JP2004069726A - Display device and electronic equipment using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To lighten a display part as a whole even when a metal panel with fine through holes formed thereon is used as a transflective member. <P>SOLUTION: In a display device 9 provided with a liquid crystal display element 10, a light transmitting metal panel 11 disposed on the lower surface side of the liquid crystal display element 10 with a number of the fine through holes 18 formed thereon and a light emitting element 13 disposed on the lower surface side of the metal panel 11, a light emitting part 12 provided with a light emitting agent with a light storing or luminous property is disposed between the metal panel 11 and the light emitting element 13. Consequently, information displayed on the liquid crystal display element 10 is visible both in the dark and in the light. In addition, even when a part of external light passes through the fine through holes 18 of the metal panel 11 in the light, because the light emitting part 12 is irradiated and the light emitting agent emits light, the fine through holes 18 are not darkened as black spots but lightened. Thereby, the display part as a whole is lightened even when the metal panel 11 with the fine through holes 18 formed thereon is used as the transflective member. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a display device and an electronic device using the same.
[0002]
[Prior art]
For example, in a display device used for an electronic device such as an electronic wristwatch or a mobile phone, a semi-transmissive reflection is applied to the back surface of the liquid crystal display element so that information displayed on the liquid crystal display element can be visually recognized in a dark place or a dark place. There is a structure in which a light-transmitting metal panel having a function is disposed, and a light-emitting element is disposed on the back side of the light-transmitting metal panel. In this case, the light-transmitting metal panel has a number of fine through-holes that are difficult to see with the naked eye formed on a metal plate that reflects light. It is comprised so that it may have.
[0003]
In such a display device, when the light-emitting element is turned on in a dark place, light from the light-emitting element passes through the fine through-holes of the metal panel and is irradiated on the back side of the liquid crystal display element. Information displayed on the display element can be visually recognized. Also, in a bright place, external light is irradiated on the liquid crystal display element, the irradiated light is transmitted through the liquid crystal display element and reflected on the metal panel, and the reflected light is irradiated again on the liquid crystal display element. Thereby, the information displayed on the liquid crystal display element can be visually recognized without turning on the light emitting element.
[0004]
[Problems to be solved by the invention]
However, in such a display device, when external light that has passed through the liquid crystal display element is illuminated on the metal panel at a clear place, most of the light is reflected on the upper surface of the metal panel and illuminated on the liquid crystal display element again. However, since some of the other light passes through the fine through-holes formed in the metal panel, even if many through-holes in the metal panel are fine holes that are difficult to see with the naked eye, There is a problem that the holes are inevitably viewed as black spots, and the entire display portion is darkened.
[0005]
An object of the present invention is to make it possible to brighten the entire display portion even when a metal panel having fine through holes is used as a transflective member.
[0006]
[Means for Solving the Problems]
The present invention has the following components in order to solve the above problems.
In addition, to each component, reference numerals and the like of the drawings attached to each element described in the section of each embodiment described later are added together with parentheses.
According to the first aspect of the present invention, as shown in FIGS. 1 to 11, a liquid crystal display element (10) and a large number of fine through holes (18) arranged on the back side of the liquid crystal display element are formed. In a display device including a light transmission type metal panel (11) and a light emitting element (13) disposed on the back side of the metal panel, a luminous or luminous property is provided between the metal panel and the light emitting element. A display device (9, 25, 30, 40, 45, 55) characterized by interposing a light emitting portion (12, 26, 31, 41, 46) provided with a light emitting agent (43) having
[0007]
According to the present invention, when the light emitting element is turned on in a dark place, the light from the light emitting element is irradiated on the light emitting part, and the light emitting agent in the light emitting part emits light. Is transmitted to the rear side of the liquid crystal display element, so that the information displayed on the liquid crystal display element can be visually recognized even in a dark place. In a bright place, external light is transmitted through the liquid crystal display element to irradiate the metal panel, and most of the irradiated light is reflected by the metal panel and irradiated to the back side of the liquid crystal display element. Therefore, information displayed on the liquid crystal display element can be visually recognized without turning on the light emitting element. At this time, part of the light that is not reflected by the metal panel passes through the fine through-holes of the metal panel, and the transmitted light is applied to the light-emitting portion, causing the light-emitting agent of the light-emitting portion to emit light. Since the light thus transmitted again passes through the fine through-holes and irradiates the liquid crystal display element, the fine through-holes do not become dark like black dots as in the conventional example, and the fine through-holes can be brightened. Thus, even when a metal panel having fine through holes is used as a transflective member, the entire display portion is not darkened, and the entire display portion can be brightened.
