JP6374242B2 - Liquid crystal display device and electronic device - Google Patents

Description

  The present invention relates to a liquid crystal display device and an electronic apparatus.

  The liquid crystal display device is an image display device that does not have a self-light emitting function, and is used integrally with a light emitting device that irradiates a liquid crystal panel that is a display screen with a backlight from the back. The light emitting device is provided with a box-shaped base, and the liquid crystal panel is housed inside the base. In addition, an FPC (Flexible Printed Circuits) is connected to the liquid crystal panel as a circuit for transmitting an electrical signal or the like for controlling the liquid crystal panel. As shown in Patent Document 1, there is a liquid crystal display device in which an FPC connected to a liquid crystal panel is pulled out to the outside of a base and connected to an external device or the like. In such a liquid crystal display device, the height of one side of the side wall of the base is made lower than the height of the other three side walls to secure a space for drawing the FPC to the outside of the base.

  Further, for example, a liquid crystal display device mounted on an in-vehicle car navigation system or the like includes a transparent cover glass that covers a display surface of a liquid crystal panel and adheres and fixes the cover glass to a light emitting device. In this case, the liquid crystal panel is housed inside a box-shaped base, a cover glass is installed on the base, and the cover glass and the side wall of the base are bonded and fixed.

JP 2003-280024 A

  Even when the cover glass is bonded and fixed to the light emitting device, the height of one side of the side wall of the base is lower than the height of the other three side walls in order to pull out the FPC to the outside of the base. . Therefore, one side of the side wall of the base is not in contact with the cover glass, and the other three sides of the side wall are in contact with the cover glass and are fixedly bonded. In such a case, since the cover glass is not uniformly supported by the base, the cover glass may be bent by its own weight. When the cover glass is bent, so-called panel non-uniformity occurs in the image display, which may deteriorate the display characteristics of the image.

  Therefore, an object of the present invention is to provide a liquid crystal display device and an electronic apparatus that suppress the occurrence of panel unevenness.

  In order to solve the above-described problems and achieve the object, a liquid crystal display device according to the present invention includes a base having a rectangular bottom and a side wall extending from each outer edge of the bottom in a direction crossing the bottom. And a liquid crystal panel housed in a space surrounded by the bottom and the inner peripheral surface of the side wall, and in contact with the end surface of the side wall in the direction in which the side wall extends over the entire circumference along each outer edge of the bottom. A display cover that is fixed and covers the display surface of the liquid crystal panel, and a flexible printed circuit board having one end electrically connected to the liquid crystal panel and the other end pulled out of the base. Including.

FIG. 1 is an overall perspective view of a liquid crystal display device 1 according to the first embodiment. FIG. 2 is an exploded perspective view of the liquid crystal display device 1 according to the first embodiment. FIG. 3 is a cross-sectional view of the liquid crystal display device 1 according to the first embodiment. FIG. 4 is a perspective view of the base 5. FIG. 5 is a cross-sectional view of a main part of the liquid crystal display device 1a according to the second embodiment. FIG. 6 is a perspective view of the base 5a according to the second embodiment. FIG. 7 is a cross-sectional view of a main part of the liquid crystal display device 1b according to the third embodiment. FIG. 8 is a plan view of the base 5b according to the third embodiment. FIG. 9 is a cross-sectional view of a main part of a liquid crystal display device 1c according to the first modification. FIG. 10 is a plan view of the base 5c according to the first modification. FIG. 11 is a cross-sectional view of a main part of a liquid crystal display device 1d according to Modification 2. FIG. 12 is a diagram illustrating an example of an electronic apparatus to which the liquid crystal display device according to this embodiment is applied. FIG. 13 is a diagram illustrating an example of an electronic apparatus to which the liquid crystal display device according to this embodiment is applied. FIG. 14 is a diagram illustrating an example of an electronic apparatus to which the liquid crystal display device according to this embodiment is applied. FIG. 15 is a diagram illustrating an example of an electronic apparatus to which the liquid crystal display device according to this embodiment is applied. FIG. 16 is a diagram illustrating an example of an electronic apparatus to which the liquid crystal display device according to this embodiment is applied. FIG. 17 is a diagram illustrating an example of an electronic apparatus to which the liquid crystal display device according to this embodiment is applied. FIG. 18 is a diagram illustrating an example of an electronic apparatus to which the liquid crystal display device according to this embodiment is applied. FIG. 19 is a diagram illustrating an example of an electronic apparatus to which the liquid crystal display device according to this embodiment is applied. FIG. 20 is a diagram illustrating an example of an electronic apparatus to which the liquid crystal display device according to this embodiment is applied.

  Hereinafter, modes for carrying out the invention (hereinafter referred to as embodiments) will be described in detail with reference to the drawings. The present invention is not limited by the contents described in the following embodiments. The constituent elements described below include those that can be easily assumed by those skilled in the art and those that are substantially the same. Furthermore, the constituent elements described below can be appropriately combined.

(Embodiment 1)
Hereinafter, Embodiment 1 according to the present invention will be described in detail with reference to the drawings. 1 is an overall perspective view of the liquid crystal display device 1 according to the first embodiment, FIG. 2 is an exploded perspective view of the liquid crystal display device 1 according to the first embodiment, and FIG. It is sectional drawing of the liquid crystal display device 1 which concerns.

