Patent Publication Number: US-7595983-B2

Title: Display and portable device

Description:
RELATED APPLICATIONS 
     This application is a Continuation of U.S. application Ser. No. 11/316,991, filed Dec. 27, 2005, claiming priority of Japanese Application Nos. 2004-379021, filed Dec. 28, 2004, and 2005-034170, filed Feb. 10, 2005, the entire contents of each of which are hereby incorporated by reference. 
    
    
     CROSS-REFERENCE TO RELATED APPLICATIONS 
     The priority applications Nos. JP2004-379021 and JP2005-034170 upon which this patent application is based is hereby incorporated by reference. 
     BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The present invention relates to a display and a portable device, and more particularly, it relates to a display and a portable device each comprising a display panel. 
     2. Description of the Background Art 
     A display comprising a display panel is known in general. For example, Japanese Patent Laying-Open No. 2001-174846 discloses a display (LCD (liquid crystal display) unit) comprising a display panel. 
     In the LCD unit disclosed in the aforementioned Japanese Patent Laying-Open No. 2001-174846, the display is held between an upper frame (shield case) and a lower frame (holding member). An end of an FPC (flexible printed circuit) is connected to the display panel, while another end of the FPC projects outward through a slit of the upper frame. 
     In the conventional LCD unit described in Japanese Patent Laying-Open No. 2001-174846, however, an impact applied to the upper and lower frames as a result of a fall or the like is disadvantageously transmitted to the display panel held therebetween. Consequently, the display panel may disadvantageously be broken due to the impact resulting from a fall or the like in the structure held between the upper and lower frames. 
     SUMMARY OF THE INVENTION 
     The present invention has been proposed in order to solve the aforementioned problem, and an object of the present invention is to provide a display and a portable device each capable of suppressing breakage of a display panel against an impact resulting from a fall or the like. 
     In order to attain the aforementioned object, a display according to a first aspect of the present invention comprises a display panel, an upper frame, arranged on the upper side of the display panel, having a first opening for exposing a display surface of the display panel, a first flexible printed wiring board for the display panel having a first end connected to the display panel and a second end curvedly arranged on the lower side of the display panel, a reinforcing sheet arranged between the lower side of the display panel and the curvedly arranged first flexible printed wiring board and a lower frame arranged on the lower side of the reinforcing sheet for engaging with the upper frame. 
     In the display according to the first aspect, as hereinabove described, the reinforcing sheet is arranged between the display panel and the curvedly arranged first flexible printed wiring board for dispersing an impact applied to the display as a result of a fall or the like before the impact is transmitted to the display panel, whereby breakage of the display panel can be suppressed. Also when the first flexible printed wiring board is pressed from the side of the lower frame, the reinforcing sheet disperses this pressing force before the same is transmitted to the display panel, whereby breakage of the display panel and various optical members can be suppressed. 
     In the aforementioned display according to the first aspect, the upper frame and the lower frame are preferably made of metal. According to this structure, the upper and lower frames of metal shield the first flexible printed wiring board, so that the display is resistant against noise or unnecessary electromagnetic wave radiation damaging an electronic device. 
     In the aforementioned display according to the first aspect, the reinforcing sheet is preferably made of metal. According to this structure, the strength of the reinforcing sheet can be easily increased. Consequently, breakage of the display panel can be easily suppressed also when an impact is applied thereto. 
     The aforementioned display according to the first aspect preferably further comprises a resin frame holding the side surfaces of the display panel, and the reinforcing sheet preferably includes a holding portion holding at least one edge of the resin frame. According to this structure, the resin frame held by the reinforcing sheet can be improved in mechanical strength. Thus, the resin frame can be inhibited from deformation also when an impact is applied to the display as a result of a fall or the like, whereby breakage of the display panel having the side surfaces held by the resin frame can be suppressed. 
     In the aforementioned structure having the reinforcing sheet provided with the holding portion, the holding portion of the reinforcing sheet is preferably U-shaped, and the U-shaped holding portion preferably holds at least one edge of the resin frame. According to this structure, one edge of the resin frame is fitted into the U-shaped holding portion, whereby the reinforcing sheet can reliably hold the resin frame. Thus, the resin frame can be inhibited from deformation also when an impact is applied to the display as a result of a fall or the like, whereby breakage of the display panel having the side surfaces held by the resin frame can be further suppressed. Also when a prescribed portion of the display panel generally constituted of two glass substrates is constituted of a single glass substrate in order to mount an electronic component for driving the display panel or the like on the display panel, for example, breakage of the portion of the single glass substrate (display panel) can be suppressed. 
