JP4178937B2 - Lighting device and electronic device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To well light an upper and a lower surface sides by one sheet of a light guide plate. <P>SOLUTION: In a luminaire 6 for making a light guide plate 24 emit surface light by guiding light from a luminescent element 23 in a surface direction by the plate 24, the plate 24 has an upper side lighting part 26 for guiding the light from the element 23 in the surface direction to emit the light on the upper surface side of the plate 24; and a lower side lighting part 27 for guiding the light from the element 23 in the surface direction to emit the light on the lower surface side of the plate 24, with a dial 13 and a pointer arranged on the upper surface side of the plate 24 and a liquid crystal element 10 arranged on the lower surface side corresponding to the lighting part 27. Accordingly, if the light from the element 23 is guided to the lighting part 26 of the plate 24, the light is emitted from the whole of the upper surface of the lighting part 26 to light the upper surface side of the plate 24, and, if the light from the element 23 is guided to the lighting part 27, the light is emitted from the whole of the lower surface of the lighting part 27 to light the lower surface side of the plate 24. Consequently, only one sheet of the plate 24 can well light the upper and lower surface sides of the plate 24 by the surface light emission. <P>COPYRIGHT: (C)2004,JPO&amp;NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lighting device that is useful when applied to various devices such as a wristwatch, a mobile phone, and automotive instruments, and an electronic device using the same.
[0002]
[Prior art]
For example, a wristwatch includes an analog display function in which a pointer moves above a dial and a digital display function in which information such as time is electro-optically displayed on a display element such as a liquid crystal display element. There is one that illuminates both the analog display function and the digital display function (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP 2002-286869 (P2002-286869A)
[0004]
In this type of wristwatch, a light guide plate that guides light from the light emitting diode from the side surface to the surface direction is arranged below the transparent or translucent dial, and the liquid crystal is displayed below the display cutout portion of the light guide plate. When the display element is arranged corresponding to the display window portion of the dial plate and the light emitting diode emits light in this state, the light is taken in the light guide plate and guided in the surface direction, and the guided light is guided to the light guide plate. In addition to being radiated from the upper surface of the light guide plate, it is also radiated from the end face of the display cutout portion of the light guide plate, thereby illuminating the upper portion through the dial plate and illuminating the liquid crystal display element from the periphery.
[0005]
[Problems to be solved by the invention]
However, in such a wristwatch, since the light guided by the light guide plate is emitted from the upper surface of the light guide plate, even if the upper surface side can be illuminated uniformly, the display cutout portion of the light guide plate emits surface light. And the light guided by the light guide plate is emitted from the end face of the display cutout portion of the light guide plate and irradiated from the periphery of the liquid crystal display element, so that the entire upper surface of the liquid crystal display element cannot be illuminated well. There is a problem.
[0006]
  The subject of this invention can illuminate the upper and lower surface side favorably by the surface light emission of one light-guide plate.Not only can the light from the light source be effectively illuminated on the pointer memberIs to do so.
[0007]
[Means for Solving the Problems]
  In order to solve the above problems, the present invention includes the following components. In addition, the reference numerals of the drawings attached to the respective elements described in the section of each embodiment described later are attached to the respective constituent elements together with parentheses.
  Invention of Claim 1As shown in FIG. 14 to FIG. 17 and FIG. 19 to FIG.
A light source (23, 50, 51) that emits light;
A light guide plate (24) for causing light from the light source to be incident from a side surface and guiding the incident light in a surface direction between the upper surface and the lower surface to emit light.
A pointer member (15) disposed on the upper surface side of the light guide plate;
A liquid crystal display member (10) disposed on the lower surface side of the light guide plate,
The light guide plate is
An upper illumination unit (26) for guiding light from the light source in a plane direction and radiating the light toward the upper surface side of the light guide plate;
A lower illumination unit (35, 40, 53) that guides light from the light source in a plane direction and emits the light toward a lower surface side of the light guide plate;
The lower illumination unit (35, 40, 53) is formed of a plurality of linear prisms (36, 54, 43, 45) on the upper surface of the light guide plate (24). It is a structure that reflects light guided by the light guide plate toward the lower surface side of the light guide plate by reflection surfaces (29a, 31a, 36a, 43a, 45a, 54a, 67a, 68a),
The linear prisms (36, 54, 43, 45) are substantially parallel to a straight line connecting the light source (23, 50, 51) and a diagonal portion of the light guide plate (24) facing the light source (23, 50, 51). It is provided in
On the side of the lower illuminating unit and on the side surface of the light guide plate, side reflecting portions (37, 52) that reflect light from the light source that has traveled straight through the lower illuminating unit toward the lower illuminating unit. , 44, 46),
The upper illuminator (26) is formed with a fine uneven portion (28) on the lower surface of the light guide plate (24), and light guided by the light guide plate is diffused by the irregular reflection of the fine uneven portion. It is the structure reflected toward the said pointer member of the upper surface side of this.
[0008]
  According to this invention,A liquid crystal display member disposed on the lower surface side of the light guide plate is reflected by the side reflecting portion provided on the side surface of the light guide plate to reflect light from the light source toward the lower illumination unit provided on the light guide plate. Since the illumination is performed, the light from the light source can be effectively illuminated on the liquid crystal display member. In addition, the upper illumination part is formed with a fine uneven part on the lower surface of the light guide plate, and the light guided by the light guide plate is directed to the pointer member on the upper surface side of the light guide plate by irregular reflection of the fine uneven part. Therefore, the light from the light source can be effectively illuminated on the pointer member.
[0027]
  Claim2The invention described inAs shown in FIGS.Lighting device (6) according to claim 1Equipment cases (watch case 1, equipment case 90) for housing the lighting device;In this device case, the window portion (the watch glass 2, the protective glass 91) has the display member (the dial plates 13, 60, the pointer 15, the liquid crystal display element 10, the first liquid crystal display element 80, the second liquid crystal display element). 81). The electronic device is characterized by being provided corresponding to 81).
  According to this invention, since the illumination device can illuminate the upper and lower surfaces of the light guide plate, the display members arranged on the upper and lower surfaces of the light guide plate can be illuminated well. In addition, the display member disposed on the upper and lower surfaces of the light guide plate through the window can be viewed from the outside of the device case.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
[First Embodiment]
A first embodiment in which the present invention is applied to a wristwatch will be described below with reference to FIGS.
FIG. 1 is a front view of a wristwatch according to the present invention, FIG. 2 is an enlarged sectional view taken along the line AA, and FIG. 3 is an enlarged sectional view taken along the line BB. The wristwatch includes a wristwatch case 1 as shown in FIGS. The wristwatch case 1 has a structure in which first and second bezels 1b and 1c made of synthetic resin are provided on the outer peripheral surface of a metal case main body 1a. A watch glass 2 is attached to the upper part of the watch case 1, and a watch module 3 is accommodated in the watch case 1. A back cover 4 is attached to the lower part of the watch case 1 via a waterproof ring 5.
[0029]
The timepiece module 3 has both an analog function and a digital function, and also has a lighting device 6. That is, as shown in FIG. 2, the timepiece module 3 includes an upper housing 7 and a lower housing 8, and an analog movement 9 and a liquid crystal display element 10 are provided in the upper housing 7, and the upper housing 7 and the lower housing 8 are provided. The circuit board 11 is provided between the two. In this case, the circuit board 11 is mounted with various electronic components (not shown) constituting an electronic circuit for electrically driving the analog movement 9, the liquid crystal display element 10, and the lighting device 6.
[0030]
The analog movement 9 protrudes upward through a light guide plate 24 and a through hole 14 of the dial plate 13 of the illuminating device 6, which will be described later, with the pointer shaft 12 disposed above the upper housing 7, and the upper end of the protruding pointer shaft 12. A pointer 15 such as an hour hand and a minute hand is attached to the portion, and the pointer 15 is configured to move the dial 13 above. In this case, the dial plate 13 is formed of a transparent or translucent light-transmitting material, and an opening 16 is provided at a predetermined position corresponding to the liquid crystal display element 10 as shown in FIGS. It has a structured. The dial 13 and the pointer 15 constitute a pointer display portion, and the pointer display portion corresponds to the first display member.
[0031]
Further, as shown in FIG. 6, the liquid crystal display element 10 encloses a liquid crystal (not shown) between a pair of upper and lower transparent electrode substrates 17, 18 so that the upper surface and lower electrode substrates of the upper electrode substrate 17 are sealed. 18 is a reflection type in which polarizing plates 19 and 20 are provided on the lower surface of the lower electrode 18 and a reflecting plate 21 is provided on the lower surface of the lower polarizing plates 19 and 20, respectively. As shown in FIG. The end is supported in a state where it is electrically connected to the circuit board 11 by the interconnector 22, and in this state, by selectively applying a voltage between the pair of upper and lower electrode substrates 17, 18, information such as time can be obtained. It is configured to display electro-optically. The liquid crystal display element 10 corresponds to the second display member.
