JP2004193696A - Portable electronic apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a portable electronic apparatus which allows its cabinet to be thinned, without greatly lowering the strength of two liquid crystal displays installed back to back in the cabinet. <P>SOLUTION: The portable electronic apparatus has a main and a sub-liquid crystal displays 40, 50 comprising liquid crystal panels 41, 51, light guide plates 45, 55 having wedge profiles, LEDs 43, 53 disposed in face to face with the end faces of the guide plates 45, 55, and diffusing-reflecting sheets 46, 56 for diffusing and reflecting lights from the LEDs 43, 53 into the guide plates 45, 55, respectively. Both liquid crystal displays 40, 50 are held with a holder 6 and stacked in a cover cabinet 2 such that the thicknesses of the main and sub-optical guide plates 45, 55 increase in mutually opposite directions. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a portable electronic device, such as a foldable mobile phone, in which display screens are arranged on both sides of a flat cabinet.
[0002]
[Prior art]
Conventionally, in a foldable mobile phone in which a main body cabinet and a lid cabinet are connected to each other via a hinge mechanism so as to be openable and closable, in order to enable display at the time of an incoming call regardless of opening and closing of the lid cabinet, 2. Description of the Related Art There is known a cabinet in which screens of a display device are arranged on both the front surface and the back surface. In such a foldable mobile phone, in recent years, a further reduction in the size and thickness of the cabinet has been required.
[0003]
In a conventional foldable mobile phone, for example, as shown in FIG. 7, a main liquid crystal display device (40) having a main screen (4) exposed on the surface of a lid cabinet (2) inside a lid cabinet (2). ), A sub liquid crystal display device (50) having a sub screen (5) exposed on the back of the lid cabinet (2), and a metal holder (6) for holding the liquid crystal display devices (40) and (50). Is deployed.
[0004]
The main liquid crystal display device (40) includes a main liquid crystal panel (41) having the main screen (4), and a flat main light guide plate (40) provided on the back side of the main liquid crystal panel (41) and serving as a backlight. 49), a main LED (43) provided toward an end face of the main light guide plate (49), and a main LED (43) interposed between the main light guide plate (49) and the holder (6). And a main diffuse reflection sheet (46) for diffusing and reflecting the light into the main light guide plate (49).
Similarly, the sub liquid crystal display device (50) includes a sub liquid crystal panel (51) having the sub screen (5) and a flat sub liquid crystal panel provided on the back side of the sub liquid crystal panel (51) and serving as a backlight. A light plate (59), a sub LED (53) arranged toward an end face of the sub light guide plate (59), and a sub LED (53) interposed between the sub light guide plate (59) and the holder (6). ) Is diffused and reflected into the sub light guide plate (59).
[0005]
In the foldable mobile phone, not only the main screen (4) of the main liquid crystal display device (40) but also the sub screen (5) of the sub liquid crystal display device (50) are enlarged, as shown in FIG. The two liquid crystal display devices (40) and (50) are arranged in a back-to-back positional relationship with each other inside the lid cabinet (2) (for example, see Patent Document 1).
[0006]
[Patent Document 1]
JP 2001-217740 A
[Problems to be solved by the invention]
However, in the conventional foldable mobile phone, both liquid crystal display devices (40) and (50) are stacked and arranged in the thickness direction of the lid cabinet (2) with the enlargement of both display screens (4) and (5). Therefore, the thickness of the lid cabinet (2) is increased as compared with the case where both the liquid crystal display devices (40) and (50) are arranged in parallel in the longitudinal direction of the lid cabinet (2). There has been a problem that the size of the entire foldable mobile phone increases.
[0008]
In order to reduce the thickness of the lid cabinet (2), it is effective to make the light guide plates (49) and (59) of both the liquid crystal display devices (40) and (50) thin. Since the light plates (49) and (59) are made of a very fragile material such as glass, the strength is greatly reduced, and when a large external force acts on the surface of the liquid crystal panel, the light guide plates (49) and (59) are broken. There is a possibility that it will be.
[0009]
SUMMARY OF THE INVENTION It is an object of the present invention to reduce the thickness of a cabinet in a portable electronic device in which two liquid crystal display devices are stacked and arranged inside a cabinet without greatly reducing the strength of the two liquid crystal display devices.
