JP5648721B2 - Electronics - Google Patents

Description

  The present invention relates to an electronic device including a display unit.

  The electronic device is configured such that the coordinate input position detection tablet can be stored on the lower surface of the keyboard member, can detect the position of the pressed key, and is arranged so that the coordinate input position detection tablet covers the display surface of the display device. A portable computer that can be used is also known (Patent Document 1).

  In addition, an input device and display (such as a foldable thin keyboard or flat input device) that can be miniaturized, or that can be combined and expanded while the display is divided and stacked, An information processing apparatus including a display device has been proposed (Patent Document 2).

JP-A-6-208425 JP, 2001-75938, A Page 6 Paragraph [0051], Paragraph [0052]

  The information processing apparatus disclosed in Patent Document 2 does not disclose more specific contents about a display that can be divided but can be reconnected. In the field of portable information terminal devices, there is a problem that further miniaturization and thinning are required.

  SUMMARY An advantage of some aspects of the invention is to solve at least a part of the problems described above, and the invention can be implemented as the following forms or application examples.

  Application Example 1 An electronic apparatus according to this application example includes a sheet-like display unit, a housing, an input unit provided on the first surface of the housing, and a second different from the first surface. And a storage portion provided inside the housing at a position overlapping the first surface, and the display portion is stored in the storage portion via the opening portion. It is characterized by being.

  According to this configuration, it is possible to provide a small planar electronic device that is stored in the storage unit when the display unit is not used, and is pulled out from the storage unit when the display unit is used.

Application Example 2 In the electronic device according to the application example, the display unit includes a first display unit and a second display unit, and the first display unit and the second display unit include: It is good also as mutually accumulating and accommodating in the said accommodating part.
According to this configuration, it is possible to propose a new usage state in which information such as different images and characters is displayed on a plurality of display units, and only the display unit displaying the information to be confirmed is pulled out from the storage unit and used.

Application Example 3 In the electronic device according to the application example, the first display unit and the second display unit may be stored in the storage unit so as not to overlap each other.
According to this configuration, it is possible to propose a new usage state in which, for example, information such as different images and characters is displayed on a plurality of display units, and the plurality of display units are used while being viewed side by side.

Application Example 4 In the electronic device of the application example described above, the first display unit and the second display unit may adopt the same driving method.
According to this configuration, at least a part of the drive circuit for driving the plurality of display units can be shared, so that the configuration of the drive circuit can be simplified even if a plurality of display units are provided.

Application Example 5 In the electronic device according to the application example described above, different driving methods may be employed for the first display unit and the second display unit.
According to this configuration, the configuration of a drive circuit for driving a plurality of display units may be complicated. However, for example, character information is displayed using one display unit as a light-receiving type, and the other display unit is displayed. It is possible to propose a use state of the display unit that gives priority to visibility, such as displaying self-luminous type image information that requires a response speed such as a moving image.

Application Example 6 In the electronic device according to the application example described above, it is preferable that at least one of the first display unit and the second display unit can perform color display.
According to this configuration, it is possible to provide a small electronic device that can display image information in which an actual color is reproduced.

Application Example 7 In the electronic device according to the application example described above, it is preferable that the first display unit or the second display unit capable of performing color display is an organic electroluminescence panel.
According to this configuration, by using a self-luminous organic electroluminescence panel, the thickness of the display unit can be reduced as compared with, for example, a light receiving display panel that requires a lighting device. Therefore, the thickness of the housing can be reduced to provide a thin electronic device having a display function.

  Application Example 8 Another electronic device according to this application example includes a sheet-like flexible display unit, a housing, an input unit provided on a first surface of the housing, and the first electronic device. An opening portion on a second surface different from the first surface and a storage portion provided inside the housing at a position overlapping the first surface, and the display portion passes through the opening portion. And stored in the storage unit.

  According to this configuration, the display unit has a sheet shape that is thin enough to have flexibility. When the display unit is not used, the display unit is stored in the storage unit. When the display unit is used, the display unit is pulled out from the storage unit. In addition, a small and thin electronic device can be provided.

Application Example 9 In another electronic device according to the application example described above, the display unit may be folded and stored in the storage unit.
According to this configuration, when the display unit is used, the display unit is pulled out from the storage unit, and the folded state is returned to the original state. In other words, a display unit having a display surface larger than the plane area of the housing can be employed. That is, a small electronic device can be provided even if a display unit that is larger than the input unit in plan view is provided.

Application Example 10 In another electronic device according to the application example described above, the housing includes a folding mechanism that can be folded into at least two, and the display unit housed in the housing unit is bent along the folding mechanism. It is characterized by being able to.
According to this configuration, the display unit has flexibility, and can be housed in the housing unit even when the housing is folded. That is, a smaller electronic device can be provided even if the display portion is provided.

Application Example 11 In another electronic device according to the application example described above, it is preferable that the folding mechanism is provided in the casing so that a radius of curvature is 4 mm or more and the storage portion is bent.
According to this configuration, even when the casing is folded by the folding mechanism in a state where the display unit is stored in the storage unit, the display unit is folded with a curvature that does not cause a problem, and thus the display unit can be prevented from being damaged.

Application Example 12 In another electronic device according to the application example described above, the casing includes a third surface that faces the first surface, and the folding mechanism so that the first surface is on the inner side. The third surface may be provided with at least one opening that opens at least one part of the display unit.
According to this configuration, it is not necessary to open the housing from the folded state, and at least a part of the information displayed on the display unit can be confirmed through the opening.

