JP4383145B2 - Light unit - Google Patents

Description

  The present invention relates to a light unit that irradiates a display panel with light emitted from a light source via a light guide plate.

  In general, a liquid crystal display device includes a light unit for irradiating a liquid crystal display panel with irradiation light.

  In this light unit, a light source is provided in the vicinity of the side surface of the light guide plate, and the liquid crystal display panel is irradiated with irradiation light emitted from the light source to one side of the light guide plate. It is supposed to be.

  Among such light units, for example, to irradiate irradiation light onto a medium-sized liquid crystal display panel having a diagonal length of about 13 to 23 cm (about 5 to 9 inches) used in an in-vehicle liquid crystal display device. Generally, a CFL tube (Cathode Fluorescent Lamp) is used as a light source provided in the light unit.

  Here, mercury is currently used for light emission in many CFL tubes, but from the viewpoint of environmental protection, use of a light source that does not use mercury is desired. Therefore, it is considered to use an LED (Light-Emitting Diode) instead of the CFL tube as a light source.

  As this LED, irradiation light is irradiated to a small liquid crystal display panel having a diagonal length of about 5 to 8 cm (about 2 to 3 inches) currently used in a liquid crystal display device of a mobile phone or a PDA. A small LED is mainly manufactured, and it is considered to use the small LED as a light source of a light unit that irradiates a medium-sized liquid crystal display panel used in the above-described vehicle-mounted liquid crystal display device.

  However, in a small-sized liquid crystal display panel used for a cellular phone or the like, a light guide plate having a thickness of about 1 to 1.5 mm can be used to sufficiently irradiate the entire surface, while an in-vehicle liquid crystal display device or the like. In order to sufficiently irradiate the entire surface of the medium-sized liquid crystal display panel used in the above, a light guide plate having a thickness of about 2 to 3 mm needs to be used.

  Therefore, as shown in FIG. 4, in the conventional light unit 20, for example, when the small LED 22 is disposed near the side surface 21 a of the light guide plate 21 having a thickness of 3 mm, the small LED 22 is a lower part of the side surface 21 a of the light guide plate 21. Will be opposite.

  Here, in general, the irradiation light from the light source can be efficiently incident on the side surface 21a of the light guide plate 21 because the central portion where the irradiation light from the light source is irradiated is in the thickness direction of the side surface 21a of the light guide plate 21. Although it is a case where it is arrange | positioned facing a center part, according to the above-mentioned conventional light unit, the irradiation light from the said small LED22 will be irradiated centering on the lower part in the side surface 21a of the said light-guide plate 21. FIG. It will be. For this reason, there existed a problem that the irradiated light from small LED22 could not be efficiently entered in the light-guide plate 21. FIG.

  The present invention has been made in view of these points, and provides a light unit capable of obtaining a bright and good display on a display panel by efficiently making irradiation light from a light source incident on a light guide plate. Objective.

In order to achieve the above object, the light unit according to the present invention is characterized by a light guide plate, a light source that is provided in the vicinity of the side surface of the light guide plate and that irradiates light on the side surface of the light guide plate, and irradiation light in the light source. have a light source position adjusting means center adjusts the position of the light source so as to face the central portion in the thickness direction of the side surface of the light guide plate for irradiating, transfer heat said light source is emitted to the other member And / or an air formed by a high heat transfer material provided with a heat dissipating part for releasing the heat, wherein the heat dissipating part is disposed at a position corresponding to the light source, and a portion where no high heat transfer material is provided. And the light source position adjusting means is composed of a position adjusting wiring board and the high heat transfer material .

In the light unit according to the present invention, the position adjustment wiring board and the other member may be attached by the high heat transfer material .

Furthermore, a plurality of through holes for releasing heat generated by the light source to the outside of the frame body may be formed in a bottom wall of the frame body on which the other member is disposed. A hole may be formed corresponding to the position of the position adjusting wiring board.

Further, the other member may be PWB, and a signal may be supplied from the PWB to the light source.

  According to the light unit of the present invention, the light source is placed on the light source position adjusting means, and the central portion that irradiates the irradiation light faces the central portion in the thickness direction of the light guide plate. The irradiation light irradiated by the light source can be efficiently incident on the light guide plate.

  Further, when an LED is used as the light source, the LED has a property of shortening the life due to heat generated when irradiated with light, but according to the present invention, the LED emits when irradiated with irradiated light. Since heat can be transmitted or released through the heat radiating portion, it is possible to prevent the heat generated by the LED from being accumulated in the LED and to extend the life of the LED.

  As described above, according to the light unit of the present invention, the illumination light from the light source is efficiently incident on the light guide plate, and the display panel is irradiated with the illumination light from the light guide plate so that the display panel is bright and good. Display can be obtained.

  Embodiments of a light unit according to the present invention will be described below with reference to FIGS. Here, in the present embodiment, a backlight unit that irradiates the liquid crystal display panel with irradiation light from the back side of the in-vehicle liquid crystal display panel having a diagonal length of about 23 cm (9 inches) is used. I will explain.

  FIG. 1 is a schematic exploded perspective view showing a backlight unit in the present embodiment, and FIG. 2 is a cross-sectional view taken along line AA showing the backlight unit in FIG.

  As shown in FIG. 1 and FIG. 2, the backlight unit 1 has a box-shaped frame 3 disposed on the back surface of the liquid crystal display panel 2 so that the opening is opposed to the base, and the base body in the frame 3. A PWB (Printed Writing Board) 5 is provided on 3a.

  On the front side of the PWB 5, a light guide plate 6 having a size facing the display unit of the liquid crystal display panel 2 is provided. The light guide plate 6 has a diagonal length of about 23 cm (9 inches). A light guide plate 6 having a thickness of 3 mm is used to irradiate the liquid crystal display panel 2 with sufficient irradiation light.

  In the vicinity of the side surface 6a of the light guide plate 6, the length of the diagonal is about 5 to 8 cm (2 to 3 inches) as a light source for irradiating the side surface 6a of the light guide plate 6 with irradiation light. A small LED 8 for irradiating the small liquid crystal display panel 2 with irradiation light is provided.

  A band-like FPC (Flexible Printed Circuit) 9 is provided as a position adjusting wiring board on the surface of the PWB 5 along the vicinity of the side surface 6 a of the light guide plate 6. The small LED 8 is placed on the FPC 9, and the small LED 8 is electrically connected to the FPC 9 by connecting the conductive wiring of the FPC 9 and the electrode of the small LED 8. Further, the FPC 9 is electrically connected to the PWB 5 by connecting the conductive wiring of the FPC 9 and the conductive wiring of the PWB 5 through the electrode terminal 11 at the end portion thereof. The PWB 5 supplies a predetermined signal to the small LED 8 through the FPC 9.

  A high heat transfer tape 13 is attached to a part of the back surface of the FPC 9 as a first heat radiating portion that transfers heat generated by the small LED 8 from the FPC 9 to the PWB 5. The back surface of the FPC and the front surface of the PWB 5 are the high heat transfer tape. 13 is connected. Further, the portion of the back surface of the FPC and the surface of the PWB 5 where the high heat transfer tape 13 is not provided is configured with an air layer 14 that releases heat generated by the small LED 8 into the air.

  In order to dissipate the heat of the small LED 8 efficiently, the high heat transfer tape should be disposed at a position corresponding to the small LED 8. The high heat transfer tape may be one in which an adhesive material is disposed on both side surfaces of a metal tape such as copper or aluminum having a high thermal conductivity.

  The small LED 8 is placed on the FPC 9 so that the central portion of the small LED 8 that emits the irradiation light faces the central portion of the side surface 6a of the light guide plate 6 in the thickness direction. It has become.

  Furthermore, a plurality of through holes 15 are formed in the portion corresponding to the position where the FPC 9 is disposed on the bottom wall of the frame 3 as a second heat radiating portion for releasing heat generated by the small LED 8 to the outside of the frame 3. Has been.

  At this time, in order to dissipate the heat of the small LED 8, it is preferable to provide an opening in the PWB 5 at a position corresponding to the second heat dissipating part (through hole 5) and to partially expose the back surface of the FPC 9.

  Next, the operation of this embodiment will be described.

  According to the present embodiment, the small LED 8 is placed on the FPC 9 and the central portion that irradiates the irradiation light is opposed to the central portion in the thickness direction of the light guide plate 6. Irradiation light can be efficiently incident on the light guide plate 6.

  Therefore, the illumination light from the small LED 8 is efficiently incident on the light guide plate 6 and the display panel is irradiated with the illumination light from the light guide plate 6 so that a bright and good display can be obtained.

  Further, the small LED 8 has a property that its life is shortened by heat generated when irradiated with irradiation light. Here, according to the present embodiment, the back surface of the FPC 9 is adhered to the surface of the PWB 5 by the high heat transfer tape 13, and the portion where the high heat transfer tape 13 between the FPC 9 and the PWB 5 is not disposed is air. Since it is the layer 14, the small LED 8 can transmit the heat generated when the irradiation light is irradiated to the PWB 5 through the high heat transfer tape 13 and also releases it through the air layer 14. Can do. As a result, it is possible to prevent the heat generated by the small LED 8 from being accumulated in the vicinity of the small LED 8, and to extend the life of the small LED 8.

  Furthermore, a plurality of through holes 15 are formed in the frame body 3, and heat generated from the small LED 8 can be released from the through holes 15 to the outside of the frame body 3, so that heat storage in the frame body 3 is performed. Thus, the lifetime of the small LED 8 can be further extended.

  Next, a second embodiment of the light unit according to the present invention will be described with reference to FIG. Here, the same configuration as the backlight unit 1 in the first embodiment will be described using the same reference numerals.

  FIG. 3 is a schematic cross-sectional view showing the backlight unit in the second embodiment. As shown in FIG. 3, a small LED 8 is provided in the vicinity of the side surface 6 a of the light guide plate 6 in the backlight unit 1. ing.

  A convex portion 17 is formed along the vicinity of the side surface 6 a of the light guide plate 6 at a portion corresponding to the position where the small LED 8 is disposed on the base body 3 a of the frame 3, and on the convex portion 17 via the FPC 18. A small LED 8 is placed. And this small LED8 is mounted on the convex part 17 via FPC18, and the center part which irradiates the irradiation light in small LED8 opposes the center part in the thickness direction of the side surface 6a of the light-guide plate 6. FIG. It is arranged at the correct position.

  In addition, since the other structure of the backlight unit 1 in 2nd Embodiment is the same as the structure of the light unit 1 in 1st Embodiment, description is abbreviate | omitted.

  According to the present embodiment, the small LED 8 is placed on the convex portion 17 via the FPC 18, and the central portion that irradiates the irradiation light faces the central portion in the thickness direction of the side surface 6 a of the light guide plate 6. Therefore, the irradiation light irradiated by the small LED 8 can be efficiently incident on the light guide plate 6.

  Therefore, the illumination light from the small LED 8 is efficiently incident on the light guide plate 6 and the display panel is irradiated with the illumination light from the light guide plate 6 so that a bright and good display can be obtained.

  In addition, this invention is not limited to the said embodiment, A various change is possible as needed.

  For example, a solid copper foil may be provided as a heat radiating portion on the back surface of the FPCs 9 and 18 on which the small LEDs 8 are directly mounted on the side opposite to the surface on which the small LEDs 8 are mounted. Thereby, the heat of the small LED 8 can be transmitted to other members such as the PWB 5 and the frame 3 via the FPCs 9 and 18 and the copper foil, and the heat of the small LED 8 is prevented from being accumulated in the small LED 8 itself. The life of the small LED 8 can be extended.

  Moreover, although FPC was illustrated as a position adjustment wiring board, PWB may be sufficient. Furthermore, the height of the light source can be easily adjusted by changing the thickness of the position adjusting wiring board or changing the thickness of the high heat transfer tape.

The typical exploded perspective view showing one embodiment of the light unit concerning the present invention. Typical sectional drawing in AA which shows the light unit of FIG. Schematic sectional view showing another embodiment of the light unit according to the present invention. Schematic sectional view showing a conventional light unit

Explanation of symbols

1 Light Unit 2 Liquid Crystal Display Panel 3 Frame 3a Base 5 PWB
6 Light guide plate 6a Side 8 Small LED
9 FPC
11 Electrode terminal 13 High heat transfer tape 14 Air layer 15 Through hole

Claims (5)

A light guide plate, a light source that is provided near the side surface of the light guide plate and that emits irradiation light to the side surface of the light guide plate, and a central portion that irradiates irradiation light in the light source is a central portion in the thickness direction of the side surface of the light guide plate position of the light source so as to face to have a light source position adjusting means for adjusting the on,
A heat dissipating part that transmits heat generated by the light source to another member and / or releases the heat;
The heat radiating portion is composed of a high heat transfer material disposed at a position corresponding to the light source, and an air layer formed by a portion where no high heat transfer material is disposed.
Further, the light source position adjusting means comprises a position adjusting wiring board and the high heat transfer material . The light unit according to claim 1, wherein the position adjustment wiring board and the other member are attached by the high heat transfer material . The light unit according to claim 1 or 2, wherein a plurality of through holes for releasing heat generated by the light source to the outside of the frame are formed in a bottom wall of the frame on which the other member is disposed. . The light unit according to claim 3, wherein the plurality of through holes are formed corresponding to the arrangement positions of the position adjusting wiring boards . The light unit according to claim 1, wherein the other member is a PWB, and a signal is supplied from the PWB to the light source .