG. 12 in a low haze state, and maintaining an additional light control sheet in a high haze state. It is a figure for demonstrating the modification of the image display apparatus shown in FIG. 2, Comprising: It is a figure which shows a show window when the light control sheet | seat is maintained in a low haze state. It is a figure which shows a show window when the light control sheet | seat of the image display apparatus shown in FIG. 14 is maintained in a high haze state.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In the drawings attached to the present specification, for the sake of illustration and ease of understanding, the scale, the vertical / horizontal dimension ratio, and the like are appropriately changed and exaggerated from those of the actual product.

  In the present specification, the terms “sheet”, “film”, and “plate” are not distinguished from each other only based on the difference in names. For example, “sheet” is a concept that includes a member that can be called a film or a plate. Therefore, “light distribution sheet” is only a difference in name from a member called “light distribution film” or “light distribution plate”. Cannot be distinguished.

  In addition, as used in this specification, the shape and geometric conditions and the degree thereof are specified, for example, terms such as “parallel”, “orthogonal”, “identical”, length and angle values, etc. are strictly Without being bound by meaning, it should be interpreted including the extent to which similar functions can be expected.

  1 to 15 are diagrams for explaining an embodiment of an image display device according to the present invention. Among these, FIG. 1 is a perspective view showing an image display device 10 according to an embodiment of the present invention. As shown in FIG. 1, the image display device 10 includes an image display board 11 that is used by being incorporated in a partition member 2 that partitions two spaces S1 and S2. In the example shown in FIG. 1, the image display board 11 is incorporated in a partition member 2 that partitions an indoor S <b> 1 and an outdoor S <b> 2, and constitutes a store show window 1 together with the partition member 2. The partition member 2 shown in FIG. 1 is made of a window glass that partitions the indoor S1 and the outdoor S2 of the store. An opening 2a is formed in the partition member 2 made of window glass, and the image display plate 11 is fitted in the opening 2a. However, the partition member 2 is not limited to the example shown in FIG. 1 as long as it is a member that partitions the two spaces S1 and S2. As an example of another form, the partition member 2 may be a wall that partitions rooms, or may be a partition that partitions adjacent work spaces in the office.

  FIG. 2 is a cross-sectional view of the image display board 11 shown in FIG. As shown in FIG. 2, the image display board 11 includes a both-side image display panel 20 having visible light permeability and a light control sheet 40 laminated on the both-side image display panel 20. Since the double-sided image display panel 20 has visible light transparency, an image displayed by the double-sided image display panel 20 can be observed from both sides of the double-sided image display panel 20. The light control sheet 40 is configured to be switchable between a high haze state and a low haze state in accordance with the application of a voltage. According to such a double-sided image display panel 20, the external light incident on the double-sided image display panel 20 is controlled by selectively switching the haze state of the light control sheet 40, and the image displayed by the double-sided image display panel 20 is displayed. This contributes to ensuring the visibility.

  Among these, the double-sided image display panel 20 is a means for forming a still image or a moving image that can be observed by an observer. As shown in FIG. 2, the double-sided image display panel 20 has a first surface 21 and a second surface 22 that faces the first surface 21. In the present embodiment, the image displayed by the both-side image display panel 20 is observed from both the first surface 21 side and the second surface 22 side. Further, as described above, the double-sided image display panel 20 has light transparency. Therefore, a part of the external light incident on the first surface 21 of the double-sided image display panel 20 is transmitted through the second surface 22 and a part of the external light incident on the second surface 22 of the double-sided image display panel 20 is It penetrates the first surface 21.

  In the present embodiment, the first surface 21 of the double-sided image display panel 20 faces the room S1 side partitioned by the partition member 2, and the second surface 22 of the double-sided image display panel 20 is partitioned by the partition member 2. It faces the outdoor S2 side. In this case, when the image displayed by the two-sided image display panel 20 is observed from the first surface 21, that is, the indoor S1 side, the outdoor S2 can be seen through the background of the image. When an image displayed by the two-sided image display panel 20 is observed from the second surface 22, that is, the outdoor S2 side, the room S1 can be seen through the background of the image. Thus, when the both-side image display panel 20 is viewed from one side of the indoor S1 and the outdoor S2 toward the other side, the spaces S1 and S2 on the other side can be seen through, so that the appearance is good. The display function of the product which is excellent in point and is mainly required for the show window 1 can be secured.

  As shown in FIG. 2, a light control sheet 40 is laminated on the first surface 21 of the double-sided image display panel 20. Therefore, the light control sheet 40 is located closer to the room S1 than the two-sided image display panel 20. On the other hand, a first functional layer 32 is laminated on the second surface 22 of the double-sided image display panel 20. The first functional layer 32 is a layer intended to perform some function. As an example, a hard coat property, an antireflection property, an antistatic property, an antifouling property, or a layer that exhibits these two or more functions can be given. The number of the first functional layers 32 included in the image display board 11 can be any number greater than or equal to one.