Application Example 13 In another electronic device according to the application example described above, the display unit is preferably an organic electroluminescence panel.
According to this configuration, by using a self-luminous organic electroluminescence panel, a thinner electronic device can be realized as compared with, for example, a light-receiving display panel that requires a lighting device.

Application Example 14 In the electronic device according to the application example described above, the input unit may be a keyboard.
According to this configuration, it is possible to provide an electronic device that can easily input various information in spite of its small size.

(A) is a perspective view which shows the personal computer as an electronic device of 1st Embodiment, (b) is a schematic sectional drawing cut | disconnected by the AA 'line of (a). The schematic plan view which shows the structure of a display part. The schematic sectional drawing which shows the structure of a display part. (A) is a schematic perspective view which shows the structure of the bottom face side of a personal computer, (b) is a schematic side view which shows the state at the time of use of a personal computer. (A) is a schematic perspective view which shows the personal computer as an electronic device of 2nd Embodiment, (b) is a schematic sectional drawing of (a). The schematic perspective view which shows the personal computer as an electronic device of 3rd Embodiment. The schematic plan view which shows the other display part. The schematic sectional drawing which shows the structure of the other display part cut | disconnected by CC 'line of FIG. (A) is a schematic perspective view which shows the personal computer as an electronic device of 4th Embodiment, The same figure (b) is a schematic sectional drawing. The schematic perspective view which shows the personal computer as an electronic device of 5th Embodiment. (A) is a schematic perspective view which shows the personal computer as an electronic device of 6th Embodiment, (b) is a schematic perspective view which shows the personal computer of the folded state, (c) is DD 'of (b). The schematic sectional drawing cut with the line. The schematic perspective view which shows the personal computer as an electronic device of 7th Embodiment. The schematic plan view which shows the display part of a modification. 14 is a schematic cross-sectional view taken along line EE ′ of FIG. The schematic perspective view which shows the portable telephone as an electronic device of a modification.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, embodiments of the invention will be described with reference to the drawings. Note that the drawings to be used are appropriately enlarged or reduced so that the part to be described can be recognized.

(First embodiment)
A personal computer is taken as an example of the electronic apparatus of this embodiment, and will be described with reference to FIGS. 1A is a perspective view showing a personal computer as an electronic apparatus according to the first embodiment, FIG. 1B is a schematic cross-sectional view taken along the line AA ′ of FIG. 1A, and FIG. 3 is a schematic plan view showing the structure of the display unit, FIG. 4A is a schematic perspective view showing the configuration of the bottom side of the personal computer, and FIG. It is a schematic side view which shows the state at the time of use.

  As shown in FIG. 1A, a personal computer 1000 as an electronic apparatus according to this embodiment is a so-called notebook information processing apparatus (computer) that can be carried. Therefore, the personal computer 1000 is hereinafter referred to as a notebook PC 1000 for explanation.

The notebook PC 1000 includes a main body 131 as a housing in which input units such as a keyboard 132 and a mouse pad 133 are provided on an upper surface 131a as a first surface, and a sheet-like display unit 100. A power switch (power SW) 134 is provided on a side surface 131d on the front side of the main body 131 at a location closer to the right side than the center.
The keyboard 132 has a part in which function keys 132a for exhibiting a specific function are arranged and a part in which input keys 132b such as letters and numbers are arranged.

  As shown in FIG. 1B, in the main body 131, an information processing function such as a CPU or a memory is provided below the upper surface 131a (inside the main body 131) provided with input parts such as a keyboard 132 and a mouse pad 133. A main board 136 is provided as a circuit board including a display control unit of the display unit 100 and the like. A storage unit 135 for storing the display unit 100 is provided in the lower layer of the main board 136, and a power supply unit 137 and a media unit 138 are provided in the lower layer.

The storage unit 135 has a slit-shaped opening 135a on the side surface 131b side as the second surface facing the side surface 131d, and the display unit 100 is stored along the main board 136 via the opening 135a. Space. In other words, it is provided inside the main body 131 at a position overlapping the upper surface 131a.
The display unit 100 is stored in the storage unit 135 with the display area 110a (sometimes referred to as the display surface 110a) facing upward, and is connected to the main board 136 via the relay board 120A and the relay cable 121. ing. The relay cable 121 has a length that allows the display unit 100 to be used by being pulled out of the storage unit 135, and is provided in the storage unit 135 in an extendable and contractible state.
An elastic member 139 such as a spring is provided at the end of the storage unit 135 opposite to the opening 135a to urge the display unit 100 and push it toward the opening 135a when the display unit 100 is stored. Yes.
The storage unit 135 temporarily holds the stored display unit 100 in a state where the elastic member 139 is compressed, and applies a force to the display unit 100 in the direction of compressing the elastic member 139 again. A loading / unloading mechanism (not shown) for releasing the state is provided.

  The power supply unit 137 is, for example, a lithium ion secondary battery, and is attached in a detachable state from the bottom surface 131 c side of the main body 131.

  The media unit 138 is, for example, a hard disk drive (HDD) or an optical disk drive.

  As shown in FIG. 2, the display unit 100 includes a display panel 110 having a rectangular outer shape. The display panel 110 has a display area 110a provided with a plurality of pixels 15 capable of displaying three colors, R (red), G (green), B (blue). The plurality of pixels 15 has a so-called stripe arrangement in which pixels 15 of the same color among the three colors are arranged in the direction along the short side in the display area 110a. Note that the arrangement of the pixels 15 is not limited to this.

