JP3979076B2 - Electronics - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a light-emitting device and an electronic device that are useful when applied to various devices such as a wristwatch, a mobile phone, and automobile meters.
[0002]
[Prior art]
For example, in a wristwatch, a phosphorescent paint such as a luminescent paint is partially applied to a clock part such as a dial or a pointer by printing or the like to form a phosphorescent part, so that the phosphorescent part receives external light in a bright place. There is one that stores energy and emits light by energy stored in the light storage unit in a dark place.
[0003]
[Problems to be solved by the invention]
However, in such a wristwatch, although the phosphorescent part emits light in a dark place and the time can be known, the phosphorescent part cannot emit light freely when desired by the user, and the phosphorescent part emits light. Therefore, there is a problem that the color is poor and a sufficient decoration effect cannot be obtained.
[0004]
The subject of this invention is making it possible to make a light emission part light-emit freely when desired, and to obtain the thing excellent in chromaticity and decoration by this.
[0005]
[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.
  The invention according to claim 1 is shown in FIGS.FIG.As shown in FIG. 4, a device case (watch case) having a window portion made of a light transmissive member (watch glass 3) in which a plurality of light transmissive layers (glass plates 14 and 15) are laminated, and the light transmissive memberLocated belowAnd a display member (the dial plate 11, the pointer 12) disposed in the device case,A frame-shaped member (parting member 22) provided along the peripheral portion of the display member and on the lower peripheral portion of the light-transmitting member and laminating a plurality of light-transmitting layers (glass plate 23, glass plate 24); Between the plurality of light transmissive layers in the light transmissive member.A first light emitting portion (light emitting portion 17) that emits colored light in response to light having a specific wavelength of either light in the ultraviolet region or light in the infrared region; and provided on the display member and having the specific wavelength. A second light emitting part (light emitting part 17) that emits colored light in response to light;A third light-emitting part (light-emitting part 17) provided between the plurality of light-transmitting layers in the frame-shaped member and emitting colored light in response to light of the specific wavelength; and the first light-emitting part disposed below the frame-shaped member 1 light emitting part, the second light emitting part, the third light emitting partThe electronic apparatus includes a light emitting element (ultraviolet light emitting element 19) that emits light of the specific wavelength.
[0006]
  According to the present invention, when the light emitting element emits light, light in a specific wavelength region of either light in the ultraviolet region or light in the infrared region is emitted.Since the frame-shaped member is guided along the periphery of the light-transmitting member, and the guided light having a specific wavelength is emitted from the entire circumference of the frame-shaped member,1st light emission part arrange | positioned between several light transmissive layers of a light transmissive memberAnd the 2nd light emission part provided in the display member and the 3rd light emission part provided in the some light transmissive layer in a frame-shaped member can each be irradiated with the light of a specific wavelength. Therefore, the first light emitting unit, the second light emitting unit, and the third light emitting unit are respectivelyBecause it emits colored light in response to light of a specific wavelength, when it is desired, let the light emitting element emit light,Each of the first light emitting unit, the second light emitting unit, and the third light emitting unitColored light can be emitted freely and the display member can be illuminated well.Thus, the information displayed on the display member can be viewed well even in a dark place.
  In this case, since the light of a specific wavelength is light in the ultraviolet region or light in the infrared region, the light is invisible to the human eye. However, when the light emitting unit is irradiated with light of the specific wavelength region, the light emitting unit emits colored light, and thus the colored light emission of the light emitting unit can be visually recognized by human eyes.
  In addition, since the third light emitting unit is provided between the plurality of light transmission layers in the frame-shaped member, when the light emitting element emits light and the third light emitting unit of the frame-shaped member is irradiated with light of a specific wavelength, the frame shape The third light emitting portion of the member emits colored light along the peripheral portion of the display member, and the display member can be illuminated from the peripheral portion by the colored light emission of the third light emitting portion. Furthermore, since the first light emitting unit and the third light emitting unit are respectively provided between the plurality of light transmission layers,The first light emitting part that emits colored light appears to float in the light transmissive member.In addition, the third light-emitting portion that emits colored light also appears to float in the frame-shaped member,Thereby, the thing excellent in color property and decorating property can be obtained.
[0008]
  The invention according to claim 2 is shown in FIG.And FIG.As shown in the above, the light transmissive member (watch glass 3)On one surface of the upper and lower surfaces, a fourth light emitting unit (light emitting unit 20)The electronic device according to claim 1, wherein the electronic device is provided.
  According to this invention,A first light-emitting portion provided between a plurality of light-transmitting layers of the light-transmitting member and a fourth light-emitting portion provided on one surface of the upper and lower surfaces of the light-transmitting member;When light of a specific wavelength region from the light emitting element is irradiated, the first light emitting unit andWith the fourth light emitting partEach of the first and second light emitting units,With the fourth light emitterThe whole looks three-dimensional, and thereby a decorative effect with a three-dimensional effect is obtained.
[0014]
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 an enlarged sectional view of a main part showing a wristwatch of the present invention, and FIG. 2 is a partially cutaway plan view showing the whole wristwatch. This wristwatch includes a wristwatch case 1. A bezel 2 is provided on the upper outer periphery of the watch case 1, and a watch glass 3 is attached to the upper center of the watch case 1 via a packing 4. Further, as shown in FIG. 1, a watch module 5 is accommodated inside the watch case 1 via a frame-shaped parting member 6, and a back cover 7 is waterproof on the lower surface of the watch case 1. It is attached via a ring 8.