[0032]
As shown in FIGS. 4 and 5, the illuminating device 6 includes a light emitting element 23 that is a light source, a light guide plate 24 that guides light emitted from the light emitting element 23 from a side surface and guides the light in a plane direction, and the light guide plate 24. And a reflecting plate 25 disposed on the lower surface of the. The light emitting element 23 is composed of a light emitting diode (LED) that emits light in the visible light region, and is disposed corresponding to the side surface of the light guide plate 24 located on the 12 o'clock side, as shown in FIGS. The lead wire 23a is electrically connected to the circuit board 11. The light guide plate 24 is formed of a transparent material, and transmits light in the thickness direction, that is, in the vertical direction. The light guide plate 24 takes light from the light emitting element 23 from the side surface and guides it in the surface direction. As shown in FIG. 5, the upper illumination unit 26 that radiates light from the light emitting element 23 toward the upper surface side of the light guide plate 24, and the lower illumination that radiates light from the light emitting element 23 toward the lower surface side of the light guide plate 24. Part 27 and disposed between the reflector 25 on the upper housing 7 and the dial 13.
[0033]
In this case, as shown in FIG. 5, the upper illuminating unit 26 of the light guide plate 24 is formed with fine uneven portions 28 on the lower surface of the light guide plate 24, and light emitted from the light emitting element 23 is incident and guided. The light is diffusely reflected by the concavo-convex portion 28 and emitted from the upper surface of the light guide plate 24, so that the upper surface side of the light guide plate 24 emits surface light. Further, the lower illumination unit 27 has a structure in which a large number of linear prisms 29 having a reflection surface 29 a that reflects light guided by the light guide plate 24 toward the lower surface side of the light guide plate 24 are arranged. . Each prism 29 of the lower illumination unit 27 is provided substantially orthogonal to a straight line connecting the light emitting element 23 and the diagonal portion of the light guide plate 24 facing the light emitting element 23, that is, a straight line connecting 12 o'clock and 6 o'clock. ing.
[0034]
Further, the reflecting surfaces 29 a of these prisms 29 are provided toward the light emitting element 23 side, that is, the 12 o'clock side, so that the light guided from the 12 o'clock side to the lower illumination unit 27 is directed to the lower surface side of the light guide plate 24. By reflecting and radiating from the lower surface of the light guide plate 24, the lower surface side of the light guide plate 24 is configured to emit light. In this case, the prism 29 is gradually narrowed as the arrangement pitch is away from the light emitting element 23 side, that is, from the 12 o'clock side, so that the light from the light emitting element 23 is emitted almost uniformly toward the lower surface side of the light guide plate 24. It is desirable to be configured.
The reflector 25 is provided with an opening 25a corresponding to the opening 16 of the dial plate 13 at a position corresponding to the liquid crystal display element 10, and the lower surface side of the light guide plate 24 except for the position corresponding to the opening 25a. Is reflected toward the upper surface side of the light guide plate 24.
[0035]
According to such a wristwatch, external light enters the wristwatch case 1 through the watch glass 2 in a bright place, and the incident external light is applied to the pointer 15 and the dial plate 13. You can know the time. At this time, since the dial 13 is transparent or translucent and has light transmission properties, external light is transmitted through the dial 13 and its opening 16 and applied to the light guide plate 24 of the illuminating device 6 from above. The external light passes through the light guide plate 24 from the upper surface side to the lower surface side. Out of the transmitted external light, the external light irradiated on the reflection plate 25 disposed on the lower surface of the light guide plate 24 is reflected by the reflection plate 25, and the reflected light again lowers the light guide plate 24 and the dial plate 13 on the lower surface. Since the light is transmitted from the side to the upper surface side, the dial 13 and the pointer 15 thereabove can also be illuminated.
[0036]
Further, the external light transmitted through the light guide plate 24 from the upper surface side to the lower surface side and applied to the opening 25a of the reflection plate 25 is transmitted through the opening 25a as it is and applied to the liquid crystal display element 10, so that the liquid crystal The display element 10 can be illuminated, whereby information such as the time displayed on the liquid crystal display element 10 can be visually recognized. That is, in the liquid crystal display element 10, external light passes through the upper polarizing plate 19, the upper and lower electrode substrates 17 and 18, and the lower polarizing plate 20 and is reflected by the reflecting plate 21. The light guide plate 24 is again irradiated from the lower surface side through the opening 25a of the reflecting plate 25 through the reverse optical path, and the irradiated light passes through the light guide plate 24 and the opening portion 16 of the dial 13 from the lower surface side to the upper surface side. Therefore, information such as the time displayed on the liquid crystal display element 10 through the watch glass 2 can be visually recognized from the outside of the watch case 1.
[0037]
When the light emitting element 23 of the lighting device 6 emits light in a dark place, the light from the light emitting element 23 enters the light guide plate 24 from the side surface, and the incident light is guided in the surface direction by the light guide plate 24. When guided to the upper illumination unit 26 of the light plate 24, the guided light is diffusely reflected by the uneven portion 28 of the upper illumination unit 26 and emitted to the upper surface side of the light guide plate 24 and leaks to the lower surface side of the light guide plate 24. Since the reflected light is reflected upward by the reflecting plate 25, the entire upper illuminating portion 26 of the light guide plate 24 emits surface light, and the surface light can illuminate the dial 13 from the lower surface side. Since the light emitted is transmitted through the dial plate 13, it is possible to illuminate the pointer 15 that moves the upper part of the dial 13, so that the time can be known by the dial 13 and the pointer 15 even in a dark place.
[0038]
Further, when light from the light emitting element 23 is guided to the lower illuminating unit 27 of the light guide plate 24 in a dark place, the guided light is reflected on the reflecting surface 29 a of each prism 29 of the lower illuminating unit 27 on the light guide plate 24. Since the light is reflected toward the lower surface, the entire lower illumination unit 27 of the light guide plate 24 emits light, and the light emitted from the surface is irradiated onto the entire upper surface of the liquid crystal display element 10 below the lower illumination unit 27. Therefore, the entire liquid crystal display element 10 can be illuminated almost uniformly, and thus information such as the time displayed on the liquid crystal display element 10 can be visually recognized even in a dark place.
[0039]
Thus, according to this wristwatch, when the light emitting element 23 emits light in a dark place, the light enters the light guide plate 24 from the side surface and is guided in the surface direction by the light guide plate 24, and the upper side of the light guide plate 24. Since the light guided to the illumination unit 26 is emitted toward the upper surface side of the light guide plate 24 by the upper illumination unit 26, the upper illumination unit 26 can emit light to illuminate the upper surface side of the light guide plate 24, In addition, since the light guided to the lower illumination unit 27 of the light guide plate 24 is radiated toward the lower surface side of the light guide plate 24 by the lower illumination unit 27, the lower illumination unit 27 emits light and emits light from the light guide plate 24. The lower surface side can be illuminated. Therefore, the upper and lower surfaces of the light guide plate 24 can be illuminated, and the dial 13 and the pointer 15 which are the first display members disposed on the upper and lower surfaces of the light guide plate 24, and the second display member Thus, the liquid crystal display element 10 can be well illuminated, so that the time can be known in a bright place or a dark place.
[0040]
Further, according to this wristwatch, the upper and lower surfaces of the light guide plate 24 can be illuminated. Therefore, even if the liquid crystal display element 10 is arranged below the light guide plate 24, the lower surface of the liquid crystal display element 10 is used. In addition, since it is not necessary to use a flat backlight device such as an EL element (electroluminescence element), the entire watch module 3 can be reduced in thickness and space, and the entire wristwatch can be reduced in size and thickness. be able to. Further, since the liquid crystal display element 10 can be disposed close to the lower illumination portion 27 of the light guide plate 24, contour blurring occurs in information displayed on the liquid crystal display element 10 due to light refraction of the light guide plate 24. As a result, the information displayed on the liquid crystal display element 10 can be clearly seen.
[0041]
In the first embodiment, the light emitted from the light emitting element 23 is guided in the surface direction through the light guide plate 24, and the guided light is directed to the lower surface side of the light guide plate 24 by the prism 29 of the lower illumination unit 27. Although the case where the liquid crystal display element 10 is configured to be reflected and illuminated is described, the present invention is not limited to this, and the lower side of the light guide plate 24 as in, for example, the first modification shown in FIGS. The illumination unit 27 may be configured. That is, the lower illumination unit 27 of the first modified example has a linear prism 31 on the upper surface of the light guide plate 24 and a straight line connecting the light emitting element 23 and the diagonal portion of the light guide plate 24 opposed thereto, that is, 12:00. The reflecting surface 31a of each prism 31 is provided so as to be opposite to the light emitting element 23 located on the 12 o'clock side, that is, toward the 6 o'clock side. Yes. Further, in this case, the side reflecting portion 30 is provided on the side surface of the portion on the outer peripheral surface of the light guide plate 24 facing the 12-side light emitting element 23, for example, the portion from 4 o'clock through 6 o'clock to 8 o'clock. Is provided.