  A plurality of terminal portions 10 a provided along the long side of the display panel 110 are connected to a display control unit (provided on the main board 136) that controls the display panel 110. Three) relay boards 120A, 120B, and 120C are mounted. The relay boards 120A, 120B, and 120C are, for example, flexible circuit boards (FPCs), and those on which electronic components such as driver ICs that constitute a part of the drive circuit that drives the display panel 110 are mounted are used. can do.

  As shown in FIG. 3, the display unit 100 has a structure in which a display panel 110 is sandwiched and laminated between a resin film 40A and a resin film 40B.

  The display panel 110 includes an element substrate 10 having an organic electroluminescence element 11 (hereinafter referred to as an organic EL element 11) as a light emitting element provided for each pixel 15, and a coloring provided corresponding to each pixel 15. A sealing substrate 20 having a color filter 21 having a layer is joined by a sealing material 30 through a sealing resin 35 having visible light permeability. The organic EL element 11 emits white light, and has a so-called top emission structure that enables color display when the white light passes through the color filter 21 and is emitted from the sealing substrate 20 side.

  The element substrate 10 is provided with a drive circuit (not shown) for driving the organic EL element 11 for each pixel 15, and the organic EL element 11 is formed on the drive circuit. The driving circuit includes a switching element such as a thin film transistor, wiring connected to the switching element, and the like, and a known configuration can be adopted.

  In the self-luminous display panel 110 having the light emitting elements as described above, the element substrate 10 can be a transparent substrate such as glass or resin, or an opaque substrate such as silicon or ceramic. On the other hand, the sealing substrate 20 on the side where light emitted from the organic EL element 11 is taken out is made of a transparent substrate such as glass or resin.

In the present embodiment, a transparent glass substrate is used for both the element substrate 10 and the sealing substrate 20, and after the element substrate 10 and the sealing substrate 20 are joined, the surfaces thereof are subjected to mechanical or chemical polishing. Thus, processing for reducing the thickness of each substrate is performed. For example, the original thickness of each substrate is approximately 0.5 mm, and the thickness after bonding is approximately 1.0 mm. Then, thinning processing (for example, CMP processing) is performed so that the total thickness becomes approximately 300 μm or less. Therefore, the display panel 110 itself has a certain degree of flexibility.
Therefore, the display panel 110 itself needs to be weak against external impact and to prevent scattering when it is damaged by the impact. In addition, since the organic EL element 11 is used as the light emitting element, the resin film 40A having the same flexibility is used for the purpose of preventing the entry of moisture and the like from the outside by securing a sealed structure and securing a longer light emitting life. Laminated with 40B.

The resin film 40A used for laminating has an adhesive layer 42A formed by uniformly applying an adhesive on one surface of a transparent base film 41A having low gas permeability. Similarly, the resin film 40B has an adhesive layer 42B formed by uniformly applying a transparent adhesive on one surface of a transparent base film 41B having low gas permeability.
As base film 41A, 41B, the film which consists of resin, such as polyester, such as PET (polyethylene terephthalate) and PEN (polyethylene naphthalate), PES (polyether sulfone), PC (polycarbonate), PE (polyethylene), for example is mentioned. It is done. Its thickness is about 50 μm.
As the adhesive, for example, a thermosetting epoxy resin can be used. Each of the adhesive layers 42A and 42B has a thickness of about 20 μm. Moreover, it is good also as an adhesive which has adhesiveness. Repair properties can be realized by using an adhesive.

  The display panel 110 is sandwiched so that the adhesive layers 42A and 42B face each other, and the two resin films 40A and 40B are laminated. Further, in order to ensure moisture resistance of the organic EL element 11, in other words, sealing properties, the spaces 43 and 44 that may be generated around the display panel 110 during lamination are filled with a sealing resin. . In other words, the display panel 110 is laminated together with the sealing resin, and a part 45 of the protruding sealing resin is raised on the end surfaces of the resin films 40A and 40B. The sealing resin may not be transparent.

  A relay substrate 120A is mounted on the terminal portion 10a of the element substrate 10 using an anisotropic conductive film (ACF) 7A. The surface excluding the connecting portion of the relay substrate 120A is covered with an insulating protective film such as polyimide or solder resist to ensure the adhesiveness between the adhesive layers 42A and 42B of the resin films 40A and 40B and the protective film. In order to do this, intermediate adhesive layers 8A and 9A showing adhesiveness are provided at both interfaces.

  The display unit 100 having such a configuration has a so-called sheet shape (plate shape), the thickness thereof is less than about 500 μm, and the display surface 110 a can be curved following a certain amount of external stress.

Note that the configuration of the display unit 100 is not limited to this. For example, since the display panel 110 includes the organic EL element 11 having a top emission structure, it is not necessary to extract light from the element substrate 10 side. Therefore, the resin film 40B covering the element substrate 10 side does not need to be transparent, and may be an opaque resin film provided with a heat conductor such as a metal thin film that can be laminated. It is possible to dissipate heat generated by light emission of the organic EL element 11 by the heat conductor.
Hereinafter, the display unit 100 including such a display panel 110 may be collectively referred to as an organic electroluminescence panel (organic EL panel).