     In the aforementioned structure having the reinforcing sheet provided with the holding portion, the display panel preferably includes two glass substrates, the first glass substrate preferably has a projection formed to project beyond the second glass substrate for connecting the first flexible printed wiring board, and the holding portion of the reinforcing sheet preferably holds one edge of the resin frame closer to the projection of the first glass substrate. According to this structure, the reinforcing sheet can reliably hold one edge of the resin frame closer to the projection of the first glass substrate, so that the resin frame can be inhibited from deformation also when an impact is applied to the display as a result of a fall or the like. Thus, breakage of the projection of the first glass substrate projecting beyond the second glass substrate can be suppressed. 
     In this case, an electronic component for driving the display panel is preferably mounted on the upper surface of the projection of the first glass substrate. Breakage of the display panel can be suppressed against an impact resulting from a fall or the like also when the display panel is a COG (chip on glass) type display panel formed by mounting an electronic component on a projection of a glass substrate. 
     In the aforementioned display according to the first aspect, a connector portion for electrically connecting with an external device is preferably mounted on the first flexible printed wiring board, and a second opening is preferably provided in the lower frame on a position corresponding to the connector portion of the curvedly arranged first flexible printed wiring board. According to this structure, the display can be easily electrically-connected with the external device through the connector portion of the first flexible printed wiring board. Also when the display is strongly pressed against the external device to press the connector portion of the first flexible printed wiring board in order to connect this connector portion of the first flexible printed wiring board with a connector portion of the external device for building the display into the external device, therefore, the reinforcing sheet supporting the connector portion can disperse the pressing force acting on the connector portion. Consequently, breakage of the display panel resulting from strong pressing force acting on the connector portion can be suppressed when the display is connected with the external device. 
     In the aforementioned display according to the first aspect, a first engaging portion is preferably provided on the lower surface of the reinforcing sheet, and a second engaging portion engaging with the first engaging portion of the reinforcing sheet is preferably provided on the first flexible printed wiring board. According to this structure, the first flexible printed wiring board can be easily and reliably registered by engaging the first and second engaging portions with each other, whereby assembling workability of the display can be improved. 
     The aforementioned display according to the first aspect preferably further comprises a resin frame holding the side surfaces of the display panel, while a third engaging portion is preferably provided on the inner side surface of the reinforcing sheet, and a fourth engaging portion engaging with the third engaging portion is preferably provided on the outer side surface of the resin frame. According to this structure, the rein frame holding the side surfaces of the display panel and the reinforcing sheet can be easily and reliably engaged with each other by engaging the third and fourth engaging portions with each other. Consequently, the reinforcing sheet dispersing an impact applied to the display as a result of a fall or the like can be reliably engaged with the resin frame, and assembling workability of the display comprising this reinforcing sheet can be improved. 
     The aforementioned display according to the first aspect preferably further comprises a light source for irradiating light toward the display panel and a second flexible printed wiring board for the light source connected to the light source, while the reinforcing sheet preferably includes a receiving portion receiving the second flexible printed wiring board and a suppressing portion suppressing displacement when curving the second flexible printed wiring board. According to this structure, the receiving portion and the suppressing portion of the reinforcing sheet come into contact with the second flexible printed wiring board, whereby a curved portion of the second flexible printed wiring board can be inhibited from displacement to its original position. Thus, a mounting angle of the light source connected to the second flexible printed wiring board can be inhibited from deviation resulting from displacement of the second flexible printed wiring board when the second flexible printed wiring board is curved on the lower side of the display panel. 
     The aforementioned display comprising the reinforcing sheet including the suppressing portion preferably further comprises a resin frame holding the side surfaces of the display panel, while the reinforcing sheet preferably includes a holding portion holding at least one edge of the resin frame, and the holding portion preferably functions also as the suppressing portion. According to this structure, it is possible to inhibit the second flexible printed wiring board from displacement while holding one edge of the resin frame. 
     In the aforementioned display comprising the reinforcing sheet including the suppressing portion, the second flexible printed wiring board preferably includes a slender long section curved to be connected to the curvedly arranged first flexible printed wiring board. Also when the display is provided with the slender long section curved to be connected to the first flexible printed wiring board, it is possible to inhibit the mounting angle of the light source connected to the second flexible printed wiring board from deviation resulting from displacement of the long section. 