  FIG. 3 shows an example of the double-sided image display panel 20. In the example shown in FIG. 3, the both-side image display panel 20 is configured as an organic EL display. As shown in FIG. 3, the double-sided image display panel 20 includes a first substrate 23, a TFT element 28, an insulating film 29, a first electrode 25, an organic EL layer 24, a second electrode, from the outdoor S2 side toward the indoor S1 side. The laminate includes the electrode 26 and the second substrate 27 in this order. The surface of the first substrate 23 facing away from the organic EL layer 24 forms the second surface 22 of the double-sided image display panel 20, and the surface of the second substrate 27 facing away from the organic EL layer 24 faces both-sided image display. A first surface 21 of the panel 20 is formed. In the present embodiment, light generated in the organic EL layer 24 is extracted from both sides of the first surface 21 and the second surface 22 of the both-side image display panel 20.

  One of the first electrode 25 and the second electrode 26 is an anode, and the other of the first electrode 25 and the second electrode 26 is a cathode. A voltage is applied to the organic EL layer 24 sandwiched between the first electrode 25 and the second electrode 26, and holes are injected from the anode into the organic EL layer 24 from the cathode. The organic material forming the organic EL layer 24 is excited by energy generated by the combination of holes and electrons injected into the organic EL layer 24, and the organic EL layer 24 emits light when returning from the excited state to the ground state. The first electrode 25 and the second electrode 26 are made of a transparent conductor. As the transparent conductor, ITO (Indium Tin Oxide), InZnO (Indium Zinc Oxide), or the like can be used.

  The organic EL layer 24 disposed between the pair of electrodes 25 and 26 includes a red organic light emitting element 24R, a green organic light emitting element 24G, and a blue organic light emitting element 24B, each of which constitutes a unit pixel of the double-sided image display panel 20. It is out. The red organic light emitting element 24R, the green organic light emitting element 24G, and the blue organic light emitting element 24B emit red light, green light, and blue light, respectively, by electroluminescence. The material forming each of the organic light emitting elements 24R, 24G, and 24B is not particularly limited as long as it contains a fluorescent organic substance that emits light with a desired color when a predetermined voltage is applied. For example, quinolinol complex, oxazole complex, various laser dyes, polyparaphenylene vinylene and the like are used.

  The TFT element 28 is configured to control a voltage that is selectively applied from the pair of electrodes 25 and 26 to the organic light emitting elements 24R, 24G, and 24B. As the TFT element 28, for example, a polycrystalline silicon TFT known per se can be used. The TFT element 28 is connected to the first electrode 25 through a wiring electrode that penetrates the insulating film 29 formed on the TFT element 28.

  As the insulating film 29, an insulating material is used. For example, the insulating film 29 may be a layer formed by sputtering or vacuum deposition of an inorganic material such as silicon oxide, or a coating film of a resin material such as a photoresist or an acrylic resin.

  In addition, in order to improve the image quality of the image displayed by the double-sided image display panel 20, the double-sided image display panel 20 may further include a color filter layer (not shown) corresponding to the arrangement of the organic EL layers 24. .

  Next, the light control sheet 40 laminated | stacked on the room S1 side of the both-sides image display panel 20 is demonstrated. The light control sheet 40 is a sheet-like member in which the haze value [%] changes. Haze can be measured by a method based on JIS K7136 using a haze meter (manufactured by Murakami Color Research Laboratory, product number: HM-150).

The light control sheet 40 may be formed using various sheet-like members whose haze values change.
However, in the image display device 10 described here, the light control sheet 40 is observed by the double-sided image display panel 20 when the double-sided image display panel 20 is observed from the indoor S1 side to the outdoor S2 side in the high haze state. The displayed image is concealed, and when the two-sided image display panel 20 is observed from the outdoor S2 side toward the indoor S1 side, the indoor S1 is viewed brightly through the background of the image displayed by the double-sided image display panel 20. It is intended to prevent From such a viewpoint, it is preferable that the haze value of the light control sheet 40 in a high haze state is 90% or more. On the other hand, the light control sheet 40 is intended not to impair the visibility of the image formed by the two-sided image display panel 20 in the low haze state. Therefore, the haze value of the light control sheet 40 in the low haze state is preferably 10% or less.

  An example of the light control sheet 40 that enables switching of the haze value is a sheet-like member whose haze value changes depending on whether or not a voltage is applied. 4 to 7 exemplify a polymer network type liquid crystal (PNLC) as a light control sheet capable of switching between a high haze state and a low haze state according to the presence or absence of voltage application. Among them, the light control sheet 40 shown in FIGS. 4 and 5 is a type called a normal mode type, and the light control sheet 40 shown in FIGS. 6 and 7 is a type called a reverse mode type. .