As shown in FIG. 4A, the storage unit 135 has an opening 135a on a side surface 131b (second surface) along the longitudinal direction of the main body 131, and slightly protrudes outward from the opening 135a. In this state, the display unit 100 is stored in the storage unit 135.
Similarly, a connection terminal group of peripheral devices such as a mouse connection terminal 143 and a USB connection terminal 144 and a media opening 138a are provided on a side surface 131e along the short direction of the main body 131.
The bottom surface 131c of the main body 131 has a power supply unit 137 removably attached to a recess 137a provided slightly below the center. In addition, a substantially rectangular first support 141 attached to a pair of recesses 141a and 141b provided at both ends along the long side on the side surface 131b side where the storage part 135 opens, and a pair of recesses 141a. , 141b and a quadrangular second support portion 142 attached to a recess 142a.

  The first support part 141 and the second support part 142 are each pivotally supported along the long side of the bottom surface 131c, and have a structure that can be rotated around the axis.

  As shown in FIG. 4B, when the notebook PC 1000 is used on a table or the like, the pair of first support portions 141 are rotated and stopped at a predetermined position, thereby tilting the main body 131 at a predetermined angle. be able to. That is, the first support portion 141 is a leg portion that supports one side of the main body 131.

  Similarly, by rotating the second support part 142 and stopping it at a predetermined position, the display part 100 pulled out from the storage part 135 can be fixed at an easily visible angle and supported from the back side. ing. The second support part 142 supports the display unit 100 in a larger area and wider than the first support part 141, and the support angle of the display unit 100 can be adjusted by changing the angle at the time of rotation.

  According to such a notebook PC 1000, it has the thin sheet-like display unit 100 having a thickness of less than 500 μm, and can be stored in the storage unit 135 provided inside the main body 131 when the display unit 100 is not used. . Therefore, for example, a notebook PC 1000 that is smaller and thinner than a case where a liquid crystal panel having a lighting device as a display unit is attached to the main body 131 via a hinge and is folded to face the input unit is provided. Can do.

  Further, even if the display unit 100 is a thin sheet, it can be stored in the storage unit 135 when not in use, so that the display unit 100 can be prevented from being damaged even if it receives an external impact due to dropping or the like.

  From the viewpoint of preventing the display unit 100 from being damaged, the display unit 100 can be held in a state where it can be embedded in the storage unit 135, and a configuration in which, for example, a button or the like capable of operating the above-described insertion / removal mechanism is provided on the side surface 131e of the main body 131. Also good.

  Hereinafter, other embodiments of a personal computer as an electronic apparatus will be described with reference to the drawings.

(Second Embodiment)
FIG. 5A is a schematic perspective view showing a personal computer as an electronic apparatus according to the second embodiment, and FIG. 5B is a schematic cross-sectional view of FIG. In addition, the description of the part which has the same structure as 1st Embodiment is abbreviate | omitted by using the same code | symbol.

  As shown in FIG. 5A, a notebook PC 1100, which is a personal computer according to the present embodiment, includes a main body 131 as a housing in which input portions such as a keyboard 132 and a mouse pad 133 are provided on an upper surface 131a, and a sheet-like shape. Similar to the display unit 100A as the first display unit, it has a display unit 100B as the sheet-like second display unit. That is, it has a plurality (two) of display units.

  The display unit 100A and the display unit 100B are both organic EL panels having the same configuration as the display unit 100 of the first embodiment. That is, the display panel is sandwiched and laminated between the resin film 40A and the resin film 40B. These display units 100A and 100B have the same area in plan view, and overlap with a storage unit 135 provided on the lower layer side of the main board 136 via an opening 135a as shown in FIG. 5B. Stored. The relay board and the relay cable are electrically connected to the main board 136, respectively.

  According to such a notebook PC 1100, two sheet-like display units 100A and 100B (a plurality of display units) are stored in the storage unit 135 provided in the lower layer of the input unit of the main body 131 as in the first embodiment. Thus, a small and thin notebook PC 1100 can be provided.

Further, different information can be displayed on the two display units 100A and 100B, respectively, and the person displaying the necessary information can be appropriately pulled out from the storage unit 135 and confirmed. Furthermore, since the same driving method is employed, the display control unit in the main board 136 can be shared.
The display of the two display units 100A and 100B may be switched by operating the function key 132a.

  Since each of the two display units 100A and 100B has a thin sheet shape, the two display units 100A and 100B can be stacked and stored without making the storage unit 135 so large. Note that the sizes of the two display units 100A and 100B are not necessarily the same, and may be different. For example, one may be made smaller than the other and displayed in the power saving mode using the smaller display unit.

(Third embodiment)
FIG. 6 is a schematic perspective view showing a personal computer as an electronic apparatus according to the third embodiment. Also in FIG. 6, parts having the same configuration as in the first embodiment are denoted by the same reference numerals, and redundant description is omitted.

  As shown in FIG. 6, a notebook PC 1200, which is a personal computer according to the present embodiment, includes a main body 131 as a housing in which input units such as a keyboard 132 and a mouse pad 133 are provided on an upper surface 131a, and a sheet-like first. Like the display unit 100C as the display unit, the display unit 100D includes a display unit 100D as a sheet-like second display unit.

  The two display units 100C and 100D have substantially the same size and are disposed adjacent to each other. Moreover, it can accommodate in the accommodating part 135 so that it may not overlap. It is also possible to check the display by independently pulling out the two display units 100C and 100D stored in the storage unit 135 via the opening 135a.

One display unit 100C is approximately half the size of the display unit 100 of the first embodiment, but is an organic EL panel having a similar configuration. That is, the display unit 100C has a structure in which a display panel provided with the organic EL element 11 for each pixel is sandwiched and laminated between the resin film 40A and the resin film 40B.
The other display unit 100D employs a display method different from that of the display unit 100C and is dedicated to monochrome display. Details will be described with reference to FIGS.