[0008]
As shown in FIGS. 1 to 4, 10, and 11, the light emitting unit (12) is provided between the metal panel (11) and the light emitting element (13). The light transmitting member (20) is disposed, and a light emitting layer (21) in which the light emitting agent is formed in a film shape on at least one of the front and back surfaces of the light transmitting member (2). (9, 55).
According to this invention, in addition to having the same operation and effect as the invention described in claim 1, in particular, by printing or applying a luminescent agent to at least one of the front and back surfaces of the light transmitting member, it can be easily achieved. The light-emitting layer can be formed in a film shape, and the light-transmitting member on which the light-emitting layer is formed is simply disposed between the metal panel and the light-emitting element. It can be easily and reliably arranged between the light emitting element.
[0009]
According to the third aspect of the present invention, as shown in FIG. 5, the luminous agent is formed in a film shape on the surface of the luminous element (13) in which the luminous portion (26) faces the metal panel (11). The display device (25) according to claim 1, characterized in that it is a light emitting layer.
According to this invention, in addition to the same operation and effect as the invention described in claim 1, in particular, the luminescent layer is easily formed by printing or applying a luminescent agent directly on the surface of the luminescent element. Since the light-transmitting member as in the second aspect of the present invention is not required, the number of parts can be reduced, and the size and thickness of the entire device can be reduced. Can be planned.
[0010]
According to a fourth aspect of the present invention, as shown in FIGS. 6 and 7, the luminescent agent is composed of a plurality of types having different luminescent colors, and the luminescent layer (32) has a region (specific region 33, background region 34). The display device (30) according to claim 2 or 3, wherein the display device (30) is formed of the luminescent material having a different luminescent color for each.
According to the present invention, in a bright place, most of the external light is reflected by the metal panel and there is little external light transmitted through the fine through-hole of the metal panel. The difference in emission color is inconspicuous, but when the light from the light emitting element is illuminated in a dark place to the light emitting layer and the light emitting agent in the light emitting layer emits light, the difference in the light emission color in each region of the light emitting layer can be visually recognized. A figure, a symbol, a pattern, or the like can be expressed by the difference in the luminescent color, so that an object having excellent decorativeness and color can be obtained.
[0011]
The light-transmitting member (42) in which the light-emitting portion (41) is disposed between the metal panel (11) and the light-emitting element (13), as shown in FIG. The display device (40) according to claim 1, wherein the display device (40) has a structure in which the luminescent agent (43) is mixed.
According to this invention, in addition to the same operation and effect as the invention described in claim 1, in particular, since a light-emitting agent is mixed in the light-transmitting member, the light-transmitting member is connected to the metal panel and the light-emitting element. By simply arranging the luminous agent between the metal panel and the luminous element, the luminous part provided with the luminous agent can be simply and easily disposed.
[0012]
The invention according to claim 6 is characterized in that, as shown in FIG. 9, the light transmitting member (47) into which the luminescent agent (43) is mixed has a structure in which the thickness is changed. A display device (45) according to claim 5.
According to this invention, in addition to the same operation and effect as the invention described in claim 5, the thickness of the light-transmitting member is particularly changed by changing the thickness of the light-transmitting member mixed with the luminescent agent. The brightness of the light transmissive member can be partially changed in accordance with the change of the light, whereby the intensity of light emitted by the light transmissive member, that is, a gradation can be expressed, and therefore, the decoration is excellent. Can be obtained.