  The normal mode type light control sheet 40 shown in FIGS. 4 and 5 is disposed between a pair of base materials 41 and 42 and a first base material 41 and a second base material 42 which are disposed to face each other. And the first dimming electrode 43 and the second dimming electrode 44 respectively laminated on the base materials 41 and 42 on the corresponding side, the polymer network 48 and the liquid crystal material disposed between the pair of dimming electrodes 43 and 44. 49. The pair of base materials 41 and 42 has visible light permeability, and enables visual recognition of an image formed by the double-sided image display panel 20. For the same reason, the pair of dimming electrodes 43 and 44 also have visible light transparency. The pair of base materials 41 and 42 can be formed using, for example, transparent glass or a resin film. The pair of light control electrodes 43 and 44 can be formed using a transparent conductive material such as indium tin oxide.

  On the other hand, the reverse mode type light control sheet 40 shown in FIGS. 6 and 7 further includes a pair of alignment films 45 and 46 disposed between the pair of light control electrodes 43 and 44. The first alignment film 45 is stacked on the first dimming electrode 43, and the second alignment film 46 is stacked on the second dimming electrode 44. The polymer network 48 and the liquid crystal material 49 are disposed between the pair of alignment films 45 and 46. The alignment films 45 and 46 are so-called vertical alignment films, and align the liquid crystal molecules so that the longitudinal direction of the liquid crystal molecules is along the normal direction of the alignment films 45 and 46.

  The polymer network 48 is formed in a three-dimensional network shape, in other words, a sponge shape. The polymer network 48 has a number of voids formed therein. A liquid crystal material 49 is provided in the gap. The polymer network 48 is formed from a cured product of a resin material. On the other hand, the liquid crystal material 49 is a liquid material containing liquid crystal molecules 50 having a longitudinal direction. The liquid crystal molecule 50 has a refractive index anisotropy corresponding to its shape. That is, the refractive index in the direction orthogonal to the longitudinal direction of the liquid crystal molecules 50 is different from the refractive index in the direction parallel to the longitudinal direction of the liquid crystal molecules 50.

  As an example, in the light control sheet 40 shown in FIGS. 4 to 7, the refractive index of the liquid crystal molecules 50 and the refractive index of the polymer network 48 in the state where the liquid crystal molecules 50 are aligned (FIGS. 5 and 6). Is complete. In this state, the light incident on the light control sheet 40 can pass through the light control sheet 40 without greatly bending the traveling direction. That is, in the state where the liquid crystal molecules 50 are aligned, the light control sheet 40 is in a low haze state. In this state, the light control sheet 40 is in a transparent state, and an image displayed by the both-side image display panel 20 through the light control sheet 40 can be observed.

On the other hand, in the light control sheet 40 shown in FIGS. 4 to 7, in the state where the liquid crystal molecules 50 of the liquid crystal material 49 are not aligned (FIGS. 4 and 7), the orientation of the liquid crystal molecules 50 in the longitudinal direction is Depending on the polymer network 48 located in the vicinity of the liquid crystal molecules 50, it becomes irregular.
In this state, the light incident on the light control sheet 40 is greatly bent in the traveling direction and diffused. That is, in the state where the liquid crystal molecules 50 are not aligned, the light control sheet 40 is in a high haze state. At this time, the light control sheet 40 becomes cloudy, and the both-side image display panel 20 is concealed by the light control sheet 40.

  In the normal mode type light control sheet 40 shown in FIGS. 4 and 5, positive type liquid crystal molecules 50 are used. In the state in which the switch 18 shown in FIG. 4 is opened (in the cut state), the orientation of the liquid crystal molecules 50 is irregular. Therefore, the normal mode type light control sheet 40 can be clouded and conceal the both side image display panels 20 in a state where an electric field is not applied. On the other hand, as shown in FIG. 5, in a state where the switch 18 is closed and a voltage is applied from the voltage source 17 (a state where the switch 18 is turned on), the liquid crystal molecules 50 are aligned. Therefore, the normal mode type light control sheet 40 becomes transparent when a voltage is applied, and the observer observes the image displayed on the both-side image display panel 20 through the transparent light control sheet 40. Can do.

  In the reverse mode type light control sheet 40 shown in FIGS. 6 and 7, negative type liquid crystal molecules 50 are used. In the state in which the switch 18 shown in FIG. 6 is opened (cut state), the liquid crystal molecules 50 are vertically aligned by the alignment action of the pair of alignment films 45 and 46. Therefore, the reverse mode type light control sheet 40 becomes transparent when no voltage is applied, and the observer forms the image on the image forming surface 20a of the double-sided image display panel 20 via the transparent light control sheet 40. The observed image can be observed. On the other hand, as shown in FIG. 7, when the switch 18 is closed (entered), the orientation of the negative liquid crystal molecules 50 becomes irregular. Therefore, the reverse mode type light control sheet 40 can be clouded and conceal the both-side image display panel 20 in a state where an electric field is applied.