  FIG. 7 is a schematic plan view showing the other display unit, and FIG. 8 is a schematic cross-sectional view showing the structure of the other display unit taken along the line CC ′ of FIG.

  As shown in FIG. 7, the other display unit 100D includes a display panel 80 having a display region 80a in which pixels 55 capable of monochrome display are arranged in a matrix. Two relay boards 90 </ b> A and 90 </ b> B are surface-mounted on the terminal portion 50 a of the display panel 80. These relay boards 90A and 90B are, for example, flexible circuit boards (FPCs) and, like other embodiments, for example, driver ICs or the like that constitute part of the drive circuit that drives the display panel 80 on the surface thereof. An electronic component mounted can also be used.

  As shown in FIG. 8, the display unit 100D has a structure in which a display panel 80 is sandwiched and laminated between a resin film 40A and a resin film 40B. The display panel 80 is a reflective electrophoretic panel provided with an electrophoretic layer 77.

  The display panel 80 has a structure in which an electrophoretic layer 77 is sandwiched between the element substrate 50 and the counter substrate 60.

  The element substrate 50 is a transparent substrate made of, for example, glass or plastic, and includes a pixel electrode 56 provided for each pixel 55 and a thin film transistor 57 that controls switching of the pixel electrode 56.

  The counter substrate 60 is a transparent substrate made of, for example, glass or plastic, and the counter electrode 61 that faces the plurality of pixel electrodes 56 of the element substrate 50 is formed on almost the entire surface (solid shape). The counter electrode 61 is made of a transparent conductive material such as ITO.

  The electrophoretic layer 77 includes a plurality of microcapsules 70 and a binder 76 that holds the plurality of microcapsules 70. The display panel 80 is formed by adhering an electrophoretic sheet in which the electrophoretic layer 77 is fixed to the counter substrate 60 in advance to the element substrate 50 on which the pixel electrodes 56 and the like are formed, with a sealing material 30. Has been. Although not shown in the drawings, an adhesive layer for fixing the electrophoretic layer 77 is also provided on the surface of the element substrate 50 facing the electrophoretic layer 77.

  One or a plurality of microcapsules 70 are sandwiched between the pixel electrode 56 and the counter electrode 61 arranged to face each other, and are arranged in one pixel 55 (in other words, to one pixel electrode 56). .

As shown in the enlarged view in the lower left of FIG. 8, the microcapsule 70 has a configuration in which a dispersion medium 71, a plurality of white particles 72, and a plurality of black particles 73 are enclosed in a coating 75. The microcapsule 70 is formed in a spherical shape having a particle size of approximately 50 μm, for example.
The coating 75 is made of a polymer resin having translucency such as acrylic resin, urea resin, gum arabic, and gelatin.
The dispersion medium 71 is a medium for dispersing the white particles 72 and the black particles 73 in the microcapsules 70 (in other words, in the coating film 75).

The white particles 72 are particles (polymer or colloid) made of a white pigment such as titanium dioxide, zinc white (zinc oxide), or antimony trioxide, and are negatively charged, for example.
The black particles 73 are particles (polymer or colloid) made of a black pigment such as aniline black or carbon black, and are positively charged, for example.
Since the white particles 72 and the black particles 73 move in the dispersion medium 71 due to an electric field (potential difference) generated between the pixel electrode 56 and the counter electrode 61, the pixel 55 depends on the color tone of the particles collected on the counter electrode 61 side. The display color of will be affected. That is, either white display or black display can be performed by the potential difference.
Furthermore, if the potential difference is maintained, a white or black display state can be maintained. In other words, it is a power-saving display panel as compared with a self-luminous type that always requires power for display.

  According to such a notebook PC 1200, the display unit 100C capable of color display and the display unit 100D capable of monochrome display are provided. For example, image information that places importance on color identification is displayed on the display unit 100C and displayed in black and white. Character information and the like that can be sufficiently recognized are displayed on the display unit 100D. Then, it is possible to provide a small and thin information processing apparatus (computer) that can be used to display the display unit 100C and the display unit 100D side by side or to display only one of them.

  Further, since the display unit 100C is a self-luminous type, the display unit 100D is a light receiving type and can display with low power consumption, so that only the display unit 100D can be used in the power saving mode. It is.

In this embodiment, the white particles 72 and the black particles 73 are dispersed in the microcapsule 70. However, by replacing the pigment of the particles to be dispersed with a pigment such as red, green, and blue, for example, red, green Color display such as blue can also be performed.
Further, the present invention is not limited to the above-described microcapsule system, and an electronic powder fluid system that controls ON / OFF of the display by putting an electronic powder fluid having charging properties into the pixel 55 and switching between plus and minus (polarity). The electrophoresis panel may be used. Alternatively, an electrophoretic panel using cholesteric liquid crystal may be used.

(Fourth embodiment)
FIG. 9A is a schematic perspective view showing a personal computer as an electronic apparatus according to the fourth embodiment, and FIG. 9B is a schematic cross-sectional view. Also in FIG. 9, parts having the same configuration as in the first embodiment are denoted by the same reference numerals, and redundant description is omitted.

  As shown in FIGS. 9A and 9B, a notebook PC 1300, which is a personal computer of the present embodiment, includes a main body 131 as a casing in which an input unit such as a keyboard 132 and a mouse pad 133 is provided on the upper surface 131a. And a flexible display unit 100E.