[0042]
In such a structure, light from the light emitting element 23 is guided to the lower illumination unit 27, and the guided light reaches the end surface of the light guide plate 24 by guiding the lower illumination unit 27 as it is in the surface direction. Also, the light is reflected by the side reflecting portion 30 provided on the side surface of the light guide plate 24 and again introduced into the lower illumination portion 27, and the introduced light is reflected on the lower surface side of the light guide plate 24 by the respective reflecting surfaces 31 a of the prism 31. Therefore, the lower surface side of the light guide plate 24 can be illuminated. As in the first embodiment, the liquid crystal display element 10 can be illuminated by the light from the light emitting element 23 and the light guide plate 24 can be illuminated. It is possible to prevent light from leaking from the side surfaces of the liquid crystal display device, and to efficiently illuminate the liquid crystal display element 10 by efficiently using the light from the light emitting element 23.
[0043]
Moreover, in the said 1st Embodiment and the said 1st modification, although the upper side illumination part 26 of the light-guide plate 24 has the structure which formed the fine uneven part 28 in the lower surface of the light-guide plate 24, it is not restricted to this, For example, as in the second modification shown in FIGS. 10 and 11, a structure in which fine uneven portions 28 are formed on the upper surface of the light guide plate 24 may be used. Even in such a structure, when the light emitted from the light emitting element 23 is guided to the upper illumination unit 26 of the light guide plate 24, the light is diffusely reflected by the uneven portion 28 of the upper illumination unit 26, and the irregularly reflected light is the upper surface of the light guide plate 24. The light radiated to the lower surface side of the light guide plate 24 is also radiated to the lower surface side, but the light radiated to the lower surface side is reflected by the reflecting plate 25 disposed on the lower surface of the light guide plate 24 to be the upper surface side of the light guide plate 24. Therefore, similarly to the first embodiment, the upper surface side of the light guide plate 24 can be favorably illuminated.
[0044]
Furthermore, in the first embodiment and the first and second modified examples, the case where the upper illumination portion 26 of the light guide plate 24 has a structure in which the uneven portion 28 is formed on the lower surface or the upper surface of the light guide plate 24 has been described. However, the present invention is not limited to this. For example, a third modification shown in FIGS. 12 and 13 may be used. That is, the upper illumination section 26 of the third modified example has a structure in which a large number of linear prisms 32 are formed on the lower surface of the light guide plate 24 as shown in FIG. The prism 32 is provided substantially orthogonal to a straight line connecting the light emitting element 23 and the diagonal portion of the light guide plate 24 facing the light emitting element 23, that is, a straight line connecting 12 o'clock and 6 o'clock.
[0045]
In this case, the reflecting surface 32 a of the prism 32 is provided toward the light emitting element 23 side, that is, the 12 o'clock side, thereby reflecting light incident on the light guide plate 24 from the 12 o'clock side toward the upper surface side of the light guide plate 24. Is configured to do. Further, it is desirable that the prism 32 is also formed so that its arrangement pitch gradually becomes narrower as it goes away from the light emitting element 23 side, that is, the 12 o'clock side.
Even in such a structure, when the light emitted from the light emitting element 23 is guided to the upper illumination unit 26 of the light guide plate 24, the light is reflected toward the upper surface side of the light guide plate 24 by the reflection surface 32 a of the prism 32 of the upper illumination unit 26. Then, the upper illumination unit 26 emits light, and the light emitted from the surface is emitted from the upper surface of the light guide plate 24. Therefore, the upper surface side of the light guide plate 24 can be favorably illuminated as in the first embodiment.
[0046]
[Second Embodiment]
Next, a second embodiment in which this invention is applied to a wristwatch will be described with reference to FIGS. In addition, the same code | symbol is attached | subjected and demonstrated to the same part as 1st Embodiment shown by FIGS.
In this wristwatch, the structure of the lower illumination unit 35 provided on the light guide plate 24 of the illumination device 6 is different from that of the first embodiment, and the other structure is substantially the same as that of the first embodiment. That is, as shown in FIG. 14, the lower illuminating unit 35 includes a straight line connecting the light emitting element 23 and the diagonal portion of the light guide plate 24 facing the light emitting element 23, that is, 12:00 and 6 o'clock. It is a structure provided substantially parallel to the straight line connecting the two.
[0047]
In this case, the reflecting surface 36a of the prism 36 is in a direction substantially perpendicular to the straight line connecting 12 o'clock and 6 o'clock, that is, either the 3 o'clock side or the 9 o'clock side, in this second embodiment, the 9 o'clock side. Thus, the light emitted from the 9 o'clock side into the lower illumination unit 35 is reflected toward the lower surface side of the light guide plate 24. In addition, it is desirable that the prisms 36 are formed so that the arrangement pitch gradually becomes narrower as the distance from the side reflecting portion 37 side, that is, the 9 o'clock side, which will be described later, increases. Further, in the lower illuminating unit 35, light that is incident on the light guide plate 24 from the light emitting element 23 and guided in the surface direction is hardly reflected by the reflecting surface 36a of the prism 36, but is guided in the surface direction as it is. For this reason, among the side surfaces of the light guide plate 24, light that has been guided in the surface direction through the light guide plate 24 and reaches the end surface of the light guide plate 24 is guided to the side surface of the light guide plate 24 located between 6 o'clock and 9 o'clock. The side surface reflection part 37 which reflects toward the lower illumination part 35 of 24 is provided.
[0048]
According to such a wristwatch, as in the first embodiment, the dial 13 and the hand 15 are illuminated by external light in a bright place, so that the time can be known by the dial 13 and the hand 15 and the dial is used. 13 is transmitted through the dial 13 and the light guide plate 24 from the upper surface side to the lower surface side, and the transmitted external light is reflected by the reflection plate 25 and transmitted through the opening 25a of the reflection plate 25. Since the liquid crystal display element 10 is irradiated, information such as the time displayed on the liquid crystal display element 10 can be visually recognized as in the first embodiment.
[0049]
Further, when the light emitting element 23 emits light in a dark place, the light of the light emitting element 23 enters the light guide plate 24 from the side surface, and the incident light is guided in the surface direction by the light guide plate 24, and the upper side illumination of the light guide plate 24. Similar to the first embodiment, the light guided to the unit 26 is diffusely reflected by the uneven portion 28 of the upper illumination unit 26 to emit surface light, and this surface-emitting light is emitted toward the upper surface side of the light guide plate 24. Therefore, the dial 13 and the pointer 15 thereabove can be illuminated. Further, the light guided to the lower illumination unit 35 of the light guide plate 24 is not reflected by the reflecting surface 36a of each prism 36 of the lower illumination unit 35, but is directly guided to the lower illumination unit 35 in the surface direction.
[0050]
That is, each prism 36 of the lower illumination unit 35 is provided substantially parallel to a straight line connecting the light emitting element 23 and the diagonal part of the light guide plate 24 facing the light emitting element 23, that is, a straight line connecting 12 o'clock and 6 o'clock. Therefore, the light guided to the lower illuminating unit 35 is hardly reflected by the reflecting surface 36a of the prism 36 and is guided to the lower illuminating unit 35 in the surface direction as it is. Of the guided light, when the light reflected by the side reflecting portion 37 provided on the side surface located between 6 o'clock and 9 o'clock of the light guide plate 24 is introduced into the lower illumination unit 35 again, this introduction is performed. The reflected light is reflected by the reflecting surface 36a of each prism 36 of the lower illumination unit 35 toward the lower surface side of the light guide plate 24 to emit surface light, and the light emitted from the surface is irradiated onto the liquid crystal display element 10. Similarly to the above, information such as the time displayed on the liquid crystal display element 10 can be visually recognized even in a dark place.
[0051]
In this case, since the light guided from the light emitting element 23 to the lower illumination unit 35 is guided to the lower illumination unit 35 in the surface direction as it is, the bright line spectrum 38 as shown in FIG. 18 does not occur. That is, as in the first embodiment, each prism 29 of the lower illumination unit 27 is a straight line connecting the light emitting element 23 and the diagonal part of the light guide plate 24 facing the light emitting element 23, that is, a straight line connecting 12 o'clock and 6 o'clock. On the other hand, as shown in FIG. 18, the light from the light emitting element 23 is guided to the lower illumination unit 27 and reflected by the reflecting surface 29a of each prism 29, as shown in FIG. When the portion is viewed from the traveling direction of the light, it is viewed as the bright line spectrum 38 along the dotted line. However, in the second embodiment, the light that is incident on the lower illumination unit 35 from the light emitting element 23 and guided in the surface direction is not reflected by the reflection surface 36a of the prism 36 of the lower illumination unit 35, but the surface as it is. Since the light is guided in the direction, the bright line spectrum 33 is not generated.