[0015]
The timepiece module 5 has at least an analog function of an analog function and a digital function. As shown in FIG. 1, the pointer shaft 10 of an analog movement (not shown) provided in the housing 9 is a character. The needle 11 protrudes upward through the through hole 11a of the plate 11, and a pointer 12 such as an hour hand and a minute hand is attached to the upper end portion of the protruding pointer shaft 10, and the pointer 12 is configured to move the dial 11 above. Yes. A display member is constituted by the dial plate 11 and the hands 12, and on the upper surface of the dial plate 11, hour letters 13 are provided at predetermined intervals along the peripheral edge.
[0016]
The watch glass 3 has a two-layer structure in which two transparent glass plates 14 and 15 are stacked one above the other. These glass plates 14 and 15 are bonded together by a transparent adhesive 16, and a light emitting portion 17 is provided between these glass plates 14 and 15. The light-emitting portion 17 emits colored light in response to ultraviolet light having a wavelength of 350 to 420 nm (nanomail: nano is one billionth of a meter) or 254 to 365 nm, and exhibits a transparent state when not irradiated with ultraviolet light. And is formed in a predetermined shape, for example, a “G” mark shape as shown in FIG. 3 on one of the opposing surfaces of the glass plates 14 and 15 by printing or the like.
[0017]
The emission color of the light emitting unit 17 is based on three colors of red, blue, and green (or yellow), and there are 10 to 13 color variations. The light emitting unit 17 is also provided on the upper surface of the pointer 12. In this case, the light emitting portion 17 of the watch glass 3 and the light emitting portion 17 of the pointer 12 may emit light in the same color, but it is desirable to emit light in different colors in order to make the time easily visible. For example, it is desirable that the light emitting portion 17 of the watch glass 3 emits red light and the light emitting portion 17 of the pointer 12 emits green light (or yellow light).
[0018]
The parting member 6 is a frame-like member disposed on the inner surface of the watch case 1 in a state of being positioned between the peripheral portion on the lower surface of the watch glass 3 and the peripheral portion on the upper surface of the dial 11. As shown in FIG. 1, concave portions 18 are respectively provided at predetermined locations on the lower surface of the parting member 6, for example, locations corresponding to 12 o'clock and 6 o'clock shown in FIG. In each recess 18 of the parting member 6, an ultraviolet light emitting element 19 called a black light is arranged.
[0019]
The ultraviolet light emitting element 19 is composed of a light emitting element such as an ultraviolet lamp or an ultraviolet light emitting diode (LED) that emits light in the ultraviolet region having a wavelength of around 365 nm or 254 to 365 nm. In this case, the parting member 6 is formed of a light diffusing material such as frosted glass, and the ultraviolet light emitting element 19 is concealed so that it cannot be seen from the outside of the watch case 1, and in the ultraviolet region emitted by the ultraviolet light emitting element 19. The light is guided along the peripheral portion of the watch glass 3 and is irradiated from the entire circumference toward the lower surface of the watch glass 3.
[0020]
According to such a wristwatch, in a bright place such as a room where ultraviolet rays are hardly irradiated, the light emitting portions 17 provided on the watch glass 3 and the hands 12 are in a transparent state. The dial 11 and the pointer 12 are not affected by the visibility, and the dial 11 and the pointer 12 can be seen through the watch glass 3, that is, the upper and lower glass plates 14, 15 and the light emitting portion 17 provided therebetween. By using the time character 13 and the pointer 12 of the dial plate 11, the time can be known in the same manner as a normal wristwatch.
[0021]
Further, when the ultraviolet light emitting element 19 is caused to emit light in a room where ultraviolet rays are hardly irradiated, the light in the ultraviolet region is guided along the peripheral portion of the watch glass 3 by the parting member 6 and is emitted almost uniformly from the entire circumference. Then, the emitted light in the ultraviolet region is irradiated almost uniformly toward the lower surface of the watch glass 3 and also the pointer 12 is irradiated. At this time, the light in the ultraviolet region irradiated on the lower surface of the watch glass 3 passes through the glass plate 15 on the lower side of the watch glass 3 and is applied to the light emitting portion 17 provided between the upper and lower glass plates 14 and 15. As a result, the light-emitting portion 17 reacts to the ultraviolet light and emits colored light in a “G” mark shape as shown in FIG. At the same time, the light emitting portion 17 provided on the pointer 12 also emits colored light in response to ultraviolet rays. Thereby, the time can be visually recognized even in a dark place.
[0022]
As described above, according to this wristwatch, the light emitting unit 17 can freely emit colored light by causing the ultraviolet light emitting element 19 to emit light when desired, and color and decorativeness can be achieved by the colored light emission of the light emitting unit 17. Can be obtained. In particular, when the light emitting portion 17 of the watch glass 3 emits colored light, the light emitting portion 17 is provided between the upper and lower glass plates 14 and 15 of the watch glass 3, so that the light emitting portion 17 emitting colored light in the shape of the “G” mark. Appears to float in the watch glass 3, and therefore, the decorative effect can be further enhanced. Further, since the parting member 6 is formed of a light diffusive material such as ground glass, the ultraviolet light emitting element 19 can be hidden from the outside of the watch case 1 through the watch glass 3. Thus, a product that is preferable in appearance can be obtained.
[0023]
[Second Embodiment]
Next, a second embodiment in which the present 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. 1-3.
This wristwatch has a structure in which a light emitting portion 17 is provided between the upper and lower glass plates 14 and 15 of the watch glass 3 and a light emitting portion 20 is also provided on the lower surface of the lower glass plate 15. It has almost the same structure as the form. In this case, the light emitting portion 20 provided on the lower glass plate 15 is the same as the light emitting portion 17 between the glass plates 14 and 15 and emits colored light in response to ultraviolet rays and is transparent when no ultraviolet rays are irradiated. It is comprised so that a state may be exhibited.