[0010]
[Means for solving the problem]
In the portable electronic device of the present invention, the first liquid crystal display device and the second liquid crystal display device are provided in a flat cabinet in a back-to-back posture, and are held by a holder interposed between the two liquid crystal display devices. The screens of both liquid crystal display devices are exposed on both sides of the cabinet.
The first liquid crystal display device and the second liquid crystal display device are each provided with a liquid crystal panel, a light guide plate having a wedge-shaped cross section which is provided on the back side of the liquid crystal panel and serves as a backlight, and is provided toward an end face of the light guide plate. The light guide plate of the first liquid crystal display device and the light guide plate of the second liquid crystal display device are provided with a light source and a reflective layer disposed over the back surface of the light guide plate and configured to reflect light from the light source into the light guide plate. , Are arranged such that the thickness increasing directions are opposite to each other.
[0011]
In the portable electronic device of the present invention, the maximum thickness of the light guide plate of the first liquid crystal display device is formed to be substantially the same as the thickness of the conventional flat light guide plate, and the light guide plate of the second liquid crystal display device. Is formed so as to have the same maximum thickness as that of a conventional flat light guide plate. Here, the first liquid crystal display device and the second liquid crystal display device are different from each other in that the thick portion of the light guide plate of the first liquid crystal display device and the thin portion of the light guide plate of the second liquid crystal display device are mutually separated. Since the portion where the thickness of the light guide plate of the first liquid crystal display device is small and the portion where the thickness of the light guide plate of the second liquid crystal display device is large are opposed to each other, they are stacked and arranged. The overall thickness of the two liquid crystal display devices held by the holder is smaller than that of a conventional configuration in which two liquid crystal display devices each having a flat light guide plate are stacked and arranged. It becomes thinner by the decrease. As a result, the cabinet can be made thinner than before.
[0012]
In addition, by forming the light guide plate of both liquid crystal display devices in a wedge-shaped cross section and maintaining the maximum thickness of the light guide plate equal to the thickness of the conventional flat light guide plate, in a portion where the thickness of the light guide plate is large, The strength equivalent to that of the conventional flat light guide plate is maintained, and the strength is only reduced at the end where the light guide plate has the minimum thickness, so that the overall strength of both light guide plates held by the holder is greatly reduced. Never.
[0013]
In a specific configuration, the light guide plate of the first liquid crystal display device and the light guide plate of the second liquid crystal display device have the same or substantially the same rate of change in thickness, and both light guide plates are held in the holder. The opposing surfaces of the light plate and the liquid crystal panel are parallel to each other.
According to the specific configuration, the surfaces of the light guide plates facing the liquid crystal panel are parallel to each other. Therefore, by installing the liquid crystal panels on the facing surfaces, both the liquid crystal panels are parallel to each other. Accordingly, the cabinet in which both liquid crystal display devices are to be accommodated can be uniformly thinned in the thickness direction.
[0014]
In a more specific configuration, in the first liquid crystal display device and the second liquid crystal display device, the respective light sources are arranged toward the end face where the thickness of the light guide plate is maximum.
In this specific configuration, since the light source is accommodated within the range of the thickness of the end face of the light guide plate of each liquid crystal display device as in the related art, the thickness of the light guide plate is reduced by forming it in a wedge shape. The effect is not impaired by the size of the light source. In addition, since most of the light from the light source enters the inside of the light guide plate from the end face of the light guide plate, the light amount of the backlight does not decrease.
[0015]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to the portable electronic device which concerns on this invention, thickness reduction of a cabinet can be achieved, without drastically reducing the intensity | strength of the 1st liquid crystal display device and the 2nd liquid crystal display device accommodated inside the cabinet.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention applied to a foldable mobile phone will be specifically described with reference to the drawings.
As shown in FIG. 1, the foldable mobile phone according to the present invention is configured such that a lid cabinet (2) is connected to a main body cabinet (1) via a hinge mechanism (3) so as to be openable and closable. A plurality of operation keys (11) are arranged on the front surface of the main body cabinet (1), and a transmission section (12) is provided below the operation keys (11). A main screen (4) is arranged on the front surface of the lid cabinet (2), and a receiver (21) is provided above the main screen (4).
[0017]
As shown in FIG. 2, a battery cover (14) is attached to the back of the main body cabinet (1), and a speaker sound emitting section is provided between the battery cover (14) and the hinge mechanism (3). (13) is formed. A sub-screen (5) is arranged on the back of the lid cabinet (2), and a CCD camera (22) is arranged near the sub-screen (5).