[0052]
Thus, according to this wristwatch, when the light emitting element 23 emits light in a dark place, the light is guided to the upper illumination portion 26 of the light guide plate 24 and reflected toward the upper surface side of the light guide plate 24. The upper illuminator 26 can emit light to illuminate the upper surface side of the light guide plate 24, and light guided to the lower illuminator 35 of the light guide plate 24 and reflected by the side reflector 37 can be used as the lower illuminator. 35 is reflected toward the lower side of the light guide plate 24, so that the lower illumination unit 35 can emit light and illuminate the lower surface side of the light guide plate 24. Thus, as in the first embodiment, The light guide plate 24 can illuminate the upper and lower surface sides satisfactorily. For this reason, the dial 13 and the pointer 15 which are the first display members and the liquid crystal display element 10 which is the second display member disposed on the upper and lower surfaces of the light guide plate 24 can be favorably illuminated, even in a bright place. In addition to being able to know the time even in a dark place, the clock module 3 can be made thinner and space-saving, and the contour blurring of information displayed on the liquid crystal display element 10 can be suppressed by the light refraction of the light guide plate 24. The information on the liquid crystal display element 10 can be clearly seen.
[0053]
[Third Embodiment]
Next, a third embodiment in which the present invention is applied to a wristwatch will be described with reference to FIGS. The same parts as those in the second embodiment shown in FIG. 14 to FIG.
In this wristwatch, the structure of the lower illumination unit 40 provided on the light guide plate 24 of the illumination device 6 is different from that of the second embodiment, and the other structure is substantially the same as that of the second embodiment. That is, the lower illuminating unit 40 has a first straight line on the 9 o'clock side with a straight line connecting the light emitting element 23 and the diagonal portion of the light guide plate 24 facing the light emitting element 23 as a boundary. The illumination area 41 and the 3 o'clock side second illumination area 42 are divided.
[0054]
As shown in FIG. 22, the first illumination area 41 includes a first prism 43 and a first side reflecting portion 44 and is provided on the 9 o'clock side. As in the second embodiment, the first prism 43 is provided substantially parallel to a straight line connecting the light emitting element 23 and the diagonal portion of the light guide plate 24 facing the light emitting element 23, that is, a straight line connecting 12 o'clock and 6 o'clock. The reflection surface 43a is provided toward the 9 o'clock side, and thereby, the light introduced from the 9 o'clock side to the lower illumination unit 40 is reflected toward the lower surface side of the light guide plate 24. . Also in this case, it is desirable that the first prisms 43 are formed so that the arrangement pitch gradually becomes narrower as the distance from the first side reflector 44 side, that is, the 9 o'clock side increases. Similarly to the second embodiment, the first side surface reflector 44 is provided on the side surface of the light guide plate 24 located between 6 o'clock and 9 o'clock among the side surfaces of the light guide plate 24, and guides light from the light emitting element 23. When the light guide 24 is guided in the surface direction and reaches the end face of the light guide plate 24, the reached light is reflected toward the lower illumination unit 40 of the light guide plate 24.
[0055]
As shown in FIG. 22, the second illumination area 42 includes a second prism 45 and a second side surface reflection portion 46 and is provided on the 3 o'clock side. The second prism 45 is provided substantially in parallel to a straight line connecting the light emitting element 23 and the diagonal portion of the light guide plate 24 opposite to the light emitting element 23, that is, a straight line connecting 12 o'clock and 6 o'clock, and its reflection surface 45a is provided. The light is provided toward the 3 o'clock side, so that the light introduced from the 3 o'clock side to the lower illumination unit 40 is reflected toward the lower surface side of the light guide plate 24. Also in this case, it is desirable that the second prisms 45 be formed so that the arrangement pitch gradually becomes narrower as the distance from the second side reflector 46 side, that is, the 3 o'clock side increases. The second side reflector 46 is provided on the side surface of the light guide plate 24 located between 3 o'clock and 6 o'clock among the side surfaces of the light guide plate 24, and the light from the light emitting element 23 guides the light guide plate 24 in the surface direction. When the light reaches the end surface of the light guide plate 24, the light that has reached the light is reflected toward the lower illumination unit 40 of the light guide plate 24.
[0056]
According to such a wrist watch, as in the second embodiment, the dial 13 and the pointer 15 as the first display member can be illuminated with external light in a bright place, and the liquid crystal display element 10 as the second display member. In a dark place, the light emitting element 23 emits light, and the light from the light emitting element 23 is guided by the light guide plate 24 of the lighting device 6, and the upper illuminating unit 26 uses the dial as the first display member. 13 and the pointer 15 can be illuminated, and the lower illumination unit 40 can illuminate the liquid crystal display element 10 as the second display member.
[0057]
In this case, the lower illumination unit 40 is divided into first and second illumination areas 41 and 42, and the prisms 43 and 45 of the first and second illumination areas 41 and 42 are opposed to the light emitting element 23. Since the light guide plate 24 is provided substantially parallel to the straight line connecting the diagonal portions of the light guide plate 24, that is, the straight line connecting 12 o'clock and 6 o'clock, the lower illumination unit 40 extends from the light emitting element 23 as in the second embodiment. The light guided to the first and second illumination regions 41 and 42 of the lower illumination unit 40 is guided in the surface direction as it is, and when the guided light reaches the end surface of the light guide plate 24, the reached light is Reflected by the first and second side reflectors 44 and 46 provided on the outer peripheral surface of the light guide plate 24, the reflected light is again introduced into the first and second illumination areas 41 and 42 of the lower illumination unit 40. Is done.
[0058]
At this time, as shown in FIG. 22, since the reflecting surface 43a of the first prism 43 in the first irradiation area 41 is provided toward the 9 o'clock side, the first side reflecting portion located between 6 o'clock and 9 o'clock is provided. When the light reflected by 44 is introduced into the first illumination area 41, it is reflected toward the lower surface side of the light guide plate 24 by the reflection surface 43 a of the first prism 43, and the first irradiation area 41 emits surface light. Further, since the reflecting surface 45a of the second prism 45 in the second irradiation region 42 is provided toward the 3 o'clock side, the light reflected by the second side reflecting portion 46 located between 3 o'clock and 6 o'clock is the first. When it is introduced into the second illumination area 42, it is reflected toward the lower surface side of the light guide plate 24 by the reflection surface 45a of the second prism 45, and the second irradiation area 42 emits surface light. As a result, the first and second illumination regions 41 and 42 each emit surface light, and the light is irradiated to the entire upper surface of the liquid crystal display element 10, so that the light from the light emitting element 23 is efficiently irradiated to the liquid crystal display element 10. Therefore, the liquid crystal display element 10 can be illuminated brighter than that of the second embodiment.
[0059]
[Fourth Embodiment]
Next, a fourth embodiment in which the present invention is applied to a wristwatch will be described with reference to FIGS. Also in this case, the same portions as those in the second embodiment shown in FIGS.
This wristwatch has a structure in which first and second light emitting elements 50 and 51 are provided as light sources at 12:00 and 6 o'clock, and a side reflecting portion 52 is provided between 3 o'clock and 6 o'clock on the outer peripheral surface of the light guide plate 24. The rest of the structure is almost the same as that of the second embodiment.
[0060]
That is, of the first and second light emitting elements 50 and 51, the first light emitting element 50 located at 12:00 of the light guide plate 24 is configured by a light emitting diode that emits light in the visible light region, as in the first embodiment. As shown in FIG. 24, the light guide plate 24 is arranged to face the side surface of the light guide plate 24, and the emitted light is configured to enter from the side surface of the light guide plate 24. The second light emitting element 51 located at 6 o'clock of the light guide plate 24 is an ultraviolet light emitting diode or ultraviolet lamp that emits light in the ultraviolet region with a wavelength of 365 to 385 nm (nanometer: nanometer is one billionth of a meter). 24. As shown in FIG. 24, it is arranged in a state of being positioned above the side portion of the dial plate 13 so as to irradiate the upper surface of the dial plate 13 with the emitted ultraviolet light from above the side portion. It is configured.
[0061]
In this case, as shown in FIGS. 23 and 25, the lower illumination unit 53 of the light guide plate 24 is a straight line connecting the first and second light emitting elements 50 and 51, that is, 12:00 and 6:00. And a reflecting surface 54a of each prism 54 is provided toward the 3 o'clock side, so that light incident on the lower illumination unit 53 from the 3 o'clock side can be guided to the light guide plate. It is comprised so that it may reflect toward the lower surface side of 24. The side reflecting portion 52 is provided on the side surface of the light guide plate 24 located between 3 o'clock and 6 o'clock, and the light incident from the first light emitting element 50 into the light guide plate 24 is guided in the surface direction by the light guide plate 25. When the light reaches the end surface of the light guide plate 24, the light reaching the light guide plate 24 is reflected toward the lower illumination portion 53 of the light guide plate 24. Further, the time character 13b and the pointer 15 of the dial 13 serving as the first display member are provided with a light emitting portion 55 that emits light in the visible light region in response to light in the ultraviolet region, as shown in FIG. ing.