  As shown in FIG.1 and FIG.2, the liquid crystal display device 1 is provided with the backlight unit 2, the liquid crystal panel 3, and the cover glass 4 as a display cover. The backlight unit 2 includes a base 5, a light guide plate 6, and an optical sheet 7.

  FIG. 4 is a perspective view of the base 5. The base 5 includes a rectangular and plate-shaped bottom 8, a first side wall 51, a second side wall 52, a third side wall 53, and a fourth side wall 54. The first side wall 51 extends from the one side 81 on the long side, which is the outer edge of the bottom 8, in a direction intersecting the plane parallel to the bottom 8, and has an end surface 51 u at the tip in the extended direction. The second side wall portion 52 extends from one side 82 on the short side, which is the outer edge of the bottom portion 8, in a direction intersecting the plane parallel to the bottom portion 8, and has an end surface 52 u at the tip in the extended direction. The third side wall 53 extends from the other side 83 of the long side on the outer edge of the bottom 8 in a direction intersecting the plane parallel to the bottom 8 and has an end face 53u at the tip in the extended direction. The fourth side wall 54 extends from the other side 84 on the short side, which is the outer edge of the bottom 8, in a direction intersecting the plane parallel to the bottom 8, and has an end face 54 u at the tip in the extended direction.

  The lengths of the first side wall 51, the second side wall 52, the third side wall 53 and the fourth side wall 54 extending in the direction perpendicular to the plane parallel to the bottom 8 are the same (including tolerances). And the height from the bottom 8 to the end faces 51u, 52u, 53u and 54u is the same (including tolerance). Although the base 5 is manufactured from metal materials, such as aluminum, for example, it is not restricted to this. Moreover, although the bottom part 8 is rectangular shape, it is not restricted to this, For example, a square may be sufficient. In the present embodiment, the plane parallel to the bottom 8 and the first side wall 51, the second side wall 52, the third side wall 53, and the fourth side wall 54 intersect each other at an angle of 90 degrees. However, it is not limited to this. Moreover, although the base 5 consists of one component, you may be comprised from several components, such as two, for example.

  Inside the base 5, a space 91 surrounded by the bottom 8 and the first side wall 51, the second side wall 52, the third side wall 53, and the fourth side wall 54 is introduced into the space 91. The optical plate 6, the optical sheet 7, and the liquid crystal panel 3 are stacked in this order from the bottom 8. Further, as shown in FIG. 3, the cover glass 4 is in contact with the end surfaces 51 u, 52 u, 53 u and 54 u of the base 5. The end surfaces 51u, 52u, 53u and 54u of the base 5 and the cover glass 4 are bonded and fixed with, for example, an adhesive or a double-sided tape. In addition, although mentioned later in detail, a part of end surface 51u of the 1st side wall part 51 contact | connects the cover glass 4 via FPC9, and is being fixed by adhesion | attachment. Thus, in the first embodiment, the cover glass 4 is fixed in contact with the end faces 51u, 52u, 53u, and 54u over the entire circumference along the outer edge of the bottom portion 8.

  As shown in FIG. 3, the substrate 11 is attached to the inner surface 51 i that is the side surface of the first side wall 51 on the space 91 side. The substrate 11 is, for example, an FPC (Flexible Printed Circuits), but is not limited thereto, and may be, for example, a PCB (Printed Circuit Board) or a PWB (Printed Wiring Board). Good. When the board 11 is an FPC, the board 11 can be easily attached to the base 5. An LED 12 as a light source is attached to the substrate 11. The LED 12 receives an electrical signal through the substrate 11 and emits light according to the electrical signal. In the first embodiment, a plurality of LEDs 12 are attached. Further, the light source is not limited to the LED, and for example, a fluorescent lamp, a cold cathode tube, or the like can be applied. The substrate 11 is electrically connected to the substrate 11 and is connected to an external device as a control device that transmits a control signal to control the lighting of the LED 12.

  The light guide plate 6 is a rectangular plate that transmits light. Examples of the material used for the light guide plate 6 include acrylic resin, polycarbonate (PC) resin, methyl methacrylate-styrene copolymer (MS resin), and the like. The light guide plate 6 has a reflective surface 63 that is one surface and a light output surface 62 that is the other surface. The light guide plate 6 is installed in the base 5 so that the side surface 61 that is the side surface on the long side faces the LED 12. The light guide plate 6 causes the light from the LED 12 incident from the side surface 61 to be emitted from the light exit surface 62 while spreading in the in-plane direction. The light emitted from the light exit surface 62 of the light guide plate 6 is applied to the image display surface 110 of the liquid crystal panel 3 on the liquid crystal panel 3 provided in the base 5 at a position farther from the bottom 8 of the base 5 than the light guide plate 6. Incident from the back surface 111 on the opposite side.

  A plurality of scattering portions 64 are formed on the reflection surface 63 of the light guide plate 6. When the light incident on the light guide plate 6 comes into contact with the scattering portion 64, the light is reflected in various directions and scattered light is generated. Part of this scattered light exits from the light exit surface 62 of the light guide plate 6. The scattering portion 64 is formed, for example, by printing paint on the reflecting surface 33 of the light guide plate 6 in a dot shape or a stripe shape. Examples of the printing method include silk screen printing and ink jet printing. Note that the number, shape, color, arrangement pattern, and the like of the scattering portions 64 are not limited to these, and are appropriately selected according to the purpose. Further, a reflection sheet that reflects light incident on the reflection surface 63 may be provided between the reflection surface 63 of the light guide plate 6 and the bottom 8 of the base 5.