[0018]
The main screen (4) and the sub-screen (5) are, as shown in FIGS. 3 and 4, respectively, a main liquid crystal display (40) and a sub liquid crystal display (50) fixed to a metal holder (6). It is formed by the display surface.
[0019]
As shown in FIG. 5, the main liquid crystal display device (40) is disposed inside the lid cabinet (2) with the main screen (4) exposed on the front surface of the lid cabinet (2), and is disposed inside the sub liquid crystal display device. (50) is disposed inside the lid cabinet (2) by exposing the sub-screen (5) on the back surface of the lid cabinet (2). While being held by the metal holder (6), they are stacked in the thickness direction of the lid cabinet (2).
[0020]
The main liquid crystal display device (40) includes a main liquid crystal panel (41) having a main screen (4), and a main light guide plate (45) having a wedge-shaped cross section that is provided on the back side of the main liquid crystal panel (41) and serves as a backlight. ), A main LED (43) disposed toward an end surface of the main light guide plate (45) having a larger thickness, and a main LED interposed between the main light guide plate (45) and the holder (6). A main diffuse reflection sheet (46) for diffusing and reflecting light from the LEDs (43) into the main light guide plate (45).
Similarly, the sub liquid crystal display device (50) includes a sub liquid crystal panel (51) having the sub screen (5), and a sub light guide having a wedge-shaped cross section that is provided on the back side of the sub liquid crystal panel (51) and serves as a backlight. A light plate (55), a sub LED (53) disposed toward the end face of the sub light guide plate having a larger thickness, and a sub light guide (55) interposed between the sub light guide plate (55) and the holder (6). A sub diffuse reflection sheet (56) for diffusing and reflecting light from the LED (53) into the sub light guide plate (55).
[0021]
The main light guide plate (45) of the main liquid crystal display device (40) and the sub light guide plate (55) of the sub liquid crystal display device (50) are formed in the same wedge-shaped cross section with the same rate of change in thickness. The light guide plate (45) and the sub light guide plate (55) are fixed to the holder (6) in such a positional relationship that the thickness increasing directions are opposite to each other. Therefore, the surfaces of the light guide plates (45) and (55) facing the liquid crystal panels (41) and (51) are parallel to each other.
The holder (6) has a flat plate portion interposed between the liquid crystal display devices (40) and (50) according to the cross-sectional shape of the light guide plates (45) and (55) with respect to the two screens (4) and (5). As a result, the light guide plates (45) and (55) are reliably received by the flat plate portion of the holder (6), and exhibit sufficient strength against the action of an external force.
[0022]
As shown by an arrow in FIG. 6, in the main liquid crystal display device (40), light emitted from the main LED (43) is transmitted from the end face of the main light guide plate (45) having the maximum thickness to the main light guide plate (45). After the light enters the inside of the main light guide plate (45), the light is repeatedly diffused and reflected inside the main light guide plate (45) to reach the end having the minimum thickness of the main light guide plate (45). Light is emitted from the entire surface of the light plate (45) toward the main liquid crystal panel (41). As a result, the main liquid crystal panel (41) is uniformly irradiated from the back.
[0023]
Similarly, in the sub liquid crystal display device (50), light emitted from the sub LED (53) enters the inside of the sub light guide plate (55) and repeats diffuse reflection. The light is emitted from the entire surface of 55) toward the sub liquid crystal panel (51). As a result, the sub liquid crystal panel (51) is uniformly irradiated from the back.
[0024]
In the foldable portable telephone according to the present invention, the maximum thickness of the main light guide plate (45) of the main liquid crystal display device (40) is formed to be substantially the same as the thickness of the conventional flat light guide plate, and the sub liquid crystal is formed. The maximum thickness of the sub light guide plate (55) of the display device (50) is formed to be substantially the same as the thickness of a conventional flat light guide plate.
Here, the main liquid crystal display device (40) and the sub liquid crystal display device (50) are, as shown in FIG. 5, a portion where the thickness of the main light guide plate (45) is large and a thickness of the sub light guide plate (55). Are opposed to each other, and the small portion of the main light guide plate (45) and the large portion of the sub light guide plate (55) are opposed to each other. The total thickness of the held liquid crystal display devices (40) and (50) is smaller than that of a conventional configuration in which two liquid crystal display devices having a flat light guide plate are stacked and arranged. It becomes thinner by the decrease in thickness due to the cross-sectional wedge shape of (55). As a result, the lid cabinet (2) can be made thinner than before.