[0024]
Also in this case, the upper light emitting portion 17 provided between the upper and lower glass plates 14 and 15 is formed in the “G” mark shape as shown in FIG. The lower light emitting portion 20 provided on the lower surface of the glass plate 15 is formed in the same “G” mark shape as the upper light emitting portion 17, but in the left-right direction (see FIG. 5 is slightly shifted in the right direction). The light emitting units 17 and 20 may have the same emission color, but are preferably different from each other. For example, the emission color of the upper light emitting unit 17 is red, as in the first embodiment, and the emission color of the lower light emitting unit 20 is blue, both of which are the emission colors of the light emitting unit 17 of the pointer 12. It is desirable to be different.
[0025]
According to such a wrist watch, there are the same effects as in the first embodiment. In particular, when light in the ultraviolet region from the ultraviolet light emitting element 19 is irradiated on the lower surface of the watch glass 3, the light in the ultraviolet region is emitted. Since the lower light emitting portion 20 provided on the lower surface of the lower glass plate 15 and the upper light emitting portion 17 provided between the upper and lower glass plates 14 and 15 of the watch glass 3 are irradiated, The light emitting units 20 and 17 respectively emit colored light simultaneously in response to ultraviolet rays. At this time, the upper light-emitting portion 17 and the lower light-emitting portion 20 are displaced in the vertical direction by the thickness of the lower glass plate 15, and are also slightly displaced in the left-right direction and are different from each other. Since the colored light emission is performed, the “G” mark shape can be seen in a three-dimensional floating state by the respective light emitting portions 17 and 20 that emit the colored light, and thereby a three-dimensional decoration effect can be obtained.
[0026]
In the second embodiment, the light emitting unit 17 is provided between the upper and lower glass plates 14 and 15 and the light emitting unit 20 is also provided on the lower surface of the lower glass plate 15. However, the lower glass plate 15 is not necessarily provided. It is not necessary to provide the light emitting unit 20 on the lower surface of the glass plate, and the light emitting unit 20 may be provided on the upper surface of the upper glass plate 14. Even if it does in this way, there exists an effect similar to 2nd Embodiment. In addition to this, the light emitting unit 17 is provided between the upper and lower glass plates 14 and 15, and the light emitting unit 20 is provided on both the lower surface of the lower glass plate 15 and the upper surface of the upper glass plate 14. Also good. In this way, since the light emitting portion 20 of the upper glass plate 14 and the light emitting portion 20 of the lower glass plate 15 emit colored light in addition to the light emitting portion 17 between the glass plates 14 and 15, respectively. In addition to improving the color and decoration, it is possible to obtain a decorative effect with a three-dimensional effect than that of the second embodiment.
[0027]
[Third Embodiment]
Next, a third embodiment in which the present 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.
In this wristwatch, the watch glass 21 and the parting member 22 have a structure different from that of the first embodiment, and the other structure is substantially the same as that of the first embodiment.
That is, the watch glass 21 is formed of a single transparent glass plate as shown in FIG.
[0028]
As shown in FIG. 6, the parting member 22 is a frame-like member disposed between the peripheral portion on the upper surface of the dial 11 and the peripheral portion on the lower surface of the watch glass 21, and the two transparent glass layers 23. , 24 are stacked in a vertical direction. In this case, each of the glass layers 23 and 24 is formed so that the upper surface of the upper glass layer 23 has the smallest width, the lower surface of the lower glass layer 24 has the largest width, and each of the glass layers 23 and 24 has A frame-shaped inner surface is formed on an inclined surface that is continuous with each other, and the outer surfaces of the glass layers 23 and 24 are formed on a substantially vertical surface.
[0029]
Between the upper and lower glass layers 23 and 24 of the parting member 22, a light emitting portion 17 and a coloring portion 25 are provided. As in the first embodiment, the light emitting unit 17 emits colored light in response to ultraviolet rays and exhibits a transparent state when not irradiated with ultraviolet rays. One of the opposing surfaces of the glass layers 23 and 24 is printed or the like. It is formed in a ring shape as shown in FIG. The coloring portion 25 is made of a colored material having a light shielding property, and is provided concentrically on the outer peripheral side of the light emitting portion 17. In this case, the emission color of the light emitting unit 17 and the display color of the coloring unit 25 may be the same color, but are preferably different from each other. Further, below the parting member 22, that is, below the lower glass layer 24, an ultraviolet light emitting element 19 that irradiates the light emitting portion 17 with light in the ultraviolet region is disposed below the coloring portion 25. ing.
[0030]
According to such a wristwatch, the dial 11 and the pointer 12 in the wristwatch case 1 can be seen through the watch glass 21 in a bright place such as a room where ultraviolet rays are hardly irradiated, as in a normal wristwatch. Can know. At this time, since the light emitting portion 17 of the parting member 22 is in a transparent state, the light emitting portion 17 cannot be visually recognized, but the colored portion 25 appears in a ring shape with a predetermined color by external light transmitted through the watch glass 21. .
Further, when the ultraviolet light emitting element 19 is caused to emit light in this state, light in the ultraviolet region is irradiated to the lower glass layer 24 of the parting member 22, and the irradiated light is guided by the lower glass layer 24. Then, the light emitting portion 17 is irradiated from the entire periphery, and thereby the light emitting portion 17 reacts to the ultraviolet rays and emits colored light in a ring shape as shown in FIG.