  The optical sheet 7 is laminated on the light exit surface 62 of the light guide plate 6. The optical sheet 7 adjusts the optical characteristics of the light emitted from the light exit surface 62 of the light guide plate 6, and a light control sheet, a diffusion sheet, a prism sheet, or the like can be used. Only one optical sheet 7 may be used, or a plurality of laminated optical sheets may be used.

  As described above, the backlight unit 2 including the base 5, the light guide plate 6, and the optical sheet 7 is a so-called edge light system. For example, the backlight unit 2 is a direct-type backlight unit in which a light source is installed on the bottom 8. May be.

  In the liquid crystal panel 3, a liquid crystal layer is formed between the two transparent substrates 31 and 32. The liquid crystal panel 3 of the present embodiment is an FFS (Fringe Field Switching) type liquid crystal display, and driving electrodes (common electrodes) on one transparent substrate and pixels arranged in a matrix formed corresponding to the pixels. Electrodes are stacked. Further, at least one of the transparent substrates 31 and 32 is provided with a color filter in which filters such as R (red), G (green), and B (blue) are arranged corresponding to the pixels. The liquid crystal panel 3 has an opening formed in one of the pixel electrode and the drive electrode (common), and drives the liquid crystal with an electric field (fringe electric field) leaking from the opening.

  The liquid crystal panel 3 displays an image by switching between transmission and blocking of light in each pixel based on the image signal. In the liquid crystal panel 3, the surface on which pixels are arranged in a matrix, that is, the surface having the largest area (panel surface, surface) is disposed substantially parallel to the irradiation surface of the backlight unit 2. The liquid crystal panel 3 is an FFS type, but is also an IPS (In-Plane Switching) type, a TN (Twisted Nematic) type, an OCB (Optically Compensated Bend), an Optically Compensated Birefringence (ECB) type. Good. The liquid crystal panel 3 is either normally black that does not transmit light when no voltage is applied and the display is black, or normally white that transmits light when no voltage is applied and the display is white. A scheme can also be used. The transparent substrate 32 has a connection portion 33 that is a surface facing the transparent substrate 31 and is not in contact with the transparent substrate 31. As will be described in detail later, an FPC 9 as a flexible printed board is electrically connected to the connection portion 33.

  The cover glass 4 is a transparent glass member that covers and protects the image display surface 110 of the liquid crystal panel 3 so as to be disposed on the image display surface 110 side of the liquid crystal panel 3. The cover glass 4 has a light shielding area 41 that blocks light from the liquid crystal panel 3 on the outer peripheral portion of the plate surface. The liquid crystal panel 3 is surrounded by the light shielding area 41, that is, inside the light shielding area 41. A display region 42 that transmits light from the light is formed. The cover glass 4 uses a plate-shaped glass substrate as a base material, and a light shielding member 41 is formed by printing a light shielding member on an outer peripheral region from the liquid crystal panel 3 side of the glass substrate by screen printing or the like. In FIG. 1, the light shielding member is arranged on the outer surface of the cover glass 4. However, it is preferable to arrange the light shielding member on the light source side surface of the cover glass 4 by screen printing or the like. Further, as described above, the cover glass 4 is fixed in contact with the end faces 51u, 52u, 53u, and 54u of the base 5. The cover glass 4 and the liquid crystal panel 3 may not be bonded.

  In the liquid crystal display device 1 of the present embodiment, the cover glass 4 is provided as a display cover for protecting the image display surface 110 of the liquid crystal panel 3, but the present invention is not limited to this. The display cover only needs to be able to protect the surface of the liquid crystal panel 3 and transmit the image displayed on the liquid crystal panel 3, and various display covers that are plate-like and transmit light may be used. it can. As the display cover, a transparent resin member or a touch panel can be used.

  As shown in FIG. 3, the end portion 9 a as one end portion of the FPC 9 is electrically connected to the connection portion 33 of the transparent substrate 32. An end portion 9 b as the other end portion of the FPC 9 is drawn to the outside of the space 91 included in the base 5. An end 9b of the FPC 9 is electrically connected to an external device as a control device that transmits a control signal to the liquid crystal panel 3 to control a display operation. Further, in the first embodiment, the cover glass 4 and the end surface 51u of the first side wall portion 51 are opposed to each other through the intermediate portion 9c between the end portion 9a and the end portion 9b of the FPC 9 at the contact portion 55. It touches. The intermediate portion 9 c of the FPC 9 is located between the cover glass 4 and the end surface 51 u at the contact portion 55. The intermediate portion 9c of the FPC 9 is adhered and fixed to the cover glass 4 at the contact portion 55 with, for example, an adhesive or a double-sided tape. The intermediate portion 9c of the FPC 9 may be bonded and fixed to the end surface 51u of the first side wall portion 51 at the contact portion 55. The intermediate portion 9 c of the FPC 9 may be fixed to at least one of the cover glass 4 and the first side wall portion 51 at the contact portion 55. The length from the end portion 9a to the intermediate portion 9c and the distance from the intermediate portion 9c to the end portion 9b are arbitrary.

