JP4287675B2 - Electronic paper - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic paper capable of displaying information by an electrical method.
[0002]
[Prior art]
In recent years, various electronic papers have been developed as display media for displaying desired information by means of electrical signals. Information display technologies applicable to electronic paper include particle rotation, electrophoresis, thermal rewritable, liquid crystal, and electrolysis. Many things using techniques such as chromy are known.
[0003]
This electronic paper is expected to be used as a display medium instead of recording paper, and if it can be folded, its convenience is improved. Therefore, conventionally, the electronic paper is made of a thin plastic sheet so that it can be folded (see, for example, Patent Document 1), or a plurality of electronic papers are joined together so that the electronic papers overlap each other. It can be folded (see, for example, Patent Document 2), has a configuration in which a control chip is not built in a position where there is a high possibility of bending, or has a uniform bending rate of a plurality of stacked members (for example, Patent Document 3). (Refer to the above).
[0004]
[Patent Document 1]
JP 2002-91749 A
[Patent Document 2]
JP 2002-55651 A
[Patent Document 3]
Japanese Patent Laid-Open No. 10-171620
[0005]
However, in the above-described conventional example, a technique of how to structure the bent portion is not disclosed.
[0006]
[Problems to be solved by the invention]
The present invention has been made in consideration of the above facts, and an object thereof is to provide an electronic paper that can be easily bent.
[0007]
[Means for Solving the Problems]
  In order to solve the above-mentioned problem, the electronic paper according to claim 1 is an electronic paper capable of displaying or changing information by an electric signal, wherein the outer edge crossing the display surface from one place of the outer edge. It is formed in a linear shape over other locations, and includes a bent portion whose bending rigidity is lower than the bending rigidity of other portions, a signal line that transmits electric signals,The signal line wired in the bent portion is thinner and wider than a signal line wired in another region..

[0008]
Here, the bending rigidity indicates a deformation resistance as to whether or not an object is easily deformed when subjected to an external force of bending, and a cross-sectional second moment that depends on the elastic modulus (Young's modulus E) of the material itself and the cross-section of the object. Using I, bending rigidity = (Young's modulus E) × (secondary moment of section I).
[0009]
  According to the said structure, since the bending rigidity of a bending part is set as the structure lower than the bending rigidity of another part, this bending part can be bent more easily than another part.
  In addition, according to this configuration, the signal line wired in the folded portion is thinner than the signal line wired in another region, so that the folded portion can be easily folded. Since it is wider than a signal line wired in another region, disconnection due to bending can be prevented.
[0010]
In the electronic paper of the present invention, as described in claim 2, a plurality of the bent portions are formed, and at least two of the bent portions intersect each other. According to this configuration, since the electronic paper can be folded into at least four, it can be made more compact and convenience is improved.
[0011]
  Furthermore, the electronic paper according to claim 3 is an electronic paper capable of displaying or changing information by an electric signal, and is linear from one place on the outer edge to the other place on the outer edge across the display surface. Formed with a bent portion whose bending rigidity is lower than that of other parts,A plurality of the bent portions are formed, an intersecting portion is formed in which at least two of the bent portions intersect each other, and a hole for reducing the bending rigidity of the intersecting portion to be less than the rigidity of the bent portion is perforated. Characterized by. For example, when the electronic paper is folded in four, since the folded portion overlaps the intersection after folding, the bending rigidity is higher than before the second folding, and distortion is concentrated, making it difficult to bend It has become. Therefore, by perforating holes at the intersection as described above, it is possible to prevent distortion from being concentrated and to bend easily.
[0012]
  Further, in the electronic paper of the present invention, as described in claim 4, at least one of the bent portions is configured such that a portion where the electronic papers do not overlap when the bent portion is bent. It can also be characterized by being formed at a position.Furthermore, as described in claim 5, a binding hole is formed in a portion where the electronic papers do not overlap each other.
