JP2001063403A - Display device for instrument - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the number of light sources, to change an illumination color in the daytime and in the nighttime, moreover, to illuminate a whole transmitting and light emitting part of a display plate with a nearly uniform brightness. SOLUTION: A display plate 3 is arranged in a surface of a case 2 via a light guide plate 28. An LCD panel 6 is arranged in front of the display plate 3. A first light source 7 is arranged in the case 2 so as to illuminate the LCD panel 6 in the daytime. Second light sources 8A, 8B are respectively arranged in both sides of the first light source 7 so as to illuminate the display device 3 and the LCD panel 6 in the nighttime. The illumination colors of the first light source 7 and the second light source 8 are differentiated.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device for an instrument mounted on an automobile or the like, and more particularly, to a display device for an instrument for illuminating a transmission illumination display panel of an analog display instrument and a liquid crystal display device of a digital display instrument. Things.

[0002]

2. Description of the Related Art Instrument display devices used in automobiles are:
A combination meter that includes various instruments, indicators for displaying warnings and shift positions, a liquid crystal display device (hereinafter, referred to as an LCD panel), and transmits various information to a driver while the vehicle is running is generally used. It is a target. Such a display device for an instrument includes a transmissive illumination type display panel of an analog display type instrument and an LCD of a digital display type instrument.
There are two types of light sources that individually illuminate the panel.

FIG. 8 is a sectional view of a conventional instrument display device. The instrument display device 1 includes a case 2, a display plate 3, a facing plate 4, a transparent cover 5, an LCD panel 6, and an LCD.
A first light source 7 that illuminates the panel 6 with a backlight, a second light source 8 that illuminates the display panel 3 with a backlight are also provided. The LCD panel 6 and the first light source 7
The display panel 3, the second light source 8, a pointer not shown, and its driving device constitute a digital display type instrument for displaying fuel consumption and the like, and constitute an analog display type instrument for displaying a traveling speed, for example. ing. First and second light sources 7, 8
Are usually used in plural, for example, two in order to achieve uniform illumination. The first light source 7 illuminates the LCD panel 6 in the daytime or at night. The second light source 8 illuminates the transmission light-emitting portion of the display panel 3 at night. For this reason, when the first light source 7 is turned on, the light does not illuminate the transmissive light emitting portion of the display panel 3, and when the second light source 8 is turned on, the light does not illuminate the LCD panel 6. In addition, a first light source 7 and a second light source 8 are separated by a partition wall 9.

[0004]

As described above, the conventional instrument display device includes dedicated light sources for independently illuminating the display panel 3 and the LCD panel 6, that is, the first and second light sources 7, 8. In addition, these light sources 7 and 8 are separated by a partition wall 9. However, when a dedicated light source is provided for the display panel 3 and the LCD panel 6, there is a problem that the number of light sources and power consumption increase. For example, if two first and second light sources 7 and 8 are used, a total of four light sources are required. In particular, when the LCD panel 6 is illuminated with different illumination colors during the daytime and at nighttime, for example, when illuminating with natural colors during the daytime and blue at nighttime, two types of light sources having different illumination colors are required. Therefore, the number of light sources further increases.

Further, as another conventional device, a display device in which light emitted from a light source is guided to a display plate using a light guide plate is known. In this display device, a light incident surface is provided on one end surface side of the light guide plate, and light emitted from the light source from the light incident surface is guided into the light guide plate and emitted to the front side to illuminate the display plate. However, in such a display device, the amount of attenuation increases as light reflected on the back surface of the light guide plate and guided farther away, so the portion closest to the light source is brightest, and the brightness gradually increases as the distance from the light source increases. However, there is a problem that uniform illumination cannot be obtained.

Therefore, conventionally, for example, black halftone dot printing is performed on the back surface of the display panel to increase the density of halftone dots near the light source,
Brightness was adjusted by making the density of halftone dots coarser as the distance from the light source increased (eg, Japanese Patent Publication No. 53-2).
No. 065). However, in the adjustment of the brightness by the halftone printing, the brightness of the bright portion is reduced to match the dark portion, so that the brightness of the entire display panel becomes dark. In addition, there is a problem that the manufacturing cost of the display plate is increased due to the halftone dot printing.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems. It is an object of the present invention to reduce the number of light sources and to change the illumination color between daytime and nighttime. It is another object of the present invention to provide an instrument display device capable of illuminating the whole of the transmission light emitting portion of the display panel with substantially uniform brightness.