  As described above, the cover glass 4 is fixed in contact with the end faces 51u, 52u, 53u, and 54u. In other words, the cover glass 4 is fixed to the first side wall 51, the second side wall 52, the third side wall 53, and the fourth side wall 54 over the entire circumference of the outer edge of the base 5. . Therefore, in the first embodiment, the cover glass 4 is uniformly supported along the outer edge of the base 5, so that the deflection of the cover glass 4 can be suppressed and the occurrence of panel unevenness can be suppressed. Furthermore, since the 1st side wall part 51, the 2nd side wall part 52, the 3rd side wall part 53, and the 4th side wall part 54 contact the cover glass 4, it suppresses the light leakage from the backlight unit 2. Can do. The cover glass 4, the first side wall 51, the second side wall 52, the third side wall 53, and the fourth side wall 54 are all in the circumferential region of the outer edge of the base 5. It may not be fixed in contact. In other words, if the cover glass 4 is fixed to the base 5 over the entire circumference of the outer edge of the base 5, the first side wall 51, the second side wall 52, and the third side wall are partly provided. The portion 53 and the fourth sidewall portion 54 may not be fixed. For example, notches are provided in part of the end faces 51u, 52u, 53u and 54u, and the cover glass 4 and the end faces 51u, 52u, 53u and 54u are not fixed in contact with each other at the notches. Also good. In this case, the end faces 51u, 52u, 53u and 54u are fixed such that at least a part of each of the end faces 51u, 52u, 53u and 54u is in contact with the cover glass 4. Even in such a case, since the cover glass 4 is fixed to the base 5 over the entire circumference of the outer edge of the base 5, the cover glass 4 is uniformly supported along the outer edge of the base 5.

  In the first embodiment, the intermediate portion 9 c of the FPC 9 is fixed to the cover glass 4. Therefore, the cover glass 4 and the liquid crystal panel 3 are fixed together through the FPC 9. Therefore, even when the liquid crystal display device 1 vibrates or the like, the cover glass 4 and the liquid crystal panel 3 move as a unit, and the force applied to the FPC 9 due to vibration or the like can be suppressed, and disconnection of the FPC 9 can be suppressed.

  The contact portion 55 is in contact with the cover glass 4 and the end portion 51 u of the first side wall portion 51 through the FPC 9. Therefore, there is a possibility that a difference in level is generated between the contact portion 55 and the portion where the cover glass 4 and the end faces 51u, 52u, 53u, and 54u are in direct contact without the FPC 9 corresponding to the thickness of the FPC 9. In such a case, in the portion where the cover glass 4 and the end surfaces 51u, 52u, 53u and 54u are in direct contact with each other, a cushioning material or the like is provided on the end surfaces 51u, 52u, 53u and 54u, or the contact portion 55 of the end surface 51u is provided. The height of the position may be lowered. By providing the cushioning material, it is possible to eliminate the level difference between the contact portion 55 and the portion where the cover glass 4 and the end faces 51u, 52u, 53u, and 54u are in direct contact with each other. It can suppress more suitably.

  Further, UV (ultraviolet) curable resin (ultraviolet curable resin) or the like may be applied to the end 9 a of the FPC 9. The UV curable resin is a synthetic resin that chemically changes from a liquid to a solid in response to light energy of ultraviolet rays. The FPC 9 is connected to the liquid crystal panel 3 at the end 9a. Therefore, the end 9a may be exposed to the outside of the circuit, and the end 9a is weak in strength. By applying the UV curable resin to the end portion 9a, the strength of the end portion 9a is increased. As long as the strength of the end portion 9a is reinforced, what is applied to the end portion 9a is not limited to the UV curable resin.

(Embodiment 2)
Next, Embodiment 2 of the present invention will be described in detail with reference to the drawings. FIG. 5 is a cross-sectional view of a main part of the liquid crystal display device 1a according to the second embodiment. FIG. 6 is a perspective view of the base 5a according to the second embodiment. The second embodiment is different from the first embodiment in the following points. That is, the base 5 a according to the second embodiment has the slit 56, and the intermediate portion 9 c of the FPC 9 is located in the slit 56. Since other configurations are the same as those in the first embodiment, description thereof is omitted.

  The base 5a includes a rectangular and plate-shaped bottom 8a, a first side wall 51a, a second side wall 52a, a third side wall 53a, and a fourth side wall 54a. The first side wall 51a extends from the one side 81a, which is the outer edge of the bottom 8a, and intersects the plane parallel to the bottom 8a, and has an end surface 51au at the tip in the extended direction. The second side wall part 52a extends from the one side 82a on the short side, which is the outer edge of the bottom part 8a, in a direction intersecting with a plane parallel to the bottom part 8a, and has an end face 52au at the tip in the extended direction. The third side wall 53a extends from the other side 83a, which is the outer edge of the bottom 8a, in the direction intersecting the plane parallel to the bottom 8a, and has an end surface 53au at the tip in the extended direction. The fourth side wall portion 54a extends from the other side 84a, which is the outer edge of the bottom portion 8a, in a direction intersecting the surface parallel to the bottom portion 8a, and has an end surface 54au at the tip in the extended direction. The base 5a is provided with a space 91a surrounded by the bottom 8a, the first side wall 51a, the second side wall 52a, the third side wall 53a, and the fourth side wall 54a.

  A slit 56 is provided in the first side wall 51a. As shown in FIG. 5, the slit 56 includes an inner surface 51ai that is a side surface on the space 91a side of the first side wall portion 51a and an outer surface 51ao that is a side surface opposite to the space 91a side of the first side wall portion 51a. It is provided through. The slit 56 penetrates the space 91a and the outside of the base 5a. The opening area of the slit 56 may be as large as the intermediate portion 9c of the FPC 9 can be positioned in the slit 56.

