JPH02285389A - Display device - Google Patents

Abstract

PURPOSE:To achieve uniform display and bright illumination by disposing a light-up composed of a light transmission body and a multi-prism sheet on the back of a light transmitting display board. CONSTITUTION:This display device is provided with the light-up 1 and the light transmitting board 2. The light-up 1 is composed of the bar-like light transmission body 10 and the multi-prism sheet 11 provided thereon. A light reflecting layer 12 is placed on all the surfaces except the light incident surface 10A and light emitting surface 10B of the light transmission body 10, and incident light repeats reflection and comes out of the light emitting surface 10B while transmitting. The multi-prism sheet 11 is placed on the light emitting surface 10B of the light transmission body 10, is provided with prism groups perpendicular to the advancing axis of the light, concentrates light made incident in the oblique direction on a prescribed direction and emits it. Consequently, display on the light transmitting board 2 is illuminated from the back to obtain a sufficient, desired brightness. Simultaneously, display of high uniformity is attainable.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a display device for illuminating a display on a display panel, instrument panel, etc. of audio equipment, vehicles, industrial equipment, etc.

(Prior art) In the above-mentioned display panels and instrument panels, it is widely practiced to illuminate the display provided there, but in many cases, a display is printed on a transparent display board, and the display is displayed according to the display. The bottle is made from a lamp with a light source (T, +l1fI) placed on the back. However, due to internal mechanisms, it is often impossible to arrange light sources according to individual displays9, and a light guide plate made of transparent plastic is sometimes used. However, this light guide plate lacks versatility because it is necessary to prepare a light guide plate that is suitable for each individual device, and in particular, it cannot be used for display devices that are produced in a wide variety of small quantities due to cost considerations.

For this reason, recently, a method has been proposed in which a large number of optical fibers are arranged in a band shape, a portion corresponding to the display section is photometrically processed, and the area is illuminated with light guided by the optical fiber.

(Problem S to be solved by the invention) However, in the display device using the optical fibers described above, the optical fibers are arranged in a strip shape to form a light leakage area, and a sufficiently large brightness cannot be obtained especially in the fine display areas. However, there were also restrictions on changing the brightness of the multiple display sections.

In view of this situation, the present invention has been developed to provide a display with sufficient brightness and high uniformity by combining an optical fiber as an optical transmission path.
This is an attempt to solve the above-mentioned problems and provide nine display devices.

(Means for solving the problem) That is, the present invention has at least one side end as a light entrance surface,
and a light guide in which the incident light is repeatedly reflected and guided to exit from the light output surface, and a group of prisms provided on the light output surface of the light guide and perpendicular to the traveling axis of the light. A light trap consisting of a multi-prism sheet that enters from an oblique direction and has the function of concentrating and emitting guided light in a predetermined direction is arranged on the back surface of the transparent display board and directly or indirectly on the light entrance surface. A display device characterized in that a light source is exposed so that characters, symbols, etc. on a transparent display board can be illuminated.

(Example) An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a perspective view of the display device of the present invention seen from the front side, and FIG. 2 is a perspective view of the display device of the present invention seen from the back side.
) is a light trap, and (2) is a transparent display board.

Of these, the light trap (1) is a rod-shaped light guide (1
0) and the multi-prism sea installed on its top surface)
(11) 9, and a light reflective layer (12) is provided on all surfaces of the light guide (10) except for the light incident surface (10mm) and the light exit surface (10B). ing. The light guide (10) in this example is made of a light-transmitting medium, more specifically, a transparent synthetic resin such as acrylic resin, polycarbonate resin, styrene resin, or vinyl chloride resin, or inorganic glass. Therefore, this light guide (10
) is incident from the light incident surface (10mm) at an angle (α) of 10 to 2
0° Angle (β) with respect to the normal to the interface: 70 to 80
The light is reflected repeatedly while traveling at a speed of about 100°, and is emitted from the roughened light emitting surface (10B). This emitted light is almost not in the normal direction to the interface, and is 60 to 60 degrees from the normal.
Emission is concentrated in the 80' direction. Therefore, since the brightness in the normal direction of the light exit surface (10B) is not maintained in this view, in the present invention, a multi-prism V is provided on this surface with a prism group perpendicular to the light traveling axis. -) (11
). This multi-prism sheet (11) is
Since light incident from an oblique direction is focused and emitted in a predetermined direction (for example, the normal direction), this surface can be uniformly and brightly illuminated. Note that this multi-prism (11) can also be made of the same material as the light guide (10) described above.