     In this case, the display preferably further comprises a resin frame holding the side surfaces of the display panel, and the resin frame preferably has a groove portion for receiving the long section of the second flexible printed wiring board. According to this structure, the long section can be arranged along the groove portion of the resin frame, whereby the second flexible printed wiring board can be easily inhibited from misregistration. Further, the long section and the first flexible printed wiring board connected to the long section can be easily registered with each other by curving the long section arranged along the groove portion. Consequently, assembling workability of the display can be improved. 
     In the aforementioned structure comprising the reinforcing sheet having the U-shaped holding portion, the U-shaped holding portion of the reinforcing sheet preferably holds one edge of the resin frame having a width exceeding the width of the display panel. According to this structure, the U-shaped holding portion of the reinforcing sheet can more reliably hold one edge of the resin frame having the width exceeding the width of the display panel. Consequently, the resin frame can be inhibited from deformation also when torsional force deflecting the resin frame is applied to the display following application of an impact resulting from a fall or the like, whereby breakage of the display panel can be suppressed. 
     In the aforementioned structure comprising the reinforcing sheet having the U-shaped holding portion, the width of the U-shaped holding portion of the reinforcing sheet is preferably smaller than the width of the display panel. Also when formed with the holding portion having the width smaller than that of the display panel, the reinforcing sheet can hold the resin frame by receiving one edge of the resin frame in the U-shaped holding portion. 
     In the aforementioned structure comprising the reinforcing sheet having the U-shaped holding portion, the U-shaped holding portion of the reinforcing sheet preferably includes a reinforcing portion having a folded forward end on an edge along one edge of the resin frame. According to this structure, the reinforcing portion increases the mechanical strength of the holding portion, whereby the holding portion can be inhibited from deformation also when a strong impact is applied to the display as a result of a fall or the like. Thus, the holding portion can more reliably hold one edge of the resin frame, whereby breakage of the resin frame holding the side surfaces of the display panel can be suppressed. Consequently, breakage of the display panel can be further suppressed. 
     In this case, the display preferably further comprises a light source for irradiating light toward the display panel and a second flexible printed wiring board for the light source connected to the light source, and a reinforcing portion of the holding portion preferably holds a portion of the second flexible printed wiring board along the reinforcing portion of the holding portion of the reinforcing sheet. According to this structure, the second flexible printed wiring board can be entirely held so that the light source connected to the second flexible printed wiring board can be reliably arranged on a prescribed position. Consequently, leakage of light from the light source arranged on the prescribed position can be suppressed so that the light source can efficiently supply light, whereby the display panel can ensure stable brightness. 
     A display according to a second aspect of the present invention comprises a display panel, a resin frame holding the side surfaces of the display panel, a first flexible printed wiring board for the display panel having a first end connected to the display panel and a second end curvedly arranged on the lower side of the display panel, a reinforcing sheet, arranged between the lower side of the display panel and the curvedly arranged first flexible printed wiring board, including a holding portion holding at least one edge of the resin frame and a lower frame arranged on the lower side of the reinforcing sheet for storing the display panel by engaging with the resin frame. 
     In the display according to the second aspect, as hereinabove described, the reinforcing sheet is arranged between the display panel and the curvedly arranged first flexible printed wiring board for dispersing an impact applied to the display as a result of a fall or the like before the impact is transmitted to the display panel, whereby breakage of the display panel can be suppressed. Also when the first flexible printed wiring board is pressed from the side of the lower frame, the reinforcing sheet disperses this pressing force before the same is transmitted to the display panel, whereby breakage of the display panel and various optical members can be suppressed. 
     In the aforementioned display according to the second aspect, the holding portion of the reinforcing sheet is preferably U-shaped, and the U-shaped holding portion preferably holds at least one edge of the resin frame. According to this structure, one edge of the resin frame is fitted into the U-shaped holding portion, whereby the reinforcing sheet can reliably hold the resin frame. Thus, the resin frame can be inhibited from deformation also when an impact is applied to the display as a result of a fall or the like, whereby breakage of the display panel having the side surfaces held by the resin frame can be further suppressed. Also when a prescribed portion of the display panel generally constituted of two glass substrates is constituted of a single glass substrate in order to mount an electronic component for driving the display panel or the like on the display panel, for example, breakage of the portion of the single glass substrate (display panel) can be suppressed. 