[0013]
According to a seventh aspect of the present invention, as shown in FIGS. 1 to 11, the display device (9, 25, 30, 40, 45, 55) according to the first aspect is provided with an equipment case (watch case 1, equipment). An electronic device, wherein the electronic device is disposed in a case 50) and transparent protective glass (watch glass 2, protective glass 51) is disposed at an upper position of the display device. According to the present invention, even when the display device is disposed in the device case, light passes through the transparent protective glass disposed at the upper position of the display device, so that the display device can pass through the protective glass even in a bright or dark place. The displayed information can be viewed, and the fine through-holes of the metal panel can be brightened in a bright place as in the first aspect of the present invention. Even when used as a transflective member, the entire display portion is not darkened, and the entire display portion can be brightened.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
[First Embodiment]
A first embodiment in which the present invention is applied to an electronic wristwatch will be described below with reference to FIGS.
FIG. 1 is an enlarged sectional view showing a main part of an electronic wristwatch of the present invention. This electronic wristwatch includes a watch case 1. A watch glass 2 is mounted on an upper part of the watch case 1 via a packing 3, and a watch module 4 is housed inside the watch case 1 in a state of being attached to a middle frame 5. A back cover 6 is attached to a lower portion of the watch case 1 via a waterproof ring 7.
[0015]
The clock module 4 has at least a digital function of an analog function and a digital function. A display device 9 is arranged on the housing 8 in correspondence with the watch glass 2, and information such as time is displayed on the display device 9. Is configured to be displayed. As shown in FIG. 2, the display device 9 has a structure in which a liquid crystal display element 10, a light transmission type metal panel 11, a light emitting unit 12, and a light emitting element 13 are arranged in this order from the top. The liquid crystal display element 10 has a liquid crystal (not shown) sealed between a pair of upper and lower transparent electrode substrates 14 and 15, and a polarizing plate 16 is provided on the upper surface of the upper electrode substrate 14 and the lower surface of the lower electrode substrate 15, respectively. , 17 are provided, and a voltage is applied between the pair of upper and lower electrode substrates 14 and 15 so that information is displayed according to the applied voltage.
[0016]
The light transmissive metal panel 11 is a semi-transmissive reflective member, and as shown in FIGS. 3 and 4, a large number of fine through-holes 18 that are hardly visible to the naked eye are formed in a circular flat plate made of metal such as stainless steel. The light is transmitted through the through holes 18 so as to have light transmissivity and reflect the light on the upper surface of the flat plate. In this case, as shown in FIG. 4, the fine through-holes 18 are formed such that the diameter of the upper hole 18a on the upper surface is smaller than the diameter of the lower hole 18b on the lower surface. The reflection area is widened, and light from the lower surface side is sufficiently taken into the lower hole portion 18b and emitted from the upper hole portion 18a with sufficient luminance.
[0017]
The light emitting element 13 is a planar light emitting element such as an EL element (electroluminescence element), and is configured to emit light almost uniformly from the entire upper surface.
On the other hand, as shown in FIG. 2, the light emitting unit 12 disposed between the metal panel 11 and the light emitting element 14 is provided on a light transmissive member 20 that transmits light, and provided on an upper surface of the light transmissive member 20. Light emitting layer 21. In this case, the light transmissive member 20 is formed of a transparent or translucent material into a flat plate or a sheet. The light-emitting layer 21 has a structure in which a light-emitting agent having a luminous property or a luminous property is formed in a film shape on the upper surface of the light-transmitting member 20 by printing or coating.
[0018]
According to such an electronic wristwatch, when the light emitting element 13 is turned on in a dark place, light from the light emitting element 13 passes through the light transmitting member 20 of the light emitting section 12 and is irradiated on the light emitting layer 21 on the upper surface thereof. The emitted light causes the light emitting agent of the light emitting layer 21 to emit light, and the light emitted by the light emitting agent passes through the fine through holes 18 of the metal panel 11 and is irradiated on the lower surface side of the liquid crystal display element 10. Since the emitted light passes through the liquid crystal display element 10 and is emitted outside from the watch glass 2, the information displayed on the liquid crystal display element 10 can be visually recognized from outside the watch case 1 through the watch glass 2 even in a dark place. Can be.
[0019]
In a bright place, external light enters the watch case 1 through the watch glass 2, and when the incident external light is applied to the display device 9, the applied external light passes through the liquid crystal display element 10. Most of the radiated light is reflected on the upper surface of the metal panel 11 and radiated to the liquid crystal display element 10. Therefore, even if the light emitting element 13 is not turned on in a bright place, the liquid crystal display can be illuminated. The information displayed on the element 10 can be visually recognized from the outside of the watch case 1 through the watch glass 2.