  Similarly to the first embodiment, in the FPC 9 according to the second embodiment, an end portion 9 a as one end portion is electrically connected to the connection portion 33 of the transparent substrate 32. An end 9b as the other end of the FPC 9 is drawn to the outside of the space 91a of the base 5a. In the second embodiment, the intermediate portion 9 c between the end portion 9 a and the end portion 9 b of the FPC 9 is located in the slit 56. The length from the end portion 9a to the intermediate portion 9c and the distance from the intermediate portion 9c to the end portion 9b are arbitrary. The FPC 9 may be bonded and fixed to the first side wall 51a of the base 5a at the intermediate portion 9c.

  Also in the second embodiment, the cover glass 4 and the end surfaces 51au, 52au, 53au, and 54au of the base 5a are fixed in contact with each other. That is, the cover glass 4 is fixed to the base 5a over the entire circumference of the outer edge of the base 5a. Accordingly, also in the second embodiment, as in the first embodiment, the cover glass 4 is uniformly supported along the outer edge of the base 5a, thereby suppressing the deflection of the cover glass 4 and suppressing the occurrence of panel unevenness. can do.

  In the second embodiment, the FPC 9 is drawn out of the space 91 a via the slit 56. The FPC 9 is not located at a portion where the cover glass 4 and the end surfaces 51au, 52au, 53au and 54au of the base 5a are fixed in contact with each other. Therefore, in the second embodiment, the cover glass 4 and the end surfaces 51au, 52au, 53au, and 54au of the base 5a are directly in contact with each other without being connected to the FPC 9, and are fixed. Therefore, it is possible to suppress the occurrence of a step in the portion where the cover glass 4 and the end surfaces 51au, 52au, 53au and 54au of the base 5a are in contact with each other, and it is possible to suitably suppress the occurrence of panel unevenness.

(Embodiment 3)
Next, Embodiment 3 of the present invention will be described in detail with reference to the drawings. FIG. 7 is a cross-sectional view of a main part of the liquid crystal display device 1b according to the third embodiment. FIG. 8 is a plan view of the base 5b according to the third embodiment. The third embodiment has a slit in the base 5b as in the second embodiment, but the position where the slit is provided is different from the second embodiment. Since other configurations are the same as those in the first embodiment, description thereof is omitted.

  The base 5b includes a rectangular and plate-shaped bottom 8b, a first side wall 51b, a second side wall 52b, a third side wall 53b, and a fourth side wall 54b. The first side wall 51b extends from one side 81b on the long side, which is the outer edge of the bottom 8b, in a direction intersecting with a plane parallel to the bottom 8b, and has an end surface 51bu at the tip in the extended direction. The second side wall portion 52b extends from the one side 82b on the short side, which is the outer edge of the bottom portion 8b, in a direction intersecting the plane parallel to the bottom portion 8b, and has an end surface 52bu at the tip in the extended direction. The third side wall portion 53b extends from the other side 83b on the outer side of the bottom portion 8b and intersects the surface parallel to the bottom portion 8b, and has an end surface 53bu at the tip in the extending direction. The fourth side wall portion 54b extends from the other side 84b on the short side, which is the outer edge of the bottom portion 8b, in a direction intersecting the plane parallel to the bottom portion 8b, and has an end surface 54bu at the tip in the extended direction. The base 5b is provided with a space 91b surrounded by the bottom 8b, the first side wall 51b, the second side wall 52b, the third side wall 53b, and the fourth side wall 54b.

  A slit 57 is provided in the bottom 8b. As shown in FIGS. 7 and 8, the slit 57 is provided through the upper surface 8bu which is the surface of the bottom portion 8b on the space 91b side and the lower surface 8bd which is the surface of the bottom portion 8b opposite to the space 91b side. Yes. The slit 57 penetrates the space 91b and the outside of the base 5b. The opening area of the slit 57 may be a size that allows the intermediate portion 9 c of the FPC 9 to be positioned in the slit 57.

  Similarly to the first embodiment, in the FPC 9 according to the third embodiment, one end portion 9 a as an end portion is electrically connected to the connection portion 33 of the transparent substrate 32. An end 9b as the other end of the FPC 9 is drawn to the outside of the space 91b of the base 5b. In the third embodiment, the intermediate portion 9 c between the end portion 9 a and the end portion 9 b of the FPC 9 is located in the slit 57. The length from the end portion 9a to the intermediate portion 9c and the length from the intermediate portion 9c to the end portion 9b are arbitrary. Further, the FPC 9 may be bonded and fixed to the bottom 8b of the base 5b at the intermediate portion 9c.

  Also in the third embodiment, the cover glass 4 and the end surfaces 51bu, 52bu, 53bu, and 54bu of the base 5b are fixed in contact with each other. That is, the cover glass 4 is fixed to the base 5b over the entire circumference of the outer edge of the base 5b. Accordingly, also in the third embodiment, as in the first embodiment, the cover glass 4 is uniformly supported along the outer edge of the base 5b, thereby suppressing the deflection of the cover glass 4 and suppressing the occurrence of panel unevenness. can do.