     A portable device according to a third aspect of the present invention includes a display comprising a display panel, an upper frame, arranged on the upper side of the display panel, having a first opening for exposing a display surface of the display panel, a first flexible printed wiring board for the display panel having a first end connected to the display panel and a second end curvedly arranged on the lower side of the display panel, a reinforcing sheet arranged between the lower side of the display panel and the curvedly arranged first flexible printed wiring board and a lower frame arranged on the lower side of the reinforcing sheet for engaging with the upper frame. 
     In the portable device according to the third aspect, as hereinabove described, the reinforcing sheet is arranged between the display panel and the curvedly arranged first flexible printed wiring board so that the portable device including the display can suppress breakage of the display panel against an impact resulting from a fall or the like. 
     A portable device according to a fourth aspect of the present invention includes a display comprising a display panel, a resin frame holding the side surfaces of the display panel, a first flexible printed wiring board for the display panel having a first end connected to the display panel and a second end curvedly arranged on the lower side of the display panel, a reinforcing sheet, arranged between the lower side of the display panel and the curvedly arranged first flexible printed wiring board, including a holding portion holding at least one edge of the resin frame and a lower frame arranged on the lower side of the reinforcing sheet for storing the display panel by engaging with the resin frame. 
     In the portable device according to the fourth aspect, as hereinabove described, the reinforcing sheet is arranged between the display panel and the curvedly arranged first flexible printed wiring board so that the portable device including the display can suppress breakage of the display panel against an impact resulting from a fall or the like. 
     The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is a perspective view showing an LCD unit according to an embodiment of the present invention; 
         FIG. 2  is a perspective view showing the bottom side of the LCD unit according to the first embodiment shown in  FIG. 1 ; 
         FIG. 3  is an internal perspective view showing the LCD unit according to the first embodiment shown in  FIG. 1  in a state mounted on a printed wiring board of a potable telephone; 
         FIG. 4  is an exploded perspective view of the LCD unit according to the embodiment shown in  FIG. 1 ; 
         FIG. 5  is a sectional view taken along the line  300 - 300  in  FIG. 1 ; 
         FIG. 6  is a perspective view showing a display panel, a resin frame and a reinforcing sheet of the LCD unit according to the embodiment shown in  FIG. 1 ; 
         FIG. 7  is a perspective view of a reinforcing sheet according to a first modification of the LCD unit according to the embodiment shown in  FIG. 1 ; 
         FIG. 8  is a perspective view of a reinforcing sheet according to a second modification of the LCD unit according to the embodiment shown in  FIG. 1 ; 
         FIG. 9  is a diagram for illustrating the detailed structure of an LCD unit according to the second modification of the LCD unit according to the embodiment shown in  FIG. 1 ; 
         FIG. 10  is a sectional view taken along the line  400 - 400  in  FIG. 9 ; 
         FIG. 11  is a perspective view showing an LCD unit according to a third modification of the LCD unit according to the embodiment shown in  FIG. 1 ; and 
         FIG. 12  is a perspective view showing a display panel, a resin frame and a reinforcing sheet of an LCD unit according to a fourth modification of the LCD unit according to the embodiment shown in  FIG. 1 . 
     
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     An embodiment of the present invention is now described with reference to the drawings. 
     Referring to  FIGS. 1 to 6 , the present invention is applied to an LCD unit  100 , which is an exemplary display, according to this embodiment. 
     The LCD unit  100  according to the embodiment of the present invention comprises upper and lower frames  1  and  2  of metal and a liquid crystal display panel  3  stored inside the upper and lower frames  1  and  2 , as shown in  FIGS. 1 and 2 . The liquid crystal display panel  3  is an example of the “display panel” in the present invention. 
     As shown in  FIG. 2 , a connector portion  41  and an antenna characteristic checking pin connector portion (hereinafter referred to as “pin connector portion”)  42  mounted on a flexible printed wiring board (hereinafter referred to as “panel FPC”)  4  for the display panel  3  described later are arranged on positions corresponding to openings  21  and  22  of the lower frame  2  respectively. In other words, the connector portion  41  and the pin connector portion  42  are arranged to be externally connectable through the openings  21  and  22  respectively. 
     As shown in  FIG. 3 , the LCD unit  100  is stored inside upper and lower chassis  201  and  202  of a portable telephone  200 . The connector portion  41  (see  FIG. 2 ) of the panel FPC  4  of the LCD unit  100  is connected to a connector portion  211  set on a printed wiring board  210  of the portable-telephone  200 . 