[0031]
At this time, the parting member 22 has a two-layer structure in which the transparent glass layers 23 and 24 are laminated vertically, the upper surface of the upper glass layer 23 has the smallest width, and the lower surface of the lower glass layer 24 has the largest width. Thus, since the inner side surfaces of the glass layers 23 and 24 are formed in a continuous inclined surface, the light emitted by the light emitting portion 17 is emitted from the inclined surfaces of the glass layers 23 and 24 and the upper glass layer 23. It is emitted from the upper surface. For this reason, since the colored part 25 is illuminated by the colored light emission of the light emitting part 17 in both the bright and dark places, both the ring shape by the colored part 25 and the ring shape by the colored light emission of the light emitting part 17 are doubled. Looks like a ring shape. Moreover, since the dial 11 and the pointer 12 are also illuminated by the colored light emission of the light emitting portion 17, the time can be known even in a dark place.
[0032]
As described above, also in this wristwatch, the ultraviolet light emitting element 19 can emit light when desired so that the light emitting portion 17 can freely emit colored light, and the colored light emission of the light emitting portion 17 and the display color of the coloring portion 25 can be obtained. Thus, a product excellent in color and decoration can be obtained. In particular, when the light emitting unit 17 emits colored light, the light emitting unit 17 is provided between the upper and lower glass layers 23 and 24 of the parting member 22, so that the light emitting unit 17 that emits colored light in a ring shape is a character in the parting member 22. It will be visible in the state which floated above the board 11, and, thereby, what was further excellent in the decorating property can be obtained. Even if the ultraviolet light emitting element 19 is disposed below the parting member 22, the ultraviolet light emitting element 19 can be hidden by the colored portion 25 of the parting member 22.
[0033]
In the third embodiment, the light emitting unit 17 is provided only between the upper and lower glass layers 23 and 24 of the parting member 22. However, the present invention is not limited thereto, and the light emitting unit 17 is provided between the upper and lower glass layers 23 and 24. In addition, as in the second embodiment, the light emitting unit 20 may be provided on the lower surface of the lower glass layer 24. In this way, the light emitting portion 17 provided between the glass layers 23 and 24 and the light emitting portion 20 provided on the lower surface of the lower glass layer 24 can be seen three-dimensionally during the colored light emission. As in the second embodiment, a decorative effect with a three-dimensional effect can be obtained. Also in this case, it is not always necessary to provide the light emitting portion 20 on the lower surface of the lower glass layer 24. The light emitting portion 20 may be provided on the upper surface of the upper glass layer 23, or the light emitting portion 20 is provided on both of them. May be.
[0034]
Moreover, in the said 3rd Embodiment and its modification, although the light emission parts 17 and 20 were provided only in the parting member 22, it is not restricted to this, You may provide the light emission parts 17 and 20 also in the timepiece glass 21. FIG. In this case, as in the first embodiment, the watch glass 21 may be composed of two upper and lower transparent glass plates 14 and 15, and the light emitting portion 17 may be provided between the upper and lower glass plates 14 and 15. Similarly to the second embodiment, the light emitting portion 17 is provided between the glass plates 14 and 15, and the light emitting portion 20 is provided on the lower surface of the lower glass plate 15, the upper surface of the upper glass plate 14, or both. Also good. If it does in this way, each light emission part 17 and 20 of the parting member 22 and the timepiece glass 21 can be made to emit colored light simultaneously, and what was further excellent in color property and decorating property can be obtained.
[0035]
[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 parts as those in the first embodiment shown in FIGS.
In this watch, the watch glass 30 and the dial 31 are different from those in the first embodiment, and other than this, the watch glass 30 and the dial 31 have almost the same structure as in the first embodiment.
That is, the watch glass 30 is configured by a single transparent glass plate, as in the third embodiment. Further, as shown in FIG. 8, the dial plate 31 has a two-layer structure in which two glass plates 32 and 33 having optical transparency are stacked one above the other.
[0036]
In this case, the upper and lower glass plates 32 and 33 are bonded together by the transparent adhesive 16 as in the first embodiment, and the light emitting unit 17 is provided between the upper and lower glass plates 32 and 33. . As in the first embodiment, the light-emitting portion 17 emits colored light in response to ultraviolet rays and exhibits a transparent state when not irradiated with ultraviolet rays. The light-emitting portions 17 are formed on the opposing surfaces of the glass plates 32 and 33 by printing or the like. On the other hand, it is formed in the shape of characters, figures, marks, and the like. The light emitting unit 17 is also provided on the upper surface of the pointer 12. Also in this case, the light emitting portion 17 of the dial 31 and the light emitting portion 17 of the pointer 12 may emit light in the same color, but in the same way as in the first embodiment, different colors are used in order to make the time easily visible. It is desirable to emit light.
[0037]
Further, the ultraviolet light emitting element 19 which is the same as that of the first embodiment is disposed on a side surface of the lower glass plate 33 in the dial 31 at predetermined locations in the peripheral portion of the dial 31, for example, at locations corresponding to 12:00 and 6 o'clock. It is arranged to face. As in the first embodiment, the ultraviolet light emitting element 19 emits light in the ultraviolet region, and is disposed below the parting member 6 so that the emitted ultraviolet region light is below the dial 31. The light is introduced from the side surface of the glass plate 33 and the introduced light is emitted almost uniformly from the upper surface thereof, so that the light emitting portion 17 is irradiated with light in the ultraviolet region. Note that the time character 13 is provided on the upper surface of the dial 31, that is, on the upper surface of the upper glass plate 32, as in the first embodiment. The dial 31 is also provided with a through hole 31a through which the pointer shaft 10 is inserted, as in the first embodiment.