  By the way, the liquid crystal material 49 may have a dichroic dye. Similar to the liquid crystal molecules 50, the dichroic dye has a longitudinal direction and changes its direction according to the presence or absence of voltage application. And a dichroic pigment | dye can have a color according to the direction. For this reason, the light control sheet 40 is maintained colorless and transparent in the low haze state, and on the other hand, in the high haze state, the light control sheet 40 can exhibit concealability while having a predetermined color rather than mere white turbidity. Here, the predetermined color can be made the same as the surrounding color where the image display board 11 is installed, in the example shown, the color of the partition member 2 in the case of having a specific color. According to this example, the image display board 11 can be arranged without destroying the color tone of the surrounding environment. That is, the image display board 11 can be disposed while maintaining harmony with the surroundings. As such a dichroic dye, various well-known things as disclosed in, for example, JP-A-2007-009120 and JP-A-2011-246411 can be used.

  The light control sheet 40 as described above is an uncured resin composition that forms a polymer network 48 between the pair of base materials 41 and 42, the light control electrodes 43 and 44, and the alignment films 45 and 46. It is arranged together with the liquid crystal material 49 in a liquid state. From this state, the uncured resin composition is cured. By adjusting the curing speed at this time, the resin composition and the liquid crystal material 49 are each aggregated to some extent. As a result, the liquid crystal material 49 is distributed to some extent, while a three-dimensional network (sponge-like) polymer network 48 is formed. In addition, the resin composition which makes the polymer network 48 can be made into the photocurable resin hardened | cured by irradiating light as an example. When a photocurable resin is used, the dispersion of the liquid crystal material 49 can be adjusted by adjusting the amount of light irradiated by the resin composition.

  Now, returning to FIG. 2, in the present embodiment, the light control sheet 40 is bonded to the first surface 21 of the both-side image display panel 20. In the illustrated example, the light control sheet 40 is bonded to the first surface 21 of the both-side image display panel 20 via the bonding layer 31. That is, the bonding layer 31 is in surface contact with the light control sheet 40 and the both side image display panels 20 between the light control sheet 40 and the both side image display panels 20 to bond them together.

  As the bonding layer 31, various adhesive layers and adhesive layers can be used. However, when the refractive index difference between the bonding layer 31 and the light control sheet 40 or the both-side image display panel 20 increases, the image light from the both-side image display panel 20 is reflected or incident on the image display plate 11. External light is reflected. In this case, problems such as dark images and low contrast occur. Therefore, it is preferable that the bonding layer 31 is appropriately selected so that the difference in refractive index between adjacent portions is small.

  In the example shown in the drawing, the outer contour of the two-sided image display panel 20 and the outer contour of the light control sheet 40 are arranged so as to overlap each other when viewed from the stacking direction of the image display plate 11, in other words, the normal direction of the image display plate 11. The bonding layer 31 covers the entire first surface 21 of the both-side image display panel 20. In this case, the image display board 11 can be provided with a scattering prevention effect against cracking of the first substrate 23 and the second substrate 27 of the double-sided image display panel 20. However, when viewed from the stacking direction of the image display board 11, the outer contour of the both-side image display panel 20 is larger than the outer contour of the light control sheet 40, and the bonding layer 31 is a part of the first surface 21 of the both-side image display panel 20. May be covered. In this case, by partially concealing the both-side image display panel 20 with the light control sheet 40, it contributes to improving the designability of the image display board 11. FIG.

  The second functional layer 33 is laminated on the surface of the light control sheet 40 that is opposite to the both-side image display panel 20. The second functional layer 33 is a layer intended to exhibit some function in the same manner as the first functional layer 32.

  Next, the operation of the image display apparatus 10 as described above will be described with reference to FIGS. FIGS. 8 and 9 are views showing the show window when the light control sheet 40 is maintained in a low haze state and a high haze state, respectively.

  As shown in FIG. 8, when the light control sheet 40 of the image display board 11 is kept in a low haze state, an observer in the room S <b> 1 uses the two-sided image display panel 20 through the transparent light control sheet 40. The formed image can be observed. As described above, the double-sided image display panel 20 has visible light transparency. For this reason, when the both-side image display panel 20 is observed from the indoor S1 side toward the outdoor S2 side, the outdoor S2 is observed in the background of the image displayed by the double-side image display panel 20. Especially during the daytime, both the indoor S1 and the outdoor S2 have a certain level of brightness. Therefore, even if the outdoor S2 is observed in the background of the image displayed by the double-sided image display panel 20, the image is greatly deteriorated. There is no. Rather, the design of the image display board 11 can be improved by allowing the outdoor S2 to be seen through as the background of the image displayed by the double-sided image display panel 20.