[0020]
In this case, of the light applied to the metal panel 11, most of the light is reflected by the metal panel 11, but a part of the other light passes through the fine through holes 18 of the metal panel 11. As a result, the light emitting layer 21 of the light emitting section 12 is irradiated with light, so that the emitted external light causes the light emitting agent of the light emitting layer 21 to emit light. For this reason, the light emitted by the luminescent agent passes through the fine through-holes 18 again and irradiates the liquid crystal display element 10, so that the fine through-holes 18 of the metal panel 11 do not become dark like black dots, and The hole 18 can be made bright. Thereby, even if the metal panel 11 in which the fine through-holes 18 are formed is used as a transflective member, the entire display portion can be made bright without the entire display portion becoming dark.
[0021]
In this electronic wristwatch, the light emitting section 12 of the display device 9 includes a light transmitting member 20 disposed between the metal panel 11 and the light emitting element 13, and a light emitting agent coated on the upper surface of the light transmitting member 20. Since the light-emitting layer 21 is formed in a shape, the light-emitting layer 21 can be easily formed into a film by printing or applying a light-emitting agent on the upper surface of the light-transmitting member 20. By simply arranging the light transmissive member 20 on which the light emitting layer 21 is formed between the metal panel 11 and the light emitting element 13, the light emitting section 12 having the light emitting agent can be easily placed between the metal panel 11 and the light emitting element 13. And it can be arranged reliably.
[0022]
In the first embodiment, the light emitting layer 21 of the light emitting unit 12 is provided on the upper surface of the light transmissive member 20. However, the present invention is not limited to this, and the light emitting layer 21 may be provided on the lower surface of the light transmissive member 20. It may be provided on both upper and lower surfaces of the sex member 20. Even when the light emitting unit 12 is configured in this manner, the same operation and effect as those of the first embodiment can be obtained.
[0023]
[Second embodiment]
Next, a second embodiment in which the present invention is applied to an electronic wristwatch will be described with reference to FIG. The same parts as those in the first embodiment shown in FIGS.
This electronic wristwatch has a structure in which a light emitting portion 26 of a display device 25 is provided on an upper surface of a light emitting element 13, and has the same structure as that of the first embodiment except for this. That is, the light emitting unit 26 is the same as that of the first embodiment by forming a luminous agent having a luminous or luminous property directly on the upper surface of the light emitting element 13 facing the metal panel 11 by printing or coating. The structure is such that a light emitting layer is formed on the upper surface of the light emitting element 13.
[0024]
According to the display device 25 of such an electronic wristwatch, as in the first embodiment, the information displayed on the liquid crystal display element 10 can be viewed in a bright place or a dark place, and the fineness of the metal panel 11 can be seen in a bright place. Since the through holes 18 do not become dark like black spots and the through holes 18 can be brightened, even if the metal panel 11 in which the fine through holes 18 are formed is used as a semi-transmissive reflective member, a display portion can be formed. The entire display portion can be brightened without being entirely dark. In addition, the light emitting portion 26 is a light emitting layer in which a light emitting agent is formed on the upper surface of the light emitting element 13 by printing or coating to form a film. The light transmissive member 20 as in the embodiment is not required, so that the number of components can be reduced and the size and thickness of the entire device can be reduced.
[0025]
[Third embodiment]
Next, a third embodiment in which the present invention is applied to an electronic 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 electronic wristwatch, as shown in FIG. 6, a light emitting portion 31 of a display device 30 includes a light transmitting member 20 and a light emitting layer 32 formed on the upper surface of the light transmitting member 20. Has a structure formed of a luminescent material having a different emission color for each region, and has the same structure as that of the first embodiment except for this.