[0038]
According to such a wristwatch, in a bright place such as a room where ultraviolet rays are hardly irradiated, the time character 13 and the pointer 12 of the dial 31 in the wristwatch case 1 can be seen through the watch glass 30 as in the case of a normal wristwatch. Thus, the time can be known. At this time, since the light emitting portion 17 of the dial 31 and the light emitting portion 17 of the pointer 12 are in a transparent state, the dial 31 and the pointer 12 can be visually recognized without being affected by each light emitting portion 17. Can do.
[0039]
Further, when the ultraviolet light emitting element 19 is caused to emit light, the light in the ultraviolet region enters the inside of the glass plate 33 on the lower side of the dial 31, and the incident light in the ultraviolet region enters the lower glass plate 33. And is emitted almost uniformly from the upper surface thereof, and the emitted ultraviolet light is irradiated to the light emitting portion 17 provided between the upper and lower glass plates 32 and 33 and transmitted through the upper glass plate 32. The pointer 12 is also irradiated. As a result, the light-emitting portion 17 provided between the glass plates 32 and 33 reacts with ultraviolet rays to emit colored light in the shape of characters, figures, marks, etc. as shown in FIG. The portion 17 also emits colored light in response to ultraviolet rays. For this reason, each light emitting part 17 that has emitted colored light from the outside of the watch case 1 can be seen through the watch glass 30, and the time can be known even in a dark place by the colored light emission of each light emitting part 17.
[0040]
As described above, also in this wristwatch, the ultraviolet light emitting element 19 can emit light when desired, and the light emitting portions 17 of the dial 31 and the pointer 12 can be freely colored, and the colored portions of the light emitting portions 17 can be colored. A product excellent in color and decoration can be obtained by light emission. In particular, when the light emitting portion 17 of the dial 31 emits colored light, the light emitting portion 17 is provided between the upper and lower glass plates 32 and 33 of the dial 31, so that characters, figures, marks, etc. of the light emitting portion 17 are provided. Will appear to float in the dial 31, so that a decorative effect can be obtained.
[0041]
[Fifth Embodiment]
Next, a fifth embodiment in which the present 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.
As shown in FIG. 10, this watch has a structure in which a watch module 40 housed in a watch case 1 via a parting member 6 has a digital function, and the rest of the structure is almost the same as that of the first embodiment. ing. That is, the timepiece module 40 has a structure in which a liquid crystal display element 41 is disposed on the housing 5 in place of the dial 11 and the hands 12.
[0042]
As shown in FIG. 10, the liquid crystal display element 41 encloses liquid crystal between a pair of upper and lower transparent electrode substrates 42 and 43, and polarized light on the upper surface of the upper electrode substrate 42 and the lower surface of the lower electrode substrate 43, respectively. In the structure in which the plates 44 and 45 are provided and the reflection plate 46 is provided on the lower surface of the lower polarizing plate 45, by applying a voltage between the pair of electrode substrates 42 and 43, information such as time is electro-optically transmitted. It is configured to display.
Also in the fifth embodiment, the watch glass 3 has a two-layer structure in which two transparent glass plates 14 and 15 are stacked one above the other as in the first embodiment. These glass plates 14 and 15 are bonded together by a transparent adhesive 16, and a light emitting portion 17 is provided between these glass plates 14 and 15. The light-emitting portion 17 also emits colored light in response to ultraviolet light and exhibits a transparent state when not irradiated with ultraviolet light. 11 is formed in a “G” mark shape as shown in FIG.
[0043]
In addition, a recessed portion 18 is provided at a predetermined position on the lower surface of the parting member 6, for example, at a position corresponding to 12 o'clock and 6 o'clock, as in the first embodiment. Each of the ultraviolet light emitting elements 19 that emits the light is disposed. Also in this case, the parting member 6 is formed of a material having light diffusibility such as ground glass, and the ultraviolet light emitting element 19 is concealed so as not to be seen from the outside of the watch case 1, and the ultraviolet region emitted by the ultraviolet light emitting element 19 is also used. The light is guided along the peripheral portion of the watch glass 3 and is irradiated from the entire circumference toward the lower surface of the watch glass 3.
[0044]
According to such a wrist watch, in a bright place such as a room where ultraviolet rays are hardly irradiated, the light emitting portion 17 provided on the watch glass 3 is in a transparent state as in the first embodiment. The glass 3 and the liquid crystal display element 41 are not affected by the visibility, and the liquid crystal display element 41 can be seen through the watch glass 3, that is, the upper and lower glass plates 14, 15 and the light emitting portion 17. Information such as the time displayed on 41 can be viewed. That is, the external light incident on the watch glass 3 passes through the upper glass plate 14, the light emitting unit 17, and the lower glass plate 15 and enters the liquid crystal display element 41, and the incident external light is incident on the liquid crystal display element. 41 is reflected by the reflecting plate 46, and the reflected light is emitted to the outside from the watch glass 3 again through an optical path opposite to the above, so that the information displayed on the liquid crystal display element 41 is transmitted to the wristwatch case 1. Can be seen from outside.