  On the other hand, the observer in the outdoor S2 observes the indoor S1 through the transparent light control sheet 40 in the background of the image formed by the double-sided image display panel 20. As described above, especially in the daytime period, both the indoor S1 and the outdoor S2 have a certain level of brightness. Therefore, even if the indoor S1 is observed in the background of the image displayed by the double-sided image display panel 20, the image is displayed. Will not deteriorate significantly. Rather, the design of the image display board 11 can be enhanced by allowing the room S1 to be seen through as the background of the image displayed by the double-sided image display panel 20. Therefore, by keeping the light control sheet 40 in a low haze state during the daytime, the images displayed by the two-sided image display panel 20 are excellent from both the first surface 21 side and the second surface 22 side. It can be observed with a good design.

  On the other hand, as shown in FIG. 9, when the light control sheet 40 is maintained in a high haze state, the light control sheet 40 scatters transmitted light and becomes cloudy. Since the light control sheet 40 is cloudy, it is difficult for an observer in the room S1 to observe the two-sided image display panel 20 through the light control sheet 40. On the other hand, the observer who is outside S2 observes the white turbid light control sheet 40 as the background of the image formed by the double-sided image display panel 20. That is, when the both-side image display panel 20 is observed from the outdoor S2 side toward the indoor S1, it is possible to prevent the indoor S1 from being observed as the background of the image formed by the both-side image display panel 20. In particular, in the night time zone, the indoor S1 is bright while the outdoor S2 is dark. In this case, as a background of the image displayed by the double-sided image display panel 20, the dimmed sheet 40 that is cloudy rather than the dazzling room S1 is observed, thereby preventing the image from being greatly deteriorated. Therefore, in the night time zone, by keeping the light control sheet 40 in a high haze state, when the both-side image display panel 20 is observed from the indoor S1 side toward the outdoor S2 side, The two-sided image display panel 20 is concealed, and when the two-sided image display panel 20 is observed from the outdoor S2 side toward the indoor S1 side, the background of the image displayed by the double-sided image display panel 20 is not the bright room S1. The visibility of the image can be ensured by observing the white turbid light control sheet 40.

  As described above, according to the present embodiment, the image display board 11 is used by being incorporated in the partition member 2 that partitions the two spaces S1 and S2, and the image display board 11 is the first surface facing each other. 21 and a second image display panel 20 having a second surface 22, and a light control sheet 40 laminated on the image display panel 20, the image display panel 20 having visible light transmittance, An image displayed by the image display panel 20 is observed from both the first surface 21 side and the second surface 22 side, and the light control sheet 40 switches between a high haze state and a low haze state. It is possible. According to such a form, when the light control sheet 40 is kept in a low haze state, the light control sheet 40 becomes transparent. Since the light control sheet 40 is transparent, the image displayed by the double-sided image display panel 20 can be observed from both the first surface 21 side and the second surface 22 side. On the other hand, when the light control sheet 40 is maintained in a high haze state, the light control sheet 40 scatters transmitted light and becomes cloudy. Since the light control sheet 40 is cloudy, when the both-side image display panel 20 is observed from one space S2 side opposite to the light control sheet 40 toward the other space S1, the both-side image display panel 20 The white light control sheet 40 is observed in the background of the displayed image. This prevents the observation of another space S1 that can degrade the image as the background of the image displayed by the double-sided image display panel 20, and suppresses degradation of the image displayed by the double-sided image display panel 20. Can do. On the other hand, when the both-side image display panel 20 is observed from the other space S1 side, which is the light control sheet 40 side, toward the one space S2 side, the images displayed on the both-side image display panel 20 by the white light control sheet 40 and One space S2 can be concealed. In this way, in the image display device 10 that is used together with the partition member 2 that partitions the two spaces S1 and S2, and that can display the displayed image from either side of the two spaces S1 and S2, the two spaces S1 are displayed. , S2 can suppress image degradation that may occur when an image is observed from one space S2 side toward the other space S1 side.

  Further, according to the image display device 10 of the present embodiment, in a state where the light control sheet 40 is kept in the low haze state, the direction from one side of the one space S2 and the other space S1 to the other side. When the two-sided image display panel 20 is viewed, the other spaces S1 and S2 can be seen through. For this reason, it is excellent in the point of appearance and the display function of the goods mainly requested | required of the show window 1 can be ensured.