[0062]
According to such a wristwatch, as in the second embodiment, the dial 13 and the pointer 15 are illuminated by the external light in the bright place, the liquid crystal display element 10 is also illuminated, and the first light emitting element 50 is illuminated in the dark place. When the first light emitting element 50 emits light, the first light emitting element 50 emits light in a visible light region visible to the human eye, so that the light in the visible light region is guided by the light guide plate 24, and the upper illuminating unit 26 uses the dial 13 and the pointer. 15, and the lower illumination unit 53 can illuminate the liquid crystal display element 10. At this time, similarly to the second embodiment, the light guided to the lower illumination unit 53 is guided to the lower illumination unit 53 in the surface direction as it is, and the guided light is the end surface of the light guide plate 24. Is reflected by the side reflecting portion 53 provided on the side surface of the light guide plate 24, the reflected light is incident on the lower illumination portion 53 again, and the lower surface of the light guide plate 24 is reflected by the reflecting surface 54a of each prism 54. As a result, the lower illumination unit 53 emits light and can illuminate the liquid crystal display element 10.
[0063]
Further, when the second light emitting element 51 is caused to emit light, the second light emitting element 51 emits light in an ultraviolet region invisible to human eyes and is irradiated on the upper surface side of the dial plate 13. The light emitting portion 55 provided on the letter 13b and the pointer 15 emits light in the visible light region in response to the light in the ultraviolet region, so that the dial 13 can be used even in a dark place due to the light in the visible light region emitted by the light emitting portion 55. The time character 13b and the pointer 15 can be visually recognized, and thereby the time can be known. At this time, even if the light in the ultraviolet region emitted by the second light emitting element 51 passes through the dial plate 13 and the light guide plate 24 and is irradiated to the liquid crystal display element 10, the irradiated light is not visible to human eyes. Since it is the light of the region, the information displayed on the liquid crystal display element 10 cannot be visually recognized, but the information irradiated to the liquid crystal display element 10 by causing the first and second light emitting elements 50 and 51 to emit light simultaneously. Can be visually recognized.
[0064]
As described above, according to this wristwatch, the light from the first light emitting element 50 can be guided by the single light guide plate 24 to illuminate the upper and lower surfaces thereof, as in the second embodiment. The dial 13 and the pointer 15 as the first display member and the liquid crystal display element 10 as the second display member, which are disposed on the upper and lower surfaces, can be well illuminated, so that the time can be set in a bright place or a dark place. In addition, the second light-emitting element 51 is also caused to emit light, and the dial 13 and the pointer 15 are irradiated with light in the ultraviolet region, so that each of the time letters 13b and the pointer 15 provided on the dial 13 is provided. The light-emitting portion 55 can emit light with light in the visible light region, whereby a product with excellent decorativeness can be obtained.
[0065]
In the fourth embodiment, the lower illumination unit 53 of the light guide plate 24 is formed by the linear prism 54, and the reflecting surface 54a of the prism 54 is provided toward the 3 o'clock side, whereby the 3 o'clock side. The light introduced into the lower illumination unit 53 from below is reflected toward the lower surface side of the light guide plate 24. However, the present invention is not limited to this, and the reflection surface 54a of the prism 54 is provided toward the 9 o'clock side. Thus, the light introduced from the 9 o'clock side to the lower illumination unit 53 may be reflected toward the lower surface side of the light guide plate 24. In this case, the side reflecting portion 52 is provided on the side surface of the light guide plate 24 located between 6 o'clock and 9 o'clock, and the light from the first light emitting element 50 is guided in the surface direction through the light guide plate 24 to What is necessary is just to comprise so that the light which reached | attained may be reflected toward the inside of the lower side illumination part 53 of the light-guide plate 24 when it reaches | attains an end surface. Even if comprised in this way, there exists an effect similar to 4th Embodiment.
[0066]
Further, the present invention is not limited to this, and for example, the lower illumination unit 53 includes a first illumination area 41 on the 9 o'clock side and a second illumination area 42 on the 3 o'clock side, as in the third embodiment shown in FIGS. The first illumination region 41 may be configured by the first prism 43 and the first side surface reflection unit 44, and the second illumination region 42 may be configured by the second prism 45 and the second side surface reflection unit 46. If comprised in this way, the light guide | induced to the lower side illumination part 53 will be reflected by the 1st, 2nd side surface reflection parts 44 and 46 of the 1st, 2nd illumination area | regions 41 and 42, and the lower side illumination part 53 again. When the light is introduced into the first and second illumination areas 41 and 42, the introduced light is reflected toward the lower surface side of the light guide plate 24 by the reflection surfaces 43 a and 45 a of the first and second prisms 43 and 45, respectively. Thus, the first and second illumination regions 41 and 42 can emit light to illuminate the liquid crystal display element 10, so that the light from the first light emitting element 50 can be efficiently irradiated onto the liquid crystal display element 10. In addition, the liquid crystal display element 10 can be illuminated more brightly.
[0067]
[Fifth Embodiment]
Next, a fifth embodiment in which the present invention is applied to a wristwatch will be described with reference to FIGS. In this case, the same reference numerals are given to the same portions as those in the first embodiment shown in FIGS.
In this watch, the timepiece module 3 has an analog function and the illumination device 6, and a dial plate 60 made of a non-permeable material such as metal is disposed on the lower surface of the light guide plate 24 of the illumination device 6. A lower illumination unit 61 is provided at a location, and first and second light emitting elements 62 and 63 are provided to face the side surfaces of the light guide plate 24 located at 12:00 and 6 o'clock. The structure is substantially the same as in the first embodiment.
[0068]
That is, in the timepiece module 3, as shown in FIG. 27, an analog movement 9 is provided in the upper housing 7, and a dial 60 made of a non-permeable material such as metal is disposed on the upper surface of the analog movement 9 and the upper housing 7. The light guide plate 24 of the lighting device 6 is arranged on the dial 60. In this case, the analog movement 9 has the pointer shaft 12 protruding upward through the through holes 64 of the dial plate 60 and the light guide plate 24, and the pointer 15 is attached to the upper end portion of the protruding pointer shaft 12. The upper part of the light guide plate 24 is moved.
[0069]
Further, the dial 60 is provided with a through-hole 64 into which the pointer shaft 12 of the analog movement 9 is inserted at the center thereof, and as shown in FIG. The light that is provided corresponding to the occasion and is transmitted through the light guide plate 24 from the upper surface side to the lower surface side is reflected by the entire upper surface. Thus, in the fifth embodiment, the pointer 15 corresponds to the first display member positioned above the light guide plate 24, and the dial plate 60 corresponds to the second display member positioned below the light guide plate 24. It is configured.
[0070]
Each of the first and second light emitting elements 62 and 63 of the lighting device 6 includes a light emitting diode that emits light in the visible light region, and is configured to emit light of different colors. For example, the first light emitting element 62 is provided at the 12 o'clock position and configured to emit red light, and the second light emitting element 63 is provided at the 6 o'clock position and emits blue light. Is configured to do. Further, as shown in FIG. 26, the light guide plate 24 of the lighting device 6 is provided with a lower illumination unit 61 at a plurality of locations on the upper surface thereof, and throughout the entire region excluding a portion corresponding to the lower illumination unit 61. The upper illumination unit 26 having the same structure as that of the first embodiment is provided. In this case, the lower illumination unit 61 includes a first illumination area 65 and a second illumination area 66 as shown in FIG.
[0071]
The first illumination area 65 is provided at a position corresponding to the time character 60 a of the dial 60, and each linear prism 67 is provided in a direction substantially orthogonal to the light emitted from the first light emitting element 62. In addition, as shown in FIG. 28, the reflecting surface 67a of each prism 67 is provided toward the first light emitting element 62 side, so that the light from the first light emitting element 62 is reflected toward the lower surface side. It is configured. Further, as shown in FIG. 26, the second illumination area 66 is provided between the pointer shaft 12 on the upper surface of the dial 60 and the hour clock 60a at 6 o'clock, and each linear prism 68 is a second light emitting element. As shown in FIG. 28, the reflecting surface 68a of each prism 68 is provided toward the second light emitting element 63, thereby providing the second light. The light from the light emitting element 63 is configured to be reflected toward the lower surface side. In this case, a decoration portion 69 such as a picture, a figure, or a symbol is provided on the upper surface of the dial 60 at a location corresponding to the second illumination area 66, as shown in FIG.
[0072]
According to such a wristwatch, as in the first embodiment, the dial 60 and the hand 15 are illuminated by external light in a bright place, so that the time can be known by the dial 60 and the hand 15 and the dial is used. The 60 time letters 60a and the decorative portion 69 can be visually recognized. Further, when the first and second light emitting elements 62 and 63 emit light in a dark place, the light is guided by the light guide plate 24 and radiated to the upper surface side by the upper illuminating unit 26, so that the pointer 16 is illuminated from the lower surface side. In addition, since the light guided by the light guide plate 24 is emitted to the lower surface side by the lower illumination unit 61, the dial plate 60 can be illuminated from the upper surface side. And the time can be known by the hand 15.