[0013]
According to this configuration, a portion where the electronic papers do not overlap when bent at the bent portion can be used as a binding margin. That is, if it is used as a binding margin by opening a binding hole in this portion, the electronic paper does not overlap with the binding margin when the electronic paper in the bound state is folded at the folding portion. Convenient.
[0014]
  The electronic paper of the present invention isClaim 6As described above, the surface has a line-symmetric shape, and at least one of the bent portions may be formed on a line-symmetric axis. Here, the surface refers to a surface on the side where information is displayed on the electronic paper. According to this configuration, by folding the bent portion formed at a position including the line symmetry axis, the entire portion on both sides sandwiching the bent portion can be folded so that the electronic paper Can be folded into a more compact shape.
[0015]
  The electronic paper of the present invention isClaim 7As described above, a plurality of the bent portions may be formed, and at least two of the bent portions may be parallel to each other.
[0016]
  The electronic paper of the present invention isClaim 8As described above, it is possible to provide a plurality of stacked layers, and the bent portion is configured by removing at least one of the plurality of layers. As described above, by forming at least one of the plurality of layers to form the bent portion, the bending rigidity of the bent portion can be easily lowered.
[0017]
  The electronic paper of the present invention isClaim 9As described above, the bending rigidity of the bent portion may be different between when the bent portion is bent in one direction and when bent in the other direction. According to this configuration, the bending direction of the electronic paper can be specified as a direction with low bending rigidity.
[0018]
  The electronic paper of the present invention isClaim 10As described in the above, a strain sensor that detects a strain amount of the bent portion, and a first recognition unit that recognizes a bent state of the bent portion based on the strain amount detected by the strain sensor; The information processing apparatus may further include an area for displaying information and a first changing unit for changing a display size of the information to be displayed according to the folding state recognized by the first recognizing unit.
[0019]
According to this configuration, the strain amount of the bent portion is detected by the strain sensor, and the bent state of the bent portion is recognized based on the strain amount detected by the strain sensor by the first recognition unit. The amount of distortion here includes the direction of distortion. Then, the area for displaying information and the size of the information to be displayed are changed by the first changing means according to the folded state recognized by the first recognizing means. Therefore, information of an appropriate size can be displayed in an appropriate area according to the bent state.
[0020]
  The electronic paper of the present invention isClaim 11As described in the above, it is arranged at one of the line-symmetrical positions with the folding part interposed therebetween, and is disposed at the other of the line-symmetrical positions with the approaching source to be recognized as an approach and the bending part, Recognizing by the proximity sensor for detecting the approaching state of the approaching source, the second recognizing means for recognizing the bent state of the bent portion based on the approaching state detected by the approaching sensor, and the second recognizing means And a second changing means for changing the display area of the information and the display size of the information to be displayed according to the bent state.
[0021]
According to this configuration, the approach source to be recognized for approach is arranged at one of the positions symmetrical with respect to the bent portion, the approach state is detected by the approach sensor, and the approach is detected by the second recognition means. The bent state of the bent portion is recognized based on the state. Then, the second changing means changes the area for displaying information and the display size of the information to be displayed according to the folded state recognized by the second recognizing means. Therefore, information of an appropriate size can be displayed in an appropriate area according to the bent state.
[0022]
  The electronic paper of the present invention isClaim 14The original display for displaying the information corresponding to the entire surface and the information displayed on the entire surface on at least one outer surface visible from the outside after being bent at the bent portion are reduced or rotated as described in An outer surface reduction display or an outer surface rotation reduction display that reduces and displays the entire image is possible, and a selection unit that can select either the original display, the outer surface reduction display, or the outer surface rotation reduction display is provided. It can also be characterized.
[0023]
According to this configuration, the original display for displaying information on the entire surface, and the information displayed on the entire surface on at least one outer surface that can be visually recognized from the outside after bending are reduced or matched to the aspect ratio of the display surface. It is possible to perform external reduction display or external rotation reduction display that displays the entire image by rotating and reducing it so that it can be displayed in a large size, and it is possible to select either the original display or the external display by the selection means. Yes. Therefore, on the outer surface of the folded electronic paper, the information as it is displayed, that is, a part of the information displayed on the entire surface of the electronic paper is displayed, or the information displayed on the entire surface of the electronic paper is reduced or reduced. It is possible to display the entire image by reducing the rotation.