  In particular, according to the present embodiment, the first surface 21 of the both-side image display panel 20 faces the room S1 side partitioned by the partition member 2, and the second surface 22 of the both-side image display panel 20 faces the partition member 2. The image display board 11 is incorporated in the partition member 2 so as to face the partitioned outdoor S2 side, and the light control sheet 40 is laminated on the first surface 21 of the both-side image display panel 20. Yes. In the daytime, both the indoor S1 and the outdoor S2 have a certain level of brightness. Therefore, by keeping the light control sheet 40 in a low haze state, an image displayed by the double-sided image display panel 20 is displayed on the first side. It can be observed with an excellent design from both the 21 side and the second surface 22 side. On the other hand, in the night time zone, it can be assumed that the room S1 is bright while the outdoor S2 is dark. In this case, when the both-side image display panel 20 is observed from the outdoor S2 side toward the indoor S1 side, the room S1 is brightly observed as the background of the image displayed by the both-side image display panel 20, and the image may be greatly deteriorated. There is. In this regard, according to the present embodiment, the light control sheet 40 is laminated on the first surface 21 of the double-sided image display panel 20, that is, the room S1 side. For this reason, by keeping the light control sheet 40 in a high haze state, not the bright room S1 but the white light control sheet 40 is observed as the background of the image displayed by the both-side image display panel 20. Accordingly, it is possible to prevent the image from being greatly deteriorated by avoiding that the room S1 is observed brightly as the background of the image displayed by the both-side image display panel 20. On the other hand, when the two-sided image display panel 20 is observed from the indoor S1 side toward the outdoor S2 side, the two-sided image display panel 20 and the outdoor S2 can be concealed by the white turbid light control sheet 40. In this manner, the image display device 10 that can suppress image degradation that may occur when an image is observed from the outdoor S2 side toward the indoor S1 side is realized.

  In addition, according to the present embodiment, the light control sheet 40 adopts a reverse mode type haze switching method in which a low haze state occurs when no voltage is applied and a high haze state occurs when a voltage is applied. doing. In this case, the light control sheet 40 becomes transparent in a situation where electricity cannot be supplied, for example, during a power failure. For this reason, even in a situation where electricity cannot be supplied, for example, at the time of a power failure, the situation in the two spaces S1 and S2 partitioned by the partition member 2 is quickly grasped via the transparent light control sheet 40. be able to.

≪Modification≫
Note that various modifications can be made to the above-described embodiment. Hereinafter, an example of modification will be described with reference to the drawings. In the following description and the drawings used in the following description, the same reference numerals as those used for the corresponding parts in the above embodiment are used for the parts that can be configured in the same manner as in the above embodiment. A duplicate description is omitted.

  In the above-described embodiment, as illustrated in FIG. 2, the light control sheet 40 is illustrated as being laminated on the first surface 21 of the both-side image display panel 20, that is, the room S <b> 1 side. The form is not limited to the arrangement described above. 10 and 11 show another form of the light control sheet 40, and FIGS. 12 and 13 show still another form. In the example shown in FIGS. 10 and 11, the light control sheet 40 is laminated on the second surface 22 of the double-sided image display panel 20, that is, the outdoor S2 side. In this case, as shown in FIG. 10, the light control sheet 40 becomes transparent by keeping the light control sheet 40 in a low haze state. Since the light control sheet 40 is transparent, the image displayed by the double-sided image display panel 20 can be observed from both the first surface 21 side and the second surface 22 side. On the other hand, as shown in FIG. 11, by keeping the light control sheet 40 in a high haze state, when the both-side image display panels 20 are observed from the outdoor S2 side toward the indoor S1 side, The image displayed by the both-side image display panel 20 and the room S1 can be concealed. Thereby, it can be prevented that the indoor S1 is unintentionally observed from the outdoor S2 side. On the other hand, when the both-side image display panel 20 is observed from the indoor S1 side toward the outdoor S2 side, the white turbid dimming sheet 40 is observed as the background of the image displayed by the both-side image display panel 20. Thereby, the said image can be observed, avoiding that outdoor S2 is observed as a background of the image displayed by the both-sides image display panel 20. FIG. Therefore, according to such an image display device 10, while preventing the unintended observation of the room S1 from the outdoor S2 side, the double-sided image display panel 20 does not appear from the indoor S1 side as the background. Thus, the image display device 10 capable of observing the image displayed is realized.

  On the other hand, the example shown in FIGS. 12 and 13 further includes an additional light control sheet 60 laminated on the both-side image display panel 20, and the both-side image display panel 20 is interposed between the light control sheet 40 and the additional light control sheet 60. Is arranged. The configuration of the additional light control sheet 60 is configured in substantially the same manner as the light control sheet 40 described above. According to such a form, by keeping the light control sheet 40 and the additional light control sheet 60 in a low haze state, both the light control sheet 40 and the additional light control sheet 60 become transparent. Thereby, the image displayed by the both-sides image display panel 20 can be observed from both the 1st surface 21 side and the 2nd surface 22 side.