[0073]
In this case, when only the first light emitting element 62 is caused to emit light, light of a specific color, for example, red light is emitted, and the red light is guided by the light guide plate 24, and the upper side indicator 15 is moved by the upper illumination unit 26. In addition to illuminating with red, the first illumination region 65 of the lower illumination unit 61 illuminates the time character 60a of the dial 60 on the lower surface side with red. At this time, since the red light emitted from the first light emitting element 62 is guided in the surface direction as it is in the second illumination region 66, the decorative portion 69 of the dial 60 is hardly illuminated. Further, when only the second light emitting element 66 emits light, light of a color different from that of the first light emitting element 65, for example, blue light is emitted, and this blue light is guided by the light guide plate 24, and the upper illumination unit 26 The pointer 15 on the side is illuminated in blue, and the decoration portion 69 of the lower dial 60 is illuminated in blue in the second illumination area 66 of the lower illumination unit 61. At this time, since the blue light emitted by the second light emitting element 66 is guided in the surface direction as it is in the first illumination region 65, the time letters 60a of the dial 60 are not illuminated.
[0074]
Further, when both the first and second light emitting elements 62 and 63 are caused to emit light simultaneously, a mixed color in which the light emission colors of both the first and second light emitting elements 62 and 63 are mixed in the upper illumination unit 26 of the light guide plate 24. The indicator 15 on the upper surface side of the light guide plate 24 is illuminated, but in the first illumination region 65 of the lower illumination unit 61, the light emission color of the first light emitting element 62, for example, red and the characters positioned below the light guide plate 24 Only the time character 60a of the plate 60 is illuminated, and in the second illumination area 66, only the decoration color 69 of the dial 60 located below the light guide plate 24 is illuminated in the emission color of the second light emitting element 63, for example, blue. The For this reason, the time character 60a of the dial plate 60 appears red, and the decorative portion 69 of the dial plate 60 appears blue, so that it is possible to obtain an excellent color and decorative property.
[0075]
In the fifth embodiment, the case where the timepiece module 3 has only an analog function and the decoration portion 69 is provided on the upper surface of the dial 60 so as to correspond to the second illumination area 66 of the lower illumination portion 61 will be described. However, the present invention is not limited to this. For example, as in the fourth modified example shown in FIG. 29, the dial 70 is provided with an opening 70 corresponding to the second illumination area 66 of the lower illumination unit 61. The liquid crystal display element 10 may be provided in the upper housing 7 so as to correspond to the opening 70. Even in such a structure, as in the fifth embodiment, it is possible to illuminate the time letters 60a of the dial 60 with the light emission color (for example, red) of the first light emitting element 62, and the light emission color of the second light emitting element 63 ( The liquid crystal display element 10 can be illuminated with, for example, blue), so that even if the liquid crystal display element 10 is provided in place of the decorative portion 69 of the dial 60, an excellent color and decorative property can be obtained. .
[0076]
[Sixth Embodiment]
Next, a sixth embodiment in which this invention is applied to a wristwatch will be described with reference to FIGS. Also in this case, the same parts as those in the first embodiment shown in FIGS.
This wristwatch has a structure in which a solar panel 75 is provided on the lower surface of the light guide plate 24 instead of the reflecting plate 25, and the other structure is the same as that of the first embodiment. That is, the solar panel 75 has a structure in which a metal lower electrode layer, an amorphous silicon layer, a transparent upper electrode layer, and a transparent protective layer are laminated in order from the bottom on an insulating substrate, and external light is irradiated from above. Then, the external light passes through the transparent protective layer and the transparent upper electrode and is irradiated to the amorphous silicon layer, and the light transmitted through the amorphous silicon layer is reflected by the lower electrode layer, so that the light is efficiently generated. It is configured to generate power.
[0077]
The solar panel 75 is provided with a through hole 14 into which the pointer shaft 12 of the analog movement 9 is inserted at the center and an opening 76 in a portion corresponding to the liquid crystal display element 10. ing. Also in the sixth embodiment, the light emitting element 23 is disposed on the side surface of the light guide plate 24 located at 12:00 in the same manner as in the first embodiment. The light guide plate 24 is also provided with an upper illumination unit 26 and a lower illumination unit 27. The upper illumination unit 26 is configured to emit light guided by the light guide plate 24 toward the upper surface side to emit light.
[0078]
In this case, the upper illumination unit 26 is configured such that light leaked to the lower surface side of the light guide plate 24 is reflected toward the upper surface side by the solar panel 75 and the reflected light is also emitted from the upper surface side of the light guide plate 24. It is configured. Further, the lower illumination unit 27 is substantially orthogonal to a straight line connecting each light-emitting prism 29 to the light emitting element 23 and the diagonal part of the light guide plate 24 opposed thereto, that is, a straight line connecting 12 o'clock and 6 o'clock. The reflecting surface 29a of each prism 29 is configured to reflect the light guided by the light guide plate 24 toward the lower surface side.
[0079]
In such a wristwatch, as in the first embodiment, the dial 13 and the pointer 15 are illuminated by external light in a bright place, and the external light is applied to the light guide plate 24 through the dial 13 and its opening 16. Since the irradiated external light passes through the light guide plate 24 from the upper surface side to the lower surface side and is irradiated to the solar panel 75, the solar panel 75 can generate electric power well, and the opening 76 of the solar panel 75 can be opened. Since the transmitted external light is applied to the liquid crystal display element 10, information such as the time displayed on the liquid crystal display element 10 can be seen.
[0080]
Further, when the light emitting element 23 emits light in a dark place, the light is guided in the surface direction by the light guide plate 24, and the guided light is directed toward the upper surface side of the light guide plate 24 by the upper illumination unit 26 of the light guide plate 24. The upper side of the light guide plate 24 can be illuminated when the upper illumination unit 26 emits light and emits surface light. Further, the light guided to the lower illumination unit 27 of the light guide plate 24 is radiated toward the lower surface side of the light guide plate 24 by the lower illumination unit 27, and the lower illumination unit 27 emits surface light, whereby the light guide plate 24. The lower surface side of can be illuminated. Accordingly, the upper and lower surfaces of the light guide plate 24 can be illuminated, so that the dial 13 and the pointer 15 disposed on the upper surface side of the light guide plate 24 and the lower surface side of the light guide plate 24 even in a dark place. The disposed liquid crystal display element 10 can be illuminated well.
[0081]
[Seventh Embodiment]
Next, with reference to FIGS. 33 to 36, a seventh embodiment in which the present invention is applied to a wristwatch will be described. Also in this case, the same parts as those in the first embodiment shown in FIGS.
This wristwatch includes a transmissive first liquid crystal display element 80 and a reflective second liquid crystal display element 81 as display members, and a light guide plate 24 is provided between the first and second liquid crystal display elements 80 and 81. The arrangement is the same as that of the first embodiment except for this.
[0082]
That is, as shown in FIG. 36, the first liquid crystal display element 80 encloses a liquid crystal (not shown) between a pair of upper and lower transparent electrode substrates 82 and 83, and the upper and lower surfaces of the upper electrode substrate 82. A transmission type in which polarizing plates 84 and 85 are provided on the lower surface of the electrode substrate 83, respectively. As shown in FIG. 34, the end portion of the upper electrode substrate 82 is electrically connected to the circuit substrate 11 by an interconnector 86. In this state, by selectively applying a voltage between the pair of upper and lower electrode substrates 82 and 83, information such as time is displayed electro-optically.
[0083]
Similarly to the liquid crystal display element 10 of the first embodiment, the second liquid crystal display element 81 encloses a liquid crystal (not shown) between a pair of upper and lower transparent electrode substrates 17 and 18, and The upper and lower electrode substrates 18 are respectively provided with polarizing plates 19 and 20, and the lower polarizing plates 19 and 20 are provided with a reflecting plate 21 on the lower surface. The end is supported in a state where it is electrically connected to the circuit board 11 by the interconnector 22, and in this state, by selectively applying a voltage between the pair of upper and lower electrode substrates 17, 18, information such as time can be obtained. It is configured to display electro-optically.
[0084]
In this case, the upper first liquid crystal display element 80 is formed to have a size that covers the entire upper surface of the light guide plate 24, that is, the upper illumination unit 26 and the lower illumination unit 27 of the light guide plate 24. The second liquid crystal display element 81 is formed in a size corresponding to the lower illumination unit 27 of the light guide plate 24. Further, as in the first embodiment, the light emitting element 23 is disposed opposite to the side surface of the light guide plate 24 at 12:00. The lower surface of the light guide plate 24 corresponds to the second liquid crystal display element 81. A reflector 25 provided with an opening 25a is disposed. The upper illumination unit 26 of the light guide plate 24 is configured to reflect the light guided by the light guide plate 24 toward the upper surface side, and the lower illumination unit 27 includes the linear prisms 29. The light-emitting element 23 and a diagonal line of the light guide plate 24 opposite to the light-emitting element 23 are provided substantially orthogonal to a straight line connecting the 12 o'clock and 6 o'clock. The light guided at 24 is reflected toward the lower surface side.