[0045]
Further, when the ultraviolet light emitting element 19 is caused to emit light in a room where ultraviolet rays are hardly irradiated, the light in the ultraviolet region is guided along the peripheral portion of the watch glass 3 by the parting member 6 and is emitted almost uniformly from the entire circumference. Then, the lower surface of the watch glass 3 is irradiated, and the irradiated ultraviolet light passes through the glass plate 15 on the lower side of the watch glass 3 and enters the light emitting unit 17 provided between the upper and lower glass plates 14 and 15. As a result, the light-emitting portion 17 reacts to ultraviolet rays and emits colored light in a “G” mark shape as shown in FIG. For this reason, the colored light emission of the light emitting unit 17 can be seen in a dark place, and in a bright place, as shown in FIG. 11, information such as the colored light emission of the light emitting unit 17 and the time displayed on the liquid crystal display element 41 You can see both at the same time.
[0046]
Thus, also in this wristwatch, the ultraviolet light emitting element 19 can emit light when desired, and the light emitting portion 17 of the watch glass 3 can be freely colored, thereby excellent in color and decoration. Can be obtained. In particular, when the light emitting portion 17 of the timepiece glass 3 emits colored light, the light emitting portion 17 is provided between the upper and lower glass plates 14 and 15 of the timepiece glass 3. The “G” mark appears to float in the timepiece glass 3, and thus a product with even better decorativeness can be obtained. Moreover, since the parting member 6 is formed of a material having light diffusibility such as ground glass, the ultraviolet light emitting element 19 can be hidden from the outside of the watch case 1 as in the first embodiment. In this way, a product that is preferable in appearance can be obtained.
[0047]
[Sixth Embodiment]
Next, a sixth embodiment in which the present invention is applied to a mobile phone will be described with reference to FIGS. In this case, the same parts as those in the fifth embodiment shown in FIGS.
As shown in FIG. 12, the cellular phone includes a device case 50 made of synthetic resin. The device case 50 has a structure in which an upper case 51 and a lower case 52 are joined. On the upper surface of the upper case 51, a transparent protective glass 53 is formed in an opening provided in a portion corresponding to the upper window portion. Is attached, and various key buttons 54 necessary for a telephone function are provided on the lower side of the upper surface of the upper case 51. An antenna 55 is attached to the upper end surface of the device case 50 so as to be able to appear and retract.
[0048]
Inside the device case 50, as shown in FIG. 13, a module 56 for telephone function is accommodated via a frame-shaped parting member 57. The module 56 includes various components necessary for a telephone function, includes a liquid crystal display element 41 and a light guide plate 58, and is arranged in a housing 60 in a state corresponding to the protective glass 53. It has become. In this case, the parting member 57 is arranged on the outer periphery of the upper portion of the module 56, and is configured to press the module 56 into the device case 50.
[0049]
Similarly to the second embodiment, the protective glass 53 has a two-layer structure in which two transparent glass plates 14 and 15 are stacked one above the other. These glass plates 14 and 15 are bonded together by a transparent adhesive 16, and a light emitting portion 17 is provided between the glass plates 14 and 15, and light is emitted also to the lower surface of the lower glass plate 15. Part 20 is provided. Similar to the first embodiment, these light emitting portions 17 and 20 emit colored light in response to ultraviolet rays, and exhibit a transparent state when not irradiated with ultraviolet rays.
[0050]
In this case, the upper light-emitting portion 17 provided between the upper and lower glass plates 14 and 15 is formed in the “G” mark shape shown in FIG. 12 as in the first embodiment. Further, the lower light emitting portion 20 provided on the lower surface of the lower glass plate 15 is formed in the same “G” mark shape as the upper light emitting portion 17, but with respect to the upper light emitting portion 17. The position is slightly shifted in the left-right direction (right direction in FIG. 13). The light emitting units 17 and 20 may have the same emission color, but are preferably different from each other. For example, it is desirable that the emission color of the upper light emitting unit 17 is red, as in the first embodiment, and the emission color of the lower light emitting unit 20 is blue.
[0051]
Further, as in the fifth embodiment, the liquid crystal display element 41 encloses liquid crystal between a pair of upper and lower transparent electrode substrates 42 and 43, and is provided with polarizing plates 44 and 45 on the outer surfaces of the upper and lower electrode substrates 42, respectively. In the structure in which the knitting board 46 is disposed below the lower polarizing plate 45 through the light guide plate 58, information necessary for the telephone function is displayed by applying a voltage between the pair of electrode substrates 42 and 43. It is configured as follows. In this case, the light guide plate 58 is made of a transparent synthetic resin or a transparent glass plate, and is configured to guide the light incident from the side surface and emit the light almost uniformly from the upper surface. An ultraviolet light emitting element 19 that emits light in the ultraviolet region is disposed opposite to the side surface of the light guide plate 58 at predetermined locations around the light guide plate 58, for example, at the three o'clock side and the nine o'clock side. Yes.
[0052]
According to such a mobile phone, since the light emitting portions 17 and 20 provided on the protective glass 53 are transparent in a bright place such as a room where ultraviolet rays are hardly applied, the protective glass 53 is provided by the light emitting portions 17 and 20. The liquid crystal display element 41 is not affected by the visibility, and the information displayed on the liquid crystal display element 41 can be seen through the protective glass 53, that is, the upper and lower glass plates 14 and 15 and the light emitting portions 17 and 20. That is, as in the fifth embodiment, the external light incident on the protective glass 53 passes through the upper glass plate 14, the light emitting unit 17, the lower glass plate 15, and the light emitting unit 20 and enters the liquid crystal display element 41. Then, the incident external light passes through the liquid crystal display element 41 and the light guide plate 58 and is reflected by the reflection plate 46, and the reflected light is emitted to the outside from the protective glass 53 again through the reverse optical path. Therefore, the information displayed on the liquid crystal display element 41 can be viewed from the outside of the device case 50.