  On the other hand, as shown in FIG. 12, by keeping the light control sheet 40 in a high haze state and keeping the additional light control sheet 60 in a low haze state, the light control sheet 40 becomes cloudy and the additional light control sheet 60 becomes transparent. . Thereby, especially at night, when the both-side image display panel 20 is observed from the outdoor S2 side toward the indoor S1 side, the dimming sheet 40 that is cloudy instead of the bright indoor S1 as the background of the image displayed by the double-side image display panel 20 is displayed. Is observed. Thereby, it can avoid that indoor S1 is observed brightly as a background of the image displayed by the both-sides image display panel 20, and can prevent that an image deteriorates largely. On the other hand, when the both-side image display panel 20 is observed from the indoor S1 side to the outdoor S2 side, the image displayed by the both-side image display panel 20 can be concealed by the white turbid light control sheet 40.

  Moreover, as shown in FIG. 13, by keeping the light control sheet 40 in a low haze state and keeping the additional light control sheet 60 in a high haze state, the light control sheet 40 becomes transparent and the additional light control sheet 60 becomes cloudy. Thereby, when the both-side image display panel 20 is observed from the outdoor S2 side toward the indoor S1 side, the image displayed on the both-side image display panel 20 and the room S1 are concealed by the white light-added additional light control sheet 60. Can do. Thereby, it can be prevented that the indoor S1 is unintentionally observed from the outdoor S2 side. On the other hand, when the two-sided image display panel 20 is observed from the indoor S1 side toward the outdoor S2 side, an additional light control sheet 60 that is cloudy is observed as the background of the image displayed by the double-sided image display panel 20 instead of the outdoor S2. The Thereby, the said image can be observed, avoiding that outdoor S2 is observed as a background of the image displayed by the both-sides image display panel 20. FIG.

  In the above-described embodiment, as shown in FIGS. 2 and 10, the image display board 11 includes a single light control sheet 40 laminated on one surface 21, 22 side of the both-side image display panel 20. Although the example which has is shown, it is not restricted to this. The image display board 11 may have two or more light control sheets 40 on one surface 21, 22 side of the both-side image display panel 20. By providing the plurality of light control sheets 40, the concealability in the high haze state can be significantly improved. On the other hand, when using a plurality of light control sheets 40, it is not necessary to increase the voltage at the time of switching the haze state as compared with the case where one thick light control sheet is used. Therefore, it is possible to use the image display device 10 capable of achieving the above-described excellent operational effects with a low voltage and a safe and excellent handling property.

  In the above-described embodiment, the first surface 21 and the second surface 22 of the double-sided image display panel 20 are not limited to the example formed of a flat surface, and may be curved surfaces. In this case, when the pair of base materials 41 and 42 of the light control sheet 40 is formed of a resin film, the light control sheet 40 has flexibility. Therefore, the light control sheet 40 can be curvedly disposed on the first surface 21 in a state where the curved first surface 21 of the both-side image display panel 20 is surface-bonded or in surface contact. In such an image display device 10, the entire image display board 11 is curved. Therefore, the curved image display board 11 is disposed on the curved partition member 2 or is fitted into the curved partition member 2 so that the surface of the partition member 2 and the surface of the image display board 11 are flush with each other. Can be arranged as follows. Therefore, according to such an image display apparatus 10, the design of the image display apparatus 10 can be improved, and further, the texture of the area where the image display apparatus 10 is arranged can be improved to give a high-class feeling. It becomes possible.

  Further, in the above-described embodiment, as shown in FIG. 4, the example in which the both-side image display panel 20 is composed of an organic EL display is shown, but the form of the both-side image display panel 20 is not limited to such an example. The double-sided image display panel 20 has visible light transparency, and an image displayed by the double-sided image display panel 20 can be observed from both the first surface 21 side and the second surface 22 side. If it is a panel, it is possible to employ | adopt various forms. As another example of the double-sided image display panel 20, for example, the double-sided image display panel 20 includes a liquid crystal image display display, a plasma display, a transflective screen, a holographic screen, and the like. As an example, FIGS. 14 and 15 show an example in which the double-sided image display panel 20 is formed of a translucent screen.

  As shown in FIGS. 14 and 15, the image display device 10 further includes a video projector 70 that projects video light from the second surface 22 side of the double-sided image display panel 20 on the double-sided image display panel 20. . The light control sheet 40 is laminated on the first surface 21 of the double-sided image display panel 20. Therefore, the video projector 70 projects the video light on the double-sided image display panel 20 from the opposite side of the light control sheet 40 with the double-sided image display panel 20 as a reference.