[0008]

According to a first aspect of the present invention, there is provided a display panel, a light guide plate disposed on a back surface of the display panel, a liquid crystal display device, the display panel, and the display panel. A light source for illuminating the liquid crystal display device, wherein the light source is disposed in the same plane as the light guide plate, a part of the light source illuminates the liquid crystal display device, and a part of the light is guided. It is configured to be guided to a light plate.

According to a second aspect, in the first aspect, an inclined surface is formed between the light incident surface of the light guide plate through which light from the light source enters and the back surface.

According to a third aspect of the present invention, there is provided a display plate, a light guide plate disposed on the back surface of the display plate, a liquid crystal display device, a first light source for illuminating the liquid crystal display device in daytime, and the display device. A second plate for illuminating the plate and the liquid crystal display device at night time
And a light source for illuminating the liquid crystal display device in front of the second light source and guiding the light to the side to the light guide plate.

[0011] In a fourth aspect based on the third aspect,
The first light source and the second light source have different illumination colors.

In the present invention, the light source illuminates the display panel and the liquid crystal display. The light guide plate guides light from the light source to the display device. In the present invention, "disposing the light source in the same plane as the light guide plate" means that a concave portion whose inner surface forms a light incident surface is formed at an end surface of the light guide plate to form a light incident portion, and the light incident portion is provided with a light source. Is provided to guide light from the light source into the light guide plate from the light incident surface, and a case where the end surface of the light guide plate is a light incident surface, and a reflecting surface (member) is provided opposite to the light incident surface. A light source is arranged in the recess formed in the gap or the end face, and the light from the light source is reflected by the reflection surface and guided from the light entrance surface into the light guide plate, and the inner peripheral surface forms the light entrance surface in the light guide plate This means that a light-entering portion composed of a through-hole is formed, a light source is provided in the light-entering portion, and light from the light source is guided from the light-entering surface into the light guide plate. The first light source illuminates the liquid crystal display device during the daytime and the second light source illuminates the liquid crystal display device and the display panel at night. Therefore, by changing the illumination color of the second light source, it is possible to change the illumination color of the liquid crystal display device during daytime and nighttime without increasing the number of light sources. The portion of the display panel closest to the light source is bright, and the brightness gradually decreases as the distance from the light source increases. That is, the light emitted from the light source enters the light guide plate from the light incident surface of the light guide plate, travels while reflecting, and emits light from the surface side to the outside to illuminate the display panel. The light is reflected by the back surface of the light guide plate near the light surface and is emitted near the light incident surface. On the other hand, light having a small incident angle is reflected by the back surface of the light guide plate farther than the light incident surface and guided far. Therefore, the light is more attenuated than light having a large incident angle, and the light becomes darker as the distance from the light source increases. Therefore, if an inclined surface is formed between the light incident surface and the back surface of the light guide plate, light having a large incident angle is cut or reflected farther, and the amount of light emitted from the surface near the light incident surface is reduced. Can be reduced.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail based on an embodiment shown in the drawings. FIG. 1 is a front view showing an embodiment of an instrument display device according to the present invention, FIG. 2 is a cross-sectional view taken along the line II-II of FIG. 1 at the time of daytime illumination, and FIG.
FIG. 4 is a sectional view taken along line IV-IV of FIG.
FIGS. 5A, 5B and 5C are front views of the light guide plate, and AA.
6 is an enlarged cross-sectional view of a main part during nighttime illumination. The same components as those shown in the section of the prior art are denoted by the same reference numerals.