[0025]
In addition, since the maximum thickness of the light guide plates (45) and (55) of both the liquid crystal display devices (40) and (50) is formed to be equal to the thickness of the conventional flat light guide plate, the light guide plates (45) and (55) are formed. In the thick portion of 55), the same strength as that of the conventional flat light guide plate is maintained, and the strength is only reduced at the end where the light guide plates (45) and (55) have the minimum thickness. Therefore, the overall strength of the light guide plates (45) and (55) held by the holder (6) does not significantly decrease.
As a result, the thickness of the lid cabinet (2) can be reduced without greatly reducing the strength of the main liquid crystal display device (40) and the sub liquid crystal display device (50) housed inside the lid cabinet (2). I can do it.
[0026]
In the foldable portable telephone according to the present invention, the surfaces of the light guide plates (45) and (55) facing the liquid crystal panels (41) and (51) are parallel to each other. And (51) are parallel to each other, whereby the lid cabinet (2) accommodating the two liquid crystal display devices (40) and (50) can be uniformly thinned in the thickness direction.
[0027]
Further, in the foldable portable telephone of the present invention, the main LED (43) of the main liquid crystal display device (40) is accommodated within the range of the thickness of the end face of the main light guide plate (45), and the sub liquid crystal display device is provided. Since the sub LED (53) of (50) is accommodated within the range of the thickness of the end face of the sub light guide plate (55), the lid cabinet (2) depends on the arrangement of the main LED (43) and the sub LED (53). ) Does not increase in thickness.
Further, since most of the light from the main LED (43) and the sub LED (53) enters the insides of the main (45) light guide plate and the sub light guide plate (55), a sufficient amount of light can be obtained.
[Brief description of the drawings]
FIG. 1 is a perspective view of a foldable mobile phone according to the present invention.
FIG. 2 is a perspective view showing the flip-type mobile phone upside down.
FIG. 3 is a perspective view of the entire liquid crystal display device built in the lid cabinet.
FIG. 4 is a perspective view showing the entire liquid crystal display device upside down.
FIG. 5 is a cross-sectional view showing a state in which a main liquid crystal display device and a sub liquid crystal display device are stacked and arranged inside a cabinet.
FIG. 6 is a cross-sectional view showing how light from an LED is emitted toward a liquid crystal display panel.
FIG. 7 is a cross-sectional view showing a state in which a main liquid crystal display device and a sub liquid crystal display device are stacked and arranged inside a cabinet of a conventional foldable mobile phone.
[Explanation of symbols]
(1) Main body cabinet (2) Lid cabinet (3) Hinge mechanism (4) Main screen (40) Main liquid crystal display (41) Main liquid crystal panel (43) Main LED
(45) Main light guide plate (46) Main diffuse reflection sheet (5) Sub screen (50) Sub liquid crystal display device (51) Sub liquid crystal panel (53) Sub LED
(55) Sub light guide plate (56) Sub diffuse reflection sheet (6) Holder

Claims (3)

A first liquid crystal display device and a second liquid crystal display device are disposed in a flat cabinet in a back-to-back posture, and are held by a holder interposed between the two liquid crystal display devices. In the portable electronic device exposed on both sides of the liquid crystal display, the first liquid crystal display device and the second liquid crystal display device are respectively provided with a liquid crystal panel and a light guide plate having a wedge-shaped cross section which is provided on the back side of the liquid crystal panel and serves as a backlight. A light source provided toward an end face of the light guide plate, and a reflective layer provided over the back surface of the light guide plate and reflecting light from the light source into the light guide plate, the first liquid crystal display device comprising: A light guide plate of the second liquid crystal display device and a light guide plate of the second liquid crystal display device are arranged such that directions of increasing thickness are opposite to each other. The light guide plate of the first liquid crystal display device and the light guide plate of the second liquid crystal display device have the same or substantially the same rate of change in thickness, and the liquid crystal panels of both light guide plates are held in the holder. 2. The portable electronic device according to claim 1, wherein the opposing surfaces are parallel to each other. 3. The portable electronic device according to claim 1, wherein the first liquid crystal display device and the second liquid crystal display device have respective light sources disposed toward an end surface where the thickness of the light guide plate is maximum. 4.

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