  In the third embodiment, the FPC 9 is drawn out of the space 91b through the slit 57. The FPC 9 is not located at a portion where the cover glass 4 and the end surfaces 51bu, 52bu, 53bu and 54bu of the base 5b are fixed in contact with each other. Therefore, in the third embodiment, the cover glass 4 and the end surfaces 51bu, 52bu, 53au and 54bu of the base 5b are in direct contact with each other without being interposed through the FPC 9. Therefore, it is possible to suppress the occurrence of a step in the portion where the cover glass 4 and the end surfaces 51bu, 52bu, 53bu and 54bu of the base 5b are in contact with each other, and it is possible to suitably suppress the occurrence of panel unevenness. Moreover, in Embodiment 3, the slit which penetrates the 1st side wall part 51b is not provided. Therefore, the first side wall 51b has higher strength against the weight of the cover glass 4 than in the second embodiment.

(Modification 1)
Next, Modification 1 of Embodiment 3 will be described in detail with reference to the drawings. FIG. 9 is a cross-sectional view of a main part of a liquid crystal display device 1c according to the first modification. FIG. 10 is a plan view of the base 5c according to the first modification. In the first modification, a slit is provided at the bottom of the base as in the third embodiment, but the position where the slit is provided is different from that in the third embodiment. Since other configurations are the same as those in the third embodiment, description thereof is omitted.

  The base 5c includes a rectangular and plate-shaped bottom 8c, a first side wall 51c, a second side wall 52c, a third side wall 53c, and a fourth side wall 54c. The first side wall 51c extends from one long side 81c, which is the outer edge of the bottom 8c, in a direction crossing a plane parallel to the bottom 8c, and has an end surface 51cu at the tip in the extended direction. The second side wall 52c extends from the one side 82c on the short side, which is the outer edge of the bottom 8c, in a direction intersecting the plane parallel to the bottom 8c, and has an end surface 52cu at the tip in the extended direction. The third side wall 53c extends from the other side 83c, which is the outer edge of the bottom 8c, in a direction intersecting the plane parallel to the bottom 8c, and has an end surface 53cu at the tip in the extended direction. The fourth side wall portion 54c extends from the other side 84c on the short side, which is the outer edge of the bottom portion 8c, in a direction intersecting the plane parallel to the bottom portion 8c, and has an end surface 54cu at the tip in the extended direction. The base 5c is provided with a space 91c surrounded by the bottom 8c, the first side wall 51c, the second side wall 52c, the third side wall 53c, and the fourth side wall 54c.

  A cutout portion 58 is provided in the first side wall portion 51c. The notch 58 is formed on the first side wall 51c from the inner surface 51ci that is the side surface on the space 91c side of the first side wall portion 51c toward the outer surface 51co that is the side surface opposite to the space 91c of the first side wall portion 51c. The part 51c is cut away. However, the notch 58 does not penetrate from the inner surface 51ci toward the outer surface 51co. The notch 58 cuts the first side wall 51c and the bottom 8c from the end surface 51cu of the first side wall 51c toward the lower surface 8cd that is the surface of the bottom 8c opposite to the space 91c. Lacks. The notch 58 penetrates the end surface 51cu of the first side wall 51c and the lower surface 8cd, which is the surface opposite to the space 91c of the bottom 8c, to form a slit 59. The opening area of the slit 59 may be as large as the intermediate portion 9c of the FPC 9 can be positioned in the slit 59.

  Similarly to the third embodiment, the FPC 9 according to the first modification has an end portion 9 a as one end portion electrically connected to the connection portion 33 of the transparent substrate 32. And the edge part 9b as the other edge part of FPC9 is pulled out outside the space 91c which the base 5c has. In the first modification, the intermediate portion 9 c between the end 9 a and the end 9 b of the FPC 9 is located in the slit 59. The length from the end portion 9a to the intermediate portion 9c and the distance from the intermediate portion 9c to the end portion 9b are arbitrary. Further, the FPC 9 may be fixed by being bonded to the bottom 8c of the base 5c or the first side wall 51c at the intermediate portion 9c.

  Moreover, in the modification 1, the slit which penetrates the 1st side wall part 51c is not provided. Therefore, the first side wall 51c has higher strength against the weight of the cover glass 4 than in the second embodiment. Moreover, in the modification 1, the notch part 58 is provided in the 1st side wall part 51c, and the slit 59 is formed. Therefore, when the liquid crystal display device 1c is assembled, the end portion 9b of the FPC 9 can be pulled out of the space 91c after the end surface 9b of the FPC 9 abuts against the notch 58. Therefore, the first modification makes it easy to assemble the liquid crystal display device 1c.

(Modification 2)
Next, Modification 2 of Embodiment 3 will be described in detail with reference to the drawings. FIG. 11 is a cross-sectional view of a main part of a liquid crystal display device 1d according to Modification 2. Modification 2 is different from Embodiment 3 in that the FPC 9 further includes a portion fixed to the liquid crystal panel 3. Since other configurations are the same as those in the third embodiment, description thereof is omitted.

  Similarly to the third embodiment, the base 5b according to the modified example 2 is provided with a slit 57 at the bottom 8b. Similarly to the third embodiment, the FPC 9 in Modification 2 has an end portion 9 a as one end portion electrically connected to the connection portion 33 of the transparent substrate 32. And the edge part 9b as the other edge part of FPC9 is pulled out by the outer side of the space 91b which the base 5b comprises. An intermediate portion 9 c between the end portion 9 a and the end portion 9 b of the FPC 9 is located in the slit 57. The length from the end portion 9a to the intermediate portion 9c and the distance from the intermediate portion 9c to the end portion 9b are arbitrary.