     As shown in  FIGS. 4 and 5 , the upper frame  1  is arranged on the upper side of the liquid crystal display panel  3 . This upper frame  1  includes a planar portion  1   a , four side portions  1   b  downwardly extending from four edges of the planar portion  1   a  and an opening  1   c  for exposing a display surface of the liquid crystal display panel  3 . The opening  1   c  of the upper frame  1  is an example of the “first opening” in the present invention. The lower frame  2  includes a bottom portion  2   a  and four side portions  2   b  upwardly extending from four edges of the bottom portion  2   a.  The side portions  1   b  and  2   b  of the upper and lower frames  1  and  2  are provided with irregular portions (not shown), for engaging the upper and lower frames  1  and  2  with each other through the irregular portions. The bottom portion  2   a  of the lower frame  2  is formed with the openings  21  and  22  on the positions where the connector portion  41  and the pin connector portion  42  mounted on the aforementioned panel FPC  4  are arranged respectively. The opening  21  of the lower frame  2  is an example of the “second opening” in the present invention. 
     The liquid crystal display panel  3  includes upper and lower glass substrates  31  and  32  oppositely arranged to hold liquid crystals (not shown) therebetween and a sealing member  33  arranged between the glass substrates  31  and  32 . A thin-film transistor (TFT: not shown) is formed on the lower glass substrate  32 . An upper polarizing plate  34  is arranged on the upper side of the glass substrate  31 , while a lower polarizing plate  35  is arranged on the lower side of the glass substrate  32 . 
     As shown in  FIGS. 4 to 6 , the lower glass substrate  32  is formed with a projection  32   a  projecting beyond the upper glass substrate  31 . A driver IC (integrated circuit)  5  for driving the liquid crystal display panel  3  and an end of the panel FPC  4  are mounted on the upper surface of the projection  32   a  of the lower glass substrate  32 . The panel FPC  4  is electrically connected to the driver IC  5 . The driver IC  5  is an example of the “electronic component” in the present invention, and the panel FPC  4  is an example of the “first flexible printed wiring board” in the present invention. It is known that left and right ends  32   b  of the projection  32   a  are particularly easily cracked due to an impact resulting from a fall or the like. 
     As shown in  FIGS. 4 and 5 , the connector portion  41  connected to the connector portion  211  (see  FIG. 3 ) of the printed wiring board  210  of the aforementioned portable telephone  200 , the pin connector portion  42 , a speaker  43 , another connector portion  44  connected with a connector plug portion  7   a  of a flexible printed wiring board  7  for a backlight described later and a plurality of electronic components  45  are mounted on the panel FPC  4 . The panel FPC  4  is further provided with three locating holes  46  engaging with three projecting portions  9   e  provided on a reinforcing sheet  9  described later. The locating holes  46  are examples of the “second engaging portion” in the present invention. The panel FPC  4  is curved on the lower side of the liquid crystal display panel  3  and arranged between the lower frame  2  and the reinforcing sheet  9 . 
     The flexible printed wiring board (hereinafter referred to as “backlight FPC”)  7  for a backlight is arranged on the lower side of the projection  32   a  of the lower glass substrate  32 . The backlight FPC  7  is an example of the “second flexible printed wiring board” in the present invention. Four LEDs  71  for irradiating light toward a light guide  6  are mounted on the bottom surface of the backlight FPC  7 . These LEDs  71  are mounted on the backlight FPC  7  to irradiate light toward the light guide  6 . The LEDs  71  are examples of the “light source” in the present invention. The backlight FPC  7  is provided with a slender long section  7   b  having the connector plug portion  7   a  on its forward end to be connected with the connector portion  44  of the panel FPC  4 . The long section  7   b  outwardly extends from an end  7   c  (see  FIG. 5 ) of a portion on which the LEDs  71  are mounted. This long section  7   b  is curvedly arranged on the lower side of the panel FPC  4 , to be connected with the connector portion  44  of the panel FPC  4  arranged on the lower side of the reinforcing sheet  9 . 