Note that the light guide (10) in the above example has a structure in which light travels within the target body, but the light guide (10) itself is substantially made of air, and the interface is not exposed to light or an anti-layer. It is also possible to guide the light while reflecting it, and in this case, the light exit surface may be provided by providing a slit or the like.

In the present invention, lamps may be installed opposite to each light incident surface (10A) of such a light trap (1) to uniformly and brightly illuminate the display area, but it is also possible to use an optical fiber as an optical transmission path. It is more effective to simultaneously illuminate multiple displays using a single light source, and the illustrated embodiment has such a configuration.

That is, the light guide (10
) A light incident end (10A) is attached with an Ic optical fiber (4) to allow light from a point light source to enter indirectly. That is, the incident end (4A) of a tenohalogen lamp (31) used as a light source is made to face, and each branched outgoing end (4B) is made to face the light incident surface (IOA).
They are connected by a connector (5).

As shown in FIG. 2, the light trap (1) is attached to the back surface of the translucent display panel (2) corresponding to the display using adhesive or other attachment tools.

Here, as the transparent display board (2), Aku! A plate material such as J/I/resin, polycargenee F resin, or vinyl chloride/L' resin is used, and the back side of this material is coated with an extractable print by a swallow print layer (21) and a white print layer, as shown in Fig. 3, for example. (2
2) Appropriate indications are given throughout.

Now, when the lamp (31) of the light source device (3) is turned on, the light guided by the optical fiber (4) enters from the light incidence surface (10 mm) of the light trap (1) and wraps (1). The light is emitted from the light emitting surface (10B) and illuminates the nine display (20) provided on the transparent display plate (2). Note that (12) in the figure indicates the reflection m, (3) for shielding provided near the light incidence surface (10A) of the light trap (1)
2) indicates a cooling fan, and (S3) indicates a connector.

In such embodiments, the optical fibers used (4
) The display brightness can be adjusted by adjusting the number or cross-sectional area.

For example, in the example shown in FIGS. 1 and 2, "ABO
I) When trying to illuminate both the J display (20) and the [JKLJ display (20) with the same brightness, this can be achieved by making the number of branched optical fibers (4) equal, and l'f ? If you want to illuminate only the GHJ display (20) with higher brightness than the pond, use this optical fiber (
4) can be achieved by increasing the number of light sources, and both can be achieved using a single light source.

Note that when using an optical fiber (4), the transmission loss varies depending on the length, so the length must also be taken into consideration when achieving equal brightness.

(Concrete example) A specific example will be described below.

(1) Light source device manufactured by Mitsubishi V-Ion Corporation [Escha-I-Minator mt-050J with a built-in 50W halogen lamp was used.

(2) The following four types of rods were cut out from the Light Trap transparent acrylic/L/resin plate. (ai position lll1) -6XAX65 (I type), ・6X6X115 (n type), Φ6X6X170 (I type), ・X6x220 (■ type) And 6×65.6X115.6X17 of these bars
The 0.6 x 220 - side was uniformly roughened using 4OO sandpaper to form a light emitting surface (see Fig. 8). In addition, the I type and n type have one 6x6 surface as a light entrance surface, the l type and ■ type have both 6x6 surfaces as light entrance surfaces, and all surfaces except the light exit surface and the light entrance surface have A reflective film made of polyester film having a thickness of 25 μm and having a silver vapor deposition was attached.

Apart from this, transparent acrylic A/lljili with a thickness of 1.
wV-), a multi-prism g/+1 with prism angles of 31.5° (vertical angle of 63 prism groups) as shown in FIG. 10 was manufactured by a hot press method. From this sea), as shown in Figure 9, 6
Four types of multiprisms (V-) of x65.6 x 115.6 x 170.6 x 220 (m) were cut out.

Then, stack the multiprisms y +l l- so that the prism group is in contact with the light exit surface of the light guide, cover the end 10- of the multiprism sheet close to the light incidence surface with reflective tape, and cover the multiprism sheet with reflective tape. Transparent double-sided adhesive tape was attached from both ends of the surface with a width of 10w1.

In addition, in order to facilitate installation with optical fiber,
A connector made of polished aluminum plate as shown in the figure was prepared and fixed to the light incident surface side of the bracket.

(3) Optical fiber used as an optical transmission line Optical fiber manufactured by Mitsubishi V-Illon with a diameter of α2■
200 fibers were arranged to have a length of 600 square meters, one end was converged into one, and the other end was branched into six condensers as shown in Table 1 below.

The input end of the optical fiber focused at one end in Table 1 was fixed to the light source device, and the output end branched into six was fixed to the light input surface of each light trap with an adhesive via a connector.