  The display unit 100E has a display area 100Ea that is approximately double the area of the display unit 100 of the first embodiment, and the display panel including the organic EL elements 11 provided for each pixel is a resin film 40A. The structure is sandwiched and laminated between the resin film 40B. In particular, the base material constituting the element substrate 10 and the sealing substrate 20 is not a thin glass substrate, but a resin substrate (resin film) having both flexibility and excellent flexibility is used. .

Therefore, despite having a display area 100ea almost doubled in area than the first embodiment, as an axis of the imaginary line L ₀ across the substantially center of the display area 100ea, of approximately half the display section 100E Rights The display area 100Ea (display surface 110Ea) can be folded so as to have an area. Further, in a folded state, it can be stored in a storage unit 135 provided inside the main body 131 via the opening 135a.

  The display unit 100E is electrically connected to and driven by the main board 136 via the relay board 120A provided at one end and the relay cable 121 connected thereto.

  According to such a notebook PC 1300, the display unit 100E having an area nearly double the area of the upper surface 131a on which the input unit of the main body 131 is provided is folded and stored in the storage unit 135. A small information processing apparatus (computer) that can be stored can be provided.

(Fifth embodiment)
FIG. 10 is a schematic perspective view showing a personal computer as an electronic apparatus according to the fifth embodiment. Also in FIG. 10, the same components as those in the first embodiment are denoted by the same reference numerals, and redundant description is omitted.

  As shown in FIG. 10, a notebook PC 1400, which is a personal computer according to the present embodiment, includes a main body 131 as a housing in which an input unit such as a keyboard 132 and a mouse pad 133 is provided on an upper surface 131a, and a sheet-like flexible shape. And a display unit 100F.

  The display unit 100F has a horizontally long display region 100Fa with respect to the display unit 100 of the first embodiment, and the display panel including the organic EL element 11 provided for each pixel is a resin film 40A and a resin film 40B. It is sandwiched between and laminated. In particular, the base material forming the element substrate 10 and the sealing substrate 20 is not a thin glass substrate, but a resin substrate having both flexibility and excellent flexibility.

Therefore, the display area 100Fb and the display area 100Fc that protrude in the longitudinal direction of the main body 131 are parallel to the lateral direction of the display unit 100F despite having the horizontally long display area 100Fa as compared with the first embodiment. Each of the virtual lines L ₁ and L ₂ can be folded inward with the virtual lines L ₁ and L ₂ as axes. Further, in a folded state, it can be stored in the storage unit 135 provided on the lower layer side of the input unit of the main body 131 via the opening 135a.

  According to such a notebook PC 1400, although it has a horizontally long display unit 100F with respect to the shape of the upper surface 131a provided with the input unit of the main body 131, it can be folded and stored in the storage unit 135. A small information processing apparatus (computer) can be provided. In addition, since the horizontally long display unit 100F is provided, a small information processing apparatus (computer) that can display moving image information such as a movie having a so-called aspect ratio of 16: 9 without being compressed horizontally and vertically. Can provide.

(Sixth embodiment)
FIG. 11A is a schematic perspective view showing a personal computer as an electronic apparatus according to the sixth embodiment, FIG. 11B is a schematic perspective view showing the personal computer in a folded state, and FIG. It is the schematic sectional drawing cut by DD 'line of (b).

  As shown in FIG. 11A, a notebook PC 1500, which is a personal computer as an electronic apparatus according to the present embodiment, has a housing in which an input unit such as a keyboard 1520 and a mouse pad 1530 is provided on an upper surface 1510a as a first surface. A main body 1510 as a body and a sheet-like flexible display portion 1570 are provided.

  The display unit 1570 has the same configuration as the display unit 100 of the first embodiment, and the display panel having the organic EL element 11 provided for each pixel is between the resin film 40A and the resin film 40B. It is sandwiched and laminated. As the base material constituting the element substrate 10 and the sealing substrate 20 constituting the display panel, both a thin glass substrate and a resin substrate having both flexibility and excellent flexibility can be used.

The main body 1510 includes a storage unit 1550 in which a sheet-like display unit 1570 is stored via an opening 1550a on the lower layer side (inside) of the input unit. In addition, the upper surface 1510a side on which the input unit is provided is divided into a plurality (two), which is substantially divided into a first main body 1510H ₁ and a second main body 1510H ₂ .

A keyboard 1520 including a plurality of input keys is divided into a first main body portion 1510H ₁ side (keyboard 1520a) and a second main body portion 1510H ₂ (keyboard 1520b), and is provided on each upper surface 1510a. The mouse pad 1530 is provided on the second main body portion 1510H ₂ side. A power switch 1540 is provided on the front side surface on the second main body portion 1510H ₂ side.

The first main body portion 1510H ₁ and the second main body portion 1510H ₂ are configured to be connected via a folding mechanism 1560. As shown in FIG. 11B, the main body portion 1510 is centered on the folding mechanism 1560. Thus, the upper surface 1510a becomes the inner side and can be folded in two. The folding mechanism 1560 is made of, for example, a stretchable resin material and has a bellows structure (not shown).

In addition, as shown in FIG. 11C, the storage portion 1550 is provided in the main body 1510 so as to straddle the first main body portion 1510H ₁ , the second main body portion 1510H ₂ , and the folding mechanism 1560. The folding mechanism 1560 is provided between the first main body portion 1510H ₁ and the second main body portion 1510H ₂ so that the storage portion 1550 is bent with a curvature that is equal to or higher than a predetermined curvature that does not cause a problem in the display portion 1570.