[0026]
That is, there are a plurality of types of luminescent agents, each of which has a different luminescent color depending on its material. As shown in FIG. 7, the luminescent layer 32 using the luminescent agent includes a luminescent agent provided in a specific area 33 corresponding to a figure, a symbol, a pattern, and the like, and a luminescent agent provided in other background areas 34. Are configured to emit different colors. For example, the luminescent material in the specific area 33 corresponding to a figure, a symbol, or a pattern emits blue light, and the luminescent material in the other background area 34 emits yellow light. The light transmissive member 20 provided with the light emitting layer 32 is formed of a transparent or translucent material in a flat plate or sheet shape as in the first embodiment, and is formed between the metal panel 11 and the light emitting element 13. Are located in
[0027]
According to the display device 30 of such an electronic wristwatch, most of the external light is reflected by the metal panel 11 in a bright place, and part of the other external light is transmitted through the fine through-hole 18 of the metal panel 11. Since the light is only emitted to the light emitting layer 32 of the light emitting part 31, even if the light emitting color of the light emitting agent is different in each of the regions 33 and 34 of the light emitting layer 32, the difference in the light emitting color is hardly noticeable. When the light from the light-emitting element 13 is illuminated in a dark place to the light-emitting layer 32 and the light-emitting agent in each of the regions 33 and 34 of the light-emitting layer 32 emits light, the color of light emitted by the light-emitting agent in the specific region 33 (for example, blue) And the difference between the light emission color (for example, yellow) of the background region 34 due to the light emitting agent can be visually recognized. Therefore, a figure, a symbol, a pattern, or the like can be expressed by a difference in emission color between each of the regions 33 and 34 of the light-emitting layer 32, whereby a decoration and a color excellent in color can be obtained.
[0028]
The light emitting unit 31 according to the third embodiment has a structure in which the light emitting layer 32 having different emission colors is provided on the light transmissive member 20 for each of the regions 33 and 34, but is not limited thereto. As described above, a structure in which the light emitting layer 32 is formed on the upper surface of the light emitting element 13 may be used. Even with such a structure, as in the third embodiment, it is possible to obtain a product having excellent decorativeness and color, and also, as in the second embodiment, to reduce the number of parts and reduce the size and thickness of the entire device. Can also be planned.
[0029]
[Fourth embodiment]
Next, a fourth embodiment in which the present invention is applied to an electronic wristwatch will be described with reference to FIG. Also in this case, the same parts as those in the first embodiment shown in FIGS.
This electronic wristwatch has the same structure as that of the first embodiment except that the light emitting section 41 of the display device 40 is different from that of the first embodiment. That is, the light emitting section 41 has a structure in which a light emitting agent 43 having a luminous or luminous property is mixed in a light transmitting member 42 disposed between the metal panel 11 and the light emitting element 13. Also in this case, the light transmissive member 42 is formed in a flat or sheet shape with a transparent or translucent material, as in the first embodiment.
[0030]
According to the display device 40 of the electronic wristwatch, when the light emitting element 13 is turned on in a dark place, the light from the light emitting element 13 irradiates the light emitting agent 43 mixed in the light transmitting member 42 of the light emitting section 41. As in the first embodiment, the light from the light emitting agent 43 passes through the fine through-holes 18 in the metal panel 11 and irradiates the lower surface of the liquid crystal display element 10, whereby the light emitting agent 43 emits light even in a dark place. The information displayed on the liquid crystal display element 10 can be visually recognized. In a bright place, external light incident on the watch case 1 through the watch glass 2 is radiated to the display device 40, and the radiated light is transmitted through the liquid crystal display element 10 to irradiate the metal panel 11. Since most of the emitted light is reflected by the metal panel 11, the information displayed on the liquid crystal display element 10 can be visually recognized even in a bright place as in the first embodiment.
[0031]
Also at this time, of the light applied to the metal panel 11, a part of the light not reflected by the metal panel 11 passes through the fine through-holes 18 of the metal panel 11 and passes through the light transmitting member 42 of the light emitting unit 41. The luminescent agent 43 mixed in the luminous agent 43 is irradiated, and the radiated light emits the luminescent agent 43, and the light emitted by the luminescent agent 43 passes through the fine through-hole 18 again. The fine through-holes 18 of the metal panel 11 are not darkened like black spots, and the through-holes 18 can be brightened, so that the metal panel 11 having the fine through-holes 18 formed thereon is used as a semi-transmissive reflection member. Even if it is used, the entire display portion is not darkened, and the entire display portion can be brightened.