[0053]
In addition, when the ultraviolet light emitting element 19 is caused to emit light in a room that is hardly exposed to ultraviolet rays, the light in the ultraviolet region enters the inside of the light guide plate 58 from the side surface, and the light in the incident ultraviolet region is incident on the light guide plate 58. It is guided and emitted almost uniformly from the upper surface thereof, and the emitted light in the ultraviolet region is transmitted through the liquid crystal display element 41 and irradiated onto the lower surface of the protective glass 53. Thereby, the light emitting portion 20 provided on the lower surface of the lower glass plate 15 reacts with ultraviolet rays to emit colored light, and light in the ultraviolet region transmitted through the lower glass plate 15 is reflected by the upper and lower glass plates 14, The light emitting part 17 provided between 15 is also irradiated, and the light emitting part 17 also emits colored light in response to ultraviolet rays.
[0054]
At this time, as in the second embodiment, the upper light-emitting portion 17 and the lower light-emitting portion 20 are displaced in the vertical direction by the thickness of the lower glass plate 15 and slightly in the left-right direction. Since the colored light is emitted in different colors, the “G” marks by the light emitting units 20 and 17 that emit the colored light appear to float three-dimensionally, thereby obtaining a three-dimensional decoration effect. it can.
As described above, also in this mobile phone, the ultraviolet light emitting element 19 can emit light when desired, and the light emitting portions 17 and 20 of the protective glass 53 can freely emit light. An excellent product can be obtained.
[0055]
In the sixth embodiment, the reflection plate 46 is provided below the light guide plate 58. However, the present invention is not limited to this, and a half mirror is disposed between the liquid crystal display element 41 and the light guide plate 58. In this case, a part of the external light may be reflected, and the light emitted from the ultraviolet light emitting element 19 may be transmitted and most of the light in the ultraviolet region guided by the light guide plate 58 may be transmitted. Even if comprised in this way, there exists an effect substantially the same as 6th Embodiment.
[0056]
Moreover, in the said 6th Embodiment, although the ultraviolet light emitting element 19 was arrange | positioned facing the side surface of the light-guide plate 58 arrange | positioned under the liquid crystal display element 41, it is not necessary to use the light-guide plate 58, 1st. Similar to the embodiment, the ultraviolet light emitting element 19 is arranged below the parting member 57, the light in the ultraviolet region emitted by the ultraviolet light emitting element 19 is guided by the parting member 57, and the lower surface of the protective glass 53 is irradiated from the entire periphery. You may comprise so that it may do. Similarly to the third embodiment, the parting member 57 may be formed in a two-layer structure in which transparent glass layers 23 and 24 are vertically stacked, and the light emitting portion 17 and the coloring portion 25 may be provided between them. . If it does in this way, there exists an effect similar to 3rd Embodiment.
[0057]
Furthermore, in the said 1st-6th embodiment and its modification, the watch glass 3, the parting member 22, the dial plate 31, and the protective glass 53 are made into 2 layer structure as a light transmissive member, Between these, light-emitting part 17 is not necessarily required to have a two-layer structure, but may have a multilayer structure of three or more layers, and a light emitting portion 17 may be provided between each of these layers. One or both of the light emitting units 20 may be provided. If comprised in this way, since the light emission part 17 can be laminated | stacked on multiple layers, while being able to obtain a thing with high color property and a decorative property rather than the thing of 1st-6th embodiment, it is much more. A thing with a three-dimensional feeling can also be obtained.
[0058]
Moreover, in the said 1st-6th embodiment and its modification, the light emission parts 17 and 20 which react with an ultraviolet-ray and emit colored light are used as a light emission part, and light of a specific wavelength range is given to this light emission parts 17 and 20 The case where the ultraviolet light emitting element 19 that emits light in the ultraviolet region is used as the light emitting element to irradiate has been described. You may use the infrared rays light emitting element which irradiates the light of the infrared region whose wavelength is 780 nm or more to a light emission part. Even in such a structure, since infrared rays are not visible to the human eye, there are the same functions and effects as in the first to sixth embodiments and modifications thereof.
[0059]
Furthermore, in the first to sixth embodiments and each modification, 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 to this, and for example, an electronic notebook, an electronic dictionary, a portable terminal, a personal computer, a printing machine, The present invention can be widely applied to various electronic devices, various devices such as automobile meters, and parts thereof.
[0060]
【The invention's effect】
  As described above, according to the present invention, a device case having a window portion made of a light transmissive member in which a plurality of light transmissive layers are laminated, and a light transmissive member.Located belowAnd a display member arranged in the device case,A frame-shaped member that is provided along the periphery of the display unit and on the lower periphery of the light-transmitting member and has a plurality of light-transmitting layers laminated, and a plurality of light-transmitting layers in the light-transmitting memberA first light-emitting portion that is provided and emits colored light in response to light having a specific wavelength of light in the ultraviolet region and light in the infrared region; and a color that is provided in the display member and that reacts with light having the specific wavelength. A second light emitting unit that emits light;A third light-emitting unit provided between a plurality of light-transmitting layers in the frame-shaped member and emitting colored light in response to light of a specific wavelength; a first light-emitting unit, a second light-emitting unit, a first light-emitting unit disposed below the frame-shaped member; 3 light emitting partsWith a light emitting element that emits light of a specific wavelengthTherefore, the light emitting element can emit light when desired, and the first light emitting part, the second light emitting part, and the third light emitting part can be freely colored and emitted, thereby improving the formula reproduction and decoration. You can get things.