     A resin frame  8  is provided for storing the liquid crystal display panel  3 , the light guide  6  and the backlight FPC  7 . This resin frame  8  includes an opening  8   a  for storing the light guide  6 , a bottom portion  8   b  forming the opening  8   a , four side portions  8   c  upwardly extending from four edges of the bottom portion  8   b  and a projection  8   d  projecting toward the projection  32   a  of the lower glass substrate  32  of the liquid crystal display panel  3 . These four side portions  8   c  hold the side surfaces of the liquid crystal display panel  3 . The projection  8   d  receives a U-shaped holding portion  9   b  of the reinforcing sheet  9  described later. The projection  8   d  is formed with a groove portion  8   e  for receiving the long section  7   b  of the backlight FPC  7 . Recess portions  8   f  (see  FIG. 5 ) are formed on the outer side of the side portion  8   c  opposed to the projection  8   d  for engaging with projecting engaging portions  9   d  of the reinforcing sheet  9  described later. The recess portions  8   f  are examples of the “fourth engaging portion” in the present invention. A reflective sheet  10  is arranged on the lower side of the resin frame  8  for reflecting light irradiated from the LEDs  71  upward (toward the liquid crystal display panel  3 ). This reflective sheet  10  is arranged-on a position blocking the opening  8   a  of the resin frame  8 . 
     According to this embodiment, the reinforcing sheet  9  of a metallic plate is arranged between the lower frame  2  and the resin frame  8 . This reinforcing sheet  9  is provided with a bottom portion  9   a , the U-shaped holding portion  9   b  engaging with the projection  8   d  of the resin frame  8  and a side portion  9   c  upwardly extending from an edge of the bottom portion  9   a  opposite to the holding portion  9   b.  The projecting engaging portions  9   d  are formed on the inner side of the side portion  9   c  for engaging with the recess portions  8   f  (see  FIG. 5 ) of the resin frame  8 . The three projecting portions  9   e  downwardly projecting from the bottom portion  9   a  are formed on the bottom portion  9   a  for engaging with the locating holes  46  of the panel FPC  4 . The projecting portions  9   e  are examples of the “first engaging portion” in the present invention, and the engaging portions  9   d  are examples of the “third engaging portion” in the present invention. 
     According to this embodiment, the holding portion  9   b  holds the projection  8   d  of the resin frame  8  having a width exceeding the width of the liquid crystal display panel  3 . The holding portion  9   b  is provided with a receiving portion  9   f  receiving the long section  7   b  of the backlight FPC  7  and an upper planar portion  9   g  of the U-shaped holding portion  9   b.  When the long section  7   b  of the backlight FPC  7  is curved on the lower side of the reinforcing sheet  9 , the receiving portion  9   f  and the planar portion  9   g  come into contact with the long section  7   b  from above to inhibit the long section  7   b  from displacement (lifting), whereby the mounting angle of the LED  71  can be inhibited from deviation following displacement of the long section  7   b.  The planar portion  9   g  of the holding portion  9   b  is an example of the “suppressing portion” in the present invention. 
     According to this embodiment, as hereinabove described, the reinforcing sheet  9  is arranged between the liquid crystal display panel  3  and the curvedly arranged panel FPC  4  for dispersing an impact applied to the LCD unit  100  as a result of a fall or the like before the same is transmitted to the liquid crystal display panel  3 , whereby breakage of the liquid crystal display panel  3  can be suppressed. Also when the panel FPC  4  is pressed from the side of the lower frame  2 , the reinforcing sheet  9  disperses this pressing force before the same is transmitted to the liquid crystal display panel  3 , whereby breakage of the liquid crystal display panel  3  and various optical members can be suppressed. 
     According to this embodiment, the metal reinforcing sheet  9  is arranged between the liquid crystal display panel  3  and the panel FPC  4  to disperse repulsive force also when the speaker  43  is pressed against the bottom portion  2   a  of the lower frame  2  in order to suppress air leakage, whereby breakage of the optical members such as the light guide  6  and the reflective sheet  10  can be suppressed. Therefore, the speaker  43  mounted on the panel FPC  4  can be arranged in a state suppressing air leakage. 
     According to this embodiment, the reinforcing sheet  9  constituted of a metallic plate can be easily increased in strength. Consequently, breakage of the liquid crystal display panel  3  can be easily suppressed also when an impact is applied thereto. 
     According to this embodiment, the holding portion  9   b  of the reinforcing sheet  9  is formed in the U-shaped manner for holding the projection  8   d  of the resin frame  8  so that the projection  8   d  of the resin frame  8  is fitted into the holding portion  9   b , whereby the reinforcing sheet  9  can reliably hold the resin frame  8 . Thus, the resin frame  8  can be inhibited from deformation also when an impact is applied to the LCD unit  100  as a result of a fall or the like, whereby breakage of the liquid crystal display panel  3  having the side surfaces held by the resin frame  8  can be further suppressed. 