  In the example shown in FIGS. 14 and 15, the double-sided image display panel 20 is composed of a transflective screen having visible light transparency. In this case, the both-side image display panel 20 reflects a part of the video light projected from the video projector 70 and transmits a part of the video light. Therefore, the image displayed by the image light is observed from both the first surface 21 side and the second surface 22 side. Such a transflective screen can be realized, for example, by using a transflective screen known per se with the haze value adjusted as desired.

  According to such a form, in the time zone during the day, both the indoor S1 and the outdoor S2 have a certain level of brightness, so as shown in FIG. 14, by keeping the light control sheet 40 in a low haze state, Images projected from the video projector 70 and displayed by the two-sided image display panel 20 can be observed from both the first surface 21 side and the second surface 22 side. On the other hand, in the night time zone, it can be assumed that the room S1 is bright while the outdoor S2 is dark. In this case, when the both-side image display panel 20 is observed from the outdoor S2 side toward the indoor S1 side, the room S1 is brightly observed as the background of the image displayed by the both-side image display panel 20, and the image may be greatly deteriorated. There is. In this regard, according to the present embodiment, the light control sheet 40 is laminated on the first surface 21 of the double-sided image display panel 20, and the video projector 70 displays video on the double-sided image display panel 20 from the second surface 22 side. Project. For this reason, as shown in FIG. 15, by keeping the light control sheet 40 in a high haze state, the background of the image projected from the video projector 70 and displayed by the two-sided image display panel 20 becomes cloudy instead of the bright room S1. The light control sheet 40 is observed. Accordingly, it is possible to prevent the image from being greatly deteriorated by avoiding that the room S1 is observed brightly as the background of the image displayed by the both-side image display panel 20. On the other hand, when the both-side image display panel 20 is observed from the indoor S1 side toward the outdoor S2 side, the two-sided image display panel 20 can be concealed by the white light control sheet 40. In this manner, the image display device 10 that can suppress image degradation that may occur when an image is observed from the outdoor S2 side toward the indoor S1 side is realized.

  In addition, although the some modification with respect to embodiment mentioned above was demonstrated above, naturally, it is also possible to apply combining several modifications suitably.

DESCRIPTION OF SYMBOLS 1 Show window 2 Partition member 10 Image display apparatus 11 Image display board 20 Both-sides image display panel 21 1st surface 22 2nd surface 24 Organic EL layer 25 1st electrode 26 2nd electrode 40 Light control sheet 48 Polymer network 49 Liquid crystal material 50 Liquid crystal molecule 60 Additional light control sheet 70 Video projector S1 Indoor S2 Outdoor

Claims (8)

An image display board used by being incorporated in a partition member that partitions two spaces,
The image display board has a first surface and a second image display panel having a second surface facing the first surface;
A light control sheet laminated on the both-side image display panel,
The both-side image display panel has visible light transparency, and an image displayed by the both-side image display panel is observed from both the first surface side and the second surface side,
The light control sheet is an image display device capable of switching between a high haze state and a low haze state. The first surface of the double-sided image display panel faces the indoor side partitioned by the partition member, and the second surface of the double-sided image display panel faces the outdoor side partitioned by the partition member. , The image display board is incorporated in the partition member,
The image display device according to claim 1, wherein the light control sheet is laminated on the first surface of the double-sided image display panel. The first surface of the double-sided image display panel faces the indoor side partitioned by the partition member, and the second surface of the double-sided image display panel faces the outdoor side partitioned by the partition member. , The image display board is incorporated in the partition member,
The image display device according to claim 1, wherein the light control sheet is laminated on the second surface of the double-sided image display panel. Further comprising an additional light control sheet laminated on the both-side image display panel,
The image display apparatus according to claim 1, wherein the both-side image display panel is disposed between the light control sheet and the additional light control sheet.   The image display device according to claim 1, wherein the light control sheet is in a low haze state when no voltage is applied, and is in a high haze state when a voltage is applied.   The light control sheet includes a polymer network made of a resin formed in a three-dimensional network, and liquid crystal molecules and dichroic dyes located in voids formed inside the polymer network. The image display device according to any one of 1 to 5. The two-sided image display panel includes an organic light emitting layer,
A first electrode formed on one side of the organic light emitting layer using a transparent conductor;
The image display apparatus according to claim 1, further comprising a second electrode formed using a transparent conductor on the other side of the organic light emitting layer. The light control sheet is laminated on the first surface of the both-side image display panel,
The double-sided image display panel further includes a video projector that projects video light from the second surface side of the double-sided image display panel,
The double-sided image display panel reflects and transmits video light projected from the video projector, and an image displayed by the video light is observed from both the first surface side and the second surface side. The image display device according to claim 1, wherein the image display device is configured as described above.

Images