[0024]
In this case, two outer surfaces that can be visually recognized from the outside after bending can be considered, but the same display may be performed on either surface or only one surface may be displayed. If displayed on two sides, information can be viewed no matter how the electronic paper user holds the electronic paper, so that convenience is improved. In addition, when displaying on only one screen, energy required for display can be saved.
[0025]
  The electronic paper of the present invention isClaim 15As described above, at the time of folding, information may not be displayed in the bent portion and in the vicinity of the bent portion. Even if information is displayed on the bent portion and its vicinity after the bending, it is often difficult to see. Therefore, by not displaying information in the bent portion and the vicinity thereof, it is possible to reduce difficult-to-see portions.
[0028]
  The electronic paper of the present invention isClaim 16As described above, the signal line in the bent portion may be wired in a direction inclined from a direction orthogonal to the bent portion.
[0029]
According to this configuration, since the signal line in the bent portion is wired in a direction inclined from the direction orthogonal to the bent portion, compared to the case where the signal line is wired in the direction orthogonal to the bent portion, Since the length of wiring in the bent portion is increased and the amount of distortion per unit length of the wiring is reduced with respect to the same amount of bending, the strength against bending of the signal line can be increased.
[0030]
The angle formed between the signal line and the bent portion is preferably 5 degrees or more and 45 degrees or less.
[0031]
  The electronic paper of the present invention isClaim 17As described above, it is possible to further include wireless communication means capable of transmitting a signal from one of the portions sandwiching the bent portion to the other by wireless communication.
[0032]
According to this configuration, the wireless communication means can transmit a signal from one of the portions sandwiching the bent region to the other by wireless communication, so that it is not necessary to arrange a signal line in the bent portion.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of electronic paper to which the present invention is applied will be described with reference to the drawings.
[0034]
As shown in FIG. 1, the electronic paper 10 is formed in a rectangular plate shape as a whole by laminating a protective layer 12, a display layer 14, and a base layer 16 in a rectangular plate shape. The electronic paper 10 is not necessarily in the shape of a rectangular plate, and any shape can be used as long as it is plate-like, but the plate surface is a line-symmetric shape, particularly preferably rectangular, The standard size of the existing recording paper, for example, A4, B4, etc. is preferable.
[0035]
The display layer 14 is a layer on which information is displayed. The protective layer 12 is disposed on the side (hereinafter referred to as “surface”) on which the display is visually recognized by the user across the display layer 14, and the opposite side (hereinafter referred to as “this”). The base layer 16 is disposed on the side (referred to as “rear surface”).
[0036]
Of the sides forming the outer edge of the electronic paper 10, the first bent portion is linearly formed from the central portion of one side parallel to the X direction, which is the vertical direction of FIG. 1, to the central portion of the other side facing this. 20 is formed, and the second bent portion 22 is linearly formed from the central portion of one side orthogonal to the X direction to the central portion of the other side facing each other. The bent portion 20A and the bent portion 20B intersect to form an intersecting portion 24, and a distortion preventing hole 26 is drilled in the intersecting portion 24. The first display portion 20A, which is a portion on the same layer as the display layer 14 of the first bent portion 20, and the second display portion 22A, which is a portion on the same layer as the display layer 14 of the second bent portion 22, The bending rigidity is lower than other portions of the display layer 14. Specifically, the first display unit 20A and the second display unit 22A are made of a material having low bending rigidity, such as silicon rubber, or the first display unit 20A and the second display unit as shown in FIG. The bending rigidity can be lowered by reducing the thickness of the portion 22A or by making the first display portion 20A and the second display portion 22A hollow as shown in FIG. 2B.