     According to this embodiment, the holding portion  9   b  of the reinforcing sheet  9  holds the projection  8   d  of the resin frame  8  close to the projection  32   a  of the lower glass substrate  32  so that the reinforcing sheet  9  can reliably hold the projection  8   d  of the resin frame  8  close to the projection  32   a  of the glass substrate  32 , whereby breakage of the projection  32   a  of the glass substrate  32  and the left and right ends  32   b  thereof can be suppressed also when an impact is applied to the LCD unit  100  as a result of a fall or the like. 
     According to this embodiment, the opening  21  is provided on the position of the lower frame  2  corresponding to the connector portion  41  of the curved panel FPC  4  so that the panel FPC  4  can be easily electrically connected with the printed wiring board  210  of the portable telephone  200  through the connector portion  41  thereof. Also when the LCD unit  100  is strongly pressed against the portable telephone  200  in order to connect the connector portion  41  of the panel FPC  4  with the connector portion  211  set on the printed wiring board  210  of the portable telephone  200  at this time, the reinforcing sheet  9  supporting the connector portion  41  can disperse the pressing force applied to the connector portion  41 . Consequently, breakage of the liquid crystal display panel  3  resulting from strong pressing force applied to the connector portion  41  for connecting the same with the portable telephone  200  can be suppressed. 
     According to this embodiment, the reinforcing sheet  9  is provided with the projecting portions  9   e  while the panel FPC  4  is provided with the locating holes  46  engaging with the projecting portions  9   e  of the reinforcing sheet  9  so that the components such as the connector portion  41 , the pin connector portion  42  and the speaker  43  mounted on the panel FPC  4  can be easily and reliably arranged on prescribed positions by engaging the projecting portions  9   e  of the reinforcing sheet  9  and the locating holes  46  of the panel FPC  4  with each other, whereby assembling workability of the LCD unit  100  can be improved. 
     According to this embodiment, the upper and lower frames  1  and  2  of metal are so employed as to shield the panel FPC  4  and the liquid crystal display panel  3  with the metal upper and lower frames  1  and  2 , whereby the display is resistant against noise or unnecessary electromagnetic wave radiation damaging an electronic device. 
     Although the present invention has been described and illustrated in detail, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, the spirit and scope of the present invention being limited only by the terms of the appended claims. 
     For example, while the reinforcing sheet  9  holds two edges of the resin frame  8  with the holding portion  9   b  engaging with the projection  8   d  of the resin frame  8  and the side portion  9   c  formed with the projecting engaging portions  9   d  engaging with the recess portions  8   f  of the side portion  8   c  upwardly extending from the edge opposite to the projection  8   d  in the aforementioned embodiment, the present invention is not restricted to this but a reinforcing sheet  19  may alternatively be integrally formed with side holding portions  9   h  for holding the side surfaces of the liquid crystal display panel  3 , as in a first modification shown in  FIG. 7 . Thus, the reinforcing sheet  19 , enabled to hold four edges of the liquid crystal display panel  3 , can reliably hold the liquid crystal display panel  3 . 
     While the reinforcing sheet  9  includes the U-shaped holding portion  9   b  in the aforementioned embodiment, the present invention is not restricted to this but a reinforcing sheet  29  may alternatively have a folded portion  9   i  formed by folding the long side of an end of a planar portion  9   b  of a U-shaped holding portion  9   b  by a length of about several millimeters at an angle of 180°, as in a second modification shown in  FIG. 8 . Thus, the mechanical strength of the holding portion  9   b  is so improved that the holding portion  9   b  formed with the folded portion  9   i  and improved in mechanical strength can be inhibited from deformation also when a strong impact is applied to the LCD unit  100  as a result of a fall or the like, whereby the holding portion  9   b  can more reliably hold the projection  8   d  of the resin frame  8 . Thus, breakage of the liquid crystal display panel  3  can be further suppressed. In particular, breakage of the projection  32   a , provided on the lower glass substrate  32  to project beyond the upper glass substrate  31  in order to mount the driver IC  5  for driving the liquid crystal display panel  3  according this embodiment, can be suppressed. The folded portion  9   i  is an example of the “reinforcing portion” in the present invention. 