In these figures, the instrument display 20
Is a combination meter that is mounted on a dashboard located on the front side of a driver's seat of a car to transmit various kinds of information to a driver while the car is running, and includes a case 2, a display plate 3, and a facing plate. 4. Printed wiring board 21 mounted on the back side of case 2;
And a transparent cover 5 for covering the front opening of the first embodiment. A tachometer 22 for displaying the number of revolutions of the engine; an analog speedometer 23 for displaying the traveling speed; a warning indicator 24 for displaying various warnings such as a half-door, non-wearing of a seat belt, and a low battery by a picture 25; Set the shift position of the select lever of the transmission to "P", "R", ...
A transmission indicator 26 for displaying Roman characters such as "2" and numerals 27 and an LCD panel 6 for displaying time, running distance, remaining fuel amount, and the like.
Further, a first light source 7 for illuminating the LCD panel 6 with backlight during the daytime, a second light source 8 for illuminating the display panel 3 and the LCD panel 6 at nighttime, and a light guide plate 28 are provided.

The case 2 is formed of a synthetic resin, the display panel 3 is disposed at the center of the front surface via a light guide plate 28, and is fixed to the dashboard together with the return plate 4 by a set screw. A plurality of female connectors 30 are mounted on the front surface of the case 2 below a portion where the return plate 4 is mounted, and the various connectors, indicators, light sources, and the like are mounted on these female connectors 30. Is connected via a male connector. A back cover 31 is attached to the back side of the case 2.

In FIG. 1, the display plate 3 is formed in a sheet shape from a translucent material such as a polycarbonate resin, and has a tachometer 22 and a speedometer in addition to the picture 25, Roman characters and numerals 27 on its surface. 23, warning indicator 24, direction indication of signal lamp, numerals 35 and 36 necessary for beam switching of headlight, etc., scale 3
9, symbols 37, 38, etc. are displayed as display units.
Of these display units, numerals 35 and 36, which are display units of the tachometer 22 and the speedometer 23, and a peripheral portion 40 of the scale 39 are provided.
Are formed on the same circumference around the axes of the hands 41 and 42 by printing a light-shielding film or by other methods to form a light-impermeable portion. The tachometer 22
And number 3 in the display areas 43A and 43B of the speedometer 23.
The areas other than 5, 36 and the peripheral portion 40 of the scale 39, that is, the transmissive light-emitting portions 45A and 45B indicated by oblique lines in FIG. Illuminated by two light sources 8.

A region 46 (white portion in FIG. 1) outside the display regions 43A and 43B forms a light opaque portion, and the picture 25, the Roman alphabet and the numeral 2 are formed in this portion.
7, and symbols 37 and 38 are displayed. These pictures 25, Roman letters and numbers 27, and symbols 37,
Reference numeral 38 denotes a transmission light-emitting portion. A small circular light transmitting portion 47 is formed in the vicinity of each Roman character and numeral 27.

The picture 25 of the warning indicator 24 is provided with a light source 48 disposed on the front side of the case for each picture when a situation that gives a warning represented by the picture occurs.
(FIG. 4). The light source 48 is composed of a light bulb, an LED, or the like, and is housed in a light source housing recess 49 defined for each picture 25 on the front surface of the case 2, whereby each light source 48 illuminates a picture other than the picture. I try not to.

The transmission indicator 26
Roman letters such as “P”, “R”,..., “2” and the number 27 are illuminated by the second light source 8 during nighttime illumination. On the other hand, the circular light transmitting portions 47 formed close to the Roman characters and the numerals 27 are selectively illuminated by the light sources 50 (FIG. 3) disposed on the front side of the case for each of the light transmitting portions. Is configured. The light source 50 includes a light source housing recess 5 defined for each light source on the front surface of the case 2.
1 respectively, and thereby each light source 5
0 does not illuminate the light transmitting parts other than the light transmitting part 47.

Similarly, the direction indication of the signal lamp,
The symbol 3 forming a display for beam switching of the headlight;
7, 38 are also light sources 5 arranged on the front side of the case for each symbol.
3 (FIG. 4).
Each light source 53 is disposed in a light source storage recess 54 defined for each light source on the front surface of the case 2 so that each light source 53 does not illuminate a symbol other than the symbol.

Referring to FIG. 2, the LCD panel 6 has a light-transmitting diffusion plate 55 on the rear surface side.
The display panel 3 is disposed along a lower edge of a front center portion of the display panel 3 while being held by claws provided on the display panel 3. The LCD panel 6 is connected to the printed wiring board 21 by a flexible printed wiring board 57 (FIG. 3).