(4) Measurement of brightness The light wrap obtained as described above was placed in a dark room, and the brightness at the center of the wrap was measured. Note that the measurement of brightness is
The measurement was carried out using a Minolta luminance meter "nt-IJ" with a viewing angle of 1° and a spot diameter of 2wlφ.

Table 2 shows the results.

Table 2 The brightness shown in this table is the value when the area of the light trap and the number of optical fibers are proportional and equivalent.
3000 (1/-) It can be seen that the brightness is approximately equal inside and outside.For comparison, when the multi-prism sheet of the light trap used for the ■ type was removed and the brightness was measured in the same way, it was 42 ad/ m" L/Kanaru, the brightness of the present invention is about 8 lumens.

(5) Production of display device Alphabet letters were cut out and printed on a transparent acrylic resin plate (300 x 300 cm) with a thickness of 1 haze using ring ink, and then the entire surface was printed using white ink to display a display. The size of the letters at this time is 5 x 5-, the spacing between letters is 5 m, and 1
With a maximum of 25 characters in a line and a line spacing of 5, 25 lines were stamped n11.

A display device was fabricated by fixing the above-mentioned four types of Vuit Draps to the back surface of such a transparent display board using a transparent double-sided adhesive tape. When the resulting display device was observed from the front side, it was found that the brightness of the characters illuminated by the light traps was highly uniform with no unevenness.

Although the present invention has been described above based on embodiments and specific examples, the content of the present invention is not limited to these examples, and modifications can be made by the woodcutter. For example, as the light source (31) of the present invention, various kinds of wraps can be used instead of a halogen lamp.
In addition to the above-mentioned synthetic resin materials, inorganic glass can also be used for the multi-magnetic prism cut (11). In this case, the shape of the prism in (11) also depends on the direction in which the light incident from an oblique direction is concentrated in a direction perpendicular to the multiprism V-1-(11) or in an arbitrary direction. Then, the prism angle and its shape can be set.

(Effects of the Invention) Since the present invention has the configuration as described in detail above, the display provided on the transparent display board can be uniformly and brightly illuminated by using the unique light trap, and The degree of brightness can be kept the same or changed, and it is particularly suitable for use as a display device in which light from a light source is indirectly incident using an optical fiber as an optical transmission path, and has the advantage of providing a device with high practical value. be.

[Brief explanation of drawings]

Fig. 1 is a perspective view showing an embodiment of the present invention, Fig. 2 is a perspective view similarly seen from the back side, Fig. 3 is an enlarged sectional view showing a part of the transparent display board, and Fig. 4 is a light trap. 3 is an enlarged sectional view taken along the v-v line in FIG. , FIG. 8 and FIG. 9 are TL diagrams of the light guide and multiprism sheet used in the specific example, FIG. 10 is a partially enlarged sectional view of the multiprism sheet, and FIG. 11 is a perspective view of the connector used in the specific example. It is a diagram. (1)...Light trap (10)...Light guide (10A)...Light incident surface (10B)...Light exit surface (11)...Multi-prism sheet (12)... Light reflective layer (film) (2)...Transparent display board (3)...Light source device (4)...Optical fiber patent applicant Mien V Imin Co., Ltd. Agent Attorney
Satoshi Yoshizawa Fufu 1 figure bird 4 figure deity, 6 figure spoon 7 figure/

Claims (1)

[Scope of Claims] 1. A light guide having at least one side end as a light entrance surface and in which the incident light is repeatedly reflected and guided to exit from the light exit surface, and the light guide Provided on the light emitting surface of the body,
A light trap consisting of a multi-prism sheet, which is equipped with a group of prisms perpendicular to the axis of propagation of light and has the function of concentrating and emitting light incident from an oblique direction in a predetermined direction, is disposed on the back side of the transparent display board. A light source is directly or indirectly facing the light incident end, and the characters on the transparent display board are
A display device characterized in that a display of symbols, etc. can be illuminated. 2. The display device according to claim 1, further comprising a color filter interposed between the light trap and the transparent display plate. 3. A display device according to claim 1 or 2, characterized in that the light from the light source is guided by an optical fiber, and its output end faces the light input end of the light trap. 4. A plurality of light traps are disposed on the transparent display board, and the number or cross-sectional area of the optical fibers facing these light traps are made substantially equal so that the brightness of illumination is made substantially equal. Display device as described. 5. The display according to claim 3, characterized in that a plurality of light traps are arranged on the transparent display plate, and the brightness of illumination is changed by changing the number or cross-sectional area of the optical fibers facing these light traps. Device.