[0032]
[Fifth Embodiment]
Next, a fifth embodiment in which the present invention is applied to an electronic wristwatch will be described with reference to FIG. In this case, the same parts as those of the fourth embodiment shown in FIG.
This electronic wristwatch has the same structure as that of the fourth embodiment except that the shape of a light transmitting member 47 that is the light emitting portion 46 of the display device 45 is different from that of the fourth embodiment. That is, the light transmissive member 47 has a structure in which the light emitting agent 43 is mixed therein and the thickness thereof is changed. For example, as shown in FIG. 9, the light transmissive member 47 of the fifth embodiment is formed such that the thickness on the outer peripheral side is thicker, and becomes gradually thinner toward the center.
[0033]
According to the display device 45 of the electronic wristwatch, similarly to the fourth embodiment, the information displayed on the liquid crystal display element 10 can be viewed in a bright place and a dark place, and the fineness of the metal panel 11 can be seen in a bright place. The small through-hole 18 is not darkened, and the fine through-hole 18 can be brightened, whereby the entire display portion can be brightened. In particular, the thickness of the light transmissive member 47 into which the luminescent agent 43 is mixed is reduced. Since the thickness gradually changes from the outer peripheral side toward the center, the amount of the luminescent agent 43 increases on the outer peripheral side of the light transmitting member 47, and the amount of the luminescent agent 43 gradually decreases toward the center. The amount of light emission on the outer periphery side is large, and the amount of light emission gradually decreases toward the center. Thereby, the brightness of the light transmitting member 47 can be partially changed according to the change in the thickness of the light transmitting member 47, and therefore, the intensity of light emitted by the light transmitting member 47, that is, gradation is expressed. Thus, a product having excellent decorativeness can be obtained.
[0034]
In the fifth embodiment, the light transmissive member 47 in which the luminescent agent 43 is mixed is formed so that its thickness gradually decreases from the outer peripheral side toward the center. However, the present invention is not limited to this. The thickness of the conductive member may be changed in an uneven shape. In this way, the intensity of light according to the change in the thickness of the unevenness can be expressed in a pattern, and thereby, a decoration excellent in decorativeness can be obtained.
Further, in the first to fifth embodiments, the case where the present invention is applied to an electronic wristwatch having a digital function has been described. However, the present invention is not limited to this, and an electronic wristwatch having both a digital function and an analog function driven by a pointer can be used. In addition to being applicable, it can be applied to various electronic watches such as a travel watch, an alarm clock, and a wall clock.
[0035]
[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 first embodiment shown in FIGS.
This mobile phone includes a device case 50 made of synthetic resin in which an upper case and a lower case are joined. As shown in FIG. 10, on the upper surface of the device case 50, a transparent protective glass 51 is mounted on the upper side, and various key buttons 52 necessary for the telephone function are provided on the lower side. . An antenna 53 that protrudes into and out of the device case 50 is attached to the upper side surface of the device case 50.
[0036]
On the other hand, as shown in FIG. 11, a module 54 including various components required for a telephone function such as a display device 55 is housed inside the device case 50. As in the first embodiment, the display device 55 of the module 54 includes, in order from the top, a liquid crystal display element 10 for displaying information such as a telephone number and a call state, a light-transmitting metal panel 11, a light-emitting unit 12, and It has a structure in which the light emitting elements 13 are arranged. In this case, as in the first embodiment, the light emitting unit 12 includes a light transmitting member 20 that transmits light and a light emitting layer 21 provided on the upper surface of the light transmitting member 20. Reference numeral 21 denotes a structure in which a luminous agent having a luminous or luminous property is formed on the upper surface of the light transmissive member 20 by printing or coating.
[0037]
In such a mobile phone, since the display device 55 has the same structure as that of the first embodiment, the same operation and effect as those of the first embodiment are obtained. That is, when the light-emitting element 13 is turned on in a dark place, the light of the light-emitting element 13 is irradiated on the light-emitting layer 21 of the light-emitting portion 12 to emit light of the light-emitting agent of the light-emitting layer 21. The light passes through the fine through-holes 18 of the panel 11 and is irradiated on the lower surface side of the liquid crystal display element 10. The light passes through the irradiated liquid crystal display element 10 and exits from the transparent protective glass 51 to the outside, so However, the information displayed on the liquid crystal display element 10 can be visually recognized from outside the device case 50 through the protective glass 51.