  In the second modification, the FPC 9 is fixed to the lower surface 34 which is the surface opposite to the surface facing the transparent substrate 31 of the transparent substrate 32 in the fixing portion 9d. The fixing part 9d is located between the end part 9a and the intermediate part 9c. The fixing portion 9d and the lower surface 34 are fixed by, for example, an adhesive or a double-sided tape. Note that the length from the end portion 9a to the fixed portion 9d and the length from the fixed portion 9d to the intermediate portion 9c are arbitrary.

  Thus, in the modification 2, FPC9 is being fixed to the liquid crystal panel 3 in the fixing | fixed part 9d. Accordingly, even when the liquid crystal display device 1d vibrates or the like, the liquid crystal panel 3 and the FPC 9 move as a unit, and the force applied to the FPC 9 due to vibration or the like can be suppressed, and disconnection of the FPC 9 can be suppressed.

(Application example)
Next, application examples of the liquid crystal display device described in Embodiments 1, 2, and 3 and Modifications 1 and 2 will be described with reference to FIGS. Hereinafter, Embodiments 1, 2, and 3 and Modifications 1 and 2 will be described as this embodiment. 12 to 20 are diagrams illustrating examples of electronic apparatuses to which the liquid crystal display device according to this embodiment is applied. The liquid crystal display device according to the present embodiment is a mobile terminal, a mobile terminal device such as a smartphone, a television device, a digital camera, a notebook personal computer, a video camera, or a meter or a car navigation system provided in a vehicle. It can be applied to other electronic devices. In other words, the liquid crystal display device according to the present embodiment can be applied to electronic devices in various fields that display an externally input video signal or an internally generated video signal as an image or video. The electronic apparatus includes a control device that supplies a video signal to the liquid crystal display device and controls the operation of the liquid crystal display device. For example, the control device is connected to the end 9b of the FPC 9 as an external device, and transmits a video signal to the liquid crystal panel 3 to control the display operation.

(Application example 1)
The electronic apparatus shown in FIG. 12 is a television apparatus to which the liquid crystal display device according to this embodiment is applied. The television apparatus includes, for example, a video display screen unit 510 including a front panel 511 and a filter glass 512, and a control device 513 that controls the video display screen unit 510. The video display screen unit 510 is a liquid crystal display device according to the present embodiment.

(Application example 2)
The electronic apparatus shown in FIGS. 13 and 14 is a digital camera to which the liquid crystal display device according to this embodiment is applied. This digital camera has, for example, a flash light emitting section 521, a display section 522, a menu switch 523, a shutter button 524, and a control device 526 that controls the display section 522. The display section 522 is the present embodiment. The liquid crystal display device according to the above. As shown in FIG. 13, this digital camera has a lens cover 525, and a photographing lens appears by sliding the lens cover 525. The digital camera can take a digital photograph by imaging light incident from the taking lens.

(Application example 3)
The electronic device shown in FIG. 15 represents the appearance of a video camera to which the liquid crystal display device according to this embodiment is applied. The video camera includes, for example, a main body 531, a subject photographing lens 532 provided on the front side surface of the main body 531, a start / stop switch 533 during photographing, a display 534, and a control device that controls the display 534. 535. The display unit 534 is a liquid crystal display device according to the present embodiment.

(Application example 4)
The electronic apparatus shown in FIG. 16 is a notebook personal computer to which the liquid crystal display device according to this embodiment is applied. The notebook personal computer includes, for example, a main body 541, a keyboard 542 for inputting characters and the like, a display unit 543 that displays an image, and a control device 544 that controls the display unit 543. The display unit 543 includes: The liquid crystal display device according to the present embodiment.

(Application example 5)
17 and 18 is a mobile phone to which the liquid crystal display device according to this embodiment is applied. FIG. 17 is a front view of the cellular phone when it is opened. FIG. 18 is a front view of the cellular phone folded. For example, the mobile phone is obtained by connecting an upper housing 551 and a lower housing 552 with a connecting portion (hinge portion) 553, and includes a display 554, a sub-display 555, a picture light 556, a camera 557, and a display 554. A control device 558 for controlling is provided. The display 554 is attached with the liquid crystal display device according to this embodiment. For this reason, the display 554 of the mobile phone may have a function of detecting a touch operation in addition to a function of displaying an image.

(Application example 6)
The electronic device illustrated in FIG. 19 is an information portable terminal that operates as a portable computer, a multifunctional portable phone, a portable computer capable of voice communication, or a portable computer capable of communication, and is sometimes referred to as a so-called smartphone or tablet terminal. . The portable information terminal includes a display unit 562 on the surface of a housing 561, for example, and further includes a control device 563 that controls the display unit 562. The display unit 562 is a liquid crystal display device according to the present embodiment.

(Application example 7)
FIG. 20 is a schematic configuration diagram of a meter unit and a car navigation system mounted on a vehicle according to the present embodiment. The electronic device shown in FIG. 20 is a meter unit and a car navigation system mounted on a vehicle. A meter unit (electronic device) 570 illustrated in FIG. 20 includes a plurality of liquid crystal display devices according to the present embodiment described above as a display device 571 such as a fuel gauge, a water temperature gauge, a speedometer, and a tachometer. The meter unit 570 includes a control device 579 that controls the display device 571. The plurality of display devices 571 are all covered by a single exterior panel 572.