     According to the aforementioned second modification, the long section  7   b  of the backlight FPC  7  outwardly extends from the end  7   c , as shown in  FIGS. 9 and 10 . This long section  7   b  is inserted into an opening  9   j  formed on the reinforcing sheet  29 , so that the side closer to the connector plug portion  7   a  is outwardly exposed. At this time, the end  7   c  of the backlight FPC  7  is held between the planar portion  9   g  formed with the folded portion  9   i  and the projection  8   d  of the resin frame  8 , as shown in  FIG. 10 . Also when the long section  7   b  of the backlight FPC  7  curved on the lower side of the reinforcing sheet  29  is displaced to return to the original position, therefore, the mounting angle of the LEDs  71  can be inhibited from deviation following displacement of the long section  7   b  since the end  7   c  of the backlight FPC  7  is held between the planar portion  9   g  and the projection  8   d  along the overall width. 
     Also when force resulting from displacement of the long section  7   b  is applied to the planar portion  9   g , it is possible to inhibit the holding portion  9   b  from deformation by pressing the end  7   c  of the backlight FPC  7  with the planar portion  9   g  and the projection  8   d  along the overall width thereby dispersing and uniformizing the force applied to the planar portion  9   g.  Further, the planar portion  9   g  is improved in mechanical strength due to the folded portion  9   i , whereby the backlight FPC can be inhibited from deformation. Thus, the LEDs  71  can be arranged on prescribed positions. Consequently, leakage of light from the LEDs  71  can be suppressed so that the LEDs  71  can efficiently supply light, whereby the liquid crystal display panel  3  can ensure stable brightness. 
     The folded portion  9   i  is formed also on the periphery of the opening  9   j  for outwardly exposing the long section  7   b  of the backlight FPC  7  as shown in  FIGS. 8 and 9 , whereby the mechanical strength of the opening  9   j  can also be improved. 
     While the LCD unit  100  employs the liquid crystal display panel  3  in the aforementioned embodiment, the present invention is not restricted to this but is also applicable to a display such as an organic EL display employing another display panel so far as the display comprises a display panel. 
     While the LCD unit  100  is applied to the portable telephone  200  in the aforementioned embodiment, the present invention is not restricted to this but may alternatively be applied to a digital camera, a PDA (personal digital assistant), a portable game machine or a miniature personal computer or the like. The display may further be arranged in a device other than a portable device. 
     While the liquid crystal display panel  3  is stored inside the upper and lower frames  1  and  2  in the aforementioned embodiment, the present invention is not restricted to this but only a lower frame  2  may be employed with no upper frame  1 , as in a third modification shown in  FIG. 11 . In this case, the lower frame  2  holds the liquid crystal display panel  3  through the resin frame  8 , whereby the components are not separated despite the absence of the upper frame  1 . Thus, an LCD unit  500  can be reduced in size and weight due to the omission of the upper frame  1 . In this case, the shielding property is reduced due to exposure of the upper side of the liquid crystal display panel  3 . When the upper and lower chassis  201  and  202  of the portable telephone  200  are prepared from magnesium, for example, noise or the like can be prevented. 
     While the holding portion  9   b  of the reinforcing sheet  9  holds the projection  8   d  of the resin frame  8  having the width exceeding the width of the liquid crystal display panel  3  according to the aforementioned embodiment, the present invention is not restricted to this but the width of a holding portion  19   b  of a reinforcing sheet  19  may be smaller than that of the liquid crystal display panel  3 , as in a fourth modification shown in  FIG. 12 . Also in this case, the projection  8   d  of the resin frame  8  is fitted into the U-shaped holding portion  19   b , so that the reinforcing sheet  19  can hold the resin frame  8 . 
     While the reinforcing sheet  9  is made of metal in the aforementioned embodiment, the present invention is not restricted to this but the reinforcing sheet may alternatively be made of another material such as resin, for example, having equivalent strength. 
     While the liquid crystal display according to the aforementioned embodiment is provided with four LEDs  71 , the present invention is not restricted to this but the display may alternatively be provided with not more than four or at least five LEDs. In this case, the display is preferably provided with at least two LEDs. 
     While the reinforcing sheet  9  is formed with the projecting portions  9   a  and the panel FPC  4  is formed with the locating holes  46  in order to locate the panel FPC  4  in the aforementioned embodiment, the present invention is not restricted to this but the reinforcing sheet and the panel FPC may alternatively be formed with locating holes and projections engaging with the locating holes respectively, and the projections may be formed by embossing or the like. 
     While the lower glass substrate  32  is provided with the projection  32   a  and the end of the panel FPC  4  is connected with the projection  32   a  in the aforementioned embodiment, the present invention is not restricted to this but the upper glass substrate  31  may alternatively be provided with a projection so that the end of the panel FPC  4  is connected with this projection.