The LCD holder 56 is formed of a white resin material and formed in a rectangular frame which is long in the left and right direction and is opened back and forth, and is screwed into the case 2 through the display plate 3 and the light guide plate 28. (See FIG. 2). LCD holder 56
Has a reflective surface 56a.

The first light source 7 and the second light source 8 each comprise an incandescent lamp, and are arranged on the rear side of the LCD panel 6 so as to be located in the LCD holder 56.
The first light source 7 is disposed in the case 2 via a socket 60 so as to be located in the center of the inside of the LCD holder 56, and the distal end thereof is formed in an insertion hole formed in the light guide plate 28 and the display plate 3. It protrudes into the LCD holder 56 through 61 and 62. In addition, a cylindrical light-shielding wall 63 that fits into the insertion hole 61 is integrally formed on the surface of the case 2 so that light from the first light source 7 enters the light guide plate 28. Has been prevented.

On the other hand, the second light source 8 includes two light bulbs 8A,
8B. These light bulbs 8A and 8B are respectively disposed on the case 2 via sockets 60 so as to be positioned at equal distances on the left and right sides of the first light source 7, and the front ends thereof are connected to the light guide plate 28 and the display. It protrudes from the insertion holes 64 and 65 formed in the plate 3 into the LCD holder 56. Each of the light bulbs 8A and 8B is covered with a cap 66 (FIG. 6) which is colored blue and has translucency. Note that the light bulb 8A mainly functions for illuminating the transmissive light emitting portion 45A of the tachometer 22, and the light source 8B mainly functions for illuminating the transmissive light emitting portion 45B of the speedometer 23 and Roman letters and numerals 27.

5 and 6, the light guide plate 28
Is a substantially semicircular convex portion 2 formed of a synthetic resin or glass having excellent translucency such as acrylic resin or glass and covering the display areas 43A and 43B (FIG. 1) of the display panel 3 on the upper surface side.
8a and 28b are integrally formed, and shaft holes 67 and 68 through which the shafts of the hands 41 and 42 are inserted are formed at the centers of these convex portions, respectively. The protrusion 28b is larger than the protrusion 28a. The lower surface of the light guide plate 28 is formed in a trapezoidal shape protruding downward so as to substantially coincide with the lower edge of the display plate 3. A reflection film 69 is adhered to substantially the entire back surface of the light guide plate 28. In a portion of the reflective film 69 corresponding to the light transmitting portion 47 of the display panel 3, a hole 69a having substantially the same size as the light transmitting portion 47 is formed.

The insertion holes 61 and 64 of the light guide plate 28
Are formed close to each other along the lower edge at the center in the left-right direction of the light guide plate 28. Of these insertion holes, the light bulb 8
The insertion hole 64 into which the light-receiving portions A and 8B are inserted forms a light-entering portion, and the hole-wall surface has a part of the light emitted from the light bulbs 8A and 8B, that is, the light emitted to the side (in the direction parallel to the display panel 3). Form a light incident surface 64a that enters the light guide plate 28. Further, an inclined surface 70 is formed between the light incident surface 64a and the back surface of the light guide plate 28. The inclined surface 70 is formed by the transmission light emitting unit 4.
3A and 43B, which are formed to obtain uniform illumination.
It is formed in an arc shape along the periphery of the insertion hole 64 so as to correspond to the portions 45a and 45b (the mesh portion in FIG. 1) closest to B.

In such an instrument display device 20,
At the time of daytime illumination, the first light source 7 is turned on as shown in FIG.
The light is diffused by the diffusion plate 55 to illuminate the display surface of the LCD panel 6 with backlight. At this time, the second light source 8 is off.

On the other hand, at night, the two light sources 8A and 8B as the second light source 8 are turned on to illuminate the display panel 3 and the LCD panel 6. At this time, the first light source 7 is turned off.

Illumination of the display panel 3 by one bulb 8A (similar to the bulb 8B) will be described. As shown in FIG. 6, light 7 emitted from the bulb 8A forward (toward the LCD panel)
2a is illuminated by the diffusion plate 55 to illuminate the display surface of the LCD panel 6 with backlight. The light 72b emitted laterally from the bulb 8A enters the light guide plate 28 from the light incident surface 64a,
The reflected light is reflected by the reflection film 69 on the back side and exits from the front side, thereby illuminating the transmission light-emitting portion 45A (the shaded portion on the left side in FIG. 1) of the tachometer 22. This nighttime lighting is daytime LC
Unlike the illumination color of the D panel 6, the display panel 3 and the LCD panel 6 are illuminated with blue illumination light by the cap 66.