  That is, when the light emitting element emits light, light in a specific wavelength region of light in the ultraviolet region or light in the infrared region is guided along the peripheral portion of the light transmissive member by the frame member. Since the light having the specific wavelength is emitted from the entire circumference of the frame-shaped member, the first light-emitting unit disposed between the plurality of light-transmitting layers of the light-transmitting member, the second light-emitting unit provided on the display member, Light of a specific wavelength can be irradiated to each of the third light emitting units provided between the plurality of light transmission layers in the frame-shaped member. For this reason, the first light emitting unit, the second light emitting unit, and the third light emitting unit each emit colored light in response to light of a specific wavelength.Let the light emitting element emit light when desired,Each of the first light emitting part, the second light emitting part, and the third light emitting part can be freely setColored light can be emitted and the display member can be illuminated well.Thus, the information displayed on the display member can be viewed well even in a dark place.
[0061]
  In this case, since the light of a specific wavelength is light in the ultraviolet region or light in the infrared region, the light is invisible to the human eye. However, when the light emitting unit is irradiated with light of the specific wavelength region, the light emitting unit emits colored light, and thus the colored light emission of the light emitting unit can be visually recognized by human eyes.
  In addition, since the third light emitting unit is provided between the plurality of light transmission layers in the frame-shaped member, when the light emitting element emits light and the third light emitting unit of the frame-shaped member is irradiated with light of a specific wavelength, the frame shape The third light emitting portion of the member emits colored light along the peripheral portion of the display member, and the display member can be illuminated from the peripheral portion by the colored light emission of the third light emitting portion. In addition, since the first light emitting unit and the third light emitting unit are respectively provided between the plurality of light transmitting layers, the first light emitting unit emitting colored light appears to float in the light transmitting member and emits colored light. The third light-emitting portion also appears to float in the frame-like member, so that a product excellent in color and decoration can be obtained.
  Further, the first light emitting unit provided between the plurality of light transmitting layers of the light transmitting member and the light transmitting member are provided on one surface of the upper and lower surfaces of the light transmitting member by providing the fourth light emitting unit. The fourth light emitting part provided on one surface of the upper and lower surfaces of the conductive member,When light of a specific wavelength region from the light emitting element is irradiated,A first light emitting part and a fourth light emitting part;In order to emit colored light in a stacked state,Between the first light emitting part and the fourth light emitting part.The whole looks three-dimensional, and thereby a decorative effect with a three-dimensional effect is obtained.
[Brief description of the drawings]
FIG. 1 is an enlarged sectional view of a main part showing a first embodiment in which the present invention is applied to a wristwatch.
FIG. 2 is an enlarged plan view in which a part of the wristwatch of FIG.
3 is a plan view showing a state in which the ultraviolet light emitting element shown in FIG. 2 is caused to emit light and a light emitting portion of a watch glass emits colored light. FIG.
FIG. 4 is an enlarged cross-sectional view of a main part showing a second embodiment in which the present invention is applied to a wristwatch.
5 is a plan view showing a state in which each light emitting portion of the watch glass emits colored light by causing the ultraviolet light emitting element shown in FIG. 4 to emit light.
FIG. 6 is an enlarged sectional view of a main part showing a third embodiment in which the present invention is applied to a wristwatch.
7 is a plan view showing a state in which the ultraviolet light emitting element shown in FIG. 6 is caused to emit light and a light emitting portion of a parting member is caused to emit colored light.
FIG. 8 is an enlarged cross-sectional view of a main part showing a fourth embodiment in which the present invention is applied to a wristwatch.
9 is a plan view showing a state in which the ultraviolet light emitting element shown in FIG. 8 is caused to emit light and the light emitting portion of the dial plate is caused to emit colored light.
FIG. 10 is an enlarged cross-sectional view of a main part showing a fifth embodiment in which the present invention is applied to a wristwatch.
11 is a plan view showing a state in which the ultraviolet light emitting element shown in FIG. 10 is made to emit light and the light emitting portion of the watch glass emits colored light. FIG.
FIG. 12 is an external perspective view showing a sixth embodiment in which the present invention is applied to a mobile phone;
13 is a cross-sectional view taken along the line AA in FIG.
[Explanation of symbols]
1 Watch case
3, 21, 30 Watch glass
5, 40 Clock module
6, 22, 57 Parting member
11, 31 Dial
12 Guidelines
14, 15, 32, 33 Glass plate
17, 20 Light emitting part
19 Ultraviolet light emitting device
23, 24 Glass layer
25 Coloring section
41 Liquid crystal display elements
50 Equipment case
53 Protective glass
56 modules
58 Light guide plate

Claims (2)

A device case having a window portion made of a light transmissive member in which a plurality of light transmissive layers are laminated;
A display member located under the light transmissive member and disposed in the device case;
A frame-shaped member that is provided along the peripheral portion of the display member and on the lower peripheral portion of the light transmissive member, and in which a plurality of light transmissive layers are laminated,
A first light-emitting unit that is provided between the plurality of light-transmitting layers in the light-transmitting member and emits colored light in response to light having a specific wavelength of either light in an ultraviolet region or light in an infrared region;
A second light emitting part provided on the display member and emitting colored light in response to light of the specific wavelength;
A third light-emitting portion that is provided between the plurality of light-transmitting layers in the frame-shaped member and emits colored light in response to light of the specific wavelength;
An electronic apparatus comprising: a light emitting element that is disposed below the frame-like member and irradiates the first light emitting unit, the second light emitting unit, and the third light emitting unit with light having the specific wavelength. The electronic device according to claim 1, wherein a fourth light emitting unit is provided on one surface of the upper and lower surfaces of the light transmissive member.

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