JPH11202330A - Back light unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a back light unit capable of uniformly illuminating the display surface of an electronic equipment without causing any luminance irregularities. SOLUTION: The display surface of the electronic equipment is illuminated from a back surface through a light guide plate 1 by an illumination light source constituted of the fluorescent tube 2 of a straight tube type and auxiliary light sources 7a and 7b composed of white LEDs disposed near both electrodes of the fluorescent tube 2. By setting the emitted light intensity of the fluorescent tube 2 by a drive circuit 5 and respectively independently adjusting the emitted light intensity of the auxiliary light sources 7a and 7b by the drive circuit 6, the partial decline of th luminosity of illumination light from the light guide plate 1 by the decline of the luminosity near both electrodes of the fluorescent tube 2 is compensated, the display surface of the electronic equipment is uniformly illuminated without causing any luminance irregularities at all times and a user clearly confirms the display image of the display surface and efficiently utilizes the electronic equipment.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a backlight unit for illuminating a display surface of an electronic device from behind through a light guide plate with an illumination light source.

[0002]

2. Description of the Related Art In a backlight unit for illuminating a display surface of an electronic device composed of a liquid crystal display panel or the like from behind through a light guide plate, a light guide plate formed of a light guide material such as acrylic on the back surface of the display surface. And a side edge type backlight unit in which a straight tube type fluorescent tube is arranged in close proximity to the peripheral end surface of the light guide plate. In this type of backlight unit, irradiation light from a straight tube-type fluorescent tube is transmitted through a light guide plate, and the display surface of the electronic device is illuminated from the back through the light guide plate.

[0003]

Generally, in a straight tube type fluorescent tube 2, as shown in FIG. 4, an effective emission length Le exists between the electrodes 8a and 8b, and another effective length Le is present near the electrodes 8a and 8b. There is a portion where the luminous efficiency is lower than the portion. For this reason, in the side-edge type backlight unit, a phenomenon of shading occurs in which the luminous intensity decreases near the electrode of the fluorescent tube and darkens, the brightness of the edge of the light guide plate decreases, and the edge of the display surface is partially May darken.

To avoid this shading phenomenon,
Although it is preferable to use a fluorescent tube that has a sufficient effective emission length without a decrease in luminous efficiency, this causes a problem that the entire backlight unit becomes large.

The present invention has been made in view of the current state of operation of this type of backlight unit as described above, and its object is to illuminate the display surface of electronic equipment uniformly without uneven brightness. A backlight unit.

[0006]

To achieve the above object, the present invention provides a backlight unit for illuminating a display surface of an electronic device from the back through a light guide plate by an illumination light source. The present invention is characterized in that there is provided a light emission intensity partial adjustment means for compensating for a partial decrease in luminous intensity of the illumination light.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [First Embodiment] A first embodiment of the present invention will be described with reference to FIG. FIG. 1 is an explanatory diagram showing the configuration of the present embodiment.

In this embodiment, as shown in FIG. 1, a straight tube type fluorescent tube 2 serving as a main light source is disposed in close proximity to the peripheral end surface of a side edge type acrylic light guide plate 1. On the back surface of the fluorescent tube 2, a reflector 3 for reflecting light emitted from the fluorescent tube 2 in the direction of the light guide plate 1 is provided. The fluorescent tube 2 has a drive for driving light emission of the fluorescent tube 2. Circuit 5
Is connected. In the vicinity of the two electrodes of the fluorescent tube 2, white LEDs are provided as auxiliary power supplies 7a and 7b, respectively.
A drive circuit 6 for independently controlling the light emission of a and 7b is connected.

The operation of this embodiment having the above configuration will be described. In the present embodiment, driving power is supplied from the drive circuit 5 to the fluorescent tube 2 via both electrodes, and the fluorescent tube 2 emits light and the light incident from the peripheral end surface of the light guide plate 1 is transmitted through the light guide plate 1. Radiation from the surface of the light guide plate 1
A display surface of an electronic device (not shown) is illuminated from the back. At this time, in the present embodiment, the luminous intensity of the illumination light near the two electrodes of the fluorescent tube 2 is reduced by controlling the drive circuit 6 to adjust the luminous intensity of the auxiliary power sources 7a and 7b, respectively. Of the illumination light in the vicinity of the two electrodes.
In this way, the control conditions of the drive circuit 6 are selected so that the brightness of the entire surface of the light guide plate 1 becomes uniform, and the selected control conditions are set in the drive circuit 6. In this way,
According to the present embodiment, there is provided a backlight unit in which a decrease in luminous intensity of illumination light in the vicinity of both electrodes of fluorescent tube 2 is compensated, and illumination light is emitted with uniform luminance from the entire surface of light guide plate 1. .

As described above, according to the present embodiment, the auxiliary electrode 7 is located near both electrodes of the straight tube type fluorescent tube 2.
Since the auxiliary electrodes 7a and 7b compensate for the decrease in the luminous intensity of the illumination light generated near the two electrodes of the fluorescent tube 2 by controlling and adjusting the drive circuit 6, the entire surface of the light guide plate 1 is covered. The illumination light is emitted at a uniform luminance, and the display surface of the electronic device is illuminated with this illumination light from the back, and the display surface such as a liquid crystal display panel is uniformly illuminated. It is possible to efficiently use the electronic device by illuminating the electronic device in a uniform manner without any problem, and allowing the user of the electronic device to clearly check the display image on the display surface.

[Second Embodiment] A second embodiment of the present invention will be described with reference to FIG. FIG. 2 is an explanatory diagram showing the configuration of the present embodiment.

In this embodiment, as shown in FIG. 2, a plurality of white LEDs are provided in close proximity to the peripheral end surface of a side edge type acrylic light guide plate 1 and a plurality of white light sources 12a, 12a.
b, 12c, 12d are arranged at equal intervals,
On the back of these partial light sources 12a to 12d, there is provided a reflector 3 for reflecting the radiated light from the partial light sources 12a to 12d in the direction of the light guide plate 1. The partial light sources 12a to 12d have the partial light source 12a. A drive circuit 13 for independently controlling the light emission of each of the pixels 12 to 12d is connected.

The operation of this embodiment having the above configuration will be described. In the present embodiment, drive power is independently supplied to the partial light sources 12a to 12d from the drive circuit 13, and the light emitted from the partial light sources 12a to 12d and incident from the side end surface of the light guide plate 1 And the light is radiated from the surface of the light guide plate 1 to illuminate the display surface of the electronic device (not shown) from the back. At this time, in the present embodiment, by controlling the drive circuit 13, the luminous intensity of each of the partial light sources 12a to 12d is adjusted, and the light guide plate 1 is adjusted.
The control conditions of the drive circuit 13 are selected so that the brightness of the entire surface of the drive circuit 13 becomes uniform, and the selected control conditions are changed to the drive circuit 1.
Set to 3. In this way, by setting predetermined control conditions in the drive circuit 13, the partial light sources 12a to
A backlight unit is provided in which the luminous intensity of 12d is adjusted and set, and illumination light is emitted from the entire surface of the light guide plate 1 with uniform luminance.

As described above, according to the present embodiment, the partial light sources 12a to 12a are opposed to the peripheral end surface of the light guide plate 1.
12d are arranged linearly, the luminous intensity of the partial light sources 12a to 12d is adjusted and set by the control adjustment of the drive circuit 13, and the entire surface of the light guide plate 1 emits illumination light with uniform brightness, and the display surface of the electronic device is Illuminated from the back with this illumination light, the display surface composed of a liquid crystal display panel etc. is evenly illuminated, and the display surface of the electronic device is always illuminated uniformly without uneven brightness. Is clearly confirmed, and the electronic device can be used efficiently.

Third Embodiment A third embodiment of the present invention will be described with reference to FIG. FIG. 3 is an explanatory diagram showing the configuration of the present embodiment.

In this embodiment, as shown in FIG. 3, a reflecting plate 15 also serving as a wiring board is provided opposite to the plate surface of the thin light guide 1A. , A plurality of sets of partial light sources 16a to 16c, 17a to 17c, 18a to 1
8c are arranged so that the respective partial light sources are arranged in a matrix, and the drive circuit 20 independently controls the luminous intensity of each of the partial light sources 16a to 16c, 17a to 17c, and 18a to 18c. Connected to the individual partial light sources.

The operation of this embodiment having such a configuration will be described. In the present embodiment, the drive circuits 20 output the partial light sources 16a to 16c, 17a to 17c, 18a to 18c
Is supplied with drive power independently of each other,
16c, 17a to 17c, and 18a to 18c emit light, and light incident from the back surface of the light guide plate 1A is transmitted through the light guide plate 1A and radiated from the surface of the light guide plate 1, whereby an electronic device (not shown) Is illuminated from behind. On this occasion,
In the present embodiment, by controlling the drive circuit 20, the partial light sources 16a to 16c, 17a to 17c, 18
The control conditions of the drive circuit 20 are selected so that the luminance of the entire surface of the light guide plate 1A is uniform by adjusting the luminous intensity of each of a to 18c, and the selected control conditions are set in the drive circuit 20. Thus, the drive circuit 2
By setting a predetermined control condition to 0, the partial light source 1
A backlight unit is provided in which the luminosity of 6a to 16c, 17a to 17c, and 18a to 18c is adjusted and set, and illumination light is emitted from the entire surface of the light guide plate 1A with uniform luminance.

As described above, according to the present embodiment, the reflection plate 15 is disposed opposite to the back surface of the light guide plate 1A, and the partial light sources 16a to 16c and 17 are disposed on the reflection plate 15.
a to 17c and 18a to 18c are arranged linearly, and the respective partial light sources are arranged in a matrix.
The light intensities of 16c, 17a to 17c, and 18a to 18c are adjusted and set, the entire surface of the light guide plate 1A emits illumination light with uniform luminance, and the display surface of the electronic device is illuminated from behind with this illumination light. The display surface, which is composed of such devices, is evenly illuminated, and the display surface of the electronic device is always illuminated evenly and uniformly, so that the user of the electronic device can clearly check the display image on the display surface and efficiently use the electronic device. It can be used for

[0019]

According to the backlight unit according to the first aspect of the present invention, the display surface of the electronic device is illuminated by the illumination light source from the back through the light guide plate by the illumination light source. Since the partial decrease in the luminous intensity of the illumination light from the light guide plate is compensated, the display surface of the electronic device is always illuminated uniformly without unevenness, and the user of the electronic device clearly checks the display image on the display surface. Thus, it is possible to efficiently use the electronic device.

According to the backlight unit of the second aspect of the present invention, the electronic apparatus includes an illumination light source including a straight tube-type fluorescent tube and an auxiliary light source disposed near both electrodes of the fluorescent tube. Is illuminated from the back side by an illumination light source via a light guide plate, but the luminous intensity of the auxiliary power source is independently adjusted by the luminous intensity portion adjusting means, whereby a portion of the illuminating light from the light guide plate is adjusted. Luminous intensity is compensated for, so that the display surface of the electronic device is always illuminated evenly and uniformly, and the user of the electronic device can clearly check the display image on the display surface and use the electronic device efficiently. It becomes possible to do.

According to the backlight unit of the third aspect of the present invention, the display surface is provided from the back surface via the light guide plate by the illumination light source composed of a plurality of partial light sources disposed close to the display surface of the electronic device. Although the light is illuminated, the luminous intensity of the plurality of partial light sources is independently adjusted by the luminous intensity partial adjusting unit, thereby compensating for a partial decrease in luminous intensity of the illumination light from the light guide plate. The display surface of the device is uniformly illuminated without luminance unevenness, so that the user of the electronic device can clearly check the display image on the display surface and use the electronic device efficiently.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing a configuration of a first exemplary embodiment of the present invention.

FIG. 2 is an explanatory diagram illustrating a configuration of a second exemplary embodiment of the present invention.

FIG. 3 is an explanatory diagram illustrating a configuration of a third exemplary embodiment of the present invention.

FIG. 4 is an explanatory diagram showing a configuration of a straight tube type fluorescent tube used in a backlight unit.

[Explanation of symbols]

1, 1A: light guide, 2: fluorescent tube, 3: reflector, 5, 6, ...
Drive circuits, 7a, 7b: auxiliary light sources, 12a to 12d
... partial light source, 13 ... drive circuit, 15 ... reflector, 16
a to 16c: partial light source, 17a to 17c: partial light source, 1
8a to 18c: partial light source, 20: drive circuit.

Claims (3)

[Claims] 1. A backlight unit for illuminating a display surface of an electronic device from a back surface through a light guide plate with an illumination light source, and a light emission intensity portion for compensating for a partial decrease in luminous intensity of illumination light from the light guide plate. A backlight unit comprising adjusting means. 2. The backlight unit according to claim 1, wherein the illuminating light source comprises a straight fluorescent tube and an auxiliary light source disposed near both electrodes of the fluorescent tube, and the luminous intensity is high. A backlight unit, wherein the partial adjusting means independently adjusts the light emission intensity of the auxiliary power supply. 3. The backlight unit according to claim 1, wherein the illumination light source is constituted by a plurality of partial light sources disposed in proximity to the display surface, and the light emission intensity partial adjusting means is controlled by the plurality of partial light sources. A backlight unit characterized by independently adjusting the light emission intensity of each.