[0038]
In a bright place, external light enters the device case 50 through the protective glass 51, and the incident external light is transmitted through the liquid crystal display element 10 of the display device 55 to irradiate the metal panel 11, and the irradiated external light is irradiated. Since most of the light is reflected on the upper surface of the metal panel 11, the information displayed on the liquid crystal display element 10 can be visually recognized from the outside of the device case 50 through the protective glass 51 without turning on the light emitting element 13. . Also at this time, of the light applied to the metal panel 11, a part of the light not reflected by the metal panel 11 passes through the fine through holes 18 of the metal panel 11 and is applied to the light emitting layer 21 of the light emitting unit 12. The emitted light causes the light emitting agent of the light emitting layer 21 to emit light, and the light emitted by the light emitting agent passes through the fine through-holes 18 again. The image is brightened without being darkened, so that the entire display portion can be brightened.
[0039]
In the sixth embodiment, the light emitting unit 12 of the display device 55 includes the light transmitting member 20 and the light emitting layer 21 in which a light emitting agent is formed on the upper surface of the light transmitting member 20 by printing or coating. However, the light emitting unit is not limited to this, and the light emitting unit may have a structure in which the light emitting layer 21 is formed in a film shape by printing or coating a light emitting agent on the upper surface of the light emitting element 13 as in the second embodiment. Similarly to the third embodiment, the light emitting layer 21 is formed of a luminescent material having a different luminescent color for each region, and the luminescent color of the luminescent agent is different for each region so that a figure, a symbol, a pattern, or the like is expressed. May be configured. Further, the light emitting portion is not limited to this, and may have a structure in which a light emitting agent is mixed in a light transmitting member, as in the fourth embodiment, and by changing the thickness of the light transmitting member. Alternatively, the brightness of the light transmitting member may be changed to express the intensity of light.
[0040]
【The invention's effect】
As described above, according to the present invention, a liquid crystal display element, a light transmission type metal panel disposed on the back side of the liquid crystal display element and formed with a large number of fine through holes, and a back side of the metal panel In a display device having a light emitting element disposed on the side, a light emitting portion having a luminous agent having a luminous or luminous property is interposed between the metal panel and the light emitting element, so that the light emitting portion can be used in a bright place or a dark place. In addition to being able to visually recognize the information displayed on the liquid crystal display element, especially in a bright place, part of the external light is transmitted through the fine through-holes of the metal panel to irradiate the light-emitting portion, and the irradiated light The light-emitting agent in the light-emitting portion emits light, and the light emitted by the light-emitting agent passes through the fine through-holes again and irradiates the liquid crystal display element, so that the fine through-holes become bright without being darkened like black dots. , Thereby forming fine through holes The metal panels be used as a semi-transmissive reflecting member, not dark entire display area, it is possible to brighten the entire display area.
[0041]
In this case, the light-emitting portion includes a light-transmitting member disposed between the metal panel and the light-emitting element, and a light-emitting layer in which a light-emitting agent is formed in a film on at least one of the front and back surfaces of the light-transmitting member. With the structure, the luminescent layer can be easily formed into a film by printing or applying a luminescent agent on at least one of the front and back surfaces of the light-transmitting member. Only by disposing the light transmitting member between the metal panel and the light emitting element, the light emitting portion provided with the luminescent agent can be easily and reliably disposed between the metal panel and the light emitting element.
In addition, if the light emitting portion is a light emitting layer in which a light emitting agent is formed in a film shape on the surface of the light emitting element facing the metal panel, by directly printing or applying the light emitting agent on the surface of the light emitting element, Since the light-emitting layer can be easily formed in a film shape, and thus the light-transmitting member as described above is not required, the number of components can be reduced, and the size and thickness of the entire device can be reduced. Can be planned.