As described above, in the present invention, the first and second
The light sources 7 and 8 are arranged close to the rear of the LCD panel 6 and the display panel 3 and the LCD panel 6 are commonly illuminated by the second light source 8 at night. This is advantageous when lighting is performed by changing the illumination color at the time, and the number of light sources can be reduced. That is, in the conventional apparatus shown in FIG. 8, when the LCD panel 6 is illuminated by changing the illumination color between daytime and nighttime, two types of light sources are used as the first light source 7, that is, for daytime use having different illumination colors. Therefore, the number of the first light sources increases because a light source for night time is required. On the other hand, in the present invention, the illumination colors of the first and second light sources 7 and 8 are changed so that the LCD panel 6 is illuminated by the second light source 8 at night. Light source for nighttime use, and the number of light sources for nighttime use can be reduced.

In the present invention, since the brightness is adjusted by the inclined surface 70 formed on the light guide plate 28,
It is possible to illuminate the entire transmissive light emitting portions 45A and 45B at a uniform brightness at night. That is, with respect to the illumination of the transmissive light-emitting portion 45A of the display panel 3, light incident on the light guide plate 28 from the light incident surface 64a at a large incident angle and reflected on the rear surface near the light incident surface 64a is incident on the light incident surface 64a. Exit to the surface side close to.
On the other hand, light having a small incident angle is reflected by the back surface of the light guide plate farther than the light incident surface and is guided far. Therefore, the amount of light attenuation is larger than that of light having a large incident angle. For this reason, the transmission light emitting section 4
The portion 45a closest to the 5A light source (the mesh portion in FIG. 1)
Is the brightest, and the brightness gradually decreases as the distance from the light source increases.

In such a case, black dots are conventionally printed on the back surface of the display panel 3 as described above, and the density of the dots is increased near the light source, and is increased as the distance from the light source increases. The brightness is adjusted by roughening, or the stippling (small conical concave portion) is performed on the back surface of the light guide plate. Brightness was adjusted by increasing the density.

However, the adjustment of brightness by halftone printing is
Since the brightness of the bright part is reduced to match the dark part, the brightness of the entire display panel becomes dark. In addition, the manufacturing cost of the display panel 3 increases due to the halftone dot printing. Similarly, in the case of stippling, there is a problem that the manufacturing cost of the mold is increased.

Therefore, if the inclined surface 70 is formed between the light entrance surface 64a and the back surface of the light guide plate 28 as shown in FIG. And cuts out light incident on the light guide plate 28 from the light incident surface 64a, particularly light having a large incident angle. In this case, when the inclination angle θ (FIG. 6) of the inclined surface 70 is equal to or larger than the critical angle of light, light having a large incident angle is reflected at the inclined surface 70 at a critical angle (total reflection). For this reason, the amount of light that enters the light guide plate 28 at a larger incident angle than the light incident surface 64a decreases, and the light incident surface 64a
, The brightness of the portion 45a closest to. on the other hand,
Light with a small incident angle enters the light guide plate 28 as it is from the light incident surface 64a, and the reflection film 69 on the back surface side of the light guide plate 28
When the light is reflected by the light source, the light is guided far away, so that the brightness of a portion far from the light source does not decrease. As a result, the brightness of the portion far from the light source relatively increases, so that
The overall brightness becomes uniform and good nighttime illumination can be obtained.

In FIG. 6, the inclination angle θ of the inclined surface 70 is shown.
Has been described above, but the inclination angle θ may be set to be equal to or smaller than the critical angle as shown in FIG. In this case, although the decrease in the amount of light incident on the light guide plate 28 is small, light having a large incident angle from the light incident surface 64a into the light guide plate 28 is reflected by the inclined surface 70 and guided far.
The amount of light emitted to the front side closer to the light incident surface 64a is reduced,
The amount of light guided to distant parts increases. Therefore, also in this case, by setting the inclination angle θ of the inclined surface 70 to the optimum angle, the entire transmission light emitting unit 45A can be illuminated with uniform brightness.