[0085]
According to such a wristwatch, external light is incident on the wristwatch case 1 through the watch glass 2 in a bright place, and the incident external light is applied to the first liquid crystal display element 80. Information such as the time displayed on can be visually recognized. That is, when external light incident on the wristwatch case 1 is irradiated on the first liquid crystal display element 80, the irradiated external light is transmitted through the first liquid crystal display element 80 and the light guide plate 24, and the upper side of the light guide plate 24. The light transmitted through the illumination unit 26 from the upper surface side to the lower surface side is reflected by the reflecting plate 25, and the reflected light passes through the light guide plate 24 and the first liquid crystal display element 80 again through the reverse optical path. Information such as the time displayed on the one liquid crystal display element 80 can be visually recognized.
[0086]
At this time, of the external light transmitted through the lower illumination unit 27 of the light guide plate 24, the external light transmitted through the opening 25a of the reflection plate 25 is irradiated to the second liquid crystal display element 81, and the irradiated external light Enters the second liquid crystal display element 81 and is reflected by the reflecting plate 21 of the second liquid crystal display element 81, and the reflected light passes through the optical path opposite to the above and is again opened in the second liquid crystal display element 81 and the reflecting plate 25. 25a, the lower illuminating unit 27 of the light guide plate 24, and the first liquid crystal display element 80 are transmitted and radiated thereabove, so that the information displayed on the second liquid crystal display element 81 is transferred to the first liquid crystal display element 80. It can be seen through.
[0087]
Further, when the light emitting element 23 of the lighting device 6 emits light in a dark place, the light of the light emitting element 23 enters the light guide plate 24 from the side surface and is guided in the surface direction by the light guide plate 24 as in the first embodiment. The light guided to the upper illumination part 26 of the light guide plate 24 is emitted toward the upper surface side of the light guide plate 24, and the light leaking to the lower surface side of the light guide plate 24 is reflected by the reflection plate 25. Similarly, the first liquid crystal display element 80 is illuminated from the lower surface side, whereby information such as the time displayed on the first liquid crystal display element 80 can be visually recognized even in a dark place. Further, the light guided to the lower illumination unit 27 of the light guide plate 24 is reflected toward the lower surface side of the light guide plate 24 by the reflection surface 29a of each prism 29 of the lower illumination unit 27, and this reflected light is reflected. Since the second liquid crystal display element 81 is irradiated through the opening 25a of the reflector 25, the first liquid crystal display element can display information such as the time displayed on the second liquid crystal display element 81 even in a dark place as described above. 80 can be seen through.
[0088]
Thus, according to this wristwatch, when the light emitting element 23 emits light in a dark place, the emitted light is guided in the surface direction by the light guide plate 24, and the upper illumination unit 26 of the light guide plate 24 causes the light guide plate 24 to emit light. The first liquid crystal display element 80 can be illuminated from the lower surface side because it is reflected toward the upper surface side and emits surface light, and when guided to the lower illumination unit 27 of the light guide plate 24, the guided light is Since the lower illumination unit 27 of the light guide plate 24 reflects the light toward the lower surface side of the light guide plate 24 and emits surface light, the second liquid crystal display element 81 can be illuminated from the upper surface side. Therefore, the upper and lower surfaces of the light guide plate 24 can be illuminated, and the information displayed on the first and second liquid crystal display elements 80 and 81 can be visually recognized in a bright place or a dark place. .
[0089]
Also in this wristwatch, since the upper and lower surfaces can be illuminated by one light guide plate 24, the second liquid crystal display element 81 is arranged on the lower surface of the first liquid crystal display element 80 via the light guide plate 24. However, the second liquid crystal display element 81 can be illuminated on the lower surface of the second liquid crystal display element 81 without using a flat backlight device such as an EL element (electroluminescence element). The entire watch can be reduced in thickness and space, and thus the entire wristwatch can be reduced in size and thickness. In addition, since the second liquid crystal display element 81 can be disposed close to the lower illumination unit 27 of the light guide plate 24, the information displayed on the second liquid crystal display element 81 is outlined by the refraction of light from the light guide plate 24. Occurrence of bleeding can be suppressed, and thus information displayed on the second liquid crystal display element 81 can be viewed well through the first liquid crystal display element 80.
[0090]
[Eighth Embodiment]
Next, with reference to FIGS. 37 and 38, an eighth embodiment in which the present invention is applied to a mobile phone will be described. In this case, the same parts as those in the seventh embodiment shown in FIGS.
As shown in FIGS. 37 and 38, this cellular phone includes a device case 90 made of synthetic resin. An opening is provided on the upper side of the upper surface of the device case 90, and a transparent protective glass 91 corresponding to a window is attached to the opening. On the lower side of the upper surface of the device case 90, Various key buttons 92 necessary for the telephone function are provided. An antenna 93 is attached to the upper end surface of the device case 90 so as to be able to appear and retract.
[0091]
Inside the device case 90, as shown in FIG. 38, a module 94 for a mobile phone is accommodated. The mobile phone module 94 includes first and second liquid crystal display elements 80 and 81 for displaying information necessary for the telephone and the lighting device 6. As in the seventh embodiment, the illumination device 6 is disposed so as to face the light guide plate 24 disposed between the first and second liquid crystal display elements 80 and 81 and the side surface of the light guide plate 24 located at 12:00. The light emitting element 23 is made up of. The light guide plate 24 is provided with an upper illumination unit 26 and a lower illumination unit 27, and the lower surface of the light guide plate 24 is provided with an opening 25 a corresponding to the second liquid crystal display element 81. A plate 25 is arranged. The first liquid crystal display element 80 is of a transmissive type, is formed to have substantially the same size as the light guide plate 24, and is disposed corresponding to the lower side of the protective glass 91. The second liquid crystal display element 81 is of a reflective type, is formed in a size corresponding to the opening 25 a of the reflecting plate 25, and is disposed below the lower illumination unit 27 and the reflecting plate 25.
[0092]
According to such a mobile phone, similarly to the seventh embodiment, external light enters the device case 90 through the protective glass 91 in a bright place, and the incident external light is irradiated to the first liquid crystal display element 80. At the same time, the first liquid crystal display element 80, 81 is transmitted to the first liquid crystal display element 80, 81 through the opening 25 a of the light guide plate 24, and the reflector 25. The displayed information can be visually recognized. Further, when the light emitting element 23 emits light in a dark place, the light of the light emitting element 23 is guided in the surface direction by the light guide plate 24 as in the seventh embodiment, and is directed toward the upper surface side of the light guide plate 24 by the upper illumination unit 26. Therefore, the upper illuminator 26 emits light to illuminate the first liquid crystal display element 80 from the lower surface side, and the light guided to the lower illuminator 27 is provided in each prism of the lower illuminator 27. 29 is reflected toward the lower surface side of the light guide plate 24, the lower illumination unit 27 emits light and illuminates the second liquid crystal display element 81 from the upper surface side through the opening 25 a of the reflection plate 25. As a result, the information displayed on the first and second liquid crystal display elements 80 and 81 can be seen even in a dark place.
[0093]
As described above, also in this cellular phone, when the light emitting element 23 is caused to emit light even in a dark place, the upper illumination unit 26 of the light guide plate 24 can illuminate the first liquid crystal display element 80 from the lower surface side, and lower illumination. The unit 27 can illuminate the second liquid crystal display element 81 from the upper surface side, thereby illuminating the upper and lower surface sides with a single light guide plate 24. Therefore, the first, Information displayed on the second liquid crystal display elements 80 and 81 can be seen. Also in this case, since the upper and lower surfaces can be illuminated by the single light guide plate 24, a flat backlight device such as an EL element (electroluminescence element) is used on the lower surface of the second liquid crystal display element 81. Therefore, the module 94 can be reduced in thickness and space, and the entire device can be reduced in size and thickness. Furthermore, since the second liquid crystal display element 81 can be disposed close to the lower illumination portion 27 of the light guide plate 24, the information displayed on the second liquid crystal display element 81 is outlined by the refraction of light from the light guide plate 24. The occurrence of bleeding can be suppressed, and the information displayed on the second liquid crystal display element 81 can be visually recognized well.
[0094]
In the sixth to eighth embodiments, the case where the upper illumination unit 26 of the light guide plate 24 has a structure in which the uneven portion 28 is formed on the lower surface of the light guide plate 24 is described. As shown in the second modification example shown in FIGS. 10 and 11, the light guide plate 24 may have a structure in which the concavo-convex portion 28 is formed on the upper surface, and as in the third modification example shown in FIGS. 12 and 13. A structure in which a large number of linear prisms 32 are arranged on the lower surface of the light guide plate 24 may be used.
[0095]
In the sixth to eighth embodiments, the prism 29 of the lower illumination portion 27 of the light guide plate 24 is a straight line connecting the light emitting element 23 and the diagonal portion of the light guide plate 24 facing the light emitting element 23, that is, 12:00. Although the case where it is provided substantially orthogonal to the straight line connecting 6 o'clock has been described, the present invention is not limited to this. For example, the second embodiment shown in FIGS. 14 to 18 or FIGS. As in the fourth embodiment, the prisms 36 and 54 of the lower illumination units 35 and 53 are provided substantially parallel to the straight line connecting 12 o'clock and 6 o'clock, and the reflecting surfaces 36a and 54a are arranged on the 9 o'clock side or You may provide toward 3 o'clock side. In this case, the side reflecting portions 37 and 52 may be provided on the side surface of the light guide plate 24 located between 6 o'clock and 9 o'clock or on the side surface of the light guide plate 24 located between 3 o'clock and 6 o'clock. Also in this case, it is desirable that the prisms 36 and 54 are formed so that the arrangement pitch gradually becomes narrower as they move away from the light emitting element 23 side, that is, the 12 o'clock side.