  As described above, when a glass substrate in which the base material of the element substrate 10 and the sealing substrate 20 is thinned is used, the predetermined curvature (definition of the bending radius as R) is about R = 4 mm at a minimum. Can be set to

  The notebook PC 1500 includes the flexible sheet-like display unit 1570 and the folding mechanism 1560 that folds the main body 1510 in two. The folding mechanism 1560 is provided so as to bend the storage portion 1550 provided in the main body 1510 with a curvature greater than the predetermined curvature. Therefore, it is possible to provide a small information processing apparatus (computer) that can be stored along the folded storage portion 1550 without causing a problem as well as not damaging the sheet-like display portion 1570.

  In addition, if the base material which comprises the element substrate 10 and the sealing substrate 20 is not a thin glass substrate but a resin substrate (resin film) having both flexibility and excellent flexibility, the above-mentioned predetermined The curvature of can be reduced. Therefore, the main body 1510 can be divided into two or more and folded.

(Seventh embodiment)
FIG. 12 is a schematic perspective view showing a personal computer as an electronic apparatus according to the seventh embodiment. In particular, it is a schematic perspective view showing a folded state.

  As shown in FIG. 12, a notebook PC 1600, which is a personal computer of this embodiment, has basically the same configuration as the notebook PC 1500 of the sixth embodiment. In other words, a main body 1510 provided with a folding mechanism 1560 and a flexible sheet-like display portion 1570 stored in the storage portion 1550 of the main body 1510 are provided.

Further, when the folded body 1510 into two by a folding mechanism 1560 has an opening 1512 in the first plane 1511 becomes a surface layer of the body portion 1510h ₁ (third surface). The opening 1512 is provided at a depth that reaches the storage portion 1550 of the first main body portion 1510H ₁ . Therefore, in the display panel of the display unit 1570, if the element substrate 10 is configured using a transparent base material and the light emitted from the organic EL element 11 is also emitted from the element substrate 10 side, the body 1510 can be folded. The display portion 1570 can be visually recognized from the opening 1512.

Although not shown in FIG. 12, the power supply unit and the media unit may be provided on the second main body unit 1510H ₂ side.

  Such a notebook PC 1600 can provide a small information processing apparatus (computer) that can check information displayed on the display unit 1570 from the opening 1512 even when the main body 1510 is folded in two.

Note that the opening 1512 provided on the first body portion 1510H ₁ side is not limited to being opened in a state close to the size (area) of the surface 1511 which is the surface layer, and at least a part of the display portion 1570 is confirmed. It is good also as a possible size (opening). For example, it is possible to propose a usage method in which incoming information such as mail is displayed on a part of the display unit 1570 and notified.
Further, the opening 1512 is not limited to being provided on the first main body portion 1510H ₁ side, and may be provided on the surface layer side of the second main body portion 1510H ₂ or both.

  Various modifications other than the above embodiment are conceivable. Hereinafter, a modification will be described.

(Modification 1) In the first to third embodiments, the configuration of the display unit capable of color display is not limited to the self-luminous display having the organic EL element 11. FIG. 13 is a schematic plan view showing a display unit of a modification, and FIG. 14 is a schematic cross-sectional view taken along the line EE ′ of FIG. In FIG. 14, the same components as those in the first embodiment are denoted by the same reference numerals, and redundant description is omitted.
For example, as shown in FIG. 13, the display unit 200 according to the modification includes a display region 150a in which pixels 155 corresponding to three colors R (red), G (green), B (blue) are arranged in a stripe pattern. A display panel 150 is included.
The terminal portion 151a of the display panel 150 has a plurality (three) of relay boards 160A, in order to achieve electrical connection with a display control unit (provided on the main board 136) that controls the display panel 150. 160B and 160C are mounted. The relay boards 160A, 160B, and 160C are, for example, flexible circuit boards (FPCs), and those on which electronic parts such as driver ICs that constitute a part of the drive circuit that drives the display panel 150 are mounted are used. can do.

As shown in FIG. 14, the display unit 200 has a structure in which a display panel 150 is sandwiched and laminated between a resin film 40A and a resin film 40B.
Although the display panel 150 has the same configuration as that of the display unit 100 of the first embodiment in plan view, the display panel 150 is a light receiving type, and this is illuminated on the back side (directly below) of the display panel 150. A lighting device 190 (backlight; B / L) is provided.

The display panel 150 is, for example, a liquid crystal panel, and a liquid crystal sandwiched in a gap between the element substrate 151 and the counter substrate 171 as a pair of substrates, and the element substrate 151 and the counter substrate 171 bonded via the sealant 185. Layer 180.
On the liquid crystal layer 180 side of the element substrate 151, a pixel electrode 152 provided for each pixel 155, a thin film transistor 153 that controls switching of the pixel electrode 152, and an alignment film 156 that covers the plurality of pixel electrodes 152 are provided. Yes.

  On the liquid crystal layer 180 side of the counter substrate 171, a color filter 172 having a colored layer provided for each pixel 155, a common electrode 173 provided on the color filter 172, and an alignment film 174 covering the common electrode 173 are provided. It has been.

  An upper polarizing plate 175 is attached to the surface of the counter substrate 171 opposite to the liquid crystal layer 180. Similarly, a lower polarizing plate 157 is attached to the surface of the element substrate 151 opposite to the liquid crystal layer 180.