In the above-described embodiment, an example is shown in which light bulbs are used as the first and second light sources 7 and 8. However, the present invention is not limited to this, and light diffusion type LEDs may be used. In the above-described embodiment, the second light source 8 is inserted into the insertion hole (light incident portion) 64 formed in the light guide plate 28 so that the light source is disposed in the same plane as the light guide plate. Although an example in which the inner surface of the hole 64 is a light incident surface 64a is shown, the present invention is not limited to this, and the light incident surface is formed by forming a concave portion whose inner surface forms a light incident surface at the end surface of the light guide plate. A second light source 8 is disposed at the light incident portion, and the light is guided from the light incident surface into the light guide plate 28, or the end surface of the light guide plate 28 is used as the light incident surface, and the light incident surface is opposed to the light incident surface. To provide a reflection surface (member) between the two surfaces or in a recess formed in the end surface.
The light source 8 may be disposed, and the light may be reflected by the reflection surface and guided into the light guide plate 28 from the light entrance surface.

[0037]

As described above, according to the instrument display device of the present invention, the light source is disposed in the same plane as the light guide plate, and the light from the light source is guided to the light guide plate and the LCD. Therefore, the display plate and the LCD can be illuminated. Further, in the present invention, since the inclined surface is formed on the light guide plate, it is possible to uniformly illuminate the transmissive light emitting portion of the display panel over the entirety. And the light guide plate can be manufactured at low cost. Also,
Since the second light source is used as the illumination light source at night and the liquid crystal display device and the display panel are configured to be illuminated in common, the light source is used when the liquid crystal display device is illuminated with different illumination colors during the daytime and at nighttime. Advantageously, the number can be reduced.

[Brief description of the drawings]

FIG. 1 is a front view showing an embodiment of an instrument display device according to the present invention.

FIG. 2 is a sectional view taken along line II-II of FIG.

FIG. 3 is a sectional view taken along line III-III in FIG. 1;

FIG. 4 is a sectional view taken along line IV-IV of FIG. 1;

5 (a), (b), (c) are front views of a light guide plate,
It is an AA line sectional view, and a BB line sectional view.

FIG. 6 is an enlarged sectional view of a main part at the time of night illumination.

FIG. 7 is an enlarged cross-sectional view of a main part showing another embodiment.

FIG. 8 is a sectional view of a conventional instrument display device.

[Explanation of symbols]

2 ... case, 3 ... display board, 4 ... facing board, 6 ... LCD panel, 7 ... first light source, 8 ... second light source, 20 ... instrument display device, 22 ... rotometer, 23 ... speedometer, 28: light guide plate, 45A, 45B: transmissive light emitting part, 70: inclined surface.

 ──────────────────────────────────────────────────続 き Continued on the front page F-term (reference) 2F074 AA01 AA10 BB01 CC02 DD03 EE02 EE03 FF01 GG06 GG08 3D044 BA21 BA26 BB01 BC07 BD02 5C096 AA05 AA12 AA27 AA28 BA01 BA02 BB11 BB12 BB18 BC02 CA18 CD02 CD23 CD42 CD57 CE02 DA01 DA03 DC02 DC19 DD03 FA11

Claims (4)

[Claims] 1. A display device comprising: a display plate; a light guide plate disposed on a back surface of the display plate; a liquid crystal display device; and a light source that illuminates the display plate and the liquid crystal display device. A display device for an instrument, wherein the display device is arranged on the same plane as the light guide plate, so that part of the light source illuminates the liquid crystal display device and part of the light is guided to the light guide plate. . 2. The instrument display device according to claim 1, wherein an inclined surface is formed between the light incident surface of the light guide plate through which light from the light source enters and the back surface. 3. A display plate, a light guide plate disposed on a back surface of the display plate, a liquid crystal display device, a first light source for illuminating the liquid crystal display device during daytime, the display plate and the liquid crystal. A second light source that illuminates the display device at night, and is arranged such that a part of the light of the second light source illuminates the liquid crystal display device and a part of the light is guided to the light guide plate. A display device for an instrument, comprising: 4. The instrument display device according to claim 3, wherein illumination colors of the first light source and the second light source are different.