  Each of the display devices 571 shown in FIG. 20 has a configuration in which a panel 573 as display means and a movement mechanism as analog display means are combined with each other. The movement mechanism has a motor as driving means and a pointer 574 rotated by the motor. As shown in FIG. 20, the display device 571 can display a scale display, a warning display, and the like on the display surface of the panel 573, and the movement mechanism pointer 574 rotates on the display surface side of the panel 573. Is possible.

  In FIG. 20, a plurality of display devices 571 are provided in one exterior panel 572, but the present invention is not limited to this. One display device 571 may be provided in a region surrounded by the exterior panel 572, and a fuel gauge, a water temperature meter, a speedometer, a tachometer, or the like may be displayed on the display device 571.

  As shown in FIG. 20, for example, a car navigation display device 576 is installed on a dashboard 577 of the vehicle. The car navigation display device 576 includes the liquid crystal display device according to this embodiment as a display unit 575, and includes a control device 578 that controls the display unit 575. The display unit 575 is used for navigation display in a car navigation system, display of a music operation screen, movie playback display, or the like.

  As mentioned above, although each embodiment and the modification were demonstrated, these embodiments etc. are not limited by the content of these embodiments. In addition, the above-described constituent elements include those that can be easily assumed by those skilled in the art, those that are substantially the same, and those in a so-called equivalent range. Furthermore, the above-described components can be appropriately combined. Furthermore, various omissions, substitutions, or changes of the constituent elements can be made without departing from the spirit of the above-described embodiments and the like.

(Configuration of this disclosure)
The present disclosure can employ the following configurations.

(1) a base having a rectangular bottom, and a side wall extending from each outer edge of the bottom in a direction intersecting the bottom;
A liquid crystal panel housed in a space surrounded by the bottom and the inner peripheral surface of the side wall,
A display cover that is fixed in contact with an end surface of the side wall portion in a direction in which the side wall portion extends over the entire circumference along each outer edge of the bottom portion, and covers the display surface of the liquid crystal panel;
A flexible printed circuit board having one end electrically connected to the liquid crystal panel and the other end pulled out of the space;
Including a liquid crystal display device.

(2) The side wall portion has four side wall portions along respective outer edges of the bottom portion,
At least part of each of the end surfaces of the four side wall portions and the display cover are fixed in contact with each other,
Liquid crystal display device.

(3) The intermediate portion of the flexible printed circuit board between the one end portion and the other end portion is a portion where the display cover and the end face of the side wall portion are in contact with each other, the display cover and the side wall portion. And is fixed to at least one of the side wall and the display cover.
Liquid crystal display device.

(4) The base is provided with a slit that penetrates the space and the outside of the base.
An intermediate portion of the flexible printed circuit board between the one end and the other end is located in a slit of the base.
Liquid crystal display device.

(5) The slit penetrates the side wall of the base.
Liquid crystal display device.

(6) The slit penetrates the bottom of the base.
Liquid crystal display device.

(7) The flexible printed circuit board has a portion between the one end and the intermediate portion fixed to the liquid crystal panel.
Liquid crystal display device.

(8) the liquid crystal display device;
A control device for controlling the liquid crystal display device,
Electronics.

(9) the liquid crystal display device;
A control device for controlling the liquid crystal display device,
Electronics.

(10) the liquid crystal display device;
A control device for controlling the liquid crystal display device,
Electronics.

(11) the liquid crystal display device;
A control device for controlling the liquid crystal display device,
Electronics.

(12) the liquid crystal display device;
A control device for controlling the liquid crystal display device,
Electronics.

(13) the liquid crystal display device;
A control device for controlling the liquid crystal display device,
Electronics.

DESCRIPTION OF SYMBOLS 1 Liquid crystal display device 2 Backlight unit 3 Liquid crystal panel 4 Cover glass 5 Base 6 Light guide plate 7 Optical sheet 8 Bottom part 9 FPC
11 Substrate 12 LED
31 Transparent substrate 32 Transparent substrate 51 1st side wall part 52 2nd side wall part 53 3rd side wall part 54 4th side wall part

Claims (3)

A base having a rectangular bottom and a side wall extending in a direction intersecting the bottom from each outer edge of the bottom;
A liquid crystal panel housed in a space surrounded by the bottom and the inner peripheral surface of the side wall;
A display cover that is fixed in contact with an end surface of the side wall portion in a direction in which the side wall portion extends over the entire circumference along each outer edge of the bottom portion, and covers the display surface of the liquid crystal panel;
A flexible printed circuit board having one end portion electrically connected to the liquid crystal panel and the other end portion drawn out of the space;
Including
The base is provided with a slit that penetrates the space and the outside of the base,
The intermediate portion of the flexible printed circuit board between the one end and the other end is located in the slit of the base,
In the flexible printed circuit board, the one end is fixed to the surface of the liquid crystal panel on the display cover side, and the fixing portion that is a portion between the one end and the intermediate portion is the liquid crystal panel. Is fixed to the surface opposite to the display cover, and the liquid crystal panel is sandwiched between the one end portion and the fixing portion ,
The slit penetrates the bottom of the base that faces the surface of the liquid crystal panel on which the fixing portion is fixed;
The flexible printed circuit board extends linearly from the fixed part to the intermediate part toward the bottom of the base.
Liquid crystal display device. The side wall portion has four side wall portions along respective outer edges of the bottom portion,
At least part of each of the end surfaces of the four side wall portions and the display cover are fixed in contact with each other,
The liquid crystal display device according to claim 1. A liquid crystal display device according to claim 1 or 2 ,
A control device for controlling the liquid crystal display device,
Electronics.

Images