[0096]
Not limited to this, as in the third embodiment shown in FIGS. 19 to 22, the lower illumination unit 40 is divided into first and second illumination areas 41 and 42, and the first illumination area 41 is changed to the first illumination area 41. The first prism 43 and the first side reflector 44 may be configured, and the second illumination area 42 may be configured with the second prism 45 and the second side reflector 46.
Further, in the sixth to eighth embodiments, the case where the light emitting element 23 is provided only at the position located on the 12 o'clock side of the light guide plate 24 is described. However, the present invention is not limited to this, and for example, illustrated in FIGS. As in the fourth embodiment or the fifth embodiment shown in FIGS. 26 to 29, the first light-emitting elements 50 and 62 and the second light-emitting elements are located at the 12:00 and 6 o'clock positions of the light guide plate 24. A structure provided with 51 and 63 may also be used.
[0097]
In addition, in the first to eighth embodiments and each modification thereof, the case where the present invention is applied to a wristwatch or a mobile phone has been described. However, the present invention is not limited thereto, and for example, an electronic notebook, an electronic dictionary, a portable terminal, a personal computer, The present invention can be widely applied to various electronic devices such as a printing machine, various devices such as automobile meters, or parts thereof.
[0098]
【The invention's effect】
  As explained above, according to the present invention,The following effects can be achieved.
According to the first aspect of the present invention, the light from the light source is reflected toward the lower illumination part provided on the light guide plate by the side surface reflection part provided on the side surface of the light guide plate, Since the liquid crystal display member arranged on the lower surface side is illuminated, the light from the light source can be effectively illuminated on the liquid crystal display member. In addition, the upper illumination part is formed with a fine uneven part on the lower surface of the light guide plate, and the light guided by the light guide plate is directed to the pointer member on the upper surface side of the light guide plate by irregular reflection of the fine uneven part. Therefore, the light from the light source can be effectively illuminated on the pointer member.
[0099]
  According to invention of Claim 2,Similarly to the first aspect of the invention, the upper and lower surfaces of the light guide plate can be illuminated by the lighting device, so that the display members disposed on the upper and lower surfaces of the light guide plate can be well illuminated, and the window The display members arranged on the upper and lower surfaces of the light guide plate through the part can be visually recognized from the outside of the device case.
[Brief description of the drawings]
FIG. 1 is a front view showing a first embodiment in which the present invention is applied to a wristwatch.
FIG. 2 is an enlarged cross-sectional view taken along the line AA in FIG.
3 is an enlarged cross-sectional view taken along the line BB in FIG.
4 is an enlarged front view of the timepiece module shown in FIGS. 2 and 3. FIG.
5 is an enlarged cross-sectional view of the light guide plate as viewed in the direction of arrows CC in FIG. 4;
6 is an enlarged cross-sectional view showing the liquid crystal display element of FIGS. 2 and 3. FIG.
FIG. 7 is an enlarged front view of a timepiece module showing a first modification of the first embodiment.
8 is a cross-sectional view taken along the line DD in FIG.
9 is an enlarged cross-sectional view of the light guide plate of FIG.
FIG. 10 is an enlarged front view of a timepiece module showing a second modification of the first embodiment.
11 is an enlarged cross-sectional view of the light guide plate as viewed in the direction of arrows EE in FIG.
FIG. 12 is an enlarged front view of a timepiece module showing a third modification of the first embodiment.
13 is an enlarged cross-sectional view of the light guide plate as viewed in the direction of arrows F-F in FIG. 12;
FIG. 14 is an enlarged front view of a timepiece module according to a second embodiment in which the present invention is applied to a wristwatch.
15 is a cross-sectional view taken along arrow GG in FIG.
16 is an enlarged cross-sectional view of the light guide plate as viewed in the direction of arrows G-G in FIG. 14;
17 is an enlarged cross-sectional view showing a lower illumination portion of the light guide plate as viewed in the direction of arrows HH in FIG. 14;
FIG. 18 is a view showing a generation state of a bright line spectrum in the first embodiment.
FIG. 19 is an enlarged front view of a timepiece module according to a third embodiment in which the present invention is applied to a wristwatch.
20 is a cross-sectional view taken along the arrow I-I in FIG. 19;
21 is an enlarged cross-sectional view of the light guide plate as viewed in the direction of arrows II in FIG.
22 is an enlarged cross-sectional view showing a lower illumination part of the light guide plate as viewed in the direction of arrows JJ in FIG. 19;
FIG. 23 is an enlarged front view of a timepiece module according to a fourth embodiment in which the present invention is applied to a wristwatch.
24 is a cross-sectional view taken along the line KK in FIG.
25 is an enlarged cross-sectional view showing a lower illumination part of the light guide plate as viewed in the direction of arrows LL in FIG. 23. FIG.
FIG. 26 is an enlarged front view of a timepiece module according to a fifth embodiment in which the present invention is applied to a wristwatch.
27 is a cross-sectional view taken along the arrow MM in FIG. 26;
28 is an enlarged cross-sectional view of the light guide plate as viewed in the direction of arrows MM in FIG.
FIG. 29 is an enlarged cross-sectional view of a timepiece module showing a fourth modification example in the fifth embodiment.
FIG. 30 is an enlarged front view of a timepiece module according to a sixth embodiment in which the present invention is applied to a wristwatch.
31 is a cross-sectional view taken along line NN in FIG. 30;
32 is an enlarged cross-sectional view of the light guide plate as viewed in the direction of arrows NN in FIG. 30;
FIG. 33 is an enlarged front view of a timepiece module according to a seventh embodiment in which the present invention is applied to a wristwatch.
34 is a cross-sectional view taken along the line PP in FIG. 33. FIG.
35 is an enlarged cross-sectional view of the light guide plate as viewed in the direction of arrows PP in FIG. 33. FIG.
36 is an enlarged cross-sectional view showing the first liquid crystal display element of FIG. 34. FIG.
FIG. 37 is an enlarged front view showing an eighth embodiment in which the present invention is applied to a mobile phone;
FIG. 38 is an enlarged side view showing a part of FIG.
[Explanation of symbols]
1 Watch case
2 Watch glass
3 Clock module
6 Lighting equipment
9 Analog movement
10 Liquid crystal display elements
13, 60 Dial
13b character
15 Guidelines
23 Light emitting device
24 Light guide plate
25 Reflector
26 Upper illumination part
27, 35, 40, 53, 61 Lower illumination part
28 Concavity and convexity
29, 31, 32, 36, 54, 67, 68 Prism
29a, 31a, 32a, 36a, 43a, 45a, 54a, 67a, 68a Reflecting surface
30, 37 Side reflector
41, 65 First illumination area
42, 66 Second illumination area
43 1st prism
44 1st side surface reflection part
45 Second prism
46 Second side reflector
50, 62 First light emitting element
51, 63 Second light emitting element
55 Light emitter
69 Decoration Department
75 Solar Panel
76 opening
80 First liquid crystal display element
81 Second liquid crystal display element
90 Equipment case
91 Protective glass
94 modules

Claims (2)

A light source that emits light;
A light guide plate that causes light from the light source to enter from the side surface, guides the incident light in the surface direction of the upper surface and the lower surface, and causes surface emission;
A pointer member disposed on the upper surface side of the light guide plate;
A liquid crystal display member disposed on the lower surface side of the light guide plate,
The light guide plate is
An upper illumination unit that guides light from the light source in a plane direction and emits the light toward an upper surface side of the light guide plate;
A lower illumination unit that guides light from the light source in a plane direction and emits the light toward a lower surface side of the light guide plate;
The lower illumination unit is formed by a plurality of line-shaped prisms on the upper surface of the light guide plate, and the light guided by the light guide plate by the respective reflecting surfaces of the line-shaped prisms on the lower surface side of the light guide plate It is a structure that reflects towards
The line-shaped prism is provided substantially parallel to a straight line connecting the light source and a diagonal portion of the light guide plate facing the light source,
On the side of the lower illuminating unit, and on the side surface of the light guide plate, a side surface reflecting unit that reflects light from the light source that has traveled straight through the lower illuminating unit toward the lower illuminating unit is provided. And
The upper illumination unit is formed with a fine uneven portion on the lower surface of the light guide plate, and the light guided by the light guide plate is directed to the pointer member on the upper surface side of the light guide plate by irregular reflection of the fine uneven portion. A lighting device characterized by having a reflective structure .   An electronic device comprising: the lighting device according to claim 1; and a device case for housing the lighting device, wherein the device case is provided with a window portion corresponding to the display member.

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