  As an optical design condition for such a display panel 150, a normally black mode in which black is displayed when not driven is employed. Therefore, when the display panel 150 is not driven, the illumination light of the lighting device 190 cannot pass through the display panel 150. However, the present invention is not limited to this, and the optical design condition may be a normally white mode in which white display is performed when not driven.

  The illuminating device 190 includes a mounting substrate 192 and a plurality of light sources 191 arranged and mounted on the mounting substrate 192 almost evenly. The light source 191 is a light emitting element such as an LED or an organic EL element that is close to a point light source. The illuminating device 190 is disposed immediately below the display panel 150 on the element substrate 151 side, and can illuminate substantially uniformly over at least the display region 150a.

  A connection terminal (not shown) is provided at one end of the mounting board 192 on which the light source 191 is mounted, and one end of the relay board 161A is electrically connected. The other end of the relay substrate 161A is electrically connected to one surface of the relay substrate 160A mounted on the terminal portion 151a of the element substrate 151. The electrical connection method is, for example, by soldering.

  The display panel 150 is thinned by bonding a device substrate 151 and a counter substrate 171, sealing liquid crystal in the gap, and then performing mechanical or chemical polishing. Also in this case, like the display panel 110 of the first embodiment, the original thickness of each substrate is about 0.5 mm, and the display panel 150 is polished so that the thickness is about 300 μm or less. . After the polishing process, an upper polarizing plate 175 and a lower polarizing plate 157 are attached.

  The mounting board 192 in the lighting device 190 may be a rigid circuit board or a flexible circuit board, but a thin circuit board of 100 μm or less is also preferable.

  The sheet-like display unit 200 obtained by laminating the laminate of the display panel 150 and the lighting device 190 with the resin films 40A and 40B so that the adhesive layers 42A and 42B face each other is also resistant to external stress. It is flexible enough to bend.

  (Modification 2) In the fourth to seventh embodiments, the number of display units 100E (display unit 100F, display unit 1570) stored in the storage unit 135 (storage unit 1550) is not limited to one. For example, as in the second embodiment or the third embodiment, a plurality of display units having the same drive method or different drive methods may be stored. A small information processing apparatus that can further realize the effects of the second embodiment or the third embodiment can be provided.

(Modification 3) An electronic device to which the first to fifth embodiments can be applied is not limited to a personal computer. FIG. 15 is a schematic perspective view showing a mobile phone as an electronic apparatus according to a modification. For example, as shown in FIG. 15, a mobile phone 2000 as an electronic device includes an input unit such as an operation button 2110 and an input button 2120, a main body 2100 as a housing having a speaker 2130 and a microphone 2140 on the upper surface, And a sheet-like display portion 2200 having a display area 2200a in which the pixels are arranged.
The sheet-like display unit 2200 has the same configuration as the display unit 100 of the first embodiment. That is, the display panel having the organic EL element 11 provided for each pixel is laminated with the resin films 40A and 40B.
In addition, the display portion 2200 is housed in a housing portion 2150 provided at a position overlapping the upper surface inside the main body 2100. In other words, the sheet-like display portion 2200 does not necessarily have flexibility as long as it can be stored in the storage portion 2150.
According to such a portable phone 2000, a small and thin portable phone 2000 in which the sheet-like display portion 2200 is housed in the housing portion 2150 can be provided. By storing the display unit 2200 in the storage unit 2150, it is possible to prevent the display unit 2200 from being directly damaged and broken due to dropping or the like.
Other applicable electronic devices include, for example, portable information terminals having a display unit such as a POS terminal, a DVD viewer, and an electronic notebook. In other words, the input unit is not limited to the keyboard, and may be any unit provided with operation buttons and the like necessary for operating the portable information terminal.

  DESCRIPTION OF SYMBOLS 100 ... Sheet-like display part, 100A, 100C ... Display part as 1st display part, 100B, 100D ... Display part as 2nd display part, 100E, 100F ... Display part which has sheet-like flexibility , 131... Main body as a case, 132... Keyboard, 135... Storage portion, 135 a... Opening, 1000, 1100, 1200, 1300, 1400, 1500, 1600 ... personal computer or notebook PC as electronic equipment, 1510. 1512: Opening, 1520 ... Keyboard, 1550 ... Storage, 1550a ... Opening, 1560 ... Folding mechanism, 1570 ... Display, 2000 ... Portable phone as electronic device, 2100 ... Main body, 2150 ... Storage, 2200 ... sheet-like display.

Claims (8)

A display unit;
A housing, and
The housing includes an input unit provided on a surface of the housing, and a storage unit that stores the display unit in the housing via a first opening provided on the surface of the housing. And the first body part and the second body part are connected via a folding mechanism,
The display area of the display part can be stored in the storage part across the first main body part, the second main body part and the folding mechanism,
The electronic apparatus can be folded by the folding mechanism in a state where the display unit is stored in the storage unit. The first body has a second opening;
The electronic device according to claim 1, wherein the display unit is visually recognized through the second opening in a state of being stored in the storage unit. The second body portion has a third opening;
The electronic device according to claim 1, wherein the display unit is visually recognized through the third opening in a state of being stored in the storage unit.   The electronic device according to claim 1, wherein the folding mechanism has a groove shape.   5. The electronic device according to claim 1, wherein the storage portion bends with a radius of curvature of 4 mm or more. 6.   The electronic device according to claim 1, wherein the display unit is folded and stored in the storage unit. The input unit, characterized in that it consists of a plurality of input keys, electronic apparatus according to any one of claims 1 to 6. The electronic device according to claim 1, wherein the input unit includes a mouse pad.

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