[0042]
Furthermore, if the luminescent agent is composed of a plurality of types having different luminescent colors and the luminescent layer is formed of a luminescent agent having a different luminescent color for each region, most of the external light is reflected by the metal panel in a bright place and the metal panel Because the amount of external light that passes through the fine through-holes is small, even if the emission color differs for each region of the light-emitting layer, the difference in the emission color is inconspicuous. When the light-emitting agent of the light-emitting layer emits light when irradiated, it is possible to visually recognize the difference in light-emitting color in each region of the light-emitting layer, and it is possible to express a figure, a symbol, or a pattern by the difference in light-emitting color. Thereby, a product excellent in decorativeness and color can be obtained.
[0043]
Further, if the light emitting section has a structure in which a light emitting agent is mixed in a light transmitting member disposed between the metal panel and the light emitting element, the light transmitting member is disposed between the metal panel and the light emitting element. By simply doing so, it is possible to easily and easily arrange the light emitting portion provided with the light emitting agent between the metal panel and the light emitting element. In this case, if the light-transmitting member mixed with the luminescent agent has a structure in which the thickness is changed, the luminance of the light-transmitting member may be partially changed according to the change in the thickness of the light-transmitting member. This makes it possible to express the intensity of light emitted by the light transmitting member, that is, gradation, and thus to obtain a product excellent in decorativeness.
[Brief description of the drawings]
FIG. 1 is an enlarged sectional view showing a main part in a first embodiment in which the present invention is applied to an electronic wristwatch.
FIG. 2 is an exploded sectional view of the display device of FIG. 1;
3 is a plan view of a part of the metal panel of FIG. 2 as viewed from below.
FIG. 4 is an enlarged sectional view of a part of the metal panel of FIG. 3;
FIG. 5 is an exemplary exploded cross-sectional view of a display device according to a second embodiment in which the invention is applied to an electronic wristwatch;
FIG. 6 is an exploded cross-sectional view of a display device according to a third embodiment in which the invention is applied to an electronic wristwatch.
FIG. 7 is a plan view showing a light emitting state of the light emitting unit of FIG. 6;
FIG. 8 is an exploded cross-sectional view of a display device according to a fourth embodiment in which the present invention is applied to an electronic watch.
FIG. 9 is an exploded cross-sectional view of a display device according to a fifth embodiment in which the invention is applied to an electronic wristwatch.
FIG. 10 is an external perspective view showing a sixth embodiment in which the present invention is applied to a mobile phone.
FIG. 11 is an enlarged sectional view taken along the line AA of FIG. 10;
[Explanation of symbols]
1 Watch case
2 Clock glass
4 Clock module
9, 25, 30, 40, 45, 55 display devices
10 Liquid crystal display device
11 Metal panel
12,26,31,41,46 Light emitting unit
13 Light-emitting element
18 minute through holes
20, 42, 47 Light transmitting member
21, 32 light emitting layer
33 predetermined area
34 Background Area
43 Luminescent agent
50 Equipment case
51 Protective glass

Claims (7)

A display comprising: a liquid crystal display element; a light-transmitting metal panel disposed on the back side of the liquid crystal display element and having a large number of fine through holes; and a light emitting element disposed on the back side of the metal panel. In the device,
A display device, wherein a light-emitting portion having a luminous agent having a luminous property or a luminous property is interposed between the metal panel and the light-emitting element. The light emitting unit includes a light transmitting member disposed between the metal panel and the light emitting element, and a light emitting layer in which the light emitting agent is formed in a film shape on at least one of the front and back surfaces of the light transmitting member. The display device according to claim 1, wherein: The display device according to claim 1, wherein the light emitting unit is a light emitting layer in which the light emitting agent is formed in a film shape on a surface of the light emitting element facing the metal panel. 4. The display device according to claim 2, wherein the luminescent agent includes a plurality of types having different luminescent colors, and the luminescent layer is formed of the luminescent agent having a different luminescent color for each region. 5. The display device according to claim 1, wherein the light emitting unit has a structure in which the light emitting agent is mixed in a light transmissive member disposed between the metal panel and the light emitting element. The display device according to claim 5, wherein the light-transmitting member mixed with the luminescent agent has a structure in which the thickness is changed. An electronic device, comprising: the display device according to claim 1 disposed in a device case; and a transparent protective glass disposed at an upper position of the display device.

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