[0037]
Here, what is important is that the bending rigidity of the bent portion is made lower than others so that the bent portion is always kept constant, and display control of the electronic paper is reliably performed based on this. Therefore, the bending rigidity of the bent portion does not need to be extremely low. If the bending rigidity is too low, the form as the electronic paper cannot be maintained, and the usability is lowered. About this point, since it is influenced by the weight of the electronic paper, the value of the bending rigidity cannot be generally stated. However, when holding the electronic paper horizontally and holding it horizontally, the bending amount at the other end is roughly It is preferable to set it to be 30 mm or less.
[0038]
The first protective part 20B, the second protective part 22B, the first base part 20C, and the parts on the same layer as the protective layer 12 and the base layer 16 of the first bent part 20 and the second bent part 22, and The second base portion 22C is made of the same material as the other portions of the protective layer 12 and the base layer 16, has the same thickness, and has the same bending rigidity.
[0039]
In the present embodiment, the first display unit 20A and the second display unit 22A have a bending rigidity lower than that of the other parts of the display layer 14, so that the first bending unit 20 and the first display unit 20A The bending rigidity of the second folding part 22 is made lower than the bending rigidity of other parts of the electronic paper 10, but the first display part 20A, the second display part 22A, the first protection part 20B, and the second protection part. By reducing the bending rigidity of at least one of the portion 22B, the first base portion 20C, and the second base portion 22C, the bending rigidity of the first bending portion 20 and the second bending portion 22 can be increased in addition to the electronic paper 10. It can also be made lower than the bending rigidity of this part.
[0040]
Furthermore, as shown in FIG. 3 (A), the widths of the first bent portion 20 and the second bent portion 22 can be narrowed, and only the first base portion 20C or the second base portion 22C can be configured. . According to this configuration, the bending rigidity of the electronic paper 10 varies depending on the bending direction. That is, as shown in FIG. 3, when the surface is bent in the Y direction, the protective layer 12 and the display layer 14 (with a bending rigidity of other than the first bent portion 20 and the second bent portion 22) are bent. Since the high portion collides with each other, it is difficult to bend (see FIG. 3 (B)). When the back surface is inward and folded in the Z direction, the protective layer of the portion other than the first bent portion 20 and the second bent portion 22 12 and the display layer 14 do not collide with each other, and only the base layer 16 needs to be bent, which makes it easy to bend (see FIG. 3C).
[0041]
The distortion prevention hole 26 is not always necessary, but when the distortion prevention hole 26 is not provided, the electronic paper 10 is folded into four by the first folding part 20 and the second folding part 22. Since the two folded portions of the intersecting portion 30 after being folded are overlapped, the bending rigidity is higher than that before the folding, and the strain is concentrated, so that it is difficult to bend. Therefore, by configuring the strain prevention hole 26, the bending rigidity of the intersecting portion 30 is reduced, so that the strain can be prevented from being concentrated and can be easily bent.
[0042]
In addition, the first bent portion 20 and the second bent portion 22 do not necessarily have to be positioned at the center of each side of the electronic paper 10, but at this position, the electronic paper 10 is completely overlapped. That is, it can be bent into a more compact shape.
[0043]
FIG. 4 is a diagram showing an outline of the internal structure in the vicinity of the E portion (the portion surrounded by the broken line in FIG. 1) of the electronic paper 10. As shown in FIG. 4, a plurality of signal lines 30 are wired on the display layer 14 of the electronic paper 10. The signal line 30 is wired in the first bent portion 20 in a direction inclined from the X direction orthogonal to the first bent portion 20. The angle formed by the first bent portion 20 and the signal line 30 is preferably 5 degrees or greater and 45 degrees or less.
[0044]
The wiring of the signal line 30 in the electronic paper 10 does not necessarily have to be wired as described above, but the signal line 30 is wired to the first bent portion 20 by being wired as described above. The length of the signal line 30 can be increased, and the strength against bending of the signal line 30 can be increased.
[0045]
As shown in FIG. 5, the signal line 30 in the first bent portion 20 is configured to be at least thinner, desirably thinner and wider than the other portions. The signal line 30 is not necessarily configured as described above, but by configuring in this way, the first bent portion 20 can be easily bent and disconnection with respect to the bending can be prevented.
[0046]
In the above embodiment, the configuration in the case where the signal line 30 is wired to the first bent portion 20 has been described. However, as shown in FIG. 6, as a wireless communication unit in the vicinity of the first bent portion 20A. It is necessary to arrange a signal line in the first bent portion 20 by providing the antenna 32 and enabling wireless transmission of signals from one of the portions sandwiching the first bent portion 20 to the other. Disappears. As the antenna 32, a spiral derivative antenna or the like can be used.
[0047]
Although the 1st bending part 20 was demonstrated above, the 2nd bending part 22 can also be set as the same structure.
[0048]
As shown in FIG. 4, a first strain sensor 36 is disposed inside the first bent portion 20. Various sensors such as a strain gauge can be used for the first strain sensor 36. Regarding the arrangement of the first strain sensor 36, the position viewed from the front side of the electronic paper is substantially the same as the above-described position, and the side close to the front of the electronic paper, for example, between the protective layer 12 and the display layer 14, For example, a method of disposing on both sides of the base layer 16 and the display layer 14 and a method of disposing them on either side are conceivable. The first strain sensor 36 can detect the strain amount of the first bent portion 20. A similar second strain sensor 38 is also arranged inside the second bent portion 22 (not shown).
[0049]
As shown in FIG. 7, a display switching control unit 50 and a display unit 14 </ b> A of the electronic paper 10 are provided inside the base layer 16. The display switching control unit 50 is connected to the first strain sensor 36 and the second strain sensor 38, and can receive the strain amount of the first bent portion 20 and the second bent portion 22 from each of them. The display switching control unit 50 can recognize the bent state of the electronic paper 10 based on the received distortion amount.
[0050]
For example, the first strain sensor 36 is either on the side close to the front side of the electronic paper 10, for example, between the protective layer 12 and the display layer 14, or on the side close to the back side, for example, between the base layer 16 and the display layer 14. In the case of the configuration arranged on one side, when the first strain sensor 36 detects an extension strain, it is recognized that the side on which the first strain sensor 36 is arranged is bent outward. Conversely, when the first strain sensor 36 detects a compressive strain, the first strain sensor 36 recognizes that the side on which the first strain sensor 36 is disposed is bent inward. This is an example in the case where the neutral surface when the electronic paper 10 is bent is in the display layer. Depending on the position of the first strain sensor 36 with respect to the neutral surface, The recognition result of the bending state with respect to the detection result of the one strain sensor 36 and the detection accuracy vary. In order to perform detection more reliably, the first strain sensor 36 should be arranged at a position farther from the bending neutral plane, that is, at a position closer to the front and back surfaces of the electronic paper 10.
[0051]
Further, the first strain sensor 36 is arranged at substantially the same position on the electronic paper 10 at a side close to the front side of the electronic paper 10, for example, between the protective layer 12 and the display layer 14, and a side close to the back side, for example, a base. In the case of a configuration in which both the layer 16 and the display layer 14 are arranged, it is recognized that one side of the set of first strain sensors 36 is bent with the side on which a larger elongation strain is detected being outside. . In the case of the configuration in which the first strain sensor 36 is arranged in both, it can be expected that the detection accuracy becomes higher than in the case of the configuration in which the first strain sensor 36 is arranged on one side.
[0052]
In any of the above cases, when a strain amount that is determined by the structure and dimensions of the electronic paper 10 and exceeds a certain value is detected, the electronic paper 10 is determined to be bent.
[0053]
The display switching control unit 50 is connected to the display layer 14 and can output an information display signal to the display layer 14 so that information is displayed on the display layer 14 according to the recognized bent state.
[0054]
The display switching control unit 50 is connected to a selection button 52 provided on the back side (not shown) of the electronic paper 10. The user presses the selection button 42 to display information on the electronic paper 10, the original display displayed on the entire surface of the electronic paper 10, and the entire surface of the electronic paper 10 on at least one outer surface visible from the outside after being folded. The same information displayed on the screen is reduced or rotated or reduced so that it can be displayed larger according to the aspect ratio of the display surface. You can choose.
[0055]
Next, the operation of this embodiment will be described.
[0056]
As shown in FIG. 8A, when the electronic paper 10 labeled “ABC” is folded without being folded, it is first folded into two by the first folding unit 20. At this time, since the bending rigidity of the first bent portion 20 is lower than the bending rigidity of other parts, the electronic paper 10 can be easily bent at this part.
[0057]
The first distortion sensor 36 detects the amount of distortion of the bent first bent portion 20 and outputs the amount of distortion to the display switching control unit 50. At this time, when the original display is selected by the selection button 52, the display is not switched, and one of “ABC” is displayed on one of the outer surfaces visible from the outside as shown in FIG. Part is displayed. When the reduced display of the outer surface is selected by the selection button 52, the display switching control unit 50 switches the display, and as shown in FIG. 8C, all of “ABC” is displayed on one of the outer surfaces. Is displayed.
[0058]
Next, as shown in FIG. 9A, the two-folded electronic paper on which the original display is performed is folded by the second folding unit 22 into four. At this time, since the bending rigidity of the second bent portion 22 is lower than the bending rigidity of other portions, the electronic paper 10 can be easily bent at this portion as in the case of the first bent portion 20 described above. . Moreover, since the distortion prevention hole 26 is comprised in the cross | intersection part 24, the distortion which arose in this part can be avoided and it can fold easily.
[0059]
The second distortion sensor 38 detects the amount of distortion of the bent second bent portion 22 and outputs the amount of distortion to the display switching control section 50. At this time, when the original display is selected by the selection button 52, the display is not switched and a part of “ABC” is displayed on one of the outer surfaces as shown in FIG. 9B. . When the reduced display of the outer surface is selected by the selection button 52, the display switching control unit 50 switches the display, and as shown in FIG. 9C, all of “ABC” is displayed on one of the outer surfaces. Is displayed.
[0060]
According to the present embodiment, since the display on the outer surface can be switched according to the folded state of the electronic paper 10, the convenience of the electronic paper 10 is further improved.
[0061]
In the present embodiment, the first strain sensor 36 and the second strain sensor 38 detect the strain amounts of the first bent portion 20 and the second bent portion 22, and the display switching control portion 50 is based on the strain amounts. Then, the folded state of the electronic paper 10 was recognized. However, the recognition of the bent state can be performed by a method other than the method described above.
[0062]
For example, as shown in FIG. 10, a coil, a magnet, or the like approaches a position that is line symmetric when the electronic paper 10 is bent, or a corner that is opposite to the corner of the electronic paper 10 across the intersection 24. Each of the sources 60A and 60B is disposed, and an approach sensor 62A that detects the approaching state of the approaching sources 60A and 60B at a position symmetrical with respect to the disposed position and the first bent portion 20 or the second bent portion 22 as an axis. 62B. The approaching sources 60A and 60B give different signals to the approaching sensors 62A and 62B. For example, if the approaching sources 60A and 60B are magnets, the polarities of the approaching sources 60A and 60B are different. Various methods are conceivable, such as changing the frequency of the alternating current signal to flow or changing the timing of the pulsed signal to flow through the coil. The approach of approaching to the approach sensors 62A and 62B when the signals of the approaching sources 60A and 60B are different and when folded at the first folded part 20 and when folded at the second folded part 22. It is possible to detect that the sources 60A and 60B have been switched, and it is possible to determine which of the bent portions has been bent. In this case, as shown in FIG. 11, the proximity sensors 62 </ b> A and 62 </ b> B are each connected to the display switching control unit 50. The approaching state detected by the approach sensors 62A and 62B is output to the display switching control unit 50, and the display switching control unit 50 can also recognize the bent state of the electronic paper 10 based on the approaching state.
[0063]
Further, in the present embodiment, an example in which two folding parts are provided in a cross shape and the electronic paper 10 is folded in four has been described. However, as shown in FIGS. 12 and 13, the folding part includes a plurality of folding parts. It can also be provided at a position where 40 are parallel to each other. At this time, the plurality of bent portions 40 may be arranged at equal intervals (see FIG. 12A) or not (see FIG. 13A). By providing the electronic paper in such a position, the electronic paper can be folded into another state (see FIGS. 12B and 13B).
[0064]
Further, as shown in FIG. 14A, the electronic paper 10 of the present embodiment can also be configured with a binding hole 42 on one side (left end in FIG. 14) when viewed from the surface of the electronic paper 10. If the electronic paper 10 can be bound using the binding holes 42, the convenience is improved. In this case, as shown in FIG. 14B, the second bent portion 22 is preferably disposed at a position where the right end of the electronic paper 10 does not overlap the binding hole 42 when bent.
[0065]
In addition, the information displayed in the first folded portion 20, the second folded portion 22, and the vicinity thereof (hereinafter referred to as “folded portion and its vicinity”) of the electronic paper 10 becomes difficult to see when folded. Therefore, it is preferable not to display information on the first bent portion 20, the second bent portion 22, and the bent portion and its vicinity. In addition, the vicinity of the 1st bending part 20 and the 2nd bending part 22 means the range of the distance within 5 mm from the 1st bending part 20 and the 2nd bending part 22, Preferably it is the range of the distance within 3 mm.
[0066]
【The invention's effect】
As described above, according to the electronic paper of the present invention, since the bending rigidity of the bent portion is lower than the bending rigidity of other portions, the bent portion is easier than the other portions. Can be folded.
[Brief description of the drawings]
FIG. 1 is a perspective view of an electronic paper according to an embodiment.
FIG. 2 is a cross-sectional view of a modification of the electronic paper of the present embodiment.
FIG. 3 is a cross-sectional view of another modification of the electronic paper of the present embodiment.
FIG. 4 is a part of the electronic paper of the present embodiment.
FIG. 5 is a cross-sectional view of a part of the electronic paper according to the embodiment.
FIG. 6 is a cross-sectional view of a modification of part of the electronic paper of the present embodiment.
FIG. 7 is a schematic block diagram of a control system of electronic paper according to the present embodiment.
FIG. 8 is a diagram illustrating a bent state of the electronic paper according to the embodiment.
FIG. 9 is a diagram showing another bent state of the electronic paper of the present embodiment.
FIG. 10 is a perspective view of a modification of the electronic paper of the present embodiment.
FIG. 11 is a schematic block diagram of a control system of a modified example of the electronic paper of the present embodiment.
FIG. 12 is a perspective view of another modification of the electronic paper of the present embodiment.
FIG. 13 is a perspective view of another modification of the electronic paper of the present embodiment.
FIG. 14 is a perspective view of another modification of the electronic paper of the present embodiment.
[Explanation of symbols]
10 Electronic paper
12 Protective layer (layer)
14 Display layer (layer)
16 Base layer (layer)
20 1st bending part (folding part)
22 2nd bending part (bending part)
24 Intersection
26 Strain prevention hole (hole)
30 signal lines
32 Antenna (wireless communication means)
36 First strain sensor (strain sensor)
38 Second strain sensor (strain sensor)
40 Folding part
50 Display switching control unit (first recognition means, second recognition means, first change means, second change means)
60A, 60B Approaching source
62A, 62B proximity sensor
52 Selection button (selection means)

Claims (17)

An electronic paper capable of displaying or changing information by an electrical signal,
A bent portion that is linearly formed from one location on the outer edge to the other location on the outer edge that crosses the display surface, and whose bending stiffness is lower than the bending stiffness of the other portion,
A signal line for transmitting electrical signals,
With
The electronic paper , wherein the signal line wired in the bent portion is thinner and wider than a signal line wired in another region .   The electronic paper according to claim 1, wherein a plurality of the bent portions are formed, and at least two of the bent portions intersect each other. An electronic paper capable of displaying or changing information by an electrical signal,
A bent portion that is linearly formed from one location on the outer edge to the other location on the outer edge that crosses the display surface, and whose bending stiffness is lower than the bending stiffness of the other portion,
With
A plurality of the bent portions are formed, and an intersecting portion where at least two of the bent portions intersect with each other is configured, and a hole that reduces the bending rigidity of the intersecting portion more than the rigidity of the bent portions other than the intersecting portion is perforated. Electronic paper characterized by being made .   4. At least one of the bent portions is formed at a position where a portion where electronic papers do not overlap when bent at the bent portion is formed. Electronic paper given in any 1 paragraph. The electronic paper according to claim 4, wherein a binding hole is formed in a portion where the electronic papers do not overlap each other.   The electronic paper according to any one of claims 1 to 5, wherein the surface has a line-symmetric shape, and at least one of the bent portions is formed on a line-symmetric axis.   The electronic paper according to any one of claims 1 to 6, wherein a plurality of the bent portions are formed, and at least two of the bent portions are parallel to each other.   8. The apparatus according to claim 1, comprising a plurality of layers stacked, wherein the bent portion is configured by removing at least one of the plurality of layers. Electronic paper.   9. The bending rigidity of the bent portion is different between when the bent portion is bent in one direction and when bent in the other direction. Electronic paper. A strain sensor for detecting a strain amount of the bent portion;
First recognition means for recognizing a bent state of the bent portion based on an amount of strain detected by the strain sensor;
First changing means for changing the display area of the information and the display size of the information to be displayed according to the folding state recognized by the first recognizing means;
The electronic paper according to any one of claims 1 to 9, further comprising: An approach source that is arranged at one of line-symmetric positions across the bent portion and is an object of recognition of approach,
An proximity sensor that is disposed on the other side of the line-symmetric position across the bent portion and detects the approaching state of the proximity source;
A second recognizing means for recognizing a bent state of the bent portion based on an approach state detected by the approach sensor;
Second changing means for changing the display area of the information and the display size of the information to be displayed according to the bending state recognized by the second recognizing means;
The electronic paper according to any one of claims 1 to 9, further comprising: The two bent portions intersecting each other at the intersecting portion are provided, magnets having different polarities are arranged on both sides of the intersecting portion as the approaching source, and the approaching sensors are respectively located at positions corresponding to the approaching source. It is arrange | positioned , The electronic paper of Claim 11 characterized by the above-mentioned. A coil that includes the two bent portions intersecting each other at an intersecting portion, and in which an alternating current signal having a different frequency is applied to both sides of the intersecting portion, or a pulse signal that is applied at different timings The electronic paper according to claim 11, wherein the proximity sensor is disposed as the proximity source, and the proximity sensors are respectively disposed at positions corresponding to the coils . An original display for displaying information corresponding to the entire surface, and information displayed on the entire surface is reduced or rotated to be reduced or reduced on at least one outer surface that is visible from the outside after being bent at the bent portion. It is possible to display the outer surface reduced display or the outer surface rotation reduced display,
The selection unit according to any one of claims 1 to 13 , further comprising selection means capable of selecting whether to display the original display and the outer surface reduction display or the outer surface rotation reduction display. Electronic paper. The electronic paper according to any one of claims 1 to 14 , wherein no information is displayed in the bent portion and in the vicinity of the bent portion at the time of bending. 3. The electronic paper according to claim 1 , wherein the signal line in the bent portion is wired in a direction inclined from a direction orthogonal to the bent portion. Any of claims 1 to 16, further comprising a one wireless communication unit capable of be performed by wireless communication transmission of signals to the other from the sandwiched portion of the bent portion 1 Electronic paper as